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3268 Swadley Street
INSPECTION RECORD Inspection online forC:http.:/� .ci.wheatridge.co.us/inspection Cancellations must be submitted vi VFe8 ay"-the--fay°of-the inspe n Inspections will not be performed unless this card is posted on the project site Request an inspection before MIDNIGHT (11:59 PM) to receive an inspection the following business day PERM IT: L 0 i '1 a ct f 3 L ADDRESS: 3 Z f y c(l � {� JOB CODE: rz- tf = Foundation Inspections Date Inspector Initials Comments 102 Caissons / Piers 103 Footing / P.E. Letter 104 Foundation Setback Cert. 105 Stem Walls 106 Foundation wall Insulation Do Not Pour Concrete Prior To Approval Of The Above Inspections Underground / Slab Inspections Date Inspector Initials Comments 201 Electrical / Cable/ Conduit 202 Sewer Underground Int. 203 Sewer Underground Ext. 204 Plumbing Underground Int. 205 Plumbing Underground Ext. 206 Water Underground 'L r'1 �t✓'�-_ Do Not Cover Underground or Below 1 In -Slab Work Prior To Approval Of The Above Inspections Rough Inspection Date Inspector Initials Comments 301 Rough Framing 302 Wall Sheathing 303 Roof Sheathing 304 Sheer Inspection 305 Insulation 306 Mid -Roof 'L r'1 �t✓'�-_ ath /Stucco 308 Rough Electrical Residential 309 Rough Electrical Commercial 310 Electrical Meter Residential 311 Electrical Meter Commercial 312 Temp. Const. Meter 313 Rough Plumbing Residential 314 Rough Plumbing Commercial 315 Shower Pan SEE OVER FOR ADDITIONAL INSPECTIONS PERMIT: ?/C11 l`{3'� ADDRESS: `( (Y -'tt-e Cc J�—JOB C0DE: 1�r Rough Inspection (continued) Date Inspector Initials Comments 316 Rough Mechanical Residential 317 Rough Mechanical Commercial 318 Boiler / Furnace 319 Hot water tank 320 Drywall screw and Nail 321 Moisture board / shower walls 322 Rough Grading 323 Miscellaneous Final Inspections Date Inspector Initials Comments 402 Gas Meter Release 403 Final Electrical Residential 404 Final Electrical Commercial 405 Final Mechanical Residential 406 Final Mechanical Commercial 407 Final Plumbing Residential 408 Final Plumbing Commercial 409 Final Roof 410 Final Window/Door 411 Landscape/Park/Planning* Inspections from these entities shall be requested one week in advance. *For landscaping and parking inspections please call 303-235-2846 **For ROW and drainage inspections please call 303-235-2861 'For fire inspections please contact the Fire Protection District for your project. 412 Row/Drainage/Public Works** 413 Flood plain Inspection** 414 Fire Insp. / Fire Protection*** 415 Public Works Final** 416 Storm Water Mgmt.** 417 Zoning Final Inspection* 418 Building Final Inspection Note: All items must be completed and approved by Planning, Public Works, Fire and Building before a Certificate of Occupancy is issued. Approval of the Final Building Inspection does not constitute authorization of occupancy. For Low Voltage permits please be sure that rough inspections are completed by the Fire District and Electrical low voltage by the Building Division. i CITY OF WHEAT RIDGE _��9rBuilding Inspection Division (303) 234-5933 Inspection line (303) 235-2855 Office • (303) 237-8929 Fax INSPECTION NOTICE Inspection Type: � 4 Foot" Job Address: Permit Number: OAq CA ❑ No one available for inspection: Time Re -Inspection required: Yes No When corrections have been made, call fo -inspection at 03-234-5 3 Date: � 2 (b1-7 Inspector: DO NOT REMOVE THIS NOTICE i CITY OF WHEAT RIDGE Building Inspection Division (303) 234-5933 Inspection line (303) 235-2855 Office • (303) 237-8929 Fax INSPECTION NOTICE Inspection Type: Job Address: ez- b Swbt Permit Number: ❑ No one available for inspection- Time I�`� A /PM Re -Inspection required: YesNo When corrections have been made, call for4e-inspection at 303-234-5933 Date: Inspector: G DO NOT REMOVE THIS NOTICE City of Wheat Ridge Residential Roofing PERMIT - 201709432 PERMIT NO: 201709432 ISSUED: 12/05/2017 JOB ADDRESS: 3268 Swadley ST EXPIRES: 12/05/2018 JOB DESCRIPTION: Permit to install 29 squares 4/12 pitch and 4 squares 2/12 OC Duration Dimensional asphalt shingles. House roof and 2 small sheds. *** CONTACTS *** OWNER (303)799-9757 DOWNING, KEVIN SUB (303)514-0528 Joe Jundt 160022 Modern Roofing LLC *** PARCEL INFO *** ZONE CODE: UA / Unassigned USE: UA / Unassigned SUBDIVISION CODE: 2403 / APPLEWOOD VILLAGES, PROSPECT V BLOCK/LOT#: 0 / *** FEE SUMMARY *** ESTIMATED PROJECT VALUATION: 12,702.00 FEES Total Valuation 0.00 Use Tax 266.74 Permit Fee 251.85 ** TOTAL ** 518.5.' *** COMMENTS *** *** CONDITIONS *** Midroof & Final Roof inspections for ROOFS 6/12 PITCH & OVER: 3rd party inspection will be required for both the midroof and final inspections. The 3rd party inspection report AND THE ORIGINAL PERMIT CARD needs to be dropped off to the Permit Desk at the City of Wheat Ridge. The report MUST BE SIGNED by the Homeowner. REGARDING ROOF VENTILATION: Roof ventilation shall comply with IBC Sec. 1203.2 or IRC Sec. R806. The installation of ridge venting requires the installation or existence of soffit venting. For calculation purposes, one hat or turtle vent equal to one-half of one square foot of opening. Effective December 1, 2014, asphalt shingle installations require an approved midroof inspection, conducted when 25-75 percent of the roof covering is installed, prior to final approval. Installation of roof sheathing (new or overlay) is required on the entire roof when spaced or board sheathing with ANY gap exceeding one half inch exists. Sheathing and mid -roofs may be called in at the same time, one hundred percent of the sheathing must be complete and 25-75 percent of the mid -roof may be complete. Asphalt shingles are required to be fastened to the roof deck with a minimum of 6 nails per shingle. Ice and water shield is required. Eave and rake metal is required. A ladder extending 3 feet above the roof eave and secured in place is required to be.provided for all roof inspections. Roof ventilation is required to comply with applicable codes and/or manufacturer installation instructions, whichever is more stringent. In order to pass a final inspection of elastomeric or similar type roof coverings, a letter of inspection and approval from the manufacturer technical representative stating that "the application of the roof at (project address) has been applied in accordance with the installation instruction for (roof material brand name) roof covering" is required to be on site at the time of final inspection. City of Wheat Ridge Residential Roofing PERMIT - 201709432 PERMIT NO: 201709432 ISSUED: 12/05/2017 JOB ADDRESS: 3268 Swadley ST EXPIRES: 12/05/2018 JOB DESCRIPTION: Permit to install 29 squares 4/12 pitch and 4 squares 2/12 OC Duration Dimensional asphalt shingles. House roof and 2 small sheds. I, by my signature, do hereby attest that the work to be performed shall comply with all accompanying approved plans and specifications, applicable building codes, and all applicable municipal codes, policies and procedures, and that I am the legal owner or have been authorized by the legal owner of the property and am authorized to obtain this permit and perform the work described and approved in conjunction with this permit. I further attest that I am legally authorized to include all entities named within this document as parties to the work to be perfor t all wo be performed is disclosed in this document and/oris' accom any approved plans and specifications. Signature of OWNER o /CONTRA R (Circle one) Date I . This permit was issued a information provided in the permit application and accompanying plans and specifications and is subject to the compliance with those documents, and all applicable statutes, ordinances, regulations, policies and procedures. 2. This permit shall expire 365 days after the date of issuance regardless of activity. Requests for extension must be made in writing and received prior to the date of expiration. An extension of no more than 180 days made be granted at the discretion of the Chief Building Official and may be subject to a fee equal to one-half of the originalpermit fee. 3. If this permit expires, a new permit may be required to be obtained. Issuance of a new permit shall be subject to the standard requirements, fees and procedures for approval of any new permit. Re -issuance or extension of expired permits is at the sole discretion of the Chief Building Of ibial and is not guaranteed. 4. No work of any manner shall be performed that shall results in a changeof the natural flow of water without prior and specific approval. 5. The permit holder shall notify the Building and Inspection Services Division in accordance with established policy of all required inspections and shall not proceed or conceal work without written approval of such work from the Building and Inspection Services Division. 6. The issuance or granting of a permit shall not be construed to be a permit for, or an approval of, an violation of any provision of any applicable code or any ordinance or jI don of this iu ' ictio . Ad royal of work is subject to field inspection. Signature of Chief Building Official Date REQUESTS MUST BE MADE BY 11:59PM ANY BUSINESS DAY FOR INSPECTION THE FOLLOWING BUSINESS DAY. jijjp�#* 201 Jackson St. Oenver. CO 80206 Office: (303) 459-7207 jnfW,modetotoofco.coin Property Owner/ Insured: Kevin Downing Property Address: 3268 Swadley St City: Wheatridge state: CO zip: 80033 Phone: 303-210-8272 E -Mail: kdowningCci-)s;curitybrandsinc.com Insurance Provider: State Farm Policy Number: 06 -KB -0188-3 Claim Number: 060131 K06 By signing this agreement 1/1Ni'e authorize Modern Roofing LLC (u pur.suc nts best interd,it for my claim at a fair and accurate price according to policy coverage. When a fair and accurate claim k agreed upon "ueen the insurance company and Modern Roofing t.i.C, it will become the contract price (Below') for all work completed bs Modern Roofing LLC'. This amount could he different from the original authorized amount In- your insurance companc (lite to appriti-ed supplemental work as per poticy coverage. All appn.yed supplements for work completed to hiodera Roofing LLC will be paid in full to Modern Roofing LLC. upgrades and any other work will he un u separate contract, otherwiw, there w ill to no additional cost to Property Ow ner/lasured past the deductible Any unforeseen labor/materials not covered by insurance will he discuswd before work begins and must he appr(tved by Propery (hyaer/Insured. 11' flit, insurance company denies the claim this contract will terminate and neither Modern Roofing LLC Igor property Owncr/Insured arc hound to one another. i herehy authorise klixiern Roofing LLC to prepare send their estimate and'or supplement to ntv ituurance cotnlrany to negotiate a "lair and accurate" price. if I'We hire a PuNic Wiustcr or arlumey to . ssis: ie m-go.ialing a ".'air I We ..v.hi)rite said rep;'aseraaiion io communicate directly with Modern Ruti ing LLC in older ue elTictuale a prompt settlement to lite claim and reshnation of the pa"peny. If the insurance Policy is AC V only. or if the s ltiement of the claim is not agreeable to the honwou-nes and or Vitnknt Rooting LL('. either party resets es the ri^ht +o rescind this a^lm rncnl at net cess! :o either xiv. A }a\. pttoto. Put der any nth<r electronic coley o' Ulla duan%mt. as %sell ::s any electronic signatures arc inictided to he legally hinding ami ;oc to be accepted as original. Maxient Roofing 1,11'shall Furnish all materials aml perform laftor in a workmmnlike and profcssional manner for the followirt-, general services: Sperificatitm: ')'car diff: To Deck Shin;.dc Manuf tcturcr/Model: Owens Uorning Shingle Color: Onyx Black Drip Edge Color: TB_ Untkrla_vment: Kevin 15lic Valleys: ice and Water Sheild Ventilation: Ridge Vent S%:.r%icy+: (X) Protect Landscaping anti Property (X) Trash Removal from Roof Gutters and Vard (X) Permit (As Required) (X) Pass Inspection Guarantee (X) 5 Year Labor Warranty (X) Lien Waiver Supplied After Payment in Full (X) Licensed nt Insured Special Instructions: Trades to be completed_: Per Scope in attachment A Contract Price: _See totals in Attachment A, cost not to exceed insurance proceeds in said scope. (Property Owner ::grccs to pay contract ;rice to k4axkrn Rool-ung I.I.0 and has ackrow•!edged that W dem Rtxsfing LLC will rot pay, waive. or rebate all or part of any insurance deductible applicable to this insurance claim) Start Date: Dec Comyate&m Date: Property 0wncr! Insured Signature Date 11/29117 )Modern Roofing LLC Nicolas Gillan Date 11/29/17 La enia Reimer l From: no-reply@ci.wheatridge.co.us Sent: Tuesday, December 5, 2017 7:51 AM To: CommDev Permits Subject: Online Form Submittal: Residential Roofing Permit Application Residential Roofing Permit Application c.� This application is exclusively for new permits for residential roofs and for licensed contractors only. This type of permit is ONLY being processed online --do not come to City Hall to submit an application in person. Permits are processed and issued in the order they are received and due to the volume of requests, time to process varies and is subject to change. YOU WILL BE CONTACTED WHEN YOUR PERMIT IS READY FOR PICK-UP AND WILL BE GIVEN A SPECIFIC DATE AND TIME WINDOW TO COMPLETE THE TRANSACTION. You will be notified if your contractor's license or insurance has expired, and you may update those documents at the time you are issued your permit. C% For all other requests: Homeowners wishing to obtain a roofing permit must apply for the permit in person at City Hall. Revisions to existing permits (for example, to add redecking) must be completed in person at City Hall. All other non -roofing permits must be completed in person at City Hall. The Building Division will be open from 7:30-10:30 a.m., Monday through Friday to process these types of requests. THIS APPLICATION DOES NOT CONSTITUTE A PERMIT. DO NOT BEGIN REROOFING UNTIL PERMIT HAS BEEN ISSUED. Is this application for a Yes residential roof? How many dwelling units Single Family Home are on the property? PROPERTY INFORMATION Property Address Property Owner Name Property Owner Phone Number (enter WITH dashes, eg 303-123-4567) Property Owner Email Address 3268 Swadley St. Kevin Downing 303-799-9757 kdowning@securitybrandsinc.com 1 Do you have a signed Yes contract to reroof this property? Applications cannot be submitted without an executed contract attached below. Attach Copy of Executed Downinq Signed contract.pdf Contract CONTRACTOR INFORMATION Contractor Business Modern Roofing Name Contractor's License 160022 Number (This is a 5 or 6 digit number for the City of Wheat Ridge) Contractor Phone 7204044466 Number (enter WITH dashes, eg 303-123-4567) Contractor Address 201 Jackson St (Primary address of your business) Contractor Email Address Nic@modernroofco.com Retype Contractor Email Nic@modernroofco.com Address DESCRIPTION OF WORK TOTAL SQUARES of 33 the entire scope of work: Proiect Value (contract value or cost of ALL materials and labor) Are you re -decking the roof? Is the permit for a flat roof, pitched roof, or both? (check all that apply) 12.702 No Pitched roof (2:12 pitch or greater) What is the specific pitch of the PITCHED roof? How many squares are part of the PITCHED roof? Describe the roofing materials for the PITCHED roof: Type of material for the PITCHED roof - Provide any additional detail here on the description of work. (Is this for a house or garage? Etc) 4/12 for 29SQ 2/12 for 4 SQ OC Duration dimensional shingles Asphalt house roof and 2 small sheds. the 2/12 area is a patio and will need to be double felted SIGNATURE OF UNDERSTANDING AND AGREEMENT I assume full responsibility for compliance with applicable City of Wheat Ridge codes and ordinances for work under any permit issued based on this application. I understand that this application is NOT a permit. I understand I will be contacted by the City to pay for and pick up the permit for this property. I understand that work may not begin on this property until a permit has been issued and posted on the property. I certify that I have been authorized by the legal owner of the property to submit this application Yes Yes Yes Yes 3 and to perform the work described above. I attest that everything Yes stated in this application is true and correct and that falsifying information in this application is an act of fraud and may be punishable by fine, imprisonment, or both. Name of Applicant Nic Gillan Email not displaying correctly? View it in your browser. City of Wheat Ridge Residential Roofing PERMIT - 201709432 PERMIT NO: 201709432 ISSUED: 12/05/2017 JOB ADDRESS: 3268 Swadley ST EXPIRES: 12/05/2018 JOB DESCRIPTION: Permit to install 29 squares 4/12 pitch and 4 squares 2/12 OC Duration Dimensional asphalt shingles. House roof and 2 small sheds. I, by my signature, do hereby attest that the work to be performed shall comply with all accompanying approved plans and specifications, applicable building codes, and all applicable municipal codes, policies and procedures, and that I am the legal owner or have been authorized by the legal owner of the property and am authorized to obtain this permit and perform the work described and approved in conjunction with this permit. I further attest that I am legally authorized to include all entities named within this document as parties to the work to be perfor t all wo be performed is disclosed in this document and/oris' accom any approved plans and specifications. Signature of OWNER o /CONTRA R (Circle one) Date I . This permit was issued a information provided in the permit application and accompanying plans and specifications and is subject to the compliance with those documents, and all applicable statutes, ordinances, regulations, policies and procedures. 2. This permit shall expire 365 days after the date of issuance regardless of activity. Requests for extension must be made in writing and received prior to the date of expiration. An extension of no more than 180 days made be granted at the discretion of the Chief Building Official and may be subject to a fee equal to one-half of the originalpermit fee. 3. If this permit expires, a new permit may be required to be obtained. Issuance of a new permit shall be subject to the standard requirements, fees and procedures for approval of any new permit. Re -issuance or extension of expired permits is at the sole discretion of the Chief Building Of ibial and is not guaranteed. 4. No work of any manner shall be performed that shall results in a changeof the natural flow of water without prior and specific approval. 5. The permit holder shall notify the Building and Inspection Services Division in accordance with established policy of all required inspections and shall not proceed or conceal work without written approval of such work from the Building and Inspection Services Division. 6. The issuance or granting of a permit shall not be construed to be a permit for, or an approval of, an violation of any provision of any applicable code or any ordinance or jI don of this iu ' ictio . Ad royal of work is subject to field inspection. Signature of Chief Building Official Date REQUESTS MUST BE MADE BY 11:59PM ANY BUSINESS DAY FOR INSPECTION THE FOLLOWING BUSINESS DAY. City of Wheat Ridge Residential Roofing PERMIT - 201709432 PERMIT NO: 201709432 ISSUED: 12/05/2017 JOB ADDRESS: 3268 Swadley ST EXPIRES: 12/05/2018 JOB DESCRIPTION: Permit to install 29 squares 4/12 pitch and 4 squares 2/12 OC Duration Dimensional asphalt shingles. House roof and 2 small sheds. *** CONTACTS *** OWNER (303)799-9757 DOWNING, KEVIN SUB (303)514-0528 Joe Jundt 160022 Modern Roofing LLC *** PARCEL INFO *** ZONE CODE: UA / Unassigned USE: UA / Unassigned SUBDIVISION CODE: 2403 / APPLEWOOD VILLAGES, PROSPECT V BLOCK/LOT#: 0 / *** FEE SUMMARY *** ESTIMATED PROJECT VALUATION: 12,702.00 FEES Total Valuation 0.00 Use Tax 266.74 Permit Fee 251.85 ** TOTAL ** 518.5.' *** COMMENTS *** *** CONDITIONS *** Midroof & Final Roof inspections for ROOFS 6/12 PITCH & OVER: 3rd party inspection will be required for both the midroof and final inspections. The 3rd party inspection report AND THE ORIGINAL PERMIT CARD needs to be dropped off to the Permit Desk at the City of Wheat Ridge. The report MUST BE SIGNED by the Homeowner. REGARDING ROOF VENTILATION: Roof ventilation shall comply with IBC Sec. 1203.2 or IRC Sec. R806. The installation of ridge venting requires the installation or existence of soffit venting. For calculation purposes, one hat or turtle vent equal to one-half of one square foot of opening. Effective December 1, 2014, asphalt shingle installations require an approved midroof inspection, conducted when 25-75 percent of the roof covering is installed, prior to final approval. Installation of roof sheathing (new or overlay) is required on the entire roof when spaced or board sheathing with ANY gap exceeding one half inch exists. Sheathing and mid -roofs may be called in at the same time, one hundred percent of the sheathing must be complete and 25-75 percent of the mid -roof may be complete. Asphalt shingles are required to be fastened to the roof deck with a minimum of 6 nails per shingle. Ice and water shield is required. Eave and rake metal is required. A ladder extending 3 feet above the roof eave and secured in place is required to be.provided for all roof inspections. Roof ventilation is required to comply with applicable codes and/or manufacturer installation instructions, whichever is more stringent. In order to pass a final inspection of elastomeric or similar type roof coverings, a letter of inspection and approval from the manufacturer technical representative stating that "the application of the roof at (project address) has been applied in accordance with the installation instruction for (roof material brand name) roof covering" is required to be on site at the time of final inspection. jijjp�#* 201 Jackson St. Oenver. CO 80206 Office: (303) 459-7207 jnfW,modetotoofco.coin Property Owner/ Insured: Kevin Downing Property Address: 3268 Swadley St City: Wheatridge state: CO zip: 80033 Phone: 303-210-8272 E -Mail: kdowningCci-)s;curitybrandsinc.com Insurance Provider: State Farm Policy Number: 06 -KB -0188-3 Claim Number: 060131 K06 By signing this agreement 1/1Ni'e authorize Modern Roofing LLC (u pur.suc nts best interd,it for my claim at a fair and accurate price according to policy coverage. When a fair and accurate claim k agreed upon "ueen the insurance company and Modern Roofing t.i.C, it will become the contract price (Below') for all work completed bs Modern Roofing LLC'. This amount could he different from the original authorized amount In- your insurance companc (lite to appriti-ed supplemental work as per poticy coverage. All appn.yed supplements for work completed to hiodera Roofing LLC will be paid in full to Modern Roofing LLC. upgrades and any other work will he un u separate contract, otherwiw, there w ill to no additional cost to Property Ow ner/lasured past the deductible Any unforeseen labor/materials not covered by insurance will he discuswd before work begins and must he appr(tved by Propery (hyaer/Insured. 11' flit, insurance company denies the claim this contract will terminate and neither Modern Roofing LLC Igor property Owncr/Insured arc hound to one another. i herehy authorise klixiern Roofing LLC to prepare send their estimate and'or supplement to ntv ituurance cotnlrany to negotiate a "lair and accurate" price. if I'We hire a PuNic Wiustcr or arlumey to . ssis: ie m-go.ialing a ".'air I We ..v.hi)rite said rep;'aseraaiion io communicate directly with Modern Ruti ing LLC in older ue elTictuale a prompt settlement to lite claim and reshnation of the pa"peny. If the insurance Policy is AC V only. or if the s ltiement of the claim is not agreeable to the honwou-nes and or Vitnknt Rooting LL('. either party resets es the ri^ht +o rescind this a^lm rncnl at net cess! :o either xiv. A }a\. pttoto. Put der any nth<r electronic coley o' Ulla duan%mt. as %sell ::s any electronic signatures arc inictided to he legally hinding ami ;oc to be accepted as original. Maxient Roofing 1,11'shall Furnish all materials aml perform laftor in a workmmnlike and profcssional manner for the followirt-, general services: Sperificatitm: ')'car diff: To Deck Shin;.dc Manuf tcturcr/Model: Owens Uorning Shingle Color: Onyx Black Drip Edge Color: TB_ Untkrla_vment: Kevin 15lic Valleys: ice and Water Sheild Ventilation: Ridge Vent S%:.r%icy+: (X) Protect Landscaping anti Property (X) Trash Removal from Roof Gutters and Vard (X) Permit (As Required) (X) Pass Inspection Guarantee (X) 5 Year Labor Warranty (X) Lien Waiver Supplied After Payment in Full (X) Licensed nt Insured Special Instructions: Trades to be completed_: Per Scope in attachment A Contract Price: _See totals in Attachment A, cost not to exceed insurance proceeds in said scope. (Property Owner ::grccs to pay contract ;rice to k4axkrn Rool-ung I.I.0 and has ackrow•!edged that W dem Rtxsfing LLC will rot pay, waive. or rebate all or part of any insurance deductible applicable to this insurance claim) Start Date: Dec Comyate&m Date: Property 0wncr! Insured Signature Date 11/29117 )Modern Roofing LLC Nicolas Gillan Date 11/29/17 La enia Reimer l From: no-reply@ci.wheatridge.co.us Sent: Tuesday, December 5, 2017 7:51 AM To: CommDev Permits Subject: Online Form Submittal: Residential Roofing Permit Application Residential Roofing Permit Application c.� This application is exclusively for new permits for residential roofs and for licensed contractors only. This type of permit is ONLY being processed online --do not come to City Hall to submit an application in person. Permits are processed and issued in the order they are received and due to the volume of requests, time to process varies and is subject to change. YOU WILL BE CONTACTED WHEN YOUR PERMIT IS READY FOR PICK-UP AND WILL BE GIVEN A SPECIFIC DATE AND TIME WINDOW TO COMPLETE THE TRANSACTION. You will be notified if your contractor's license or insurance has expired, and you may update those documents at the time you are issued your permit. C% For all other requests: Homeowners wishing to obtain a roofing permit must apply for the permit in person at City Hall. Revisions to existing permits (for example, to add redecking) must be completed in person at City Hall. All other non -roofing permits must be completed in person at City Hall. The Building Division will be open from 7:30-10:30 a.m., Monday through Friday to process these types of requests. THIS APPLICATION DOES NOT CONSTITUTE A PERMIT. DO NOT BEGIN REROOFING UNTIL PERMIT HAS BEEN ISSUED. Is this application for a Yes residential roof? How many dwelling units Single Family Home are on the property? PROPERTY INFORMATION Property Address Property Owner Name Property Owner Phone Number (enter WITH dashes, eg 303-123-4567) Property Owner Email Address 3268 Swadley St. Kevin Downing 303-799-9757 kdowning@securitybrandsinc.com 1 Do you have a signed Yes contract to reroof this property? Applications cannot be submitted without an executed contract attached below. Attach Copy of Executed Downinq Signed contract.pdf Contract CONTRACTOR INFORMATION Contractor Business Modern Roofing Name Contractor's License 160022 Number (This is a 5 or 6 digit number for the City of Wheat Ridge) Contractor Phone 7204044466 Number (enter WITH dashes, eg 303-123-4567) Contractor Address 201 Jackson St (Primary address of your business) Contractor Email Address Nic@modernroofco.com Retype Contractor Email Nic@modernroofco.com Address DESCRIPTION OF WORK TOTAL SQUARES of 33 the entire scope of work: Proiect Value (contract value or cost of ALL materials and labor) Are you re -decking the roof? Is the permit for a flat roof, pitched roof, or both? (check all that apply) 12.702 No Pitched roof (2:12 pitch or greater) What is the specific pitch of the PITCHED roof? How many squares are part of the PITCHED roof? Describe the roofing materials for the PITCHED roof: Type of material for the PITCHED roof - Provide any additional detail here on the description of work. (Is this for a house or garage? Etc) 4/12 for 29SQ 2/12 for 4 SQ OC Duration dimensional shingles Asphalt house roof and 2 small sheds. the 2/12 area is a patio and will need to be double felted SIGNATURE OF UNDERSTANDING AND AGREEMENT I assume full responsibility for compliance with applicable City of Wheat Ridge codes and ordinances for work under any permit issued based on this application. I understand that this application is NOT a permit. I understand I will be contacted by the City to pay for and pick up the permit for this property. I understand that work may not begin on this property until a permit has been issued and posted on the property. I certify that I have been authorized by the legal owner of the property to submit this application Yes Yes Yes Yes 3 and to perform the work described above. I attest that everything Yes stated in this application is true and correct and that falsifying information in this application is an act of fraud and may be punishable by fine, imprisonment, or both. Name of Applicant Nic Gillan Email not displaying correctly? View it in your browser. i CITY OF WHEAT RIDGE _:�9rBuilding Inspection Division (303) 234-5933 Inspection line (303) 235-2855 Office • (303) 237-8929 Fax INSPECTION NOTICE Inspection Type: 13 F - Job Address: X263 5 (AJ11 ?�F Permit Number: 2 I -? U r --) ) ,�7/ 0641s6 cAll t Ac.i is f�y�cilf/f IV ❑ No one available for inspection: Time09CC1 &/PM Re -Inspection required: Ccs' No when corrections have been made, call for re -inspection at 303-234- Date:- 7/2,61//7 Inspector: 64? DO NOT REMOVE THIS NOTICE i CITY OF WHEAT RIDGE _:�9�Building Inspection Division (303) 234-5933 Inspection line (303) 235-2855 Office • (303) 237-8929 Fax INSPECTION NOTICE Inspection Type: 13 ri Job Address: W I Permit Number: UI ❑ No one available for inspection: Time ANA PM Re -Inspection required: Yes) When corrections have been made, call for re-iinspectyon at 303-234-5933 Date: 1 Inspector: DO NOT REMOVE THIS NOTICE NO, City of Wheat Ridge Residential Miseella PERMIT - 201701789 PERMIT NO: 201701789 ISSUED: 06/28/2017 JOB ADDRESS: 3268 Swadley ST EXPIRES: 06/28/2018 JOB DESCRIPTION: Foundation repair: Install (7) helical Piers to underpin front portion of existing structure from exterior of home to arrest settlement. *** CONTACTS *** OWNER (310)210-8272 DOWNING KEVIN J GC (303)716-7437 Lauren Davis 120143 Ram Jack of Colorado *** PARCEL INFO *** ZONE CODE: UA / Unassigned USE: UA / Unassigned SUBDIVISION CODE: 2403 / APPLEWOOD VILLAGES, PROSPECT V BLOCK/LOT#: 0 / *** FEE SUMMARY *** ESTIMATED PROJECT VALUATION: 10,000.00 FEES Total Valuation 0.00 Plan Review Fee 132.80 Use Tax 210.00 Permit Fee 204.30- ** TOTAL ** 547.10 *** COMMENTS *** *** CONDITIONS *** Approved per plans and red -line notes on plans. Must comply with 2012 IRC, 2014 NEC and all applicable City of Wheat Ridge Municipal Codes. Work is subject to field inspections. I, by my signature, do hereby attest that the work to be performed shall comply with all accompanying approved plans and specifications, applicable building codes, and all applicable municipal codes, policies and procedures, and that I am the legal owner or have been authorized by the legal owner of the prrty and am authorized to obtain this permit and perform the work described and approved in conjunction with this ermrt. I further attest at am legally authorized to include all. entities named within this document as parties to the work to be performed and that 1 w k to e performed is disclosed in this documentand/pr its' accompanying approved plans and specifications. (.A GNI Signature of (VVNF[R or CONTRACTOR (Circle one) Date 1. This permit was issued based on the information provided in the permit application and accompanying plans and specifications and is subject to the compliance with those documents, and all applicable statutes, ordinances, regulations, policies and procedures. 2. This, permit shall expire 365 days after the date of issuance regardless of activity. Requests for extension must be made in writing and received prior to the date of expiration. An extension of no more than 180 days made be granted at the discretion of the Chief Building Official and may be subject to a fee equal to one-half of the original permit fee. 3. If this permit expires, a new permit may be required to be obtained. Issuance of a new permit shall be subject to the standard requirements, fees and procedures for approval of any new permit. Re -issuance or extension of expired permits is at the sole discretion of the Chief Building Official and is not guaranteed. 4. No work of any manner shall be performed that shall results in a change of the natural flow of water without prior andspecific approval. 5. The permit holder shall notify the Building and Inspection Services Division in accordance with established policy of all required inspections and shall not proceed or conceal work without written approval of such work from the Building and Inspection Services Division. 6, The issuance or granting of a permit shall not be construed to be a permit for, or an approval of, any violation of any provision of any applicable code or �-Kdinance or regul ion thi jurisdiction. Approval of work is subject to field inspection. Signature of Chief Building Official Date REQUESTS MUST BE MADE BY 11:59PM ANY BUSINESS DAY FOR INSPECTION THE FOLLOWING BUSINESS DAY. Inspection time requests will be accepted by email only. Please email requests to insptimerequest@ci.wheatridge.co.us between 7:30am and 8:00am, the morning of the inspection. Please put the address of the inspection in the subject line. City of W heat -Midge COMMUNITY DEVELOPMENT Building & Inspection Services Division 7500 W. 29th Ave., Wheat Ridge, CO 80033 Office: 303-235-2855 * Fax: 303-237-8929 Inspection Line: 303-234-5933 Email: permits(a)ci.wheatridge.co.us FOR OFFICE USE ONLY Date: Plan/Permit # �011 �)i Plan Review Fee: i Building Permit Application *** Please complete all highlighted areas on both sides of this form. Incomplete applications may not be processed. *** Property Address: 1. �y S\r KD� h -ST �� CRI EQ� C. Q 1/ 00S6 Property Owner (please print): Phone: 310 Property Owner Email: �SL i ? lyl t O'ni - 1\ Mailing Address: (if different than property address) Address: City, State, Zip: Architect/Engineer: (.1�� Architect/Engineer E-mail:U41SLJi, L(VA Phone: 05 " q5T ` � 5 I Contractor: 4 (MA oy CG W EaL Contractors City License#: (Zt % ( 4-5 Phone: WZ--)(W S li I Contractor E-mail Address: [ (�� tr C t Sub Contractors: Electrical: W.R. City License # Other City Licensed Sub: City License # Plumbing: W.R. City License # Other City Licensed Sub: City License # Mechanical: W.R. City License # Complete all information on BOTH sides of this form ❑ COMMERCIAL Ix Q RESIDENTIAL Description of work: (Check all that apply) ❑ NEW COMMERCIAL STRUCTURE ❑ ELECTRICAL SERVICE UPGRADE ❑ NEW RESIDENTIAL STRUCTURE ❑ COMMERCIAL ROOFING ❑ COMMERCIAL ADDITION ❑ RESIDENTIAL ROOFING ❑ RESDENTIAL ADDITION ❑ WINDOW REPLACEMENT ❑ COMMERCIAL ACCESSORY STRUCTURE (Garage, shed, deck, etc.) ❑ RESIDENTIAL ACCESSORY STRUCTURE (Garage, shed, deck, etc.) ❑ MECHANICAL SYSTEM/APPLIANCE REPAIR or REPLACEMENT ❑ PLUMBING SYSTEM/APPLIANCE REPAIR or REPLACMENT ❑ ELECTRICAL SYSTEM/APPLIANCE REPAIR or REPLACEMENT OTHER (Describe) F i)UI;N LN n Ct R,f Nlk" Ikl3q � (2-& eta (For ALL projects, please provide a detailed description of work to be performed, including current use of areas, proposed uses, square footage, existing condition and proposed new condition, appliance size and efficiency, type and amount of materials to be used, etc.) llv 5 A((.,_ (�) Wi t 4t_ /Otcr s to Li 9 Firy f rzo w , eorz j �o lv Cit_ c y, l --R icj 4AWUcTLitC , F V ONI LYT-r>-10le- Of HONG TV AIIZ(-05 i Z,c i t -1,o; lc o k . Sq. Ft./LF Amps Btu's Squares Gallons Other Project Value: (Contract value or the cost of all materials and labor included in the entire project) OWNER/CONTRACTOR SIGNATURE OF UNDERSTANDING AND AGREEMENT I hereby certify that the setback distances proposed by this permit application are accurate and do not violate applicable ordinances, rules or regulations of the City of Wheat Ridge or covenants, easements or restrictions of record; that all measurements shown and allegations made are accurate; that I have read and agree to abide by all conditions printed on this application and that I assume full responsibility for compliance with applicable City of Wheat Ridge codes and ordinances for work under any permit issued based on this application; that I am the legal owner or have been authorized by the legal owner of the property to perform the described work and am also authorized by the legal owner of any entity included on this application to list that entity on this application. I, the applicant for this building permit application, warrant the truthfulness of the information provided on the application. CIRCLE ONE: (OWNER) (CONTRACTOR) or (AUTHOI?IZD PRESENTATIVE) of (OWNER) ONTRACTOR) Electronic Signature (first and last name): i DATE: ZONING COMMMENTS: Reviewer BUILDING DEPARTMENT COMMENTS: Reviewer: DEPARTMENT USE ONLY OCCUPANCY CLASSIFICATION: Building Division Valuation: $ U O 7 j J ° w W m,oca°co- m _ c —p o 3o Na M ^ c r. 3m 3o°-rt°33' m 9 O ? H j m n O S o`D o`=0 m M v° o c JJ u �m 030-0 n f ° m is 3° ° m m 7 0 7 N 5' Z' - N °m a ' �nmm m S -03- 7 C0::, J n7 y n+ C m 0 O U O n N 0 N 7 < o y m rp O __O u! -O O C, ° - o 7 < > S Qm n m m m M 0 rt m o ° —O -F N O n n �K O o m m v m 0 m 'O O 7 A M y o o n3 0` o o' rt j m y o O_ N C n O �. O o p a? o nm o o0.-9 o 0 aM -am O 3' j C =r*- N J M o rto o no mEL 1 ; D + N 3'5�zo. 0M m 5 o ,< f M C) 8 $o Oil I N o O O n m Z � v n N OO ;aO O m OC)D --� Z7D70E-0 O Wm n mo C cnDD D z X n D = N r m r < m O m -i D m Z m ---A NP m 17 D CD (n ZZCDj C LTJ m �i m C D D --in 4 C r (n 0x-u� Z m m X D Co p (A < m Z7 -� m D 1 m D (� O D C) D > 7` r- O p D =m (n —1 mn m m < _I C) --- j m D Z m0 --1 = p Z O cf) 0 -T, �b City of V n CA00 W hetet-r MUN►4v DEW'RA m Z APPROVECI o o co Reviewed for Code C n e;u p=rte N AJC r Plans Emi er 0 X", Z O a� /z y.��y..1r• �Yalrn*: nw issuance of o perm.° - V l ;i1 of pIOm-VECIjKQtfws OW computations shall not be a pemnt for, or . MVI o6 any vlolotion to any of the prav4ions of the building code or of v. miry ordinances. Permits presominp to phro authwNy to vfolatt of car4et the provisions of the Soldktq codes or other ordownces of the City shoe not be voW. G')-u(nCC) Ql ;:0o=oma DcnDD <ZZKM O ��-��K D D C 00mrm---=-I mcn -t D m C O O Z Z O u =O Z � ;;a G') -1 Cf) D -� - Z = O p m Q O S J p moO S ID m C':D i O = O En 0 0, mN m, 00 0 7 a h s0m 3 p p 3 o �3�m:m10 O m 0 i 0 0 7 m Qop1.03=oda S M m 7 m Smo0oam f 0 m F 70 p 7 O m S 7 0 5 00 J 7 0, m pm 00 7LI: �m m Opp ma c N O_ O O N N V O 9 o o O 7 `•C 7 S a N m m' m K' p S° O i N p 0 a rt G J o m m m Q ' m o ° n N N 1p O a • N O _ 3 o O'T a p O= 7 m N S 0 O- -D m a p y 0 7 d O a m O 7 - -m 'O j tp Co m p o 0 i m a m O j a 0 a 0 rt 0 N N.�. 0 '�. 3 C S 0 N7? -� 1 O o ao m �aicoc m _S K 0 S N J m m W 0 3Z � o vCD n pg m o S In Z O Or- 11 m is V n y g O TI F- m m C) D (n 0 D C) m \ O I O m N o Es D. c 3 Oo -o a CD -m0 m S f Qr Q � j 0 6 W p $ mQ 3 .0 11 ? o Z7 O CD n 0 o CD 00 on 0 n m m o m C O m O 0 ID mN 0° mEd a O Ev d u 7» c a m �'' O Oo j. 7 0 J m C 3 N O 0 N N N N m Q 2 S m N c m m m m 0a° m �� CD m- S A< N W 6 (0D m Q S ? S N m N a v N m o,- o N ° mm O m - 0 O' aol 3. m m <D N 0 0 o q f0 N m= O A n •1 61 ( N N N. < d p d m ? iT M m N K N O N 0 m m N= � _ m O m Cl) 3 Q C ? m E o m D D N n°i �- Q: CD -JN- O 'O 1p 0, 3 ID c w m N a o N m m0, ? N D 0 m 0 m O �' m 0 _ n co N O m 9 m m a n a a m a �N CD D N 6 3 Q 10 m 0 N lc 0. 3 ° 'N Q 3 m m m o 3 N n m �. S >to 0 0 mQ Q D � n n. N City of Ridge InTHE L,EPETSOS GROUP, INC. April 19, 2017 Job #: LG 17 -1550 Straightline Construction/ Ramjack of Colorado 94 N. Mission Drive Pueblo, CO. Attn: Patrick Harmsen/ Tim Davis Subject: Visual structural evaluation for 3268 Swadley St., Wheat Ridge, CO. Dear Mr. Harmsen, Per your request, I visited the residence at the above referenced address on April 19, 2017. The purposes of my visit were to observe the foundation condition at the crawispace at the northwest corner of the house, and to provide repair recommendations as required. Damage to other portions of the house existed, and was specifically excluded from the scope of this investigation. Please note: My investigation was based on observation of accessible, visible items. Issues/concerns concealed by finishes, if any exist, were not able to be observed, and were therefore not evaluated as part of this investigation. City of Wheat Ridge 3268 Swadley St., Wheat Ridge, CO. Page 2 of 3 Observations For purposes of this report, the front of the house faced west. Cracks in the exterior brick were observed above the crawlspace at the northwest corner of the house. Interior drywall cracks were observed on the main floor, near the interface between the crawlspace and the full depth basement. Measurement performed by Ramjack indicated the northwest corner of the crawlspace was settled approximately 4.3 - inches. General Recommendations 1) 1 recommend stabilizing the crawlspace foundation with seven (7) 2-7/8" helical piers per the attached engineering drawings. 2) 1 recommend stabilization only. I do not recommend attempting to lift the foundation unless full excavation is performed. The homeowner shall understand additional significant damage including but not limited to drywall cracks, tile cracks, window and door racking, and nail pops, will likely occur if lifting is attempted.. 3) It is very important to maintain proper drainage away from the house. I do not recommend irrigating within 5 -feet of the foundation. Maintain a minimum 10 % slope away from the structure, and direct surface water to an adequately sloped swale. Grass, plants, trees and shrubs with high watering requirements should not be located within five feet of the foundation. All gutter downspouts should have functioning downspout extensions, which extend at least five feet away from the foundation and discharge in a manner which allows effluent to flow safely away from the home, or discharge directly to an underground pipe system with an appropriate daylight location. Perimeter drains, if they exist, should function properly. I observed the structural condition of the visible portions of the crawlspace foundation. Other known and unknown concerns may also exist. The Lepetsos Group, Inc. makes no representations regarding the suitability of other areas, including, but not limited to mechanical, electrical, plumbing, previous foundation repairs, and other systems. The homeowner should understand additional unforeseen and cety It Wheat Ridge 3268 Swadley St., Wheat Ridge, CO. Page 3 of 3 unforeseeable issues related to soil heaving and or settlement, and exposure to unwanted water may cause additional foundation movement in the future. My evaluation and recommendations are based on my education, experience and observations made on the date of my visit. Please note it was not possible to observe every structural detail. Contact this office if additional information becomes available which could affect our observations and recommendations. Please contact me if you have any questions regarding these findings or if I can be of service in any way. Wet stamped copy on file. Regards, Gregory N. Lepetsos, P.E., M.S.C.E. President, The Lepetsos Group, Inc. 0 REG/� 48787 87 o: IONA'� City of Wheat Ridge ICC -ES Evaluation Report ESR -1854 FBC Supplement Reissued February 2017 This report is subject to renewal February 2019. www.icc-es.orct 1 (800) 423-6587 1 (562) 699-0543 A Subsidiary of the International Code Council° DIVISION: 31 00 00—EARTHWORK Section: 31 63 00—Bored Piles REPORT HOLDER: GREGORY ENTERPRISES, INC. 13655 COUNTY ROAD 1570 ADA, OKLAHOMA 74820 (580)332-9980 www.ramiack.com steve(a_ramiack.com EVALUATION SUBJECT: RAM JACK® HELICAL FOUNDATION & DRIVEN FOUNDATION SYSTEMS 1.0 REPORT PURPOSE AND SCOPE Purpose: The purpose of this evaluation report supplement is to indicate that Ram Jack° Helical Foundation & Driven Foundation Systems, recognized in ICC -ES master evaluation report ESR -1854, have also been evaluated for compliance with the code noted below. Applicable code edition: 2014 Florida Building Code—Building 2.0 CONCLUSIONS The Ram Jack° Foundation Systems, described in Sections 2.0 through 7.0 of the master evaluation report ESR -1854, comply with the 2014 Florida Building Code—Building, provided the design and installation are in accordance with the International Building Code° provisions noted in the master report and the following conditions apply: • Design wind loads must be based on Section 1609 of the 2014 Florida Building Code—Building. • Load combinations must be in accordance with Section 1605.2 or Section 1605.3 of the 2014 Florida Building Code— Building, as applicable. Use of Ram Jack® Foundation Systems for compliance with the High -Velocity Hurricane Zone provisions of the 2014 Florida Building Code° has not been evaluated, and is outside the scope of this supplemental report. For products falling under Florida Rule 9N-3, verification that the report holder's quality -assurance program is audited by a quality -assurance entity approved by the Florida Building Commission for the type of inspections being conducted is the responsibility of an approved validation entity (or the code official, when the report holder does not possess an approval by the Commission). This supplement expires concurrently with the master report, reissued February 2017. ICC -ES Evaluation Reports are not to be construed as representing aesthetics or any other attributes not specifically addressed, nor are they to be construed as an endorsement of the subject of the report or n recommendation for its use. There is no warranty by ICC Evaluation Service, LLC, express or implied, as 1 = N_ to any finding or other matter in this report, or as to any product covered by the report. n n nm+u cooc— Copyright © 2017 ICC Evaluation Service, LLC. All rights reserved. Page 1 of 1 ESR -1854 1 Most Widely Accepted and Trusted Page 14 of 14 xDPr><IRI SIRAP AF},4E A1BlY � 4038.1 I BRACKCT SLCEVE BRACKET i PILL SIDE VIEW BAC( VIEW wax I BRACKEv RAMJACK" SLE DIAMETER: 2 L' FIGURE 6-4038.1 SUPPORT BRACKET AND PILING SHORT CHANNEL BRACKET $LAO IW SVPPOH11 SIR SLEEVE / ASSPMWY LONG CHANNEL COUPL ING ... NUT 41 PLATE PK F ' TOP VIEW SIDE VIEW 4099.1 $LAB BRACILET AOL RACK PR F DIAMF TFR; 2/.' FIGURE 8-4093.1 FLOOR SLAB BRACKET AND PILING X8991 BNACKEf RAMJACK' PUFDIAMFrPR a'.; FIGURE 7-4039.1 SUPPORT BRACKET AND PILING I [) J a'MIN CAS AGAINS1 S08 • 2- MIN, CAST AGNNT r wn 1 A0/0 1 w/B 1 IOP VIEW NEARING PLATE ` 711RU DOLT 'REOUIRED FOR TENSION LOADS TMRU BUT IKx E ]NDA 3RD ` TIIRU DOLT DRACKF I � MOLE Ir RFOYI NFL ICN Px F SLEEVE Gilt VIEW "or" t. 1078.7 A w!e 7 w*RAMJACK' CONSTRUCTION BRACKET PILEE DIAMETER: 2 `J' Aly FIGURE 9-4075.1 AND 4079.1 NEW CONSTRUCTION BRACKETS 4m, SIIW+ MBr A.SSEAq?LV ASSE PILE 403D t LfRACKFI RRACKFI SI FFVP WALL EXTERNAL GUIDE SLEEVE Pit I. - TIEBACK SIDE YEW BACK VIEW X8991 BNACKEf RAMJACK' PUFDIAMFrPR a'.; FIGURE 7-4039.1 SUPPORT BRACKET AND PILING I [) J a'MIN CAS AGAINS1 S08 • 2- MIN, CAST AGNNT r wn 1 A0/0 1 w/B 1 IOP VIEW NEARING PLATE ` 711RU DOLT 'REOUIRED FOR TENSION LOADS TMRU BUT IKx E ]NDA 3RD ` TIIRU DOLT DRACKF I � MOLE Ir RFOYI NFL ICN Px F SLEEVE Gilt VIEW "or" t. 1078.7 A w!e 7 w*RAMJACK' CONSTRUCTION BRACKET PILEE DIAMETER: 2 `J' Aly FIGURE 9-4075.1 AND 4079.1 NEW CONSTRUCTION BRACKETS 4m, CONCRETE WALL TIEBACK PLATE TIEBACK CONNECTION AND ROD d ACCESS TIEBACKCONNECTiON _ HOLE AND ROD 20- TO 30- 4. \ TYPICAL INSTALLATION RAMJACK' ASSEMBLY PILE DIAMETER_ 2!j' City of FIGURE 10-4550.2875.1 TIEBACK ASSEMBLY VI/ hLat R�p9e ESR -1854 1 Most Widely Accepted and Trusted Page 13 of 14 RAM JACK STEEL PILING AND LIFTING BRACKET ASSEMBLY HYDRAULICALLY OR MFCHANICAt.LY ADJUSTABI F BRACKET ASSEMBLY I I I I I I I I l i SIDE GUIDE SLEEVE 4' LONG X 3.5' OD X.25" WALL HIGH CARBON STEEL PIER 2.875" X,25" WALL Fl l TNG - - - - - - - - WEATHERED SHALE - - - - UNWEATHERED SHALE' 1 1 1 1 1 1 1 1 1 1 I I. SOIL PLUG c I1 I LOAD BEARING STRATA FRIN RICTION REDUCING N I N N N I I H NJ N )1 1 1 I II ISI 1111 FT I i I,, FIGURE 3—TYPICAL DRIVEN PILING USED IN CONJUNCTION WITH THE COMMERCIAL BRACKET #4021 rONNFGTOR PIPE SOiL ILLI. „ V - SOIL EXPANSION RING C RAMJACK" STARTER JOINT . PILE DIAMETER: 2',, FIGURE 4—DETAIL OF STARTER JOINT tillHW)Nl ti1NAP hSFF LIHI Y BRACKET f.. '\ BRACKET SLEEVE I I, FXIFRNAI GUIDE - sI HF VF PILE ., SIDE YEW BACK V+EW 4.1.184.1.. RAMJACKCOMMEAMETERCIAL BRACKET2ii- PILE DIAMETER' 2',y^ FIGURE 5-4021.1 SUPPORT BRACKET ASSEMBLY WITH GUIDE SLEEVE AND PILING ESR -1854 I Most Widely Accepted and Trusted Page 12 of 14 TABLE 6—ALLOWABLE TENSION AND COMPRESSION LOADS FOR HELICAL PLATES (KIPS) Helical Plate Diameter (inches) Helical Pile Shaft Diameter inches 2"/e 3'/2 8 63.29 79.84 10 55.51 66.29 12 39.40 65.74 14 42.07 60.42 For SI: 1 inch = 25.4 mm; 1 kip = 1000 Ibf = 4.45 kN. 'Allowable load values are for helical plates made from 3/8_ inch thick steel, except for the 14 -inch diameter plate, which is made from '/2 -inch thick steel. n REMANINO DISTANCE c PLATE 3 3' PITCH O.D. - C MIN Fry = W KSI STEEL P€PE 3a8 PLATE 2 3' PI ICH 0D,-0 3aA INTERNAL THREADED PLATE 1 CONNECTION O.D.. A 3' PITCH TYPTCAI [FAD TYPTCAI SECTION EXTENSION FIGURE 1—TYPICAL HELICAL PILE AND PLATE SPACING CHARACTERISTICS 2%-0 THREADED THREADED PILING BOX PIN ------------- -------------- CM DRIVE PIN HOLE 2 3/s"O PILING INTERNAL THREADED CONNECTION 3WO THREADED THREADED PILING BOX PIN ---------- ----- inn L — — — — — — — — — — — 9 uu uu i .hint i DRIVE PIN HOLE 3 %"m PILING INTERNAL THREADED CONNECTION City of Wheat R/U9e FIGURE 2—TYPICAL HELICAL PILE SYSTEM INTERNAL THREADED CONNECTION DETAIL ESR -1854 1 Most Widely Accepted and Trusted Page 11 of 14 TABLE 413 -ALLOWABLE COMPRESSION CAPACITY of 31/2 -INCH -DIAMETER PILE WITH COUPLERS3(kips) For SI: 1 inch = 25.4 mm; 1 ft = 0.305 m; 1 kip (1000 Ibf) = 4.48 kN. 'L,=Total unbraced pile length per 2015, 2012 and 2009 IBC Section 1810.2.1 and 2006 IBC Section 1808.2.9.2, including the length in air, water or in fluid soils, and the embedment length into firm or soft soil (non-fluid soil). kLu = total effective unbraced length of the pile, where kLu = 0 represent a fully braced condition in that the total pile length is fully embedded in firm or soft soil and the supported structure is braced in accordance 2015, 2012 and 2009 IBC Section 1810.2.2 (Section 1808.2.5 of the 2006 IBC). 2Number of couplings within L. 3The capacities shown in Table 413 are for 3'/s -inch -diameter pilings installed with a maximum 1 degree of inclination from vertical and do not include an external guide sleeve. The capacities are also based on the assumption that the pile shaft is concentrically loaded. TABLE 5 -ALLOWABLE COMPRESSIVE LOAD CAPACITY RATING OF RAM JACK'S # 4093 SLAB BRACKET SUPPORTING MINIMALLY REINFORCED NORMAL WEIGHT CONCRETE SLAB' .2 (Max. load rating = 11.7 kips) Concrete 28 -day Compressive Strengths, Pc (psi) Fully Braced (L. = 0) (Firm Soil) kLu = 4 ft' (Soft Soil) kL, = 8 ft' 0 couplings 60 44.3 30.1 1 coupling2 60 44.3 29.6 2 coupling2 60 41.7 28.8 For SI: 1 inch = 25.4 mm; 1 ft = 0.305 m; 1 kip (1000 Ibf) = 4.48 kN. 'L,=Total unbraced pile length per 2015, 2012 and 2009 IBC Section 1810.2.1 and 2006 IBC Section 1808.2.9.2, including the length in air, water or in fluid soils, and the embedment length into firm or soft soil (non-fluid soil). kLu = total effective unbraced length of the pile, where kLu = 0 represent a fully braced condition in that the total pile length is fully embedded in firm or soft soil and the supported structure is braced in accordance 2015, 2012 and 2009 IBC Section 1810.2.2 (Section 1808.2.5 of the 2006 IBC). 2Number of couplings within L. 3The capacities shown in Table 413 are for 3'/s -inch -diameter pilings installed with a maximum 1 degree of inclination from vertical and do not include an external guide sleeve. The capacities are also based on the assumption that the pile shaft is concentrically loaded. TABLE 5 -ALLOWABLE COMPRESSIVE LOAD CAPACITY RATING OF RAM JACK'S # 4093 SLAB BRACKET SUPPORTING MINIMALLY REINFORCED NORMAL WEIGHT CONCRETE SLAB' .2 (Max. load rating = 11.7 kips) Concrete 28 -day Compressive Strengths, Pc (psi) Concrete Floor Slab Depth (t) (in) Minimum Area of steel reinforcement in Concrete Slab', As,mi„ (int) Live Load Maximum Pile Spacing (foot - inches) Pile Load (kip) (pst) 1 & 2 Span 3 Span 1 & 2 Span 3 Span 2,500 4° 0.06 40 4'-10" 5'-5" 2.12 k 2.65 k 50 4'-6" 5'-1" 2.08 k 2.60 k 100 S-7" 4'-0" 1.99 k 2.49 k 54 0.075 40 5'-8" 6'4" 3.36 k 4.20 k 50 5'-5" 6'-0" 3.31 k 4.14 k 100 4'-4" 4'-11" 3.15 k 3.94 k 6 0.09 40 6-6" T-3" 4.90 k 6.13 k 50 6-2" 6-11" 4.83 k 6.03 k 100 5'-1" 5'-8" 4.59 k 5.74 k 83 0.12 40 8'-8" 9'-1" 10.61 k 11.70 k 50 8'-3" 8'-9" 10.30 k 11.70 k 100 6'-9" T-7" 9.34 k 11.67 k 3,000 4° 0.066 40 5'-1" 5-8" 2.33 k 2.91 k 50 4'-9" 64" 2.29 k 2.86 k 100 T-9" 4'-3" 2.19 k 2.73 k 5° 0.082 40 6-0" 6-8" 3.69 k 4.62 k 50 5-8" 64" 3.64 k 4.54 k 100 4'-7" 5'-2" 3.46 k 4.33 k 6 0.098 40 6-10" T-7" 5.39 k 6.73 k 50 6'-6" T-3" 5.30 k 6.63 k 100 64" 6-0" 5.05 k 6.31 k 83 0.131 40 9'-1" 9'-2" 11.66 k 11.70 k 50 8'-8" 8'-9" 11.31 k 11.70 k 100 T-1" T-7" 10.26 k 11.70 k For SI: 1 inch = 25.4 mm; 1 foot=305 mm; 1 kip (1000 Ibf) = 4.48 kN; 1 psi = 6.89 kPa; 1 psf = 47.88 Pa. 'The maximum pile spacing shown are for floor slabs constructed of normal weight concrete (150 pcf) with minimum reinforcement (fy = 60 ksi) per ACI 318-14 Section 9.6.1.2 and ACI 318-11 Section 10.5.1. The maximum floor slab spans shown assumes the minimum floor slab reinforcement is placed in the center of the slab (U2). Longer spans can be achieved if the slab reinforcement is proven to be larger and/or placed below the central line of the floor slab. Structural calculations must be submitted for approval by a registered design professional for spans greater than those shown for a reinforced floor slab. 3The maximum load rating of the 4093 slab bracket controls the pile spacing. °The spans and pile loads shown for the 4 -inch and 5 -inch thick floor slab assumes the floor slab are being placed on a vapor barrier. Per Section 20.6.1.3 of ACI 318-14 and Section 7.7.1 of ACI 318-11, the minimum concrete cover required is 11/2 inches. This table should not be used for the 4 -inch and 5 -inch thick floor slabs placed directly on soil, where the minimum concrete cover is 3 inches, which places the reinforcement above the neutral axis. Normal -weight concrete required to have a minimum compressive strength of 3500 psi (24 MPa) under ADIBC Appendix L, Section 5.5.1. ESR -1854 I Most Widely Accepted and Trusted Page 10 of 14 TABLE 313 -ALLOWABLE LOAD CAPACITIES IN TENSION FOR THE NEW CONSTRUCTION BRACKET Bracket Number Concrete 28 -day Compressive Strength 4, (psi) Beam Depth, (in) Embedment Depth of Bearing Plate, (in) Effective Depth, (in) Allowable Load Capacity for Minimally Reinforced Concrete''2 (kips) Number of Through Bolts3 52.8 26.3 2500 12 5 1.75 5.25 1 12 7 3.75 15.29 1 12 9 5.75 18.20 1 4075.1 3000 12 5 0.75 5.75 1 12 7 2.75 16.75 1 12 9 4.75 18.20 1 4079.1 2500 12 5 1.75 5.99 1 12 7 3.75 18.47 1 12 9 5.75 31.06 2 14 6 2.75 12.15 1 14 8 4.75 24.66 1 14 9 5.75 31.06 2 14 10 6.75 36.5 2 3000 12 5 1.75 6.56 1 12 7 3.75 20.23 1 12 9 5.75 36.5 2 4076.1 2500 16 7 3.75 20.04 1 16 9 5.75 34.68 2 16 11 7.75 47.20 2 4076.1 3000 14 7 3.75 21.95 1 14 9 5.75 37.99 2 14 10 6.75 46.16 2 For SI: 1 inch = 25.4 mm; 1 kip (1000 Ibf) = 4.48 kN; 1 psi = 6.89 kPa. 'The load capacities have been determined based on a 12 -inch wide grade beam. Effective depth is defined as the distance between the embedment depth of the bearing plate subtracted from the reinforcement cover depth. Embedment depth is defined as the distance between the bottom of the concrete beam and the bottom of the bracket plate. 2The grade beam is assumed to be minimally reinforced as required by ACI 318-14 Section 9.6.1.2 and ACI 318-11 Section 10.5.1. The allowable capacities are based on installation with normal -weight concrete. Only localized limit states such as mechanical strength of steel components, concrete bearing and punching shear capacity have been evaluated. 3Number of through bolts required for connection between bracket sleeve and helical shaft. Bolts must be 3/4 -inch diameter complying with ASTM A325 and installed snug -tight with threads excluded. 4Normal-weight concrete required to have a minimum compressive strength of 3500 psi (24 MPa) under ADIBC Appendix L, Section 5.5.1 TABLE 4A -ALLOWABLE COMPRESSION CAPACITY of 27/e -INCH -DIAMETER PILE WITH COUPLER ECCENTRICITY3(kips) For SI: 1 inch = 25.4 mm; 1 ft = 0.305 m; 1 kip (1000 Ibf) = 4.48 kN. 'L„=Total unbraced pile length per 2015, 2012 and 2009 IBC Section 1810.2.1 and 2006 IBC Section 1808.2.9.2, including the length in air, water or in fluid soils, and the embedment length into firm or soft soil (non-fluid soil). kLu = total effective unbraced length of the pile, where kLu = 0 represent a fully braced condition in that the total pile length is fully embedded in firm or soft soil and the supported structure is braced in accordance 2015, 2012 and 2009 IBC Section 1810.2.2 (Section 1808.2.5 of the 2006 IBC). 2Number of couplings within Lu 3The capacities shown in Table 4A are for 2'/8 -inch -diameter pilings installed with a maximum 1 degree of inclination and do not include an external guide sleeve. The capacities are also based on the assumption that the pile shaft is concentrically loaded. �Icltw W heat Rta9e Fully Braced (L„ = 0) (Firm Soil) kL„ = 4 ft' (Soft Soil) kL„ = 8 ft' 0 couplings (no eccentricity) 57.5 27.5 18.0 1 couplingz 52.8 26.3 17.6 2 couplingz 45.1 24.3 16.6 For SI: 1 inch = 25.4 mm; 1 ft = 0.305 m; 1 kip (1000 Ibf) = 4.48 kN. 'L„=Total unbraced pile length per 2015, 2012 and 2009 IBC Section 1810.2.1 and 2006 IBC Section 1808.2.9.2, including the length in air, water or in fluid soils, and the embedment length into firm or soft soil (non-fluid soil). kLu = total effective unbraced length of the pile, where kLu = 0 represent a fully braced condition in that the total pile length is fully embedded in firm or soft soil and the supported structure is braced in accordance 2015, 2012 and 2009 IBC Section 1810.2.2 (Section 1808.2.5 of the 2006 IBC). 2Number of couplings within Lu 3The capacities shown in Table 4A are for 2'/8 -inch -diameter pilings installed with a maximum 1 degree of inclination and do not include an external guide sleeve. The capacities are also based on the assumption that the pile shaft is concentrically loaded. �Icltw W heat Rta9e ESR -1854 1 Most Widely Accepted and Trusted Page 9 of 14 TABLE 2 -MECHANICAL PROPERTIES AFTER CORROSION LOSS' OF 2.875 -INCH- AND 3.5 -INCH -DIAMETER HELICAL SHAFT Mechanical Properties 2.875 SHAFT DIAMETER 3.5 Steel Yield Strength, FY(ksi) 65 65 Steel Ultimate Strength, F. (ksi) 80 76 Modulus of Elasticity, E (ksi) 29,000 29000 Nominal Wall Thickness (inch) 0.217 0.254 Design Wall Thickness (inch) 0.1758 0.2102 Outside Diameter (inch) 2.8490 3.4740 Inside Diameter (inch) 2.4974 3.0536 Cross Sectional Area (inch2)1.48 54.2 2.16 Moment of Inertia, I (inch 4) 1.32 2.88 Radius of Gyration, r (inch) 0.95 1.16 Section Modulus, S (inch3)0.93 1.66 Plastic Section Modulus, Z(inch3) 1.26 2.24 For SI: 1 inch = 25.4 mm; 1 ksi = 6.89 MPa, 1 ft-Ibf =1.36 N -m; 1 Ibf =4.45 N. 'Dimensional properties are based on powder coated steel losing 0.026 -inch steel thickness as indicated in Section 3.9 of AC358 for a 50 -year service life. TABLE 3A -ALLOWABLE LOAD CAPACITIES IN COMPRESSION FOR THE NEW CONSTRUCTION BRACKET Bracket Number Concrete 28 -day Compressive Strength3, psi Overall Beam Depth, in. Bracket Embedment Depth, (in) Allowable Load Capacity of Minimally Reinforced Concrete''2, (kips) 4075.1 2500 12 4 18.2 3000 14 4 18.2 4079.1 2500 14 4 36.5 3000 14 4 36.5 4076.1 2500 14 4 49.5 3000 14 4 54.2 For SI: 1 inch = 25.4 mm; 1 kip (1000 Ibf) = 4.48 kN; 1 psi = 6.89 kPa. 'The allowable load capacities have been determined assuming that minimum reinforcement has been provided as specified by ACI 318-14 Section 9.6.1.2 and ACI 318-11 Section 10.5.1. Embedment depth is measured from the bottom of the concrete beam to the top of the bracket plate. The allowable capacities are based on installation with normal -weight concrete. Only localized limit states such as mechanical strength of steel components, concrete bearing and punching shear capacity have been evaluated. 2New construction bracket must be installed with the bracket plate fully bearing with the end of the pile shaft. Normal -weight concrete required to have a minimum compressive strength of 3500 psi (24 MPa) under ADIBC Appendix L, Section 5.5.1 ESR -1854 1 Most Widely Accepted and Trusted Page 8 of 14 with recognized engineering principles and design parameters as described in IBC Section 1604.4, and in compliance with Section 4.1 of this report, are prepared by a registered design professional and approved by the building official. 5.10 A soils investigation for each project site must be provided to the building official for approval in accordance with Section 4.1.1 of this report. 5.11 In order to avoid group efficiency effects, an analysis prepared by a registered design professional must be submitted where the center -to -center spacing of axially loaded helical piles is less than three times the diameter of the largest helix plate at the depth of bearing. An analysis prepared by a registered design professional must also be submitted where the center - to -center spacing of laterally loaded helical piles is less than eight times the least horizontal dimension of the pile shaft at the ground surface. Spacing between helical plates must not be less than 3D, where D is the diameter of the largest helical plate measured from the edge of the helical plate to the edge of the helical plate of the adjacent helical pile; or 4D, where the spacing is measured from the center -to -center of the adjacent helical pile plates. 5.12 Connection of the side load bracket or the repair bracket as it relates to seismic forces and the provisions found in 2015, 2012 and 2009 IBC Sections 1810.3.11.1 and 1810.3.6.1 and 2006 IBC Section 1808.2.23.1, and for all buildings under 2015, 2012 and 2009 IBC Section 1810.3.6 (second paragraph) and 2006 IBC Section 1808.2.7, are outside the scope of this evaluation report. Compliance must be addressed by the registered design professional for each site, and the work of the design professional is subject to approval by the code official. 5.13 Settlement of the helical pile is outside the scope of this evaluation report and must be determined by a registered design professional as required in 2015, 2012 and 2009 IBC Section 1810.2.3 and 2006 IBC 1808.2.12. 5.14 The interaction between the hydraulically driven pile system and the soil is outside the scope of this report. 5.15 The Ram Jack° Foundation Systems are manufactured at the Ram Jack Manufacturing, LLC, facility located in Ada, Oklahoma, under a quality -control program with inspections by ICC -ES. 6.0 EVIDENCE SUBMITTED Data in accordance with the ICC -ES Acceptance Criteria for Helical Foundation Systems and Devices (AC358), dated June 2013 (editorially revised September 2014). 7.0 IDENTIFICATION The Ram Jack® Helical Foundation & Driven Foundation System components are identified by a tag or label bearing the Ram Jack logo, the name and address of Gregory Enterprises, Inc., the catalog number, the product description, and the evaluation report number (ESR -1854). TABLE 1—FOUNDATION STRENGTH RATINGS OF BRACKETS' PRODUCT NUMBER DESCRIPTION PILING DIAMETER (inches) ALLOWABLE CAPACITY (kips) Compression Tension Lateral 4021.1 Side load bracket 2% 33.651 ,5 N/A N/A 4021.55 Side load bracket 31/2 55.12j5 N/A N/A 4038.1 Side load bracket 2% 19.70'-5 N/A N/A 4039.1 Side load bracket 2'/e 32.0715 N/A N/A 4075.1 New construction 2'/8 See Table 3A See Table 3B 1.4925 4079.1 New construction 2'/s See Table 3A See Table 3B 1.492.5 4076 New construction 3'/2 See Table 3A See Table 3B 2.7925 4093.1 Slab bracket 2'/e See Table 5 N/A N/A 4550.2875.1 Tieback assembly 2'/e 27.9 @ 20° angle (tension only)45 27.6 @ 30° angle (tension only)4s For SI: 1 inch = 25.4 mm, 1 kip (1000 Ibf) = 4.48 kN. 'Load capacity is based on full scale load tests per AC358 with an installed 6-0" unbraced pile length having a maximum of one coupling per 2015, 2012 and 2009 IBC Section 1810.2.1 and 2006 IBC 1808.2.9.2. A 4 -foot -long guide sleeve must be installed at the top of the shaft as required in Figures 3, 5 and 7. Side load bracket must be concentrically loaded. Side load bracket plate must be fully engaged with bottom of concrete foundation. Only localized limit states such as mechanical strength of steel components and concrete bearing have been evaluated. 2Lateral load capacity is based on lateral load tests performed in firm clay soil per Section 4.1.1 of this report. For any other soil condition, the lateral capacity of the pile must be determined by a registered design professional. The bracket must be installed with minimum embedment of 3 inches when measured from the bottom of the concrete foundation to the bottom of the bracket plate. Minimum width of footing must be 12 inches. 'The capacities listed in Table 1 assume the structure is sidesway braced per 2015, 2012 and 2009 IBC Section 1810.2.2 and 213 6 IBC Section 1808.2.5. ::rty of "Tieback assemblies must be installed in accordance with Section 4.2.5 of this report. Only localized limit states such as me6hanical strength of steel components and concrete bearing have been evaluated. The tieback assembly must be installed to supporta mini ¢um�bji�hd concrete wall. Two through bolts are required for connection between bracket sleeve and helical shaft. Bolts must be'/4-inc diameter complying with ASTM A325 and installed snug -tight with threads excluded. f3uiidfn SThe tabulated values are based on installation with normal -weight concrete having a minimum compressive strength of 2500 i (17.93W*, N/A = not applicable DIVISION: 3100 00—EARTHWORK SECTION: 3163 00—BORED PILES REPORT HOLDER: GREGORY ENTERPRISES, INC. 13655 COUNTY ROAD 1570 ADA, OKLAHOMA 74820 EVALUATION SUBJECT: RAM JACK" HELICAL FOUNDATION & DRIVEN FOUNDATION SYSTEMS ICC ICC ICC C PMG LISTED Look for the trusted marks of Conformity! "2014 Recipient of Prestigious Western States Seismic Policy Council (WSSPC) Award in Excellence" ICC -ES Evaluation Reports are not to be construed as representing aesthetics or any other attributes not specifically addressed, nor are thev to be construed as an endorsement of the subject of the report or a recommendation for its use. There is no warranty by ICC Evaluation Service, LLC, express or implied, as to any finding or other matter in this report, or as to any product covered by the report. Copyright ° 2017 ICC Evaluation Service, LLC. All rights reserved. &\ tf� A Subsidiary of covccT01INTERMNCIr s�C A—d"d COPS J IS IEC 17° arouct eoa; CPS —.uiding ne ICC -ES Evaluation Report ESR -1854 Reissued February 2017 This report is subject to renewal February 2019. www.icc-es.org 1 (800) 423-6587 1 (562) 699-0543 A Subsidiary of the International Code Council® DIVISION: 31 00 00—EARTHWORK Section: 31 63 00—Bored Piles REPORT HOLDER: GREGORY ENTERPRISES, INC. 13655 COUNTY ROAD 1570 ADA, OKLAHOMA 74820 (580) 332-9980 www.rammack.com stove(&ramiack.com ADDITIONAL LISTEE: RAM JACK MANUFACTURING, LLC 13655 COUNTY ROAD 1570 ADA, OKLAHOMA 74820 EVALUATION SUBJECT: RAM JACK® HELICAL FOUNDATION & DRIVEN FOUNDATION SYSTEMS 1.0 EVALUATION SCOPE Compliance with the following codes: ■ 2015, 2012, 2009 and 2006 International Building Code (IBC) ■ 2013 Abu Dhabi International Building Code (ADIBC)t tThe ADIBC is based on the 2009 IBC. 2009 IBC code sections referenced in this report are the same sections in the ADIBC. Properties evaluated: Structural and geotechnical 2.0 USES Ram Jack® Foundation Systems include a helical pile system and a hydraulically driven steel piling system. The helical pile system is used to transfer compressive, tension, and lateral loads from a new or existing structure to soil bearing strata suitable for the applied loads. The hydraulically driven steel piling system is used to transfer compressive loads from existing foundations to load-bearing soil strata that are adequate to support the downward - applied compression loads. Brackets are used to transfer the loads from the building foundation to the helical pile system or the hydraulically driven steel piling system. 3.0 DESCRIPTION 3.1 General: The Ram Jack® Foundation Systems consist of either helical piles or hydraulically driven steel pilings connected to brackets that are in contact and connected with the load- bearing foundation of a structure. 3.2 System Components: 3.2.1 Helical Pile System—Lead Shafts with Helical Plates and Extensions: The lead shafts consist of either 27/8- or 3'/2 -inch -outside -diameter (73 or 89 mm) steel pipe having a nominal shaft thickness of 0.217 or 0.254 inch, respectively. Helical -shaped discs, welded to the pipe, advance the helical piles into the soil when the pile is rotated. The helical discs (plates) are 8, 10, 12 or 14 inches (203, 254, 305 or 356 mm) in diameter, and are cut from 3/8 -inch- or 1/2 -inch -thick (9.5 or 12.7 mm) steel plate. The helical plates are pressed, using a hydraulic press and die, to achieve a 3 -inch (76 mm) pitch, and are then shop -welded to the helical lead shaft. Figure 1 illustrates a typical helical pile. The extensions have shafts similar to the lead sections, except without the helical plates. The helical pile lead sections and extensions are connected together by using a threaded pin and box system that consists of an internal threaded box shop -welded into the trailing end of the helical lead or extension sections and an external threaded pin shop -welded into the leading end of helical extension sections. Each extension consists of a threaded pin and a box on opposing ends. Figure 2 illustrates the helical pin and box connections. The lead shafts and extensions are coated with a polyethylene copolymer coating complying with the ICC -ES Acceptance Criteria for Corrosion Protection of Steel Foundation Systems Using Polymer (EAA) Coatings (AC228), and having a minimum coating thickness of 18 mils (0.46 mm) as described in the approved quality documentation. 3.2.2 Hydraulically Driven Pile System—Pilings, Connectors, Starter, and Guide Sleeve: The pilings consist of 27/8 -inch -outside -diameter (73 mm) pipe having a nominal shaft thickness of 0.217 inch, in either 3-, 5- or 7 - foot -long (914, 1524, or 2134 mm) sections. Connectors used to connect the pilings together are 12 -inch -long (305 mm), 23/8 -inch -outside -diameter (60.3 mm) pipe having a nominal shaft thickness of 0.19 inch, shop crimped and inserted in one end of the piling section so that approximately 6 inches of the connector extends out of one end of the piling section. During installation, the subsequent piling section slides over the connector of the previous piling section. Figure 3 illustrates a typical piling used in conjunction with a bracket. The starter consists of a ICC -ES Evaluation Reports are not to be construed as representing aesthetics or any other attributes not specifically addressed, nor are then to be construed as an endorsement ofthe subject of the report or a recommendation for its use. There is no ivarrant , by ICC Evaluation Service, LLC, express or implied, as to ani,finding or other matter in this report, or as to any product covered by the report. Io6E"w M i Copyright © 2017 ICC Evaluation Service, LLC. All rights reserved. Page 1 of 14 ESR -1854 I Most Widely Accepted and Trusted Page 2 of 14 2'/8 -inch -diameter (73 mm) steel pipe having a nominal shaft thickness of 0.217 inch, and a 23/8 -inch -outside - diameter (60.3 mm) pipe having a nominal shaft thickness of 0.19 -inch, which is shop crimped and inserted in one end of the piling section so that approximately 6 inches of the connector extends out of one end of the piling section. A 23/8 -inch -diameter -by -'/8 -inch -thick (3.2 mm by 60.3 mm) ASTM A36 steel soil plug is shop -welded inside the 27/8 -inch (73 mm) starter section against the 23/8 -inch (60.3 mm) connector. The starter section is jobs ite-i nstalled into the end of the initial piling and leads the piling in order to expand the soil away from the piling with a 3'/2 -inch -outside -diameter (89 mm) steel ring having a nominal wall thickness of 0.254 inch, shop -welded to the starter section 1 inch (25.4 mm) from the bottom edge to reduce skin friction. Figure 4 illustrates a typical starter joint. A steel pipe guide sleeve, shown in Figure 3, is used to laterally strengthen the driven pile. The starter, guide sleeve, and pilings are coated with polymer coating complying with AC228 and having a minimum coating thickness of 18 mils (0.46 mm), as described in the approved quality documentation. 3.2.3 Brackets: Brackets are constructed from steel plate and steel pipe components, which are factory -welded together. The different brackets are described in Sections 3.2.3.1 through 3.2.3.7. All brackets are coated with polymer coating complying with AC228 and having a minimum thickness of 18 mils (0.46 mm), as described in the approved quality documentation. 3.2.3.1 Support Bracket #4021.1: This bracket is used to support existing concrete foundations supporting axial compressive loading. The bracket is constructed of a 3/8 -inch -thick (9.5 mm) steel plate bent to a 90 -degree angle seat measuring 10 inches (254 mm) wide by 9 inches (229 mm) long on the horizontal leg and 7 inches (178 mm) on the vertical leg. The seat is factory -welded to a 41/2 -inch -outside -diameter (114 mm) steel bracket sleeve having a nominal wall thickness of 0.438 inch. The external guide sleeve, a 31/2 -inch -outside -diameter (89 mm) steel pipe having a nominal wall thickness of 0.254 inch, is inserted through the bracket sleeve. The 27/8 -inch -outside - diameter (73 mm) pile is inserted through the external guide sleeve. Once the 27/e -inch -outside -diameter (73 mm) pile shaft has been installed through the external guide sleeve, the pile is cut approximately 6 inches above the bracket. Two 1 -inch -diameter (25 mm) all -thread bolts are installed into the matching nuts which are factory -welded to each side of the bracket sleeve. A 3/4 -inch -thick (19 mm) support strap measuring 5 inches (127 mm) long by 2 inches (51 mm) in width is then placed over the all -thread bolts and centered on top of the pile. The support strap is then attached to the bracket with two 1 -inch (25 mm) hex nuts screwed down on the all -threads. This bracket can be used with both the helical and driven pile systems. Figure 5 shows additional details. 3.2.3.2 Support Bracket #4021.55: The bracket is similar to the 4021.1 bracket but is designed to support larger axial compressive loads from existing structures. The bracket is constructed of a 3/8 -inch -thick (9.5 mm) steel plate bent to a 90 -degree angle seat measuring 10 inches (254 mm) wide by 9 inches (229 mm) long on the horizontal leg and 7 inches (178 mm) on the vertical leg. The seat is factory - welded to a 51/2 -inch -outside -diameter (140 mm) steel bracket sleeve having a nominal wall thickness of 0.375 inch. The external sleeve, a 41/2 -inch -outside -diameter (114 mm) steel pipe having a nominal wall thickness of 0.438 inch, is inserted through the bracket sleeve. A 31/2 -inch -outside -diameter (89 mm) pile is inserted through the external guide sleeve. Once the 31/2 -inch -outside - diameter (89 mm) pile shaft has been installed through the external guide sleeve, the pile is cut approximately 6 inches (152 mm) above the bracket. Two 11/4 -inch -diameter (32 mm) all -thread bolts are installed into the matching hex nuts which are shop -welded to each side of the bracket sleeve. A 21/4 -inch -square -bar support strap is then placed over the all -thread bolts and centered on top of the pile. The support strap is then attached to the bracket with two 11/4 -inch (32 mm) hex nuts screwed down on the all -threads. Figure 5 shows additional details. 3.2.3.3 Support Bracket #4038.1: This bracket is similar to the 4021.1 bracket but is designed for lighter loads and is only used with the helical pile system on existing structures to support axial compressive loads. The bracket is constructed of a 3/8 -inch -thick (9.5 mm) steel plate bent to a 90 -degree angle seat measuring 10 inches wide (254 mm) by 9 inches (229 mm) long on the horizontal leg and 7 inches (178 mm) long on the vertical leg. The seat is welded to a 31/2 -inch -outside -diameter (89 mm) steel bracket sleeve. The 27/8 -inch -outside -diameter (73 mm) pile is inserted through the bracket sleeve. Once the 2'/8 -inch - outside -diameter (73 mm) pile has been installed, the pile is cut approximately 6 inches above the bracket. Two 1 -inch - diameter (25 mm) all -thread bolts are installed in matching nuts which are factory -welded to each side of the bracket sleeve. A 3/4 -inch -thick (19 mm) support strap is then placed over the all -thread bolts and centered on top of the pile. The support strap is then attached to the bracket with two 1 -inch (25 mm) hex nuts screwed down on the all -threads. Figure 6 shows additional details. 3.2.3.4 Support Bracket #4039.1: This is a low -profile bracket used to underpin existing structures to support axial compressive loads where the bottom of the footing is approximately 6 inches to 10 inches below grade. The bracket is constructed of a 3/8 -inch -thick (9.5 mm) steel plate measuring 10 inches (254 mm) wide by 6.75 inches (172 mm) long, factory -welded to a 41/2 -inch -outside - diameter (114 mm) steel bracket sleeve. The external guide sleeve, a 31/2 -inch -outside -diameter (89 mm) steel pipe, is inserted through the bracket sleeve. The 27/8 -inch -outside - diameter (73 mm) pile is inserted through the external guide sleeve. Once the 2'/8 -inch -outside -diameter (73 mm) pile has been installed, the pile is cut approximately 6 inches above the bracket. Two 1 -inch -diameter (25 mm) all -thread bolts are installed in matching hex nuts which are factory - welded to each side of the bracket sleeve. A 3/4 -inch -thick (19 mm) support strap is then placed over the all -thread bolts and centered on top of the pile. The support strap is then attached to the bracket with two 1 -inch (25 mm) hex nuts screwed down on the all -threads. This bracket can be used with both the helical and driven pile systems. Figure 7 shows additional details. 3.2.3.5 Slab Bracket #4093: This bracket is used to underpin and raise existing concrete floor slabs to support axial compressive loading. The slab bracket consists of two 20 -inch -long (508 mm) steel channels (long channels) spaced 31/2 inches (89 mm) apart, with two sets of 6 -inch - long (152 mm) channels (short channels) welded flange -to - flange (face-to-face) and then factory -welded to the top side of each end of the long channels. One -quarter -inch -thick -4. - 4 -inch -by -5 -inch (6 mm by 102 mm by 127 mm) steer plates are factory -welded on the bottom on each end of the long channels. The bracket sleeve is 3'/2 -inch -outside -diameter (73 mm) steel tube factory -welded to and cente"ed be �egr,�jdge the two long channels. Two 1-inch-diamet „m coupling hex nuts are factory -welded to the to channel sOlvlsor on each side of the bracket sleeve. Once the $@MBR - outside -diameter (73 mm) pile has been installed, th'�epij�y5 s cut approximately 6 inches above the bracket. Two 1-inch- ESR -1854 1 Most Widely Accepted and Trusted Page 3 of 14 diameter (25 mm) all -thread bolts are installed in matching hex nuts which are factory -welded to each side of the bracket sleeve. A 3/4 -inch -thick (19 mm) support strap is then placed over the all -thread bolts and centered on top of the pile. The support strap is then attached to the bracket with two 1 -inch (25 mm) hex nuts screwed down on the all - threads. This bracket is only used with the helical pile system. Figure 8 contains additional details. 3.2.3.6 New Construction Brackets #4075.1, #4076.1 and #4079.1: These brackets are used with the helical pile system in new construction where the steel bearing plate of the bracket is cast into the new concrete grade beam, footing or pile cap concrete foundations. The brackets can transfer compression, tension and lateral loads between the �ile and the concrete foundation. The 4075.1 has a /8 -inch -thick -by -4 -inch -wide -by -8 -inch -long (15.9 mm by 102 mm by 203 mm) bearing plate with two predrilled holes. The 4076.1 has a 1 -inch -thick -by -9 -inch -wide -by -9 -inch -long (25 mm by 229 mm by 229 mm) bearing plate with four predrilled holes. The 4079.1 has a 5/8 -inch -thick -by -8 -inch - wide -by -8 -inch -long (16 mm by 203 by 203 mm) bearing plate with four predrilled holes. The 4075.1 and 4079.1 bracket steel bearing plates are factory -welded to a 31/2 -inch -outside -diameter (89 mm) steel sleeve with a predrilled 13/16 -inch -diameter (20.6 mm) hole. The 4076.1 bracket steel bearing plate is factory -welded to a 27 /8 -inch - outside -diameter (73 mm) steel sleeve with predrilled 13/16 -inch -diameter (20.6 mm) holes. The 4075.1 and 4079.1 brackets are used with the 2'/8 -inch -diameter helical piles. The 4076.1 bracket is used with the 3.5 -inch -diameter helical piles. The bracket is embedded into the foundation unit to provide the effective cover depth and to transfer the tensile and compressive forces between steel bearing plate and surrounding concrete. The bracket is attached to the pile shaft with either one or two 3/4 -inch -diameter (19.1 mm) through -bolts, as shown in Table 313 of this report, to complete the transfer of tension forces to the pile shaft. Figure 9 contains additional details. 3.2.3.7 #4550.2875.1 Tieback Bracket Assembly: This assembly is used with a helical pile and is only designed for tension loads. The assembly consists of two major components, a tieback connection with rod and a tieback plate. The tieback connection is a 23/8 -inch -diameter (60 mm) steel sleeve with two predrilled holes to accept through -bolts for the connection to the helical pile pipe. One end of the steel sleeve has a 11/2 -inch -diameter (38 mm) hex nut factory -welded to the sleeve to accept a 11/2 -inch -diameter (38 mm) all -thread rod that extends through the wall being supported. The tieback plate is an 8 -inch -deep (203 mm) channel with a stiffening plate with a 17/8 -inch -diameter (48 mm) hole in its center. The assembly is secured with a 11/2 -inch -by -1/2 -inch (38 by 12.7 mm) wedge washer and nut. Figure 10 shows additional details. 3.3 Material Specifications: 3.3.1 Helix Plates: The carbon steel plates conform to ASTM A36, except they have a minimum yield strength of 50,000 psi (345 MPa) and a minimum tensile strength of 70,000 psi (483 MPa). 3.3.2 Helical Pile Lead Shafts and Extensions: The lead shafts and extensions are carbon steel round tubes that conform to ASTM A500, Grade C, except they have a minimum yield strength of 65,000 psi (448 MPa) and a minimum tensile strength of 76,000 psi (524 MPa). 3.3.3 Piling Sections: The piling sections, connectors, starters and guide sleeves are carbon steel round tube conforming to ASTM A500, Grade C, except they have a minimum yield strength of 65,000 psi (448 MPa) and a minimum tensile strength of 76,000 psi (524 MPa). 3.3.4 Brackets: 3.3.4.1 Plates: The 3/8 -inch- and 1/2 -inch -thick (10 and 12.7 mm) steel plates used in the brackets conform to ASTM A36, but have a minimum yield strength of 50,000 psi (345 MPa) and a minimum tensile strength of 70,000 psi (483 MPa). The 1/4 -inch- and 5/8 -inch -thick (6.4 and 15.9 mm) steel plates used in the brackets conform to ASTM A36, having a minimum yield strength of 36,000 psi (248 MPa) and a minimum tensile strength of 60,000 psi (413 MPa). 3.3.4.2 Channels: The steel channel used in the brackets conforms to ASTM A36, having a minimum yield strength of 36,000 psi (248 MPa) and a minimum tensile strength of 60,000 psi (413 MPa). 3.3.5 Sleeves: The carbon steel round tube used in the bracket assembly as a sleeve conforms to ASTM A500, Grade C, except it has a minimum yield strength of 65,000 psi (448 MPa) and a minimum tensile strength of 80,000 psi (552 MPa). 3.3.6 Threaded Rods, Bolts and Nuts: 3.3.6.1 Helical Piles : The threaded pin and box used in connecting the 2'/8 -inch -diameter (73 mm) helical lead shafts and extensions together conform to ASTM A29, Grade 4140, having a minimum yield strength of 55,000 psi (379 MPa) and a minimum tensile strength of 80,000 psi (552 MPa). The threaded pin and box used in connecting the 3'/z -inch -diameter (89 mm) helical lead shafts and extensions together conform to ASTM A29, Grade 4140, having a minimum yield strength of 55,000 psi (379 MPa) and a minimum tensile strength of 80,000 psi (552 MPa). 3.3.6.2 All Other Fastening Assemblies (Including Brackets): The threaded rods conform to ASTM A307 and ASTM A449. The nuts conform to ASTM A563, Grade DH. The threaded rods and nuts are Class B hot -dipped galvanized in accordance with ASTM A153. Through -bolts used to connect the new construction bracket and tieback bracket assembly to the pile to transfer tension forces conform to ASTM A325 Type I and must be hot -dip galvanized in accordance with ASTM A153. 4.0 DESIGN AND INSTALLATION 4.1 Design: 4.1.1 Helical Pile: Structural calculations and drawings, prepared by a registered design professional, must be submitted to the code official for each project, based on accepted engineering principles, as described in IBC Section 1604.4 and 2015, 2012 and 2009 IBC Section 1810 and 2006 IBC Section 1808, as applicable. The load values (capacities) shown in this report are based on the Allowable Strength Design (ASD) method. The structural analysis must consider all applicable internal forces (shear, bending moments and torsional moments, if applicable) due to applied loads, structural eccentricity and maximum span(s) between helical foundations. The result of the analysis and the structural capacities must be used to select a helical foundation system based on the structural and geotechnical demands. The minimum embedment depth for various loading conditions must be included based on the most stringent requirements of the following: engineering analysis, tested conditions described in this report, site- specific geotechnical investigation report, and site-specific load tests, if applicable. For helical foundation systems subject to combined lateral and axial (compression or tension) loads, the allowable strength of the shaft under combined loads must be determined using the interaction ESR -1854 1 Most Widely Accepted and Trusted Page 4 of 14 equation prescribed in Chapter H of AISC 360. A soils investigation report must be submitted to the code official as part of the required submittal documents, prescribed in Section 107 of the 2015, 2012 IBC and 2009 IBC (2006 IBC Section 106), at the time of permit application. The geotechnical report must include, but not be limited to, all of the following: 1. A plot showing the location of the soil investigation. 2. A complete record of the soil boring and penetration test logs and soil samples. 3. A record of soil profile. 4. Information on groundwater table, frost depth and corrosion -related parameters, as described in Section 5.5 of this report. 5. Soil properties, including those affecting the design such as support conditions of the piles. 6. Allowable soil bearing pressure. 7. Confirmation of the suitability of helical foundation systems for the specific project. 8. Recommendations for design criteria, including but not be limited to, mitigation of effects of differential settlement and varying soil strength; and effects of adjacent loads. 9. Recommended center -to -center spacing of helical pile foundations, if different from spacing noted in Section 5.11 of this report; and reduction of allowable loads due to the group action, if necessary. 10. Field inspection and reporting procedures (to include procedures for verification of the installed bearing capacity, when required). 11. Load test requirements. 12. Any questionable soil characteristics and special design provisions, as necessary. 13. Expected total and differential settlement. 14. The axial compression, axial tension and lateral load soil capacities if values cannot be determined from this evaluation report. The allowable axial compressive or tensile load of the helical pile system must be based on the least of the following in accordance with 2015, 2012 and 2009 IBC Section 1810.3.3.1.9: • Sum of the areas of the helical bearing plates times the ultimate bearing capacity of the soil or rock comprising the bearing stratum divided by a safety factor of 2. This capacity will be determined by a registered design professional based on site-specific soil conditions. • Allowable capacity determined from well-documented correlations with installation torque. Section 4.1.1.4 of this report includes torque correlation factors used to establish pile capacities based on documented correlations. • Allowable capacity from load tests. This capacity will be determined by a registered design professional for each site-specific condition. • Allowable axial capacity of pile shaft. Section 4.1.1.2 of this report includes pile shaft capacities. • Allowable axial capacity of pile shaft couplings. Section 4.1.1.2 of this report includes pile shaft coupling capacities. includes helical plate axial capacities. • Allowable axial capacity of the bracket. Section 4.1.1.1 of this report includes bracket capacities. 4.1.1.1 Bracket Capacity: The concrete foundation must be designed and justified to the satisfaction of the code official with due consideration to the eccentricity of applied loads, including reactions provided by the brackets, acting on the concrete foundation. Only localized limit states of supporting concrete foundation, including bearing and punching shear, have been evaluated in this evaluation report. Other limit states are outside the scope of this evaluation report and must be determined by the registered design professional. The effects of reduced lateral sliding resistance due to uplift from wind or seismic loads must be considered for each project. Reference Table 1 for the allowable bracket capacity ratings. 4.1.1.2 Pile Shaft Capacity: The top of shafts must be braced as described in 2015, 2012 and 2009 IBC Section 1810.2.2, and 2006 IBC Section 1808.2.5. In accordance with 2015, 2012 and 2009 IBC Section 1810.2.1, and 2006 IBC Section 1808.2.9, any soil other than fluid soil must be deemed to afford sufficient lateral support to prevent buckling of the systems that are braced, and the unbraced length is defined as the length of piles standing in air, water, or in fluid soils plus an additional 5 feet (1524 mm) when embedded into firm soil or an additional 10 feet (3048 mm) when embedded into soft soil. Firm soils must be defined as any soil with a Standard Penetration Test blow count of five or greater. Soft soils must be defined as any soil with a Standard Penetration Test blow count greater than zero and less than five. Fluid soils must be defined as any soil with a Standard Penetration Test blow count of zero [weight of hammer (WOH) or weight of rods (WOR)]. Standard Penetration Test blow count must be determined in accordance with ASTM D1586. The shaft capacity of the helical foundation systems in air, water, and fluid soils must be determined by a registered design professional. The following are the allowable stress design (ASD) shaft capacities: • ASD Compression Capacity: Reference Tables 4A and 4B • ASD Tension Capacity: 57.5 kips (255.8 kN) for 27/8 -inch helical pile; 60 kips (266.9 kN) for 3Y2 -inch helical pile • ASD Lateral: 1.49 kips (6.6 kN) for 27/8 -inch helical pile; 2.79 kips (12.4 kN) for 3'h -inch helical pile • Torque Rating: 8,200 ft -Ib (11 110 5 N -m) for 27/8 -inch - diameter helical pile; 14,000 ft -Ib (18 67 N -m) for 3'/2 -inch -diameter helical pile The elastic shortening/lengthening of the pile shaft will be controlled by the strength and section properties of the 27/8 -inch -diameter (73 mm) or 3'/z -inch -diameter (89 mm) piling sections. The elastic deflection of the 2'/8 -inch - diameter (73 mm) piling will be limited to 0.010 inch per lineal foot of pile (0.83 millimeter per meter) for the allowable (compression or tensile) pile capacity of 36.9 kips (164.1 kN). The elastic deflection of the 3Y2 -inch - diameter (89 mm) piling will be limited to 0.009 inch per linear foot of pile (0.75 millimeter per meter) die"° allowable (compression or tension) pile c acit 9f 49.0 kips (218 kN). The mechanical prope ies of the, piling sections are shown in Table 2 and ca bored to calculate the anticipated settlements du to 919sft�'c►dge shortening/lengthening of the pile shaft. • Sum of the allowable axial capacity of helical bearing 4.1.1.3 Helix Plate Capacity: Up to six helix p s can 5e 15° plates affixed to pile. Section 4.1.1.3 of this report placed on a single helical pile. The helix plates are -aced ESR -1854 I Most Widely Accepted and Trusted Page 5 of 14 three times the diameter of the lowest plate apart starting at the toe of the lead section. For helical piles with more than one helix, the allowable helix capacity for the helical foundation systems and devices may be taken as the sum of the least allowable capacity of each individual helix. The helix plate ASD capacities are as shown in Table 6. 4.1.1.4 Soil Capacity: The allowable axial compressive or tensile soils capacity must be determined by a registered design professional in accordance with a site-specific geotechnical report, as described in Section 4.1.1, combined with the individual helix bearing method (Method 1), or from field loading tests conducted under the supervision of a registered design professional (Method 2). For either Method 1 or Method 2, the predicted axial load capacities must be confirmed during the site-specific production installation, such that the axial load capacities predicted by the torque correlation method are equal to or greater than what is predicted by Method 1 or 2, described above. The individual bearing method is determined as the sum of the individual areas of the helical bearing plates times the ultimate bearing capacity of the soil or rock comprising the bearing stratum. The design allowable axial load must be determined by dividing the total ultimate axial load capacity predicted by either Method 1 or 2, above, divided by a safety factor of at least 2. The torque correlation method must be used to determine the ultimate capacity (Qwt) of the pile and the minimum installation torque (Equation 1). A factor of safety of 2 must be applied to the ultimate capacity to determine the allowable soil capacity (Qan) of the pile (Equation 2). Qult = Kt T (Equation 1) Qatt = 0.5 Qutt (Equation 2) where: Kt = Torque correlation factor of 9 ft-' (29.5 m-'� for 27/8 -inch -diameter (73 mm) pile; or 7 ft - (22.9 m-') for 3'/z -inch -diameter (89 mm) pile. T = Final installation torque in ft-lbf or N -m. The final installation torque is defined as the last torque reading taken when terminating the helical pile installation. The torque measurement can be determined using calibrated hydraulic gauges when used in conjunction with the manufacturer -provided helical driver torque chart. Other methods of directly measuring final installation torque include a calibrated load cell, PT -tracker or shear pin indicator. The ultimate axial tension soil capacity of the 3Yz-inch- diameter pile must not exceed 89.6 kips (398.6 kN) or a maximum allowable axial tension load of 44.8 kips (199.3 kN). The lateral capacity of the pile referenced in Section 4.1.1.2 and Table 1 of this report is based on field testing of the 27/8 -inch -diameter (73 mm) or the 3'/z -inch -diameter helical pile with a single 8 -inch -diameter (203 mm) helix plate installed in a firm clay soil, having an average standard penetration test blow count of 20, at a minimum embedment of 15 feet (4.57 m). For soil conditions other than firm clay, the lateral capacity of the pile must be determined by a registered design professional. 4.1.2 Driven Pile: Structural calculations and drawings, prepared by a registered design professional, must be submitted to the code official for each project, based on accepted engineering principles, as described in 2015, 2012 and 2009 IBC Section 1810 and 2006 IBC Section 1808. The design method for steel components is Allowable Strength Design (ASD), described in IBC Section 1602 and AISC 360 Section B3.4. The structural analysis must consider all applicable internal forces (shear, bending moments and torsional moments, if applicable) due to applied loads, structural eccentricity and maximum span(s) between hydraulically driven steel pilings. The minimum embedment depth for various loading conditions must be included based on the most stringent requirements of the following: engineering analysis, allowable capacities noted in this report, site-specific geotechnical investigation report, and site-specific load tests, if applicable. For driven steel foundation systems subject to combined lateral and axial (compression or tension) loads, the allowable strength of the shaft under combined loads must be determined using the interaction equation prescribed in Chapter H of AISC 360. A soil investigation report in accordance with Section 4.1.1 of this report must be submitted for each project. The soil interaction capacity between the pile and the soil including required safety factor and the soil effects of the driven installation must be determined in accordance with applicable code by a registered design professional. The maximum installation force and working capacity of the driven pile system must be determined in accordance with Ram Jack's installation instructions and as recommended by a registered design professional. 4.2 Installation: The Ram Jack° Foundation Systems must be installed by Ram Jack® Manufacturing LLC certified and trained installers. The Ram Jack® Foundation Systems must be installed in accordance with this section (Section 4.2) and the manufacturer's installation instructions. For tension application, the helical pile must be installed such that the minimum depth from the ground surface to the uppermost helix is 12D, where D is the diameter of the largest helix. Helical piles used in tieback applications (retaining wall) must be installed with a minimum embedment of 12D (where D is the diameter of the uppermost helical plate), measured below the ground surface and behind the angle of repose or the active soil wedge, which is the horizontal distance between the intersection of the tieback and the active sliding surface and the center of the uppermost helical plate, when the retained slope (surface) is vertical. All field -cut or drilled pilings must be protected from corrosion as recommended by the registered design professional. Installation of helical piles must comply with Section 4.2.2 of this report and 2015, 2012 and 2009 IBC Section 1810.4.11. 4.2.1 Hydraulically Driven Steel Piling/Pier Installation: 1. An area must be excavated immediately adjacent to the building foundation to expose the footing, bottom of grade beam, stem wall or column to a width of at least 24 inches (610 mm) and at least 12 inches (305 mm) below the bottom of the footing or grade beam. 2. The vertical and bottom faces of the foundation must, to the extent possible, be smooth and at right angles of each other for the mounting of the pile bracket. The surfaces in contact with the support bracket must be free of all dirt, debris and loose concrete so as to provide firm bearing surfaces. Reference Figure 3 for proper bracket placement. 3. The spread footing, if applicable, must be notched to allow the support bracket seat to mount directly under the bearing load of the stem or basement wall. 4. The pile lead section, guide sleeve and first pile section must be inserted through the bracket sleeve. The double action hydraulic rams must be connected to the support bracket. The pile should not be more than ESR -1854 1 Most Widely Accepted and Trusted Page 6 of 14 1 degree from vertical. Hydraulic rams used to install the pile must have the capability of exerting a minimum installation force of 60,000 lbs (267 kN). 5. The hydraulic rams must be reciprocated up and down, with the pile being advanced with each downward stroke. Pile sections must be continuously added as required to advance the pile through unstable soils as required. Advancement of the pile will continue until one of the following occurs: the structure begins to experience uplift flexure as the pile is being advanced, the desired hydraulic pressure is achieved or as determined by the foundation investigation. All piles must be installed individually utilizing the maximum resistance of the structure as a reaction force to install each pile. The location of the driven pile system must be determined by a registered design professional. Lifting of the structure must be verified by the registered design professional to ensure that the foundation and/or superstructure are not overstressed. 6. After piling termination, the excess piling must be cut off squarely at a sufficient height to allow for foundation lifting. The support strap assembly must be installed with the hex nuts, and the lifting tool is placed on the head of the pile. 7. The excavation must be back-filled and the soil properly compacted. Excess soil must be removed. 4.2.2 Helical Pile Installation: 1. An area must be excavated immediately adjacent to the building foundation to expose the footing, bottom of grade beam, stem wall or column to a width of at least 24 inches and at least 12 inches below the bottom of the footing or grade beam. 2. The vertical and bottom faces of the footing or grade beam must, to the extent possible, be smooth and at right angles to each other for the mounting of the support bracket. The surfaces in contact with the support bracket must be free of all dirt, debris and loose concrete so as to provide firm bearing surfaces. lifting. If the support bracket has not already been installed, it should be installed now. The support strap assembly must be installed on the support bracket, and the lifting tool placed on the head of the pile. 7. Lifting of the structure or proof loading of the pile can be performed using the hydraulic rams. Lifting of the structure must be verified by the registered design professional to ensure that the foundation and/or superstructure are not overstressed. 8. Once the foundation has been raised and/or stabilized, the nuts on the support strap assembly must be snug - tightened to secure the support strap and bracket to the pile. The lifting tool and hydraulics must then be removed. 9. The excavation must be back-filled and the soil properly compacted. Excess soil and any debris must be removed. 4.2.3 Floor Slab Bracket Helical Pile Installation: 1. A maximum 10 -inch -diameter (254 mm) hole through the concrete floor slab must be core drilled and an area below the floor slab must be excavated to allow placement of the floor slab bracket. 2. A helical lead section must be inserted into the floor opening and pin -connected to the rotary torque driver. The pile must then be driven into the ground by rotating the helical pile. Additional extension shafts must be added as required to advance the pile through unstable soils as required to bear in a load-bearing stratum. The support bracket can be placed on the pile after the lead section and any extensions with helical plates have been embedded into the soil. The remaining pile extensions can be installed through the bracket sleeve or the bracket can be placed on the pile after the pile installation is terminated. 3. 3. The spread footing or grade beam, if applicable, must be notched to allow the support bracket seat to mount directly under the bearing load of the stem or basement wall. 4. 4. A hydraulic torque driver head is used to install the helical pile. A helical lead section which has helical plates attached is installed first. The helical lead section must be pinned to the rotary torque driver and advanced into the ground by rotating the helical pile. Additional extension shafts must be added as required to advance the pile through unstable soils as required to bear in a load-bearing stratum. The support bracket can be placed on the pile after the lead section and any extensions with helical plates have been embedded into the soil. The remaining pile extensions can be installed through the bracket sleeve. 5. Advancement of the pile will continue until the minimum installation torque is achieved as specified by the torque correlation method to support the allowable design loads of the structure using a torque factor (Kt) of 9 ft-' (29.5 m-') for the 2'/8 -inch -diameter (73 mm) pile; or a Kt value of 7 ft-' (22.9m-1) for the 3'h -inch - diameter (89 mm) pile). The installation torque must not exceed 8,200 ft -Ib (11 110 N -m) for the 2'/8 -inch -diameter (73 mm) pile; or 14,000 ft -Ib (18 967 N -m) for the 3'/z -inch -diameter (89 mm) pile. 6. After piling termination, the excess piling must be cut off squarely at a sufficient height to allow for foundation 5. .3 Advancement of the pile continues until the minimum installation torque is achieved as specified by the torque correlation method to support the allowable design loads of the structure using a torque factor (Kt) of 9 ft-' (29.5 m-') for the 2'/8 -inch -diameter (73 mm) pile. The installation torque must not exceed 8,200 ft -Ib (11 110 m -N). After piling termination, the excess piling must be cut off at a sufficient height to allow for foundation lifting. If the support bracket has not already been installed, it should be installed now. The support strap assembly must be installed on the support bracket, and the lifting tool placed on the head of the pile. Lifting of the structure must be verified by the registered design professional to ensure that the foundation and/or superstructure are not overstressed. Lifting of the structure or proof loading of the pile may be performed using a hydraulic ram or as otherwise approved by the registered design professional and the code official. Once the floor slab has been raised and/or stabilized, the nuts on the support strap assembly must -be snug - tightened to secure the support strap a'bracket to the pile. The lifting tool and hydraulic r must then be removed. 7. The excavation must be back-filled and the E&krpte replaced in accordance with the ed des gn professional specifications. Excess so an 'ari must be removed 4.2.4 New Construction Helical Pile Installation: ESR -1854 I Most Widely Accepted and Trusted Page 7 of 14 1. The lead helical section must be installed and successive extensions must be added as needed until the desired torque and capacity are achieved. 2. The pile must be cut squarely to the desired height upon termination of the pile. 3. The new construction bracket is placed over the top of the pile. If the pile is to be used to resist tension forces, the new construction bracket must be embedded the proper distance into the footing or grade beam as required to resist the tension loads as determined by a registered design professional, and must be through -bolted to the pile. Reference Table 4B for the proper embedment of the pile into the footing or grade beam for tension resistance. 4. Steel reinforcement bars are placed and tied to the bracket if applicable. The concrete is then placed according to the construction documents. 4.2.5 Tie -back Bracket Installation: 1. Excavate soil on the earth side of the retaining wall to an appropriate depth where the helical tieback will be installed. 2. Core drill a maximum 6 -inch -diameter hole through the wall at the tieback location. 3. Insert extension through the hole in the wall and connect to lead section on opposite side of wall. the helical foundation system. 5. Inclination and position of helical piles; hub of pile extension in full contact with bracket; full -surface contact of foundation brackets with concrete; tightness of all bolts; and evidence that the helical pile foundation systems are installed by an approved Ram Jack° installer. 6. Other pertinent installation data as required by the registered design professional in responsible charge and compliance of installation of helical pile system with the approved geotechnical report, construction documents and this evaluation report. 5.0 CONDITIONS OF USE The Ram Jack° Foundation Systems described in this report comply with, or are suitable alternatives to what is specified in, those codes indicated in Section 1.0 of this report, subject to the following conditions: 5.1 The foundation systems are manufactured, identified and installed in accordance with this report, the approved construction documents and the manufacturer's published installation instructions. In the event of a conflict between this report, the approved construction documents and the manufacturer's published installation instructions, the most restrictive governs. 4. Connect torque driver to other end of the extension, 5.2 align the tieback to the appropriate inclination as shown on the approved drawings, and begin rotating the tieback into the soil. 5. Advancement of the tieback continues until the minimum installation torque is achieved as specified by the torque correlation method to support the allowable design loads of the structure using a torque factor (Kt) of 9 ft-' (29.5 m-') for the 2'/8 -inch -diameter (73 mm) pile. The installation torque must not exceed 8,200 ft- 5.3 lbs. 6. Cut the tieback shaft off squarely on the earth- retained side of the wall. Insert the all -thread connector through the hole in the wall and through- bolt the sleeve of the 5.4 connector to the tieback shaft. 7. Use low slump grout to fill hole in wall. Place wall channel and wedge washer over all -thread and snug - tighten nut. Do not apply a tension force to the wall until 5.5 the grout has cured to a sufficient strength as approved by a registered design professional. 4.3 Special Inspection: Continuous special inspection in accordance with 2015 and 2012 IBC Section 1705.9, 2009 IBC Section 1704.10, and 2006 IBC Section 1704.9 is required for installation of the Ram Jack® Helical Pile foundation system. Where on-site welding is required, special inspection in accordance with 2015 and 2012 IBC Section 1705.2 and 2009 and 2006 IBC Section 1704.3 is required. The special inspector must verify the following: 1. Verification of manufacturer product model numbers (see Table 1). 2. Types, configurations and identifications of helical pier lead sections, pilings, extensions, brackets, bolts and torque as specified in this report and the construction documents. 3. Installation procedures, anticipated and actual piling depth. 4. Required target installation torque of piles and depth of Helical pile and driven pile systems have been evaluated to support structures in Seismic Design Categories (SDCs) A, B and C. Use of the systems to support structures assigned to SDC D, E or F, or which are located in Site Class E or F, are outside the scope of this report and are subject to the approval of the building official, based upon submission of a design in accordance with the code by a registered design professional. Installation of the helical pile and hydraulically driven pile systems must be limited to support of uncracked normal -weight concrete, as determined in accordance with the applicable code. Both the repair bracket and the new construction bracket must be used only to support structures that are laterally braced as defined in 2015, 2012 and 2009 IBC Section 1810.2.2 and 2006 IBC Section 1808.2.5. The helical pile and hydraulically driven pile systems must not be used in conditions that are indicative of a potential pile corrosion situation as defined by soil resistivity of less than 1000 ohm -cm, a pH of less than 5.5, soils with high organic content, sulfate concentrations greater than 1000 ppm, landfills, or mine waste. 5.6 Zinc -coated steel and bare steel components must not be combined in the same system. All helical foundation components must be galvanically isolated from concrete reinforcing steel, building structural steel, or any other metal building components. 5.7 The helical piles must be installed vertically into the ground with a maximum allowable angle of inclination of 1 degree. To comply with the requirements found in Section 1810.3.1.3 of the 2015, 2012 and 2009 IBC (Section 1808.2.8.8 of the 2006 IBC), the superstructure must be designed to resist the effects of helical pile eccentricity. 5.8 Special inspection is provided in accordance with Section 4.3 of this report. 5.9 Engineering calculations and drawings, in accordance i CITY OF WHEAT RIDGE �� Building Inspection Division (303) 234-5933 Inspection line (303) 235-2855 Office • (303) 237-8929 Fax INSPECTION NOTICE Inspection Type: 13- i Job Address: �26 3 5 W1] _7Y -f Permit Number: 1 - C -)l - )?G/ ReAj& cAll c,,he•l 15 Av�c�d/f• ❑ No one available for inspection: Time0960 6I/PM Re -Inspection required: e) No When corrections have been made, call for re -inspection at 303-234-5933 Date: '17-Ul%;7 Inspector: (5,4i DO NOT REMOVE THIS NOTICE i` INSPECTION RECORD OccupancvlTVpe IV LINE: (303) 234 -5933 POUR No CONCRETE UNTIL ABOVE HAS BEEN SIGNED CONCRETE SLAB FLOOR Electrical (Underground) Plumbing (Underground) Heating (Underground) ? . DO NOT POUR FLOOR UNTIL ABOVE HAS BEEN SIGNED W -- z.. ROUGHS Sheathing Lath / Wall tie Mid -Roof' Electrical Service r Rough Electric Rough Plumbing ` G Gas Piping s �. Rough Mechanical rye INSPECTOR INITIALS ti< Framing N Insulation Drywall Screw r, r' Inspections will not be made unless this card is posted on the building site Call by 3:00 PM to receive inspection the following business day. Ink CYA lrN/ k o INSP TOR MUST SIGN ALL SPACES PERTAINING TO THIS J OB FOUNDATION INSPECTIONS DATE INSPECTOR INITIALS COMMENTS: - Footings /Caissons Stemwall / (CEG) Concrete Encased Ground Reinforcing or Monolithic Weatherproof / French Drain Building Final Sewer Service Lines Fire Department Water Service Lines R.O.W & Drainage ABOVE INSPECTIONS TO BE SIGNED PRIOR TO PROCEEDING FINALS Electrical Plumbing: ` Mechanical Roof Building Final Fire Department R.O.W & Drainage INSPECTIONS FOR PLANNING & ZONING, FIREAND PUBLICE WORKS SHOULD BE CALLED AT LEAST ONE WEEK PRIOR TO FINAL INSPECTIONS. Parking & Landscaping *`NOTE. ALL ITEMS MUST BE COMPLETED AND APPROVED BY PLANNING AND ZONING, BUILDING AND PUBLIC WORKS BEFORE A CERTIFICATE OF OCCUPANCY IS ISSUED. FINAL INSPECTION BY THE BUILDING DIVISION DOES NOT CONSTITUTE AUTHORIZATION - - OFA CERTIFICATE OF OCCUPANCY NOR-PERMISSION FOR''OCCUPANCY - - OCCUPANCY NOT PERMITTED UNTIL CERTIFICATE OF OCCUPANCY IS ISSUED PROTECT THIS CARD FROM THE WEATHER I! ♦ ♦ CITY OF WHEAT RIDGE Building Inspection Division (303) 234-5933 Inspection line 235-2855 Office • (303) 235-2857 Fax INSPECTION NOTICE Inspection Type: 1 CCL Job Address: 3 ,y".(;~ Sep, ~a Permit Number: h Q~ Q ❑ No one available for inspection: Time AM& Re-Inspection required: Yes *When corrections have been made, call for re-inspection at 303-234~-5933 Date: C Inspector: _ro I GV f DO NOT REMOVE THIS NOTICE ♦ i CITY OF WHEAT RIDGE Building Inspection Division r4000or (303) 234-5933 Inspection line (303) 235-2855 Office • (303) 235-2857 Fax INSPECTION NOTICE Inspection Type: j /'/,P-✓evo~ Job Address: <6 7resnc~(F~ Sr'; Permit Number: l fL' Q! "t': F0 t Mfg rl' P ~ liJ" ey j 11 ~ F ~ r} ❑ No one available for in tion: TimeAM(PM/~ Re Inspection require Yes When corrections have been made, call for re-inspection at 303-234-5933 Date: /0-~,) I - Inspector: r 1, L r , DO NOT REMOVE THIS NOTICE City of Wheat Ridge Residential Roofing PERMIT - 092908 PERMIT NO: 092908 `ISSUED: 10/01/2009 JOB :ADDRESS: 3268 SWADLEY ST EXPIRES: 03/30/2010 DESCRIPTION: Reroof 29 sqs CONTACTS owner 303/210-8272 Kevin Downing sub 303/420-0334 01-8924 High Tech Roofing Co., Inc. -PARCEL INFO ZONE CODE: UA `USE: UA SUBDIVISION:' 0691 BLOCK/LOT#: 0./ FEE SUMMARY ESTIMATED PROJECT VALUATION: '.6,395.00 FEES t; Permit Fee 181.10 Total Valuation .00 -q Use -.Tax 115.11 '0 u, TOTAL 296.21 Conditions:.' 6 nail installation& mid-roof inspection required. Board sheathing spaced more than -a 1/2 of an inch apart requires plywood overlay on entire roof. Ice and water shield required from eave edge to 21 inside exteriorwalls. Subject to field inspection. I hereby certify that the setback distances proposed by this permit application are accurate, and do not violate applicable ordinances, rules or regulations of the City of Wheat Ridge or covenants, easements or restrictions of record; that all measurements shown, and allegations made are accurate; that I have :read and agree to abide.: by all conditions printed on this application and 't at I assume full responsibility for compliance with the Wheat Ridge Building Code '(I.B.C) and all other app bl a Ridge or ances, £o o under thra permit. Plans subject to field inspection. r; Bignatur of contractor/o er date 01 p, 1. This permit was issued in accordance with the, provisions: set forth in your application and is subject to the laws of the state of Colorado and to the zoning Regulations and Building Codes of Wheat Ridge, Colorado or any other applicable ordinances of the City.:.'. 11, 2. This permit shall expire. 180 days from the issue date. Requests for an extension must be received prior to expiration y; date. A extension may be granted at the discretion of the Building Official. 3. If this permit expires, :a new permit may be acquired for a fee of'one-half the amount normally required, provided no changes have been or will be made in the original plans and specifications and any suspension or abandonment has not f exceeded one (1) year. If changes have been or if suspension or abandonment exceeds one (1) year, full fees shall r: be paid for anew permit. r~ 4. No work of any manner shall be done that will change the natural flow of water causing a drainage problem. 5. Contractor shall notify the Building Inspector twenty-four (24) hours in advance for all inspections and shall receive Signatu7 of Cniet. Building official date INSPECTION REQUEST LINE: (303)234-5933 BUILDING OFFICE: (303)235-2855 t-. REQUESTS MUST BE MADE BY 3PM ANY BUSINESS DAY FOR INSPECTION THE FOLLOWING BUSINESS DAY F~ z OFWHEgT,Q City of Wheat Ridge Building Division m 7500 W. 29th Ave., Wheat Ridge, CO 80033 Office: 303-235-2855' Fax: 303-235-2857 c o Inspection. Line: 303-234-5933 OCORPO . Building Permit Application Property Address: 3268 Swadley St. Date: Plan Permit Property Owner (please print): Kevin Downing Phone: 303-210-82'72 Mailing Address: (if different than property address) Address: Same City, State, Zip: Wheat/Ridge Colorado 80033 Contractor: High Tech Roofing Co. Contractor License 018924 Phone: ( 303 ) 420-0334 Sub Contractors: Electrical City License Plumbing City License Mechanical City License Company: Company Company Exp. Date: Exp. Date: Exp. Date: Approval: Approval: Approval: Use of space (description): Tear Off Existen Roof Construction Value: $ X6395.00 Description of work: and Install New 30 Year (as calculated per the Building Valuation Data sneeu $ Shingles New Ice/U7ater, & Plumbing Jacks & Dri Plan Review (due at time of submittal): Edge Metal... Sq. Ft./L.Ft added: Squares 29 BTU's Gallons Amps OWNER/CONTRACTOR SIGNATURE OF UNDERSTANDING AND AGREEMENT I hereby certify that the setback distances proposed by this permit application are accurate, and do not violate applicable ordinances, rules or regulations of the City of Wheat Ridge or covenants, easements or restrictions of record; that all measurements shown, and allegations made are accurate; that I have read and agree to abide by all conditions printed on this application and that I assume full responsibility for compliance with the Wheat Ridge Building Code (I.B.C) and all other applicable Wheat Ridge Ordinances, for work under this permit. Plans subject to field inspection. QQQ CIRLCE ONE:: (OWNER) (CONTRACTOR) or PERSONAL REPRF24M f NE Ry ( TRATOR) ~y PRINT NAME: Clifford Keller SIGNATURE((//`_ <L/ Date/0-/-(J DEPARTMENT USE ONLY ZONING COMMENTS: Zoning: Reviewer: PUBLIC WORKS COMMENTS: Reviewer: BUILDING' DEPARTMENT COMMENTS: - - OCCUPANCY Reviewer: FIRE DEPARTMENT:: 0 approved w/ wriirpiants 0 disapproved ❑ no review required Bldg Valuation: $