Princeton University Hydraulic Elevator Date: June 1, 2009 Section 14212 – Page 1 SECTION 14212 HYDRAULIC ELEVATOR PART 1 1.1 GENERAL DESCRIPTION A. Work of this section includes all labor, materials, equipment and service necessary to complete the elevator or elevators as shown on the drawings and specified herein and/or specified in the master installation and maintenance specifications. B. 1.2 All work will be installed in accordance with the most restrictive requirements of the ASME A17.
Princeton University Hydraulic Elevator Date: June 1, 2009 Section 14212 – Page 2 contractor should be deleted from the listing below and placed in the appropriate location elsewhere in this specification.] 1. Lighting and GFCI 120 VAC convenience outlets in pit, machine room, and overhead machinery space. 2. Dedicated non-GFCI 120 VAC outlet in pit for sump pump and scavenger pump. 3.
Princeton University Hydraulic Elevator Date: June 1, 2009 Section 14212 – Page 3 3 B. North American/Hutcherson Elevator The approved elevator component manufactures are: 1. Hydraulic Components – CEMCO, Canton, or ThyssenKrupp. EECO units are not acceptable. 2. Tracks, Hangers and Interlocks – G.A.L. 3. Door Operators: G.A.L. MOVFR 4. Fixtures (including Car Top Inspection Station) – Adams (EPCO) Survivor Plus vandalism resistant fixtures 5. Door Protection: a. b.
Princeton University Hydraulic Elevator Date: June 1, 2009 Section 14212 – Page 4 1.5 4. American with Disabilities Act 5. National Electrical Code REFERENCE STANDARDS A. AISC – Specification for the Design, Fabrication and Erection of Structural Steel for Buildings B. ANSI A117.1 – Building and Facilities – Providing Accessibility and Usability for Physically Handicapped People C. ANSI/ASME A17.2 – Inspector’s Manual for Elevators and Escalators D. ANSI/AWS D1.
Princeton University Hydraulic Elevator Date: June 1, 2009 Section 14212 – Page 5 1.6 SUBMITTALS A. Comply with the requirements of Section 01300. B. Submit the following: 1. 2. Samples Item No. Quantity Size Description S1 3 12” x 12” Glass S2 3 12” x 12” Baked Enamel S3 3 12” x 12” Stainless Steel S4 3 12” x 12” Brushed or Antique Bronze S5 1 set 12” x 12” Plastic Laminate Cab Wall Panel Samples S6 1 Actual Button Sample S7 1 Actual Braille Plate Shop Drawings a. b.
Princeton University Hydraulic Elevator Date: June 1, 2009 Section 14212 – Page 6 a. b. c. d. e. 4. 1.7 Rail loads Pit reactions Heat emissions in machine room Electrical loads including starting, accelerating and running currents. Include all auxiliary loads. Jack loads Submit catalog cuts of controller car enclosure and other elevator equipment for approval. PERMITS, TESTING AND INSPECTIONS A.
Princeton University Hydraulic Elevator Date: June 1, 2009 Section 14212 – Page 7 1.10 OPERATING AND MAINTENANCE DATA A. Provide three (3) sets of the following documents prior to or on the date of final acceptance of the elevators: 1. Furnish neatly bound instructions giving the method of control and operation, together with data on all switches, relays and other devices as will be needed for servicing and for ordering replacements. 2.
Princeton University Hydraulic Elevator Date: June 1, 2009 Section 14212 – Page 8 Close the gate valve in the motor room and observe that the pressure does not drop. If the pressure drop is 50 pounds or more over a 2 minute period, then a second notice to the owner should be issued and the equipment shut down. 3. 1.11 Final test Procedure: The test procedure set forth in A17.1 is required if any doubt exists after performing the procedure in paragraph 2 above. WARRANTY MAINTENANCE A.
Princeton University Hydraulic Elevator Date: June 1, 2009 Section 14212 – Page 9 2.2 FINISH MATERIALS A. Shop and Touch-Up Primer: SSPC 15, Type 1, red oxide B. 2.3 Finish Paint (for Metal Surfaces): Baked alkyd enamel, custom colors and glass as selected from NAAMM metal finish manual by the Architect. GENERAL DESCRIPTION NOTE TO SPECIFICATION WRITER: Several of the entries below require your input based on individual job conditions. You must insert data below wherever you see the word “Specify”. A.
Princeton University Hydraulic Elevator Date: June 1, 2009 Section 14212 – Page 10 b. Duplex Selective Collective (Use for two elevators side-by-side serving three or more floors). 13. Control – AC for Hydraulic 14. Control Features Independent Operation Fire Recall Service Variable Door Times Anti-Nuisance Feature Automatic Car Light/Fan Feature Emergency Power Operation 15. Fireman’s Control – Phase I and Phase II 16. Number of Push Button Risers – One (1) 17.
Princeton University Hydraulic Elevator Date: June 1, 2009 Section 14212 – Page 11 Entrances are to be Unit Frame Construction with welded and invisible joints, ground smooth, 2” wide square profile. 27. Sills a. Car – Extruded Aluminum [Use Cast Iron for freight Elevators above 8,000 pounds] [Extruded bronze antiqued to match fixtures when bronze is cited in lieu of stainless steel] b.
Princeton University Hydraulic Elevator Date: June 1, 2009 Section 14212 – Page 12 c. Corridor Push Button Station – 1/8” Faceplate Cover with Tamperproof Screws. Specify desired finish. d. Car and Hall Call Buttons – Target Type as manufactured by Adams (EPCO) Model Survivor/Plus. Specify button finish. [Car position indicator shall be included in hall fixtures when more than three floors are served.] e. Lanterns with Gong – Specify either Hall or Car Lanterns.
Princeton University Hydraulic Elevator Date: June 1, 2009 Section 14212 – Page 13 2.4 FIXED HOISTWAY EQUIPMENT A. Guide Rails, Inserts and Brackets B. C. 1. Provide standard T section guide rails with tongue and grooved joints for the Car. Use not less than 15-pound rails. 2. Use not less than 3/4” thick steel machined fishplates to form rail joints. Connect rails to fishplate with four (4) bolts. 3. Brackets shall be used to support the rails from the hoistway framing and/or inserts.
Princeton University Hydraulic Elevator Date: June 1, 2009 Section 14212 – Page 14 D. Interlocks, Contacts and Unlocking Devices E. F. 1. Equip each elevator hoistway door with a positive interlock, which shall prevent the operation of the elevator unless all elevator doors are closed and maintained closed when elevator is away form the landing.
Princeton University Hydraulic Elevator Date: June 1, 2009 Section 14212 – Page 15 a. Provide each door panel with two removable laminated plastic composition guides and one steel fire stop guide between them. Arrange the guides to run in sill grooves with a minimum clearance. The guide mounting shall permit their replacement without removing the door from the hangers. 3. Entrances shall bear 1-1/2 hour label of Underwriter’s Laboratories, Inc. 4.
Princeton University Hydraulic Elevator Date: June 1, 2009 Section 14212 – Page 16 H. Hoistway Access I. 1. Provide hoistway door unlocking devices and holes at each entrance. The keyhole of the device shall be fitted with a metal ferrule that matches the door finish. 2. Hoistway Access Switches: Mount in entrance frame side jamb at the top and bottom floors. Provide switch without faceplate. Well Installation for Hydraulic Elevator: 1. All work installing the well shall be in accordance with N.J.A.
Princeton University Hydraulic Elevator Date: June 1, 2009 Section 14212 – Page 17 J. Jack Units 1. Design and construct the jack unit in accordance with the applicable requirements of the ASME Code. It shall be of sufficient size to lift the gross load at the rated speed to the height specified and shall be factory tested to ensure adequate strength and freedom from leakage. No brittle material, such as grey cast iron, shall be used in the jack construction. 2. The jack units shall consist of: a. b. c.
Princeton University Hydraulic Elevator Date: June 1, 2009 Section 14212 – Page 18 L. 2.5 Scavenger Pump 1. Provide a positive displacement, rotary type pump for the hydraulic elevators. The pump shall have a discharge pressure of 200 psi maximum and a capacity of 10 gallons per hour. 2. The pump shall be self-priming and self-lubricating. The pump shall be equipped with a 100-mesh screen strainer. 3. The pump housing shall be constructed of brass with stainless steel internal parts. 4.
Princeton University Hydraulic Elevator Date: June 1, 2009 Section 14212 – Page 19 C. Car Equipment 1. 2. D. The car frame shall be made of steel members, with a factor of safety as required by the ASME Code. In the event top emergency exit refuge space is restricted due to existing overhead constraints, modify cross head arrangement to suit. There will be no modification to building structure. The car platform shall consist of a steel frame with necessary steel stringers, all securely welded together.
Princeton University Hydraulic Elevator Date: June 1, 2009 Section 14212 – Page 20 5. Door Contact – Equip the car door with an electric contact, which will prevent operation of the car unless the car door is in the closed position. The door contacts shall not be readily accessible form the inside of the car. 6.
Princeton University Hydraulic Elevator Date: June 1, 2009 Section 14212 – Page 21 B. 3. Run all wiring in galvanized conduit or in metal wireways. EMT and flexible conduit shall be connected on either end by use of steel set screw fittings. Note: No die cast fittings will be allowed. 4. Flexible metal conduit with ground wiring may be used for short runs from main hoistway wireway to interlocks, fixtures, limit switches and between control panels, motors and brakes. 5.
Princeton University Hydraulic Elevator Date: June 1, 2009 Section 14212 – Page 22 5. If the car has no car calls registered and arrives at a floor where both up and down hall calls have been registered, the car shall respond to the hall call corresponding to the direction of car travel.
Princeton University Hydraulic Elevator Date: June 1, 2009 Section 14212 – Page 23 6. C. If either car is removed from service, the other car shall respond to all registered hall calls and its own car calls. Independent Service 1. Arrange elevator controls to permit each car to be removed from normal service and to operate in response to car calls only. The door shall not close until car button for another landing is pressed.
Princeton University Hydraulic Elevator Date: June 1, 2009 Section 14212 – Page 24 E. F. Firefighter Operation 1. Provide Phase I and Phase II firefighter operation in accordance with requirements of Code and local authorities. 2. Directly engrave the firefighter instructions and symbols to the faceplate of the hall call stations and the car operating panels. (Delete engraving if separate pictographs will be utilized.) 3.
Princeton University Hydraulic Elevator Date: June 1, 2009 Section 14212 – Page 25 c. d. e. f. g. I. Auto Lowering 1. Provide an automatic lowering feature for all elevators. In the case of normal power outage, an emergency operation shall be activated, lowering the car to the ground floor. The doors shall open automatically to discharge passengers. The elevator shall remain parked with its doors closed and door open button operative until normal power is restored.
Princeton University Hydraulic Elevator Date: June 1, 2009 Section 14212 – Page 26 2. Provide a reinforced overhead oil reservoir with a tight fitting tank over the oil control unit. a. Included in the reservoir shall be an oil fill strainer with air filter and oil level dip stick assembly, and a self-cleaning strainer in the suction line. 3. Design the pump for oil hydraulic elevator service.
Princeton University Hydraulic Elevator Date: June 1, 2009 Section 14212 – Page 27 C. 2 Provide a thermostatically controlled heater in the oil tank to maintain proper operating oil temperature. Note to specification writer: This requirement can be deleted if the hoistway and elevator machine room are in spaces heated to occupancy temperatures. 3 Provide manufacturer’s standard oil cooler, sized and designed to maintain a maximum oil temperature of 100 degrees F.
Princeton University Hydraulic Elevator Date: June 1, 2009 Section 14212 – Page 28 e. f. g. h. i. j. k. l. m. 5. B. E. F. Phase II firefighter’s service operating procedures and building name shall be engraved directly on the locking Firemen’s Control Panel Cover. Show a Fire Light on the face of COP. Do not provide a Firemen’s phone plug. A locked service cabinet containing the key switches required to operate and maintain the elevator, including, but not limited to: 1). Light switch 2).
Princeton University Hydraulic Elevator Date: June 1, 2009 Section 14212 – Page 29 1. Provide a single button at each terminal floor and two buttons at all other floors. Provide faceplate with tamperproof screws. [Include integral LED car position indicator in hall call stations when the elevator services more than three floors.] Hall call stations shall have a finish to match the car’s main operating panel. 2. Install a firefighter key switch in the main lobby level station. a.
Princeton University Hydraulic Elevator Date: June 1, 2009 Section 14212 – Page 30 G. Fixture Attachment, Finish and Design 1. Graphics shall be selected by the Architect. 2. Refer to drawings for other design requirements. The faceplates shall be 1/8” thick with eased edges. Finish to match metal surfaces specified. The fixtures shall be as selected by the Architect from the manufacturers line of vandal resistant fixtures. 3. The screw and key switch cylinder finishes shall match faceplate finish.
Princeton University Hydraulic Elevator Date: June 1, 2009 Section 14212 – Page 31 2.10 SPECIAL REQUIREMENTS A. Handicapped Requirements 1. Comply with ADA requirements. 2. Locate door-reopening devices at 5 and 29 inches above the finish floor. 3. Locate the alarm button and emergency stop switch at not less than 35 inches, and floor and control button not more than 54 inches. 4. Provide car buttons with raised markings in the panel. Letters and numbers shall be a minimum of 5/8 inch and raised .
Princeton University Hydraulic Elevator Date: June 1, 2009 Section 14212 – Page 32 paragraphs list more than one choice in brackets. Select the option desired and delete the others. In option 3, delete all bracketed items concerning an antique finish, if a standard brushed bronze finish is desired. A. Option 1: Passenger Elevator: Provide complete car enclosure as specified herein. Provide the following features as a minimum: 1.
Princeton University Hydraulic Elevator Date: June 1, 2009 Section 14212 – Page 33 11. Suspended Ceiling: Three-section [stainless steel] [anodized aluminum] dropframe with milk-white translucent diffusers. 12. Floor: [VCT floor tile] [carpet] will be installed by others. Recess floor the thickness of the [floor tile] [carpet] [Modify if the elevator contractor is to install the floor surface material and insert a description of the floor tile or carpeting] 13.
Princeton University Hydraulic Elevator Date: June 1, 2009 Section 14212 – Page 34 9. Suspended Ceiling: Three-section [stainless steel] [anodized aluminum] dropframe with milk-white translucent diffusers. 10. Floor: [VCT floor tile] [carpet] will be installed by others. Recess floor the thickness of the [floor tile] [carpet] [Modify if the elevator contractor is to install the floor surface material and insert a description of the floor tile or carpeting] 11.
Princeton University Hydraulic Elevator Date: June 1, 2009 Section 14212 – Page 35 center. Return handrail ends to car walls. [Finish the brushed bronze to an antique finish to match the car walls.] 7. Ventilation: Two-speed exhaust blower mounted to car canopy on isolated rubber grommets. Morrison Products, Model OE with a diffuser and grille. 8. Lighting: T-8 fluorescent fixtures surface mounted to the ceiling. 9.
Princeton University Hydraulic Elevator Date: June 1, 2009 Section 14212 – Page 36 3. Front Return Panels: Reinforced 14 gauge [brushed][textured 5wl pattern] no. 4 finish stainless steel with cutout for car operating panel, etc. 4. Entrance columns and Transoms: Reinforced 14 gauge [brushed][textured 5wl pattern] no. 4 finish stainless steel. 5. Car Door Panels: Minimum reinforced 16 gauge textured 5wl pattern no. 4 finish stainless steel to match shell.
Princeton University Hydraulic Elevator Date: June 1, 2009 Section 14212 – Page 37 B. Examine surface and conditions to which this work is to be attached or applied, and notify the Architect in writing, if conditions or surfaces are detrimental to the proper and expeditious installation of the work. Starting the work shall imply acceptance of the surfaces and conditions to perform the work as specified. C. Verify, by measurements at the job site, dimensions affecting the work.
Princeton University Hydraulic Elevator Date: June 1, 2009 Section 14212 – Page 38 N. Remove oil, dirt and impurities and give a factory coat of rust inhibitive paint to all exposed surfaces of struts, hanger supports, covers, fascias, toe guards, dust covers and other ferrous metal. O. Pre-hang traveling cables for at least 24 hours with ends suitably weighted to eliminate twisting. P. Provide isolation pad between platen head and car structure. Q.
