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GB/T 35857-2018 English PDF

Standard IDUSDBUY PDFLead-DaysStandard Title (Description)Status
GB/T 35857-2018RFQ ASK 3 days Safety rules for the construction and installation of electric lifts with inclined path Valid

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Basic data

Standard ID: GB/T 35857-2018 (GB/T35857-2018)
Description (Translated English): Safety rules for the construction and installation of electric lifts with inclined path
Sector / Industry: National Standard (Recommended)
Classification of Chinese Standard: Q78
Classification of International Standard: 91.140.90
Word Count Estimation: 150,136
Date of Issue: 2018-02-06
Date of Implementation: 2019-03-01
Issuing agency(ies): State Administration for Market Regulation, China National Standardization Administration

GB/T 35857-2018: Safety rules for the construction and installation of electric lifts with inclined path


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Safety rules for the construction and installation ofelectric lifts with inclined path ICS 91.140.90 Q78 National Standards of People's Republic of China Safety regulations for manufacturing and installation of inclined elevators Published on.2018-02-06 2019-03-01 implementation General Administration of Quality Supervision, Inspection and Quarantine of the People's Republic of China China National Standardization Administration issued

Content

Foreword III Introduction IV 1 Scope 1 2 Normative references 2 3 Terms and Definitions 4 4 Major hazard list 7 5 Safety requirements and/or protective measures 9 5.1 General 9 5.2 Well 9 5.3 Machine space, work area and pulley space 17 5.4 floor door 25 5.5 Cars, carriers and counterweights (balance weight) 32 5.6 Suspension devices, compensating devices, overspeed protection devices and carrier accidental mobile protection devices 41 5.7 Running rails, guide rails, guard rails, and safety clamp clamping parts, bumpers, limit switches 49 5.8 The distance between the carrier and the hoistway wall facing the entrance of the carrier and the distance between the carrier and the counterweight (balance weight) 53 5.9 drive host 54 5.10 Electrical installation and electrical equipment 59 5.11 Protection, control, and priority of electrical faults 63 6 Verification of safety requirements and/or protective measures 70 6.1 Inspection method 70 6.2 Detailed data, test reports and certificates 76 7 Use information 76 7.1 General 76 7.2 Signal and warning devices 77 7.3 Inspection and test 80 7.4 Random files (especially the instruction manual) 81 Appendix A (Normative) Electrical Safety Devices Table 84 Appendix B (normative appendix) Triangle unlocking device 86 Appendix C (informative) Technical Paper 87 Appendix D (Normative Appendix) Inspection prior to delivery 89 Appendix E (informative) Periodic inspection, major modification or post-accident inspection 92 Appendix F (Normative) Type test certification procedures for safety components 93 Appendix G (informative) Calculation of support structure, running track, guide rail and safety clamp clamping parts 113 Appendix H (Normative) Troubleshooting of Electrical Components 116 Appendix I (informative) Safety circuit 120 Appendix J (Normative Appendix) Pendulum Impact Test 121 Appendix K (informative) Traction calculation 127 Appendix L (Normative Appendix) Calculation of the safety factor of the suspended wire rope 134 Appendix M (informative) Entrance to machine space and work area 138 Appendix N (informative) Interface to buildings 139 Appendix O (informative) Environmental factors 141 Appendix P (informative) Determination of the anti-slip properties of the floor surface 142 Appendix Q (informative appendix) Schematic diagram of the installation of the armrests in the car 143 References 144

Foreword

This standard was drafted in accordance with the rules given in GB/T 1.1-2009. This standard is proposed and managed by the National Elevator Standardization Technical Committee (SAC/TC196). This standard is drafted by. Southeast Elevator Co., Ltd. Participated in the drafting of this standard. Guangdong Special Equipment Inspection Institute, China Academy of Building Research Construction Mechanization Research Branch, Suzhou Lai Yin Elevator Manufacturing Co., Ltd., Shanghai Desheng Migao Elevator Co., Ltd., Shanghai Mitsubishi Elevator Co., Ltd., Thyssen Elevator Co., Ltd., Yongda Electric Ladder Equipment (China) Co., Ltd., Shanghai Aidenberg Elevator Co., Ltd., Shanghai Special Equipment Supervision and Inspection Technology Research Institute, Shanghai Jiading District Special Equipment Supervision and Inspection Institute, Shanghai Pudong New Area Special Equipment Supervision and Inspection Institute, National Elevator Quality Supervision and Inspection Center, Kangli Elevator Co., Ltd., Shenlong Elevator Co., Ltd., Lingwang Elevator Co., Ltd., Younaide Elevator Co., Ltd. Limited company, Hebei Oriental Fidelity Machinery Co., Ltd. The main drafters of this standard. Ma Yiping, Luo Zhiqun, Chen Fengwang, Li Yunbo, Yan Xiao, Zhu Weiliang, Guo Guishi, Shen Yijun, Li Wei, Yan Hailei, Guo Weizhong, Li Qizhen, Li Gang, Gu Nansen, Tang Zhirong, Zhou Guoqiang, Chen Jun, Wang Qibing, Jia Yuhua.

Introduction

0.1 General According to GB/T 15706, this standard is a Class C standard. The scope of this standard indicates the extent to which the machinery to which this standard applies and the hazards, hazards and hazardous events covered. When the requirements of this Class C standard are different from those in the Class A or Class B standards, it is designed and manufactured in accordance with this Class C standard. For machines, the requirements in this Class C standard take precedence over those in other standards. This standard specifies the safety regulations for inclined elevators for the purpose of protecting personnel and goods, and prevents the normal use and maintenance of inclined elevators. Risk of accidents related to protection, inspection or emergency operations. 0.2 Factors to consider Various types of inclined elevators have been considered due to the structural (civil engineering), inclination angle and external factors of the following structures. Risks and dangers such as. a) large outward opening; b) the possibility of walking in the hoistway; c) the arrangement of the doors; d) The horizontal component of the deceleration when the carrier is stopped. It is possible to walk in the hoistway and the car top can be used as a maintenance work area. The relevant method for protecting workers and evacuating from the car is different. 0.3 principle The following principles were adopted in the development of this standard. This standard does not repeat the general techniques applicable to any electrical, mechanical and building structures including fire protection of building components. specification. However, it is necessary to develop certain requirements to ensure good manufacturing quality, as they may be unique to manufacturers of inclined elevators. The requirements, or because in the use of inclined elevators, may have more stringent requirements than other locations. This standard gives the most basic requirements for buildings or structures installed in inclined elevators, and the relevant national regulations and other regulations are not Can be ignored. Typical terms affected by this are the minimum requirements for the height of the machine room, the height between the pulleys and the size of the entrance. When parts cannot be moved by hand due to weight, size and/or shape, then these parts should. a) setting attachments for lifting by the lifting device; or b) designed to be connected to a lifting attachment (eg by means of a threaded hole); or c) has a shape that is easily connected to a standard type of lifting device. This standard only specifies that the materials and components used should meet the requirements for safe operation of inclined elevators. 0.4 hypothesis The content of this standard is based on the assumption that personnel can independently use inclined elevators. The buyer and the supplier (installer) negotiated and agreed on the following (see Appendix O). a) the intended use of the inclined elevator; b) environmental conditions; c) civil engineering issues; d) other matters related to the installation location (eg high voltage power lines, bridges, dangerous buildings and natural barriers); e) Matters related to rescue. The risks associated with each component that makes up a complete inclined elevator have been considered and the corresponding requirements have been established. Parts. --- Designed in accordance with common engineering practices and calculation specifications, taking into account all failure modes; --- Have reliable mechanical and electrical structure; --- Made of materials of sufficient strength and good quality; ---flawless. Do not use hazardous materials such as asbestos. The parts are well maintained and in a normal working condition, and despite the wear and tear, they still meet the required dimensions. The selected and configured components do not affect the safe operation of the inclined elevator under the expected environmental impact and specific working conditions. Especially for the extreme temperatures approved by customers and suppliers, the choice of materials and components should pay special attention to maintaining their characteristics, such as the impact of steel. Strength, hardness and performance of plastics, function of electrical components, viscosity of oil, etc. The load-bearing support is designed to guarantee a load range of 0 to 100% of the rated load plus the design-allowed overload (see 5.11.2.5.2). The safe and normal operation of the elevator inside the inclined line. The requirements of this standard for electrical safety devices (see 5.11.1.2) are that if the electrical safety device fully complies with the requirements of this standard, then it is lost. The possibility of effectiveness does not have to be considered. When the user uses the inclined elevator according to the predetermined method, the danger caused by his own negligence and unintentional carelessness shall be given. protection. In some cases, the user may make some kind of reckless action, and this standard does not consider the possibility of two kinds of reckless actions at the same time. (or) Violation of the instructions for use. If during the maintenance period, the safety device that the user usually does not easily access is intentionally put into an invalid state, the safe operation of the inclined elevator at this time If there is no guarantee, additional measures must be taken to ensure the safety of the user in accordance with the maintenance procedures. It is assumed that maintenance personnel are instructed and work according to the regulations. Horizontal forces and/or energy are given in the relevant provisions of this standard. --- Usually the static force that a person can apply is. 300N; --- The energy generated by the impact depends on the inclined elevator components that may have an impact. If there are no other regulations, the impact is generated The force is. 1000N. In addition to the following, mechanical devices manufactured according to good examples and standards will not be damaged until they cannot be inspected. On the verge of danger. Consider the following mechanical failures. ---The breaking of the suspension device; --- Runaway slip on the traction rope on the traction sheave; --- Breaking and slackening of all connections of the auxiliary rope, chain and belt; ---Invalidation of one of the mechanical parts of the electromechanical brake involved in braking the brake wheel (or disc); ---Parts related to the main drive unit and the traction sheave failed; ---The wire rope leaves the pulley and leaves the roller with a change in the inclination angle; ---The resistance of the rope running; --- Jamming or derailment of the carrier. The carrier is free to fall from the lowest landing, allowing the safety gear to be inoperative before hitting the bumper. When the speed of the carrier is still related to the main power frequency at the moment of mechanical braking, the speed at this time is assumed to be no more than 115% rated. Speed or corresponding grading speed. Facilities for hoisting heavier equipment are provided. In order to ensure the normal operation of the equipment in the machine space (for example. considering the heat emitted by the equipment), the ambient temperature in the equipment room remains Between 5 ° C ~ 40 ° C. The access to the work area is adequately illuminated. According to the maintenance instructions, the opening of the door or trap door of any protective device in the inclined elevator and/or outside the working area of the shaft does not hinder the building. The minimum channel required by regulations (see 0.3). If more than one person is working on an inclined elevator at the same time, it is necessary to ensure proper communication between them. During maintenance or inspection, if the guard has to be disassembled, the retaining member can remain in the protective suit when the guard is removed Set or on the device. Safety regulations for manufacturing and installation of inclined elevators

1 Scope

1.1 This standard specifies the safety guidelines for the manufacture and installation of permanently installed electric drive traction or forced inclined elevators. This standard Applicable inclined elevators serve designated landings, and their carriers are used to carry passengers or cargo, suspended by wire ropes or chains, and along A guide rail having an angle of greater than or equal to 15° and less than 75° with the horizontal plane operates within the defined path. 1.2 In special cases (such as potentially explosive atmospheres, extreme climatic conditions, earthquake conditions or transportation of dangerous goods, etc.), in addition to this standard In addition to the requirements, additional requirements should be considered. 1.3 This standard does not apply to. a) inclined elevators with a drive mode other than 1.1; b) inclined elevators installed in existing buildings where space is not permitted; c) major modifications to the inclined elevator installed before the implementation of this standard (see Appendix E); d) Lifting equipment, such as chain bucket elevators, mine elevators, stage lifting equipment, machinery with automatic cages and hoppers, construction liters Downshifts, marine lifts, platforms for offshore exploration and drilling, construction and maintenance machinery; e) the safety of operation during transport, installation, repair and disassembly of inclined elevators; f) Oblique elevators with a rated speed less than or equal to 0.15 m/s. However, this standard can be used as a reference. This standard does not cover noise. Consider vibration only for electrical components. 1.4 This standard does not specify the additional requirements necessary for the use of inclined elevators in the event of a fire. 1.5 Given the current state of the art, the scope of this standard is defined as follows. ---Slope. Allows for changes in the slope of the running path; ---Running path. limited to the same vertical plane; ---Car maximum rated load. 7500kg (100 people); ---Maximum rated speed. 4m/s. Figure 1 shows the relationship between the rated load and the rated speed. Description. Q --- rated load; v --- rated speed. Figure 1 Relationship between rated load capacity and rated speed This standard applies to all components of the following. running rails, rails, safety tongs clamping parts and guard rails, but not included by others The support structure, civil engineering structure and pre-buried points specified in the specification. 1.6 This standard does not apply to inclined elevators manufactured before the implementation date of this standard.

2 Normative references

The following documents are indispensable for the application of this document. For dated references, only dated versions apply to this article. Pieces. For undated references, the latest edition (including all amendments) applies to this document. GB/T 700 carbon structural steel (GB/T 700-2006, ISO 630.1995, NEQ) GB/T 1591 low alloy high strength structural steel GB/T 2423.5-1995 Environmental testing for electric and electronic products - Part 2. Test methods Test Ea and guide. Impact (IEC 68-2-27.1987, IDT) GB/T 2423.10-2008 Environmental testing for electric and electronic products - Part 2. Test method test Fc. Vibration (sinusoidal) (IEC 60068-2-6.1995, IDT) GB/T 2423.22 Environmental testing - Part 2. Test methods Test N. Temperature change (GB/T 2423.22-2012, IEC 60068-2-14.2009, IDT) GB/T 4207 Determination of the tracking resistance index of solid insulating materials and the electrical tracking index (GB/T 4207-2012, IEC 60112.2009, IDT) GB 4208 enclosure protection grade (IP code) (GB 4208-2008, IEC 60529..2001, IDT) GB/T 4721 General rules for copper clad laminates for printed circuits (GB/T 4721-1992, IEC 249.1985~1988, NEQ) GB/T 4723 Copper-clad phenolic paper laminate for printed circuit (GB/T 4723-1992, IEC 249-2.1985~1988, NEQ) GB/T 4724 Copper-clad epoxy paper laminate for printed circuit (GB/T 4724-1992, IEC 249-2.1987, NEQ) GB/T 4725 copper-clad epoxy glass cloth laminate for printed circuit (GB/T 4725-1992, IEC 249-2.1987, NEQ) GB/T 4728 all parts of the electrical diagram with graphical symbols GB/T 5013.4-2008 Rubber insulated cables of rated voltages up to and including 450 (IEC 60245-4.2004, IDT) GB/T 5013.5 Rubber insulated cables of rated voltages up to and including 450/750V. Part 5. Elevator cables (GB/T 5013.5- 2008, IEC 60245-5.1994, IDT) GB/T 5023.3-2008 PVC insulated cables of rated voltages up to and including 450 Sheathed cable (IEC 60227-3.1997, IDT) GB/T 5023.4-2008 - Polyethylene chloride insulated cables of rated voltages up to and including Cable set (IEC 60227-4.1997, IDT) GB/T 5023.5-2008 PVC insulated cables of rated voltages up to and including 450 750V. Part 5. Flexible cables ( cords) (IEC 60227-5.2003, IDT) GB/T 5023.6 PVC insulated cables of rated voltages up to and including 450 750 s. Part 6. Elevator cables and flexible connections Cable (GB/T 5023.6-2006, IEC 60227-6.2001, IDT) GB 5226.1-2008 Mechanical electrical safety machinery and electrical equipment - Part 1. General technical conditions (IEC 60204-1.2005, IDT) GB/T 7024 Elevator, escalator, moving walkway terminology GB 7251.1-2013 Low-voltage switchgear and control equipment - Part 1. General (IEC 61439-1.2011, IDT) GB 7588 Elevator Manufacturing and Installation Safety Specifications GB 8903 Steel wire rope for elevators (GB 8903-2005, ISO /FDIS4344.2003, MOD) GB/T 12668.502-2013 Adjustable electric drive systems - Part 5-2. Safety requirements (IEC 61800-5-2. 2007, IDT) GB 13539.1 Low-voltage fuses - Part 1. Basic requirements (GB 13539.1-2008, IEC 60269-1.2006, IDT) GB 14048.4 Low-voltage switchgear and controlgear - Part 4-1. Electromechanical contactors for contactors and motor starters Motor starter (including motor protector) (GB 14048.4-2010, IEC 60947-4-1..2009-09Ed.3.0, MOD) GB 14048.5-2008 Low-voltage switchgear and controlgear - Part 5-1. Control circuit electrical appliances and switchgear electromechanical control Circuit electrical equipment (IEC 60947-5-1.2003, MOD) GB/T 15651 Semiconductor devices - Discrete devices and integrated circuits - Part 5. Optoelectronic devices (GB/T 15651-1995, IEC 747-5.1992, IDT) GB/T 15706-2012 Mechanical Safety Design General Risk Assessment and Risk Reduction (ISO 12100.2010, IDT) GB/T 16261 General specification for printed boards (GB/T 16261-1996 IEC /PQC88..1990, IDT) GB 16895.21-2011 Low-voltage electrical installations - Part 4-41. Protection against electric shock (IEC 60364-4-41.2005, IDT) GB/T 16895.23 Low-voltage electrical installations - Part 6. Inspection (GB/T 16895.23-2012, IEC 60364-6.2006, IDT) GB/T 16935.1-2008 Insulation of equipment in low-voltage systems - Part 1. Principles, requirements and tests (IEC 60664-1. 2007, IDT) GB/T 17889.1 Ladder Part 1. Terminology, type and functional dimensions GB/T 17889.2 Ladder Part 2. Requirements, tests and signs GB/T 18775 elevator, e......
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