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Home My WebLink About1695 FARADAY AVE; ; CB981508; PermitB U I L D I N G P E R M I T Permit No: CB981508 Project No: A98U20U8 Development No: 07/02/98 1U:43 P~ige 1 of 1 ,Job Address: 1695 FARADAY AV Suite: Permit Type: INDUSTRIAL 'l'ENANT IMPROVEMENT Parcel No: 212-130-34-00 Lot#: Valuation: 118,0UO Occupancy Group: Reference#: Description: INSTALL RACK SYSTEM 8648 07/02/98 0001 01 02 C-PRMT 709°00 Construction Type: NEW Status: ISSUED Applied: 05/18/98 ""-...-:;-:----=~ FINAL APPROVAL INSP. _____ DATE ------ CLEARANCE===~-----1 CITY OF CARLSBAD 2075 Las Palmas Dr., Carlsbad, CA 92009 (619) 438-1161 PERMIT APPLICATION CITY OF CARLSBAD BUILDING DEPARTMENT 2075 Las Palmas Dr., Carlsbad CA 92009 (760) 438-1161 FOR OFFICE USE O~) PLAN CHECK NO. w'!5bg EST. VAL. :$\ \6 CT;x'J • C:CJ Plan Ck. Deposit I q1".5~ CJt) Validated By ..::!MA._ ,~ Date 5ft ?/2-~ Business Name (at this address) -Legal Description Lot No. Subdivision Name/Number Unit No. Phase No. Total # of units Assessor's Parcel # Existing Use Proposed Use 1n\'.)\\J Tw: '£hl~Tuc:%.. Description of Work SQ. FT. #of Stories Name 14; :..::J:>ROEEJti:.Y·OWli!~R, .::.~:: ::, .,. .. ·. -· .. · .. , . ., __ .... , ~ ~- ;SN""\PK.. 5<207 vo..o f\\\.o..t----~ City S.tate/Zip Telephone # , , "' ' >, '"' (Sec. 7031.5 Business and Professions Code: Any City or County which requires a permit to construct, alter, improve, demolish or repair any structure, prior to its issuance, also requires the applicant for such permit to file a signed statement that he is licensed pursuant to the provisions of the Contractor's License Law [Chapter 9, commending with Section 7000 of Division 3 of the Business and Professions Code) or that he is exempt therefrom, and the basis for the alleged exemption. Any violation of Section 7031.5 by any applicant for a permit subjects the applicant to a civil penalty of not more than five hundred dollars [$5001). 70u:¼'-' ~ &Vu<kucr?.> rZ,i;>\.\S en ... ,,~ 4' -ze ~ Cf'r q O \0 G\O'}-(o'Z--:::Z-Dl/3:53 Name Address / City State/Zip/ r) A l:~one # State License # ~-Z.'6$ License Class Q__ (I?. [ ()6] City Business· License # _ _,__-'rf-.U'--=--11~r+~-+-1--, Designer Name Address City State/Zip Telephone State License # _________ _ 1§ •. · WQ8.Kl=.R$' Q.QMlt~l\1$:A1lQN-. ·:. ,_..c .. ,. : -~. :" ~: .,;, .• --:: :: • ·, ·: ·::: -::·. >· ':'' ·: Workers' Compensation Declaration: I hereby affirm under penalty of perjury one of the following declarations: 0 I have and will maintain a certificate of consent to self-insure for workers' compensation as provided by Section 3700 of the Labor Code, for the performance of the work for which this permit is issued. qfj\ I have and will maintain workers' compensation, as required by Section 3700 of the Labor Code, for the performance of the work for which this permit is ~ed. My worker's compensation insurance carrier and policy number are: Insurance Company~ \'K\3t>-::\ M M~UL C.0 Policy No. 0.>C.S7\'n"2...\¼7 Expiration Date ~/'f;p/q £ (THIS SECTION NEED NOT BE COMPLETED IF THE PERMIT IS FOR ONE HUNDRED DOLLARS [$100) OR LESS) D '~ ',"' :-'\ ' ,,,.. -" • , _,,M , ,,,, ~ :,. :~~,,,, ','_ 0 I, as owner of the property or my employees with wages as their sole compensation, will do the work and the structure is not intended or offered for sale (Sec. 7044, Business and Professions Code: The Contractor's License Law does not apply to an owner of property who builds or improves thereon, and who does such work himself or through his own employees, provided that such improvements are not intended or offered for sale. If, however, the building or improvement is sold within one year of completion, the owner-builder will have the burden of proving that he did not build or improve for the purpose of sale). 0 I, as owner of the property, am exclusively contracting with licensed contractors to construct the project (Sec. 7044, Business and Professions Code: The Contractor's License Law does not apply to an owner of property who builds or improves thereon, and contracts for such projects with contractor(s) licensed pursuant to the Contractor's License Law). 0 I am exempt under Section ______ Business and Professions Code for this reason: 1. I personally plan to provide the major labor and materials for construction of the proposed property improvement. D YES ONO 2. I (have / have not) signed an application for a building permit for the proposed work. 3. I have contracted with the following person (firm) to provide the proposed construction (include name / address / phone number/ contractors license number): 4. I plan to provide portions of the work, but I have hired the following person to coordinate, supervise and provide the major work (include name / address / phone number/ contractors license number): _____________________________________________ _ 5. I will provide some of the work, but I have contracted (hired) the following persons to provide the work indicated (include name / address / phone number/ type of work):. ___ '------------------------------------------------------ DATE _________ _ ',.».:i,, ',/! ., .. i Is the applicant or future building occupant required to submit a business plan, acutely hazardous materials registration form or risk management and prevention program under Sections 25505, 25533 or 25534 of the Presley-Tanner Hazardous Substance Account Act? D YES a----'No Is the applicant or future building occupant required to obtain a permit from the air pollution control district or air quality management district? 0 YES E::J'NO Is the facility to be constructed within 1,000 feet of the outer boundary of a school site? 0 YES ,12( NO IFANY OF THE ANSWERS ARE YES, A FINAL CERTIFICATE OF OCCUPANCY MAY NOT BE ISSUED UNLESS THE APPLICANT HAS MET OR IS MEETING THE REQUIREMENTS OF THE OFFICE OF EMERGENCY SERVICES AND THE AIR POLLUTION CONTROL DISTRICT. ~~.:..Jl~IY.§;'lJlJ)_~i;I_Q!'f!J@P.IM'.l:~ffil:N.CtL.:,,; ~-...• :·, • ":.,:: ... --.:."':' .·.: ·.:. ... : , , • '< ' , ~ ' ' '~-,\, ': -f.. I hereby affirm that there is a construction lending agency for the performance of the work for which this permit is issued (Sec. 3097(i) Civil Code). I certify that I have read the application and state that the above information is correct and that the information on the plans is accurate. I agree to comply with all City ordinances and State laws relating to building construction. I hereby authorize representatives of the Cit\' of Carlsbad to enter upon the above mentioned property for inspection purposes. I ALSO AGREE TO SAVE, INDEMNIFY AND KEEP HARMLESS THE CITY OF CARLSBAD AGAINST ALL LIABILITIES, JUDGMENTS, COSTS AND EXPENSES WHICH MAY IN ANY WAY ACCRUE AGAINST SAID CITY IN CONSEQUENCE OF THE GRANTING OF THIS PERMIT. OSHA: An OSHA permit is required for excavations over 5'0" deep and demolition or construction of structures over 3 stories in height. EXPIRATION: Every permit issued by the Building Official under the provisions of this Code shall expire by limitation and become null and void if the building or work authorized by such permit is not commenced within 365 days from the date of such permit or if the building or work authorized by such permit is suspended or abandoned at any time afte~ 4d f a period 180 days (Section 106.4.4 Uniform Building Code). APPLICANT'S SIGNATURE ~~( DATE 5 -l'8 ...-96 WHITE: File YELLOW: Applicant PINK: Finance Inspection List Permit#: CB981508 Type: ITI INSTALL RACK SYSTEM Date Inspection Item Inspector Act Comments 7 /8/98 19 Final Structural RB PA NEED FIRE DEPT APPROVAL Wednesday, June 16, 1999 Page 1 of 1 April 12, 1999 SMAC 5807 VAN ALLEN WAY, CARLSBAD, CA 92008 TEL: (760) 929-7575 FAX: (760) 929-7588 City Carlsbad-Building Department 207 5 Las Palmas Dr. Carlsbad, CA 92009-1576 RE: Request for Building Permit Extension Address: 1695 Faraday We have received your notification of our building permit expiration dated March 23, 1999 for our Permit #CB981508 and request an extension on this permit. On 7 /8/98 during our last inspection on this project it was noted that we had additional material racking that required permitting. Since that inspection we began a second permit #CB990281 for the additional material racking and are currently waiting for a technical report from Klausbruckner & Associates that was requested by the Carlsbad Fire Dept. Once this technical report is completed we should be ready for a final inspection on both racking systems involving both Permits CB981508 & CB990281. Thank you for your assistance in this matter. EdMulvania [£)~ Maintenance Engineer March 23, 1999 SMAC 5807 VAN ALLEN WAY CARLSBAD CA 92008 City of Carlsbad i=i!i•G••h•i•J4•Eiiii,1401 Permit Number: Issue Date: CB981508 7/2/98 ~ f° )). ~"" ~¥# ..-'\\ ~ \ eiJ RE: BUILDING PERMIT EXPIRATION ADDRESS: 1695 .FARADAY AV PERMIT TYPE: ITI ) Our records indicate that your building permit has expired by limitation of time on 1/4/99. PLEASE CALL FOR AN INSPECTION IF WORK IS COMPLETE within thirty (30) days from the date of this letter. The last approved inspection that was called for this permit was on 7/8/98 which has exceeded the six consecutive calendar months as allowed by the Carlsbad Municipal.Code. An approved inspection is required on your permit at this time. Please call (760) 438-3101 to request an inspection for your project. If an inspection is not called within the specified time your permit will be EXPIRED and you will need to renew the permit in order to finish the project. Attached for your information is Carlsbad Municipal Code Section 18.04.030 which explains at which time a permit is considered ~xpired and the process to renew such permits. Any person holding an unexpired permit may apply for an extension of the time within which he may commence work under that permit when he is. unable to commence work within the time required by this section for good and satisfactory reasons. The Building Official may extend the time for action by the permittee for a period not exceeding 180 days upon written request by the permittee showing that circumstances beyond the control of the permittee have prevented action from being taken. No permit shall be extended more than on~e. If you have any questions, please contact the euilding Inspection Department at (760) 438- 3550. PAT KELLEY Principal Building Inspector Attachment 2075 Las Palmas Dr. • Carlsbad, CA 92009-1576 • (760) 438-1161 • FAX (760) 438-0894 ti) -- EsGil Corporation 'l.n Partners/iip wit/i (jovernment for '13uiUing Safety DATE: 6/ 1/98 JURISDICTION: Carlsbad PLAN CHECK NO.: 98-1508 PROJECT ADDRESS: 1695 Faraday PROJECT NAME: SMAC SET:I D The plans transmitted herewith have been corrected where necessary and substantially comply with the jurisdiction's building codes. D D D D The plans transmitted herewith will substantially comply with the jurisdiction's building codes when minor deficiencies identified below are resolved and checked by building department staff. The plans transmitted herewith have significant deficiencies identified on the enclosed check list and should be corrected and resubmitted for a complete recheck. - . -. ·- The check list transmitted herewith is for your information. The plans are being held at Esgil Corporation until _corrected plans are submitted for recheck. The applicant's copy of the check list is enclosed for the jurisdiction to forward to the applicant contact person. The applicant's copy of the check list has been sent to: Rick Chastain 12255 Kirkham Road #400 Poway CA 92064 Esgil Corporation staff did not advise the applicant that the plan check has been completed. Esgil Corporation staff did advise the applicant that the plan check has been completed. Person contacted: Telephone#: _ Date contacted: (by: ) Fax#: Mail Telephone Fax In Person REMARKS: By: David Yao Enclosures: Esgil Corporation D GA DCM D EJ D PC 5/19 trnsmtl.dot 9320 Chesapeake Drive, Suite 208 + San Diego, California 92123 + (619) 560-1468 + Fax (619) 560-1576 Carlsbad 98-1508 6/1/98 GENERAL PLAN CORRECTION LIST JURISDICTION: Carlsbad PROJECT ADDRESS: 1695 Faraday DATE PLAN RECEIVED BY· ESGIL CORPORATION: 5/19 REVIEWED BY: David Yao FOREWORD (PLEASE READ): PLAN CHECK NO.: 98-1508 DATE REVIEW COMPLETED: 6/1/98 This plan review is limited to the technical requirements contained in the Uniform Building Code, Uniform Plumbing Code, Uniform Mechanical Code, National Electrical Code and state laws regulating energy conservation, noise attenuation and disabled access. This plan review is based on regulations enforced by the Building Department. You may have other corrections based on laws and ordinances enforced by the Planning Department, Engineering Department or other departments. The following items listed need clarification, modification or change. All items must be satisfied before the plans will be in conformance with the cited codes and regulations. Per Sec. 106.4.3, 1994 Uniform Building Code, the approval of the plans does not permit the violation of any state, county or city law. 1. Please make all corrections on the original tracings and submit two new sets of prints to: ESGIL CORPORATION. 2. To facilitate rechecking, please identify, next to each item, the sheet of the plans upon which each correction on this sheet has been made and return this sheet with the revised plans. 3. Please indicate here if any changes have been made to the plans that are not a result of corrections from this list. If there are other changes, please briefly describe them and where they are located on the plans. Have changes been made not resulting from this list? 0 Yes 0 No 4. Provide a rack layout plan showing the location of all racks. 5. Provide a statement on the Title Sheet of the plans that this project shall comply with Title 24. 6. Provide a note on the plans indicating if any hazardous materials will be stored and/or used within the building which exceed the quantities listed in UBC Tables 3-D and 3-E. Carlsbad 98-1508 6/1/98 7. The tenant space and new and/or existing facilities serving the remodeled area must be accessible to and functional for the physically disabled. See the attached correction sheet. Title 24, Part 2. 8. Obtain Fire Department approval for groups F, Mand S occupancy storage per UBC Sections 306.8, 309.8 and 311.8. 9. Indicate. the clearance from the new racks to the existing building walls and building columns per Section 1631.2.11. The clearance must be at least 3Rw/8 times the deflections of both the rack and the building. 10. Note on the plans that the rack design loads will be posted per Section 1604.5. Recheck the "pallet" racks as follows: 11. Recheck all connections on sheet 98-0493A as follows: a) The rivet bearing capacity is only dtFu = 0.406(0.0747)65 = 2 kips. b) Provide calculations for all beam to bracket weld capacities per Section 2230 (allowable weld stress is the member thickness times .26 ksi times 1.33, or the weld stress, whichever is lower). c) Check the bracket maximum weak axis moment. The bracket moment at the bottom of the beam is M = 2.25"C -1.5"Ps, where C = P1 + P2 + P3. 12. Indicate the safety pin size and verify it is adequate for the 1000# load. Section 2236.1. · 13. Provide calculations for the column weak axis bending plus axial for transverse seismic loading. The axial load is the maximum compression load at the base from vertical plus seismic overturning. The column moment will probably be maximum for the lateral load from the base plate to the first diagonal ·brace (not only to the first horizontal member). 14. The beams and columns detail for the flow rack shall be clearly specified on the plan. 15. The location of all the beams and columns shall be clearly identified on the plan.(Provide framing plan and cross reference the beam column from the elevation plan.) 16. All connection detail shall be clearly specified on the plan. 17. Provide complete calculation for the flow racks. (vertically and laterally) 18. The jurisdiction has contracted with Esgil Corporation located at 9320 Chesapeake Drive, Suite 208, San Diego, California 92123; telephone number of 619/560-1468, to perform the plan review for your project. If you have any questions regarding these plan review items, please contact David Yao at Esgil Corporation. Thank you. Carlsbad 98-1508 6/1/98 VALUATION AND PLAN CHECK FEE JURISDICTION: Carlsbad PREPARED BY: David Yao . BUILDING ADDRESS: 1695 Faraday BUILDING OCCUPANCY: BUILDING PORTION BUILDING AREA (ft.2) racks Air Conditioning Fire Sprinklers TOTAL VALUE PLAN CHECK NO.: 98-1508 DATE: 6/ 1/98 TYPE OF CONSTRUCTION: VALUATION VALUE MULTIPLIER ($) 118000 (per city) j:g] 1991 UBC Building Permit Fee D Bldg. Permit Fee by ordinance:$ 702.5 rg] 1991 UBC Plan Check Fee D Plan Check Fee by ordinance: $ 456.63 Type of Review: rg] Complete Review D Structural Only D Hourly D Repetitive Fee Applicable D Other: Esgil Plan Review Fee: $ 365.30 Comments: Sheet 1 of 1 macvalue.doc 5196 \ \ Carlsbad 98-1508 6/1/98 REVISED 6/3/98 VALUATION AND PLAN CHECK FEE JURISDICTION: Carlsbad PREPARED BY: David Yao BUILDING ADDRESS: 1695 Faraday BUILDING OCCUPANCY: BUILDING PORTION BUILDING AREA (ft. 2) racks Air Conditioning Fire Sprinklers TOTAL VALUE PLAN CHECK NO.: 98-1508 DATE: 6/ 1/98 TYPE OF CONSTRUCTION: VALUATION VALUE MULTIPLIER ($) 118000 (per city) 1ZJ 1994 UBC Building Permit Fee D Bldg. Permit Fee by ordinance:$ 684.08 1ZJ 1994 USC Plan Check.Fee D Plan Check Fee by ordinance: $ 444.65 Type of Review: IZ! Complete Review D Structural Only D Hourly D Repetitive Fee Applicable O-0ther: Esgil Plan Review Fee: $ 355.72 Comments: Sheet 1 of 1 macvalue.doc 5196 I \ \ PLANNINO/EN.OINEERINC .APPROVALS PERMIT NUMBER CB 7 8 / q/J DATE ------------- RESIDENTIAL RESIDENTIAL ADDITION MINOR ( < $10,000.00} OTHER PLAZA CAMINO REAL CARLSBAD COMPANY STORES VILLACE FAIRE COMPLETE OFFICE BUILDINC ------------------- PLANNER DATE ~-/~9$ --------- . ENGINEER D-r:A-<, zf) DATE_CC_/1,_.__·t_CJf!> __ DoCS/MlsformS/Plannlng Engineering Approvals V City of Carlsbad Fire Department • 98188 Bureau of Prevention Plan Review: Requirements Category: Date of Report: Monday, June 1, 1998 High Piled Combustible Storage Reviewed by: 9 , l!~i ..- Contact Name Address Crown Lift Trucks 12255 Kirkbain Rd #400 City, State Poway CA 92064 ~-CB98150B Planning No. Job Name S.M.A.C. Racks Job Address 1695 Faraday ----~--------------Ste. or Bldg. No. ____ _ ~ Approved -The item you have submitted for review has been approved. The approval is based on plans; information and/or specifications provided in your submittal; therefore any changes to these items after this date, including field modifica- tions, must be reviewed by this office to insure continued conformance with applicable codes. Please review carefully all comments attached, as failure to comply with instructions in this report can result in suspension of permit to construct or install improvements. D Disapproved -Please see the attached report of deficiencies. Please make corrections to plans or specifications necessary to indicate compliance with applicable codes and standards. Submit corrected plans and/or specifications to this office for review. For Fire Department Use Only Review 1st~--2nd __ _ 3rd __ _ Other Agency ID CFD J9b# __ 98_1_8_8 __ File# ___ _ 2560 Orion Way • Carlsbad, California 92008 • (619) 931-2121 TEL: (909) 869 -0989 MATERIAL HANDLING ENGINEERING EST. 1985 STRUCTURAL CORRECTION FOR SMAC 5807 VAN ALLEN WAY CARSLBAD, CA 92008 JOB # 98-0493 JUNE 18, 1998 P.C. #98-1508 Below are the responses to the plan corrections: 1. Understood. 2. Understood. FAX: (909) 869 -0981 3. Changes other than those specified in the Esgil comments have not been made. 4. Rack layout showing location of the pallet flow type racks shall be provided at time of resubmittal. See dwg ALD-98-2098-2F. 5. A note is provided on drawing ALD-98-2098-2F stating that the project shall comply with title 24 .. 6. A note is provided on drawing ALD-98-2098-2F stating that no hazardous materials will be stored and/or used within the building which exceed the quantities listed in UBC table 3-D and 3-E. 7. A note is provided on drawing ALD-98-2098-2F stating that the remodeled area meets the standards set forth in title 24, part 2 regarding handicap accessibility. 8. Fire department approval for groups F, Mand S occupancy to be provided by applicant. 9. Clearance from the new racks to the existing building walls is 12'. See drawing ALD-98-2098-2F. 1 o. See drawing 98-0493A, note #3 regarding posted load sign requirement 161 Atlantic Street • Pomona • California 91768 11. a) Rivet bearing capacity revised. See page 11.1 . b) Beam to bracket weld analysis is provided for both beam types. See page 11.2 c) Bracket is checked for weak axis bending. See page 11.1 . 12. The safety pin is 5/16"0. The allowable shear (Pa) is given by: Pa = Area * 0.4 * Fy = [(5/16 in)"2 * ·n/4] * 0.4 * 50,000 psi = 1,534 lb > 1,000 lb Thus, OK per section 2236.1 . 13. Please see pages 9.1 -9.2 for revised column analysis. See page 9.2 specifically for cross aisle loads on the column. 14. Please see the detail drawings for beam and column details. 15. Please see drawing 98-6769 for cross references to the details regarding the rack components. 16. Drawing 98-0493A shows all connection details. 17. The calculations for the flow rack have been revised to show analysis for the interior and exterior frames. Static and seismic forces are considered for the entire system. 18. Understood. LJ'Aea~e free to call if you have any further questions, I Al Abolhassani STORAGE RACKS STEEL SHELVING DRIVE-IN RACKS MOVABLE SHELVING CANTILEVER RACKS STORAGE TANKS MEZZANINES MODULAR OFFICES CONVEYORS GONDOLAS CAROUSELS BOOKSTACKS PUSHBACK RACKS FLOW RACKS RACK BUILDINGS FOOTINGS SEIZMIC MATERIAL HANDLING ENGINEERING EST. 1985 SEISMIC ANALYSIS ALASKA STRUCTURAL DESIGN ARIZONA CITY APPROVALS CALIFORNIA ST ATE APPROVALS COLORADO PRODUCT TESTING CONNECTICUT FIELD INSPECTION GEORGIA SPECIAL FABRICATION IDAHO PERMITTING SERVICES ILLINOIS PALLET FLOW RACK FOR SMAC 5807 VAN ALLEN WAY CARLSBAD, CA 92008 0 -#..:98!:-0493 INDIANA OHIO KANSAS OKLAHOMA MICHIGAN OREGON MINNESOTA PENNSYLVANIA MISSOURI TEXAS MONTANA UTAH NEVADA VIRGINIA NEW MEXICO WASHINGTON WISCONSIN 161 ATLANTIC STREET • POMONA • CA 91768 • TEL: (909)869-0989 • FAX: (909)869-0981 MATERIAL HANDLING ENGINEERING TEL: (909)869-0989 • FAX: (909)869-0981 161 ATLANTIC STREET• POMONA• CA 91768 PROJECT __ SM_A_C __ -,-______ _ CROWN (IND) F0R _____ --'----'-------- SHEET N0 .. ___ 2 ___ OF ___ 1_5 __ CALCULATED BY AL A. DATE._O_6-_1_6_-_19_9_8_ TABLE OF CONTENTS SCOPE: DES CR I PTI ON COVER SHEET TAB LE OF CONTENTS SCOPE PARAMETERS CONFI GURA Tl ONS COMPONENTS & SPECS. LOADS AND DI STRI BUTI ON LONG! TUDI NAL ANALYSIS COLUMN BEAM BEAM TO COLUMN BRACING OVERTURN! NG BASE PLATE SLAB & SOIL PAGE# 1 2 2 3 4-4 5-6 7 8 9 10 11 12 13 14 15 THIS ANALYSIS OF THE STORAGE SYSTEM IS TO DETERMINE ITS COMPLIANCE WITH THE APPROPRIATE BUILDING CODES WITH RESPECT TO STATIC AND SEISMIC FORCES. THE STORAGE RACKS ARE PREFABRICATED AND ARE TO BE Fl ELD ASSEMBLED ONLY, WITHOUT ANY Fl ELD WELDING. MATERIAL HANDLING ENGINEERING TEL: (909)869-0989 • FAX: (909)869-0981 161 ATLANTIC STREET• POMONA• CA 91768 PROJECT __ S_M_A_C __________ _ CROWN (I ND) FOR _______________ _ SHEET N0. ___ 3 ____ OF ____ 1_5 __ _ CALCULATED BY __ A_L_A_._ DATE 06-16-1998 STORAGE RACKS CONSIST OF SEVERAL BAYS, INTERCONNECTED IN ONE OR BOTH DIRECTIONS WITH THE COLUMNS OF THE VERTICAL FRAMES BEING COMMON BETWEEN ANY ADJACENT BAYS. THE ANALYSIS WILL FOCUS ON A TRIBUTARY BAY TO BE ANALYZED IN BOTH LONGITUDINAL AND TRANSVERSE DIRECTION. STABILITY LONGITUDINALLY IS DEPENDANT ON BEAM TO COLUMN MOMENT, WHILE THE BRACING ACT TRANSVERSELY. 1. COLUMN. 2. BEAM. 3. BEAM TO COLUMN. 4. BASE PLATE. 5. HORIZONTAL BRACING. 6. DIAGONAL BRACING. 7. BACK CONNECTOR. TRIBUTARY AREA :------/ -------------; ll .. ___ j ........ 1---1 ........ [ TRANSVERSE : : ,,,,,,,,,,,,,,,,,,,,,,,,.~ LONGITUDINAL TOP VIEW MATERIAL HANDLING ENGINEERING TEL: (909)869-0989 • FAX: (909)869-0981 161 ATLANTIC STREET• POMONA• CA 91768 CONFI GURA Tl ONS PROJECT __ S=-:M=-:::A:-::-C-::--:--:-:-:-=--------- CROWN (IND) FOR ______ _.:.,_....:,_ _______ _ SHEET N0._ __ 4 ____ OF ____ 1_5 __ _ CALCULATED BY __ A_L_A_. _ DATE 06-16-1998 I NTER I OR FRAME 3,O24 lb. r +-3,O24 lb. b 4 ~1..-cw ~\.'- f-3,O24 lb. ~ 252" 3 t--t 3,O24 lb. ~ - L 3,O24 lb. 46'.- 1 J_ 24" ~ 'I 134" ~ 'I ~ 5611 -ff 56"-f Sb1, EXTERIOR FRAMES 1,512 lb. 5 r-- +-1,512 lb. ~ R..ow Mi._ 4 f-1,512 lb. b 252" 3 t--t 1,512 lb. ~ L 1,512 lb. 46" 1 L=-24" ~ 'I 134" ~ 'I ~ 56"-f PROJECT __ S_M_A_C __________ _ CROWN (I ND) FOR ______ ...;_____,;,. _______ _ SHEET NO. ___ s ____ OF ____ ,_s __ _ MATERIAL HANDLING ENGINEERING TEL: (909)869-0989 • FAX: (909)869-0981 161 ATLANTIC STREET• POMONA• CA 91768 CALCULATED BY __ A_L_A_._ DATE_0_6-_1_6_-_1_9_9_8_ INTERIOR FRAME SP ECI Fl CATI ON -MAIN STEEL -BASE PLATE STEEL 50000 PSI 36000 PSI -ANCHOR -WEDGE TYPE 1/2 x 2-1/8MIN. EM ED. -FLOOR SLAB 6" X 4000 PSI. REINFORCED 252" -SOIL BEARING PRESSURE 1000 PSF -SEISMIC ZONE 4. -TYPE= INTERCONNECTED UNITS. -BASE SHEAR FORMULA = ZIC(wLL / 2 +wDL)/R 3,024 lb. 399# 532# .. 309# _.,. 134"--k ,¥-56",I, lu = 134" SECTICl'J AXIAL FCRCE MClv1ENT BEAM MClv1ENT 1 7,810 lb. 6,095 in.lb. \7,-z."2-q ,~-,\, <-stdconn. 2 6,248 lb. 16,044in.lb. · 2..1, \'?st, ;" \~ <-stdconn.~ ""°"'>' 3 4,686 lb. 14,014 in.lb. 17, o't.""l ~" 1~ <-stdconn. 4 3,124 lb. 7,726 in.lb. _,3,01"1 ;,,1b<-stdconn. 5 1,562 lb. 5,992 in.lb. "I !4b ; ... 1b <-stdconn. INTERIOR FRAME DESIGN LOAD= 3024# BASE PLATE COLUMN BEAM -J -J 3X3X14GA( LM 20) -J 4X7X.375 CQUMN STRESS =1.27 4-1 /2X2-3/ 4X14GA( LBF454) Mbase= 6095 in.lb. MAX LOC\D, = '-1_'-lt,,/,, \b/fe,..;r BEAM IS O.K. OVERTURN! NG BRACING SLAB & SOIL -J HORIZONTAL -J DIAGONAL -J -J ANCHCR STRESS= 0.25 11/2X11/4X14GA 11/2X11/4X14GA PUNCT. STRESS = 0. 79 # a= ANCHCRS = 2 STRESS= 0.42 STRESS = 0.99 BENDING STRESS =0.86 NOTE: CITY OF CARLSBAD REQUIRES EPOXY ANCHORS. LOAD REPRESENTS WEIGHT CARRIED BY INTERIOR FRAME. LOADING IS 1080 LB/PALLET* 4 PALLETS PER FRAME * 70% UTILIZATION = 3024 LB PER PAIR OF BEAMS PER LEVEL. PR0JECT __ S_M_A_C __________ _ CROWN (I ND) FOR ______ ...;_ ________ _ SHEET N0. ___ 6 ____ OF ____ 1_5 __ _ MATERIAL HANDLING ENGINEERING TEL: (909)869-0989 • FAX: (909)869-0981 161 ATLANTIC STREET• POMONA• CA 91768 CALCULATED BY __ A_L_A_. _ DATE_O_6-_1_6_-_1_9_9_8_ EXTERIOR FRAMES SPEC! Fl CATI ON -MAIN STEEL -BASE PLATE STEEL 50000 PSI 36000 PSI -ANCHOR-WEDGETYPE 1/2x2-1/8MIN.EM ED. -FLOOR SLAB 6" X 4000 PSI. REINFORCED 252" -SOIL BEARING PRESSURE 1000 PSF -SEISMIC ZONE 4. -TYPE= INTERCONNECTED UNITS. -BASE SHEAR FORMULA= ZIC(wLL / 2 +wDL)/R 1,512 lb. 212# 282# .. 164# _.., k 'I 134"--~ I u = 134" ~ 56"-,j, SECTla-J Ml AL F CR CE MOvlENT BEAM M01ENT 1 4,030 lb. 3,237 in.lb. ',C2-"J i "\\:, <-stdconn. 2 3,224 lb. 8,520 in.lb. \! / \3, l i-.\\, <-stdconn. 3 2,418 lb. 7,442 in.lb. ~"\ 'l-1... ;,1\, <-stdconn. 4 1,612 lb. 4,102 in.lb. & 1'il. i. ,\:, <-std conn. 5 806 lb. 3,182 in.lb. c;,33,z. ;,., \k <-std conn. EXT ER I OR FRAMES DES I GN LOAD = 1512# BASE PLATE COLUMN BEAM ...J ...J 3X3X14GA( LM 20) ...J 4X7X.375 CQ..UMN STRESS =0.62 3-1/2X2-3/4X14GA(LBF354) Mbase= 3236 in.lb. MMLQl\D = 2-~~ '"'/rior BEAM IS O.K. OVERTURN! NG BRACING SLAB & SOIL ...J HORIZONTAL ...J DIAGONAL ...J ...J ANCHCR STRESS= 0.13 11/2X11/4X14GA 1 1 /2 X 1 1 / 4 X 14 GA PUNCT. STRESS = 0.41 # a= ANCHCRS = 2 STRESS= 0.22 STRESS= 0.52 BENDING STRESS =0.35 LOADS REPRESENTS WEIGHT OF 2 PALLETS PER PAIR OF BEAMS TRIBUTARY TO THE EXTERIOR FRAMES. 1080 LB/PALLET* 2 PALLETS * 70% UTILIZATION = 1512 LB. -i PROJECT __ S_M_A_C __________ _ CROWN (IND) FOR ______________ _ SHEET NO. ___ 7 ____ OF ____ 15 __ _ MATERIAL HANDLING ENGINEERING TEL: (909)869-0989 • FAX: (909)869-0981 161 ATLANTIC STREET• POMONA• CA 91768 CALCULATED BY __ A_L_A_. _ DATE_O_6_-_16_-_1_9_9_8_ LOADS & DISTRIBUTION :INTERIOR FRAME 1 LIVE LOAD PER SHELF (BASED ON CLIENT SUPPLIED DATA) = wLL. DEAD LOAD PER SHELF = wDL. SEISMIC SHEAR BASED ON DIVISION VI OF THE 1994 U.B.C. = V. WHERE V=ZIC[wDL+wLUn]/Rw SEISMIC ZONE= 4 z = .4 I = 1 C = 2.75 Rw (LONGITUDINAL) = 8 Rw (TRANSVERSE) = 6 wDL = 100 lb. INTERCONNECTED UNITS. LONGITUDINAL DIRECTION 252" Vlong=.4* 1 * 2.75* (15120/2+500)/8 VI ong = 1 , 1 08 I b. Fi = V Whi Irwh TRANSVERSE DIRECTION VI ong = .4 * 1 * 2.75 * ( 15120/ 2 + 500 ) / 6 Vtrans = 1,478 I b. Fi = V Whi/LWh TOTAL FRAME LOAD= 15,620 I b. 3,024 lb. 399# r 1=4:;::===3·=02=4 ='b·===I l 1=3;:::=::=3,=02=4 ='b·===t l t:::;===3,=02=4 ='b·===t L 24" 3,024 lb. 1 ~ 'I 134" ~ 'I I u = 13411 532# r • }-403# ---+ }-309# --+ }-180# }-.. 51# 46" J_ > ~ 5611 -J PROJECT __ S_M_A_C __________ _ CROWN (I ND) FOR ______ --"----'--------- SH EET N0. ___ 8 ____ OF ____ 1_5 __ _ MATERIAL HANDLING ENGINEERING TEL: (909)869-0989 • FAX: (909)869-0981 161 ATLANTIC STREET• POMONA • CA 91768 CALCULATED BY AL A. DATE . 06-16-1998 ----- LONGITUDINAL ANALYSIS :INTERIOR FRAME THE ANALYSIS IS BASED ON THE PORTAL METHOD, WITH THE POINT OF CONTRA FLEXURE OF THE COLUMNS ASSUMED AT MID-HEIGHT BETWEEN BEAMS, EXCEPT FOR THE LOWEST PORTION, WHERE THE BASE PLATE PROVIDES ONLY PARTIAL FIXITY, THE CONTRA FLEXURE IS ASSUMED TO OCCUR CLOSER TO THE BASE.(OR AT THE BASE FOR PINNED CONDITION, WHERE THE BASE PLATE CANNOT CARRY MOMENT). Vlong = 2 * Vcol = 1,108 I b. RZ ,, Vcol = 554 lb. 1 F 1 = 19 I b. 60 in. F2= 68 lb. Fl F3= 116 I b. F4= 151 I b. F5= 200 lb. BASE PROVIDE PARTIAL FIXITY. SEE BASE PLATE SHT. Mbase = 6095 in.lb. Mupper + Mlower = Mconn'R' + Mconn'L' Mconn'R' = Mconn'L' Mconn * 2 = Mupper + Ml ow er Mconn = [Mupper + Ml ower]/2 RESULTING FORCES ON COLUMN SECTION AXIAL LOAD MOMENT 1 7810 6095 2 6248 16043 3 4686 14014 4 3124 7725 5 1562 5992 Mend(LBF354)= 3150 IN-LB Mend(LBF454)= 6160 IN-LB ~ SAMPLE CALCS: Mconn = (Mtop+Mbottom)/2 + mend = (6095 in lb+ 16043 in-lb)/2 + 6160 in-lb = 17229 in-lb Mconn rr, '2-1.."1 ;.,.. \\, ~ _'.2:--l-1 l~"'I ;.._ )~ ~ 1-1\~-.<: Iv\~('\ 11, c'2..°J 't .... )\, \ ~ 1 D l G\ i I\ \6 c, 1 '-tle. j .... \b ) MATERIAL HANDLING ENGINEERING TEL: (909) 869-0989 • FAX: (909) 869-0981 161 ATLANTIC AVENUE• POMONA• CA 91768 PRoJEcr ______ s~M=A..:.:c _______ _ FOR ____ C;:;..;.R.;.;:O;...:.W.;..:.N..;...=Ll;.;:...FT..:......:.T ...... RU.,_C=K-=S------ SHEET NO. 9,] OF ___ ....,1..,.5 ____ _ CALCULATED BY AL A. DATE ____ 6._/1'""""8 __ /--=9---=8 ___ _ COLUMN ANALYSIS LM2O -DOWN AISLE LOADS ANALYZED PER DIV V, CHAP 22 OF THE 1994 UBC. SECTION PROPERTIES BASED ON THE EFFECTIVE SECTION. P= 6,248 LB M= 16,044 IN-LB Kxlx/rx = 1.2*60 IN/1.314 IN = 54.8 <=== (Kl/r)max KyLy/ry = 0.8*46 IN/1.095 IN = 33.6 Fe= nA2E/(KL/r)maxA2 = 97.0 KSI Fy/2= 25.0 KSI SINCE, Fe > Fy/2 THEN, Fn= Fy(1-Fy/4Fe) = 50 KSl*[1-50 KSl/(4*97 KSI)] = 43.6 KSI Pn= Aeff*Fn = 29,008 LB Oc= 1.92 Pa= Pn/Oc = 29008 LB/1.92 = 15,108 LB P/Pa= 0.41 > 0.15 FLEXURE CHECK: P/Pa + (Cmx*Mx)/(Max*µx) ~ 1.33 P/Pao + Mx/Max ~ 1.33 Pno= Ae*Fy = 0.666 INA2 *50000 PSI = 33,300 LB Pao= Pno/Oc = 33300 LB/1.92 = 17,344 LB Myield=My= Sx*Fy THUS, = 0.766 INA3 * 50000 PSI = 38,300 IN-LB Max= My/Of = 3~00 IN-LB/1.67 = 22,934 IN-LB Per= nA2El/(~L)maxA2 = nA2*29_500 KSl/(1.2*60 IN)A2 = 64,532 LB, (EQ C4.1-1) (EQ. C4-3) (EQ C4-2) (EQ C4-1) (EQ C5-1) (EQ C5-2) t SECTION PROPERTIES A= 3.0 IN B= 3.0 IN C= 0.75 IN t = 0.075 IN Aeff = 0.666 INA2 Ix = 1.149 IN"4 Sx = 0. 766 INA3 rx=1.3141N ly = 0. 798 IN"4 Sy= 0.510 INA3 ry = 1.095 IN Kx = 1.2 Lx = 60.0 IN Ky= 0.80 Ly= 46.0 IN Fy= 50 KSI E= 29,500 KSI Of= 1.67 Crnx= 1.0 Cb= 1.0 µx= {1 /[1-(0c*P/Pcr)]}"-1 = {1/[1-(1.92*6248 LB/64532 LB)]}A-1 = 0.81 (6248 LB/15108 LB) + (1 *16044 IN-LB)/(22934 IN-LB*0.81) = (6248 LB/17344 LB) + (16044 IN-LB/22934 IN-LB) = 1.27 1.06 < 1.33, OK (EQ C5-1) < 1.33, OK (EQ C5-2) MATERIAL HANDLING ENGINEERING TEL: (909) 869-0989 • FAX: (909) 869-0981 161 ATLANTIC AVENUE• POMONA• CA 91768 PROJECT ______ s_M_A_c _______ _ CROWN LIFT TRUCKS FOR ________________ _ SHEETNO. ___ 9_._z ___ OF _ ___,,....,...,..1..,,,..5...,..,,... __ AL A 6/18/98 CALCULATEDBY ____ ._DATE _____ _ COLUMN ANALYSIS LM2O -CROSS AISLE LOADS ANALYZED PER DIV V, CHAP 22 OF THE 1994 UBC. SECTION PROPERTIES BASED ON THE EFFECTIVE SECTION. Pstatic= 7,810 LB Pseismic= 164230IN-LB/56 IN = 2,933 LB Ptotal= 10,743 LB My= V*h = 782 LB * 12 IN = 9,384 IN-LB KxLx/rx = 1.2*51 IN/1.314 IN = 46.6 <=== (Kl/r)max KyLy/ry = 0.8*43 IN/1.095 IN = 31.4 Fe= rrA2E/(KL/r)maxA2 = 134.2 KSI Fy/2= 25.0 KSI SINCE, Fe > Fy /2 THEN, Fn= Fy(1-Fy/4Fe) = 50 KSl*[1-50 KSl/(4*134.2 KSI)] = 45.3 KSI Pn= Aeff*Fn = 30,199 LB Oc= 1.92 Pa= Pn/Oc = 30199 LB/1.92 = 15,728 LB P/Pa= 0.68 > 0.15 FLEXURE CHECK: P/Pa + (Cmx*Mx)/(Max*µx) ~ 1.33 P/Pao + Mx/Max ~ 1.33 Pno= Ae*Fy = 0.666 INA2 *50000 PSI = 33,300 LB Pao= Pno/Oc = 33300 LB/1.92 = 17,344 LB Myield=My= Sy*Fy THUS, = 0.51 INA3 * 50000 PSI = 38,300 IN-LB Max= My/Of = 38300 IN-LB/1.67 = 22,934 IN-LB Per= rrA2El/(KL)maxA2 = rrA2*29500 KSl/(1.2*51 IN)A2 = 89,318 LB (EQ C4.1-1) (EQ. C4-3) (EQ C4-2) (EQ C4-1) (EQ CS-1) (EQ CS-2) V ,-,----'I,..._-----,-, Pcol j +---DEPTH ----f SIDE ELEVATION ~A=n B Ll SECTION PROPERTIES A= 3.0 IN B= 3.0 IN C= 0.75 IN t = 0.075 IN Aeff = 0.666 INA2 Ix = 1.149 INA4 Sx = 0.766 INA3 rx = 1.314 IN ly = 0. 798 INA4 V= 782 LB Mseismic= 164,230 IN-LB h= 12.0 IN DEPTH= 56 IN Sy= 0.510 INA3 ry = 1.095 IN Kx = 1.2 Lx = 51.0 IN Ky= 0.80 Ly= 43.0 IN µx= {1 /[1-(0c*P/Pcr)]}A-1 Fy= 50 KSI E= 29,500 KSI Of= 1.67 Cmx= 1.0 Cb= 1.0 = {1/[1-(1.92*10743 LB/89318 LB)]}A-1 = 0.77 (10743 LB/15728 LB)+ (1*9384 IN-LB)/(22934 IN-LB*0.77) = 1.22 < 1.33, OK (EQ CS-1) < 1.33, OK (EQ CS-2) (10743 LB/17344 LB)+ (9384 IN-LB/22934 IN-LB)= 1.03 MATERIAL HANDLING ENGINEERING TEL: (909) 869-0989 • FAX: (909) 869-0981 161 ATLANTIC AVENUE• POMONA• CA 91768 BEAM ANALYSIS PROJECT ______ S_M_A_C _______ _ CROWN LIFT TRUCKS FOR ________________ _ SHEETNO. __ 1_0_._1 ___ 0F ___ 1_5 ___ _ CALCULATEDBY __ A_L_A_._DATE_6_/_l_8_/9_8 __ BEAM TO COLUMN CONNECTIONS PROVIDE ADEQUATE MOMENT CAPACITY TO STABILIZE THE SYSTEM, ALTHOUGH IT DOES NOT PROVIDE FULL FIXITY. THUS, THE BEAMS SHALL BE ANALYZED ASSUMING PARTIAL END FIXITY. FOR THE COMPUTATION OF THE BEAM TO COLUMN MOMENT CONNECTION CAPACITY, THE PARTIAL END FIXITY MOMENT OF THE BEAM WILL BE ADDED TO THE LONGITUDINAL FRAME MOMENT FOR THE ANALYSIS OF THE CONNECTION. % END FIXITY= 25 % EFFECTIVE MOMENT FOR PARTIALLY FIXED BEAM FOR A SIMPLY SUPPORTED BEAM, THE MAX MOMENT AT THE CENTER IS GIVEN BY WLA2/8. AN ASSUMPTION OF PARTIAL FIXITY WILL DECREASE THIS MAXIMUM MOMENT BY THE FOLLOWING METHOD: 0 = 0.25 Mcenter= Mcenter(simple ends) -0*Mcenter(fixed ends) = wLA2/8 -(0.25 * wLAZ/12) = wLA2/8 -wLA2/48 = 0.104 * wLA2 REDUCTION THUS, COEFF B= 0.104/0.125 = 0.832 Mcenter= P.i*(wLA2/8) = 0.832*(wLA2/8) Mends= 0*Mmax(fixed ends) = (wLA2/12)*0.25 = 0.0208*wLA2 0 0 0 I- EFFECTIVE DEFLECTION FOR PARTIALLY FIXED BEAM -.. " - r Mcenter(simple) Mends ( fi d) ____ Mcenter ixe _______ ----------, (fixed) -.,, .,, .... -,, ,,, __ .,,-J---,_ -----c--~max L---1 TYPICAL BEAM FRONT VIEW FOR A SIMPLY SUPPORTED BEAM, THE MAX DEFLECTION AT THE CENTER IS GIVEN BY SwLA4/384EI. AN ASSUMPTION OF PARTIAL FIXITY WILL DECREASE THIS MAXIMUM DEFLECTION BY THE FOLLOWING METHOD: Amax= [ ( 5-4*0) *w*(L) A4/ ( 384 *E*lx)] MATERIAL HANDLING ENGINEERING TEL: (909) 869-0989 • FAX: (909) 869-0981 161 ATLANTIC AVENUE• POMONA• CA 91768 PROJECT __ -=~~-=-S-=-M=A=C=-==-e-=...------CROWN LIFT TRUCKS FOR _________________ _ SHEETNO. __ l_O_._z ___ OF _ __,~1-5,....,..,,,_,,,,_ __ AL A 6/18/98 CALCULATED BY ____ ._ DATE ______ _ LMT LBF454 INTERIOR BEAM ANALYSIS L LIVE LOAD= 4,320 LB <=== 4 * 1080 LB = 4320 LB PER PAIR OF BEAMS L DEAD LOAD= 100 LB END FIXITY= 25 % Mcenter= 0.1 04 * wLA2 = 30, 799 IN-LB Mends= 0.0208*wLA2 = 6, 1 60 IN-LB Lmax= [1950+ 1200(M1 /M2)]b/Fy M1 /M2= 0.2 <=== SINCE Mcenter > Mends Lmax= (1950 + 240)*2.75/50 = 120.5 IN < L THUS, Fb= 0.6 * Fy = 30,000 PSI MAXIMUM STATIC LOAD PER LEVEL DEPENDS ON: 1) MAXIMUM MOMENT CAPACITY IF, fb= M/Sx THEN, 0.6 * Fy= (B*wLA2/8)/Sx THUS, MAX WEIGHT/LVL= [9.6*Fy*Sx/(B * L)]*a = (9.6* 50 KSI * 1.212 INA3)/(0.832*134 IN)*0.875 = 4,566 LB/LVL <=== GOVERNS OR, 2) MAXIMUM ALLOWABLE DEFLECTION (Amax) IF, AND, THEN, .Mllow= Ul 80 = 0.744 IN A= [ 5w(L)A4/ (3 84*E*lx) ]*B MAX WEIGHT/LVL= 2*[(384*E*lx*6allow)/((5-40)*LA3 )] = 4,926 LB/LVL a STEP BEAM PROPERTIES Ix= 2.811 INA4 Sx= 1.212 INA3 Fy= 50,000 PSI Length=L= 134.0 IN a= 4.500 IN b= 2.750 IN c= 1.875 IN d= 0.875 IN e= 1.500 IN t= 0.0747 IN Mlong.= 1 5029 IN-LB a= IMPACT COEFF.=(1-.25/2)= 0.875 .... , ---T-H-US_,_M_A_X_A_L-LO_W_A_B_L_E _LI_V_E -LO_A_D_P_E_R_L-EV_E_L_=_4-,4-6_6_L_B_/L_V_L___,I B= 0.832 0= 0.25 ALLOWABLE AND ACTUAL BENDING MOMENT AT EACH LEVEL Mstatic= (:l*wLA2/8 Mimpact= Mstatic*l .125 LEVEL 1 Mstatic 30_ 799 IN-LB Mallow(static)= S * Fb Mseismic= Mconn=Mlong.+Mends Mallow( seismic)= S * Fb * 1 . 3 3 Mimpact 35 198 IN-LB Mallow(static) Mseismic Mseismic(allow) 36.360 IN-LB 21189 IN-LB 48 468 IN-LB RESULT GOOD PROJECT ______ S_M_A_C _______ _ CROWN LIFT TRUCKS FOR _________________ _ MATERIAL HANDLING ENGINEERING TEL: (909) 869-0989 • FAX: (909) 869-0981 161 ATLANTIC AVENUE• POMONA• CA 91768 SHEET NO. 10.3 OF ___ 1_5 ___ _ CALCULATED BV __ A_L_A_._ DATE _6_/_1_8_/_9_8 __ LMT LBF354 EXTERIOR BEAM ANALYSIS L LIVE LOAD= 2, 1 60 LB <=== 2 * 1080 LB= 2160 LB PER PAIR OF BEAMS L DEAD LOAD= 100 LB END FIXITY= 25 % Mcenter= 0. 1 04 * wLA2 = 15,748 IN-LB Mends= 0.0208*wLA2 = 3,150 IN-LB Lmax= [1950+ 1200(M1 /M2)]b/Fy M1 /M2= 0.2 <=== SINCE Mcenter > Mends Lmax= (1950 + 240)*2.75/50 = 120.5 IN < L THUS, Fb= 0.6 * Fy = 30,000 PSI MAXIMUM STATIC LOAD PER LEVEL DEPENDS ON: 1) MAXIMUM MOMENT CAPACITY IF, fb= M/Sx THEN, 0.6 * Fy= (B*wLA2/8)/Sx THUS, MAX WEIGHT/LVL= [9.6*Fy*Sx/(B * L)]*u OR, = (9.6* 50 KSI * 0.826 INA3)/(0.832*134 IN)*0.875 = 3,112 LB/LVL 2) MAXIMUM ALLOWABLE DEFLECTION (Amax) IF, Aallow= 1/180 = 0.744 IN AND, A= [Sw(L)A4/(384*E*lx)]*B THEN, MAX WEIGHT/LVL= 2*[(384*E*lx*6allow)/((5-40)*LA3 )] = 2,658 LB/LVL <=== GOVERNS a STEP BEAM PROPERTIES Ix= 1.517 INA4 Sx= 0.826 INA3 Fy= 50,000 PSI Length=L= 134.0 IN a= 3.500 IN b= 2.750 IN C= 1.875 IN d= 0.875 IN e= 1.500 IN t= 0.0747 IN Mlong.= 7981 IN-LB a= IMPACT COEFF.=(1-.25/2)= 0.875 .-----T-H-US_,_M_A_X_A-LL_O_W_A_B_L_E -LI-VE-LO_A_D_P_E_R_L-EV_E_L_=_2-,5-5_8_L_B_/L_V_L--,I B= 0.832 0= 0.25 ALLOWABLE AND ACTUAL BENDING MOMENT AT EACH LEVEL Mstatic= ~*wLA2/8 Mimpact= Mstatic*1.125 Mallow(static)= S * Fb Mallow(seismic)= S * Fb * 1.33 Mseismic= Mconn=Mlong.+Mends MATERIAL HANDLING ENGINEERING TEL: (909) 869-0989 • FAX: (909) 869-0981 161 ATLANTIC AVENUE• POMONA• CA 91768 BEAM TO COLUMN ANALYSIS Mconn max= Mconn. seismic + Mend = 121 '1 89 IN-LB I SMAC PROJECT ___ ,...,..~..,.........,.......-r-"1...,.....,,.,..-----CRQWN LIF I I ROCKS FOR----~,~,-,,,..-------~,~s---- SHEET NO. ___ . _______ OF---,--,.,.-rr..,.,...,.,_--A[ A. 6718798 CALCULATED BY _____ DATE ______ _ Mupper 11 CONNECTION CAPACITY DEPENDS ON THE FOLLOWING PARAMETERS: 1) SHEAR CAPACITY OF BOLTS BOLT DIAMETER= 7 /16 IN Fy= 50,000 PSI Pmax-shear= 0.4 * Fy * Area = 50000 PSI* (0.4375 IN)A2 * n/4 = 3,006.6 LB 2) BEARING CAPACITY ON COLUMN Fu= 65,000 PSI Pmax-brg= Bearing Area * Fbearing = (0.5 *thickness)* Fu = (0.5 * 0.075 IN)* (65000 PSI) = 2,437.5 LB < 3006.6 LB 3) MOMENT CAPACITY OF BRACKET Mcap= Sbracket * Fbending = 0.105 INA3 * 0.66 * Fy = 3,465 IN-LB C= Mcap/0.75 = 1.59 * P1 THUS, P1 = 0.839 * Mcap = 2,907 IN-LB > 2437.5 LB THUS, GOVERNING VALUE IS THE MIN VALUE OF P1, P1-eff= 2,438 LB SIMILARLY, Pr= (0.4 * Fy * RIVET DIAM) = 1,534 IN-LB THUS, C= 5,227 IN-LB Mconn Mconn ( 00 ) 0 0 0 O o<----JO oi-- u Mlower 1" I 2" 2" , 1/2" 1/2" ---=-------"<-- C= 3*P1 + P2 = P1 +P1 *(2.5/4.5)+P1 *(0.5/4.5)+P2*(3.5/4.5) = 1.66*P1 + 0. 77*P2 Sbracket= 0.105 INA3 SAFETY PIN DIAM= 0.31 25 IN P2= P1*(2.5/4.5) P3= P1*(0.5/4.5) P4= Pr*(3.5/4.5) Mconn-allow= P1 *( 4.5 IN) + P2*(2.5 IN) + P3*(0.5 IN) + Pr*(3.5 IN) * 1.33 = 21,618 IN-LB > Mconn max, OK Mbracket= 0.75" * C Mbracket-cap= 0.66*Fy*Sbracket*1.33 . . = = MATERIAL HANDLING ENGINEERING TEL: (909) 869-0989 • FAX: (909) 869-0981 161 ATLANTIC AVENUE• POMONA• CA 91768 STEP BEAM WELD CAPACITY SCOPE: PROJECT _____ ___,;;S __ M.;.;.A ..... C~------- CROWN LIFT TRUCKS FOR _______________ .;;_ ___ _ SHEET NO. 11.2 OF ___ 1"'-"5=---- CALCULATED BV __ A_L_A_. _ DATE __ 6_/1_8 ___ /_9_8 __ DETERMINE THE EFFECTIVE SECTION PROPERTIES OF THE MEMBER WELD SHOWN BELOW. THE EFFECT OF THE ROUNDED CORNERS ARE TAKEN INTO ACCOUNT. ----, I L--- ----1 --- ----1 --- TYPE "A" WELD TYPE "B" WELD TYPE "C" WELD WELD SECTION PROPERTIES 0.125 INCH THICK. TYPE "A" WELD AREA=I0.988 INA2 !MOMENT CAPACITY= 121,301 IN-LB Sx=I0.76 INA3 WELD MOMENT CAPACITY UNDER SEISMIC LOADING Max Mconn= 21,189 IN-LB Fbase-metal= 0.6*Fy-base metal = 30,000 PSI Fweld= 0.3*Fu = 21,000 PSI Feffective= 21,000 PSI CAPACITY= Feff * Sx-weld * 1.33 = 21000 PSI* 0.761 INA3 * 1.33 = 21,301 IN-LB > MAX Mconn, OK TYPE "D" WELD / WELD TYPE j TYPE "A" WELD PR0JECT __ S_M_A_C __________ _ CROWN (I ND) FOR ______________ _ SHEET N0. ___ 12 ___ OF ____ 15 __ _ MATERIAL HANDLING ENGINEERING TEL: (909)869-0989 • FAX: (909)869-0981 161 ATLANTIC STREET• POMONA• CA 91768 CALCULATED BY __ A_L_A_. _ DATE_O_6_-_16_-_1_9_9_8_ TRANSVERSE ANALYSIS: BRACING :EXTERIOR FRAMES IT IS ASSUMED THAT THE LOWER PANEL RESISTS THE FRAME SHEAR IN TENSION AND COMPRESSION. IF HORIZONTAL AND DIAGONAL MEMBERS ARE THE SAME, ANALYSIS WILL BE DONE ON THE DIAGONAL MEMBER AS IT WILL GOVERN. DIAGONAL BRACING : COMPRESS I ON MEMBER L di ag. = [(L-6)12+(D-2* Bcol )12]1.5 = 64.0 Vdi ag =Vtrans * Ldi ag. / D =897# kl/rmi n = [ 1 * 64.0] I .404 = 158.4 Fa =[12TI l2E]/[23(kl /r)l2] = 5944 psi. fa/Fa =Vdi ag/(Area* Fa) = 0.52 ---- DIAGQ\IAL AND Hffil ZQ\ITAL BRACING l L= 46" l ---- Area= .288 "AZ rmin= .404 " t= .0747 II W= 1.5 " H= 1.25 " PROJECT __ S_M_A_C _________ _ CROWN (IND) FOR _____ _;._..;_ ______ _ SHEET N0. ___ 13 ___ OF ____ 15 __ _ MATERIAL HANDLING ENGINEERING TEL: (909)869-0989 • FAX: (909)869-0981 161 ATLAN11C STREET• POMONA• CA 91768 CALCULATED BY AL A. DATE_O6_-_1_6_-1_9_9_8_ OVERTURNING :EXTERIOR FRAMES ANALYSIS OF OVERTURNING WILL BE BASED ON SECTION 2237.7.1 OF THE 1994 Uniform Building Code. . FULLY LOADED TOT AL SHEAR = 784 I b. Mot = Vtrans * ht * 1.1 5 = 784 * 209 * 1.15 = 164230 in.lb. 282# Mst = I(Wp+.85wDL) * d/2 = ( 7560+.85 * 500) * 56/2 = 211680 in.lb. Pupl i ft = 1 (Mot -Mst)/d Pupl i ft <= 0 NO UPLIFT TOP SHELF LOADED SHEAR = 1 5 6 I b. Mot = Vtop * h * 1 .1 5 = 1 56 * 248 * 1.15 = 44757 in.lb. Mst = (Wp+w DL) * d/2 = ( 1512+.85 * 500) * 56/2 = 42336 in.lb. Pupl ift = 1 (Mot -Mst)/d = 43 lb. <-CRITICAL USE 2 ea. 1 /2 x 2-1 /8MI N. EMBED. Ml N. EMBED. ANCHOR. • f / 1!!# }-""' 164# 46" /- f-""' 95# }--.. r_/ .,.27# ~ 56",t CAPACITY OF 1/2 x 2-1/8MIN. EMBED.= 1140 lb. PULLOUT & 1455 lb. SHEAR COMBINED STRESS 1 = 0 / 2280 + 392 / 2910 = 0.13 COMBINED STRESS2 = 43 / 2280 + 78 / 2910 = 0.05 MATERIAL HANDLING ENGINEERING TEL: (909)869-0989 • FAX: (909)869-0981 161 ATLANTIC STREET• POMONA• CA 91768 BASE PLATE :EXTERIOR FRAMES PROJECT __ S_M_A_C __________ _ CROWN (IND) FOR ______________ _ SHEET N0. ___ 1_4 ___ OF ____ l 5 __ _ CALCULATED BY __ A_L_A_. _ DATE_O_6-_1_6_-_1_9_9_8_ BASE PLATE WILL BE ANALYZED WITH THE RECTANGULAR STRESS RESULTING FROM THE VERTICAL LOAD P, COMBINED WITH THE TRIANGULAR STRESSES RESULTiNG FROM THE MOMENT Mb (IF ANY). THERE ARE 3 CRITERIA IN DETERMINING Mb. THEY ARE 1) MOMENT CAPACITY OF THE BASE PLATE, 2) MOMENT CAPACITY OF THE ANCHOR BOLTS, AND 3) Vh/2 (FULL FIXITY). Mb IS THE SMALLEST VALUE OBTAINED FROM THE 3 CRITERIA ABOVE. Pcol = 4030 I b. B = 4 in. Mb= 3236 in.lb. D=7 in. b = 3 in. P/A =Pcol/(D*B) = 143.9 psi. M/S = Mb/((D*B12)/6) = 173.3 psi. fb2 = 2b/B*fb = 43.34 psi. f bl = fb-fb2 = 130.0 psi. Mbase = wb112I2 = bl 1212[ fa.+ fbl + .67fb2] Mbase = 37.9 in.lb. Sbase = 1 *t/2/6 = 0.0234 i n/3 Fbase = .75Fy * 1 .33 = 36000 psi. fb/Fb = Mbase/(Sbase* Fbase) = .04 ANCHOR TENSION IMo =0 T* d2=[Mbase-Pcol * b/2] T = Mbase/d2 -Pcol*b/2d2 T =-11 2 4 I b .. t = .375 in. bl = .5 in. ~ iPcol t bl+-: -+ blt ral1111ff 1- fb !Pcol T t== I. IMbase d2~ l' dl dl ~/ PROJECT __ S_M_A_C __________ _ CROWN (IND) FOR ______________ _ SHEET N0. ___ 1_5 ___ OF ____ 15 __ _ MATERIAL HANDLING ENGINEERING TEL: (909)869-0989 • FAX: (909)869-0981 161 ATLANTIC STREET• POMONA• CA 91768 CALCULATED BY AL A. DATE_0_6-_1_6_-_1_9_9_8_ SLAB AND SOIL :EXTERIOR FRAMES THE SLAB IS CHECKED FOR PUNCTURE STRESS. IF NO PUNCTURE OCCURS, _IT WILL BE ASSUMED TO DISTRIBUTE THE LOAD OVER A LARGER AREA OF SOIL AND HENCE, WILL ACT AS A FOOTING. (a) PUNCTURE Pmax = 1.4 DEAD LOAD+ 1.7 LIVE LOAD ~ P max = 1 .4 * P col + 1 .7 * (Mot/ d) /_,) f = 10,628 lb. Fpunct = 2*sqrt(f'c) = 126.5 psi. I I Apunct = [(w+t/2)+(d+t/2)]*2*t = 204.0 in/2 fv/Fv = Pmax/(Apunct*Fpunct) = 0.41 (b) SLAB TENSION / b}--B---} \. I"' Asoi I = Pmax/(1.33 * fsoi I)= 7.97 ft/2 = 1,148 i n.12 L = sqrt(Asoi I)= 33.9 in. , L---------,.f~v B = sqrt(w*d) + t = 11.3 in. b = (L-B)/2 = 11.3 in. Mconc =wb12/2 = (1.33*fsoil*b'2)/(144*2) = 590.5 in.lb. Scone= 1*tl2/6 = 6.00 in/3 Fconc = 50 *sqrt(f'c) = 284.60 psi. fb/Fb = Mconc/(Sconc*Fconc) = 0.35 BASE PLATE w =4 in. d = 7 in. CONCRETE t = 6 in. f 'c = 4000 psi. SOIL fs = 1000 psf.