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GB/T 42623-2023 English PDF

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GB/T 42623-2023: Planning and selection of passenger lifts to be installed in office, hotel and residential buildings
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GB/T 42623-20231059 Add to Cart 7 days Planning and selection of passenger lifts to be installed in office, hotel and residential buildings Valid

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Basic data

Standard ID: GB/T 42623-2023 (GB/T42623-2023)
Description (Translated English): Planning and selection of passenger lifts to be installed in office, hotel and residential buildings
Sector / Industry: National Standard (Recommended)
Classification of Chinese Standard: Q78
Classification of International Standard: 91.140.90
Word Count Estimation: 52,525
Date of Issue: 2023-05-23
Date of Implementation: 2023-05-23
Issuing agency(ies): State Administration for Market Regulation, China National Standardization Administration

GB/T 42623-2023: Planning and selection of passenger lifts to be installed in office, hotel and residential buildings


---This is a DRAFT version for illustration, not a final translation. Full copy of true-PDF in English version (including equations, symbols, images, flow-chart, tables, and figures etc.) will be manually/carefully translated upon your order.
ICS 91:140:90 CCSQ78 National Standards of People's Republic of China Passengers installed in office, hotel and residential buildings Elevator configuration and selection Released on 2023-05-23 2023-05-23 implementation State Administration for Market Regulation Released by the National Standardization Management Committee

table of contents

Preface III Introduction V 1 Scope 1 2 Normative references 2 3 Terms and Definitions 2 4 symbols 7 5 applications 7 5:1 General 7 5:2 Design process 8 5:3 Selection of analytical methods 8 5:4 Selection of Design Criteria 8 5:5 Initial elevator configuration 10 6 Basis, derivation and assumed data 11 6:1 Basis and derived data for computational and simulation methods11 6:2 Building data 11 6:3 Determining the number of people 11 6:4 Passenger data 13 6:5 Elevator Data 13 7 Calculations 15 7:1 Uplink peak formula 15 7:2 Elevator Selection Chart 16 8 Simulation method 16 8:1 General 16 8:2 Series Simulation 16 8:3 Requirements for Simulation 17 8:4 Evaluation and review of simulation results 17 9 report 19 9:1 General 19 9:2 Compilation of information 20 9:3 Building related information 20 9:4 Design criteria 20 9:5 Data related to elevator configuration 20 9:6 Elevator performance output data of algorithm 21 9:7 Output data of the simulation method 21 Appendix A (informative) Selection of rated load capacity and effective area of the car 22 Appendix B (Informative) Design Flowchart 24 Appendix C (Informative) Elevator Selection Chart 25 Appendix D (Informative) Calculations and Reporting Examples 33 Appendix E (informative) Simulation method and report example 37 Appendix F (Informative) Building Data Sheet 41 Appendix G (Informative) Selection of Rated Speed 43 Reference 44

foreword

This document is in accordance with the provisions of GB/T 1:1-2020 "Guidelines for Standardization Work Part 1: Structure and Drafting Rules for Standardization Documents" drafting: This document is modified to adopt ISO 8100-32:2020 "Elevators for carrying people and goods - Part 32: Installation in offices, hotels and residences Configuration and Selection of Passenger Elevators for Buildings: Compared with ISO 8100-32:2020, this document has made the following structural adjustments: --- Added the clause numbers of the introduction, 5:1, 5:3, 5:4:3, 5:5, 6:1 and 6:2; --- D:7 in Appendix D corresponds to the "example report" of D:6 in Appendix D of ISO 8100-32:2020; ---Change the suspended paragraph in Appendix E to E:1, and extend the number of subsequent clauses; E:6 corresponds to ISO 8100-32:2020 Appendix E E:4 "Example Report": The technical differences between this document and ISO 8100-32:2020 and their reasons are as follows: ---Deleted special measures for people with disabilities to extend walking time [see 6:5:1d) in ISO 8100-32:2020], so that Harmonized with 1:4h); --- ISO 8100-30:2019 (see Chapter 3) is replaced by GB/T 7025:1-2023 with normative references, between the two documents The degree of consistency is modified to suit my country's national conditions and improve operability; --- Increased content of loading rate [(see 9:7d)], because this parameter is essential: The following editorial changes have been made to this document: ---Change the name of the standard to "Configuration and Selection of Passenger Elevators Installed in Office, Hotel and Residential Buildings"; ---Delete the contents of "elevators with a rated speed of 2:5m/s and higher" and "bicycles that passengers may carry" (see Chapter 1 of ISO 8100-32:2020); --- Deleted the informative reference to ISO 4190-5:2006 (see 3:3 of ISO 8100-32:2020); ---Deleted "different regions have different regulations on average weight" when selecting the rated load, and the selection of the effective area of the car At the same time, the content of "the per capita area depends on the relevant national norms" (see 6:5:3 of ISO 8100-32:2020); ---Delete the description of "tperf is the execution time of a single floor (s)" and "N is the number of service floors above the entrance floor" (see ISO 8100-32: 7:1 of 2020); --- Deleted the content of "Other values can be selected according to national specifications" in Appendix C (informative) (see ISO 8100-32:2020 C:2): This document is proposed and managed by the National Elevator Standardization Technical Committee (SAC/TC196): This document is drafted by: Hitachi Elevator (China) Co:, Ltd:, China Academy of Building Research Co:, Ltd: Building Mechanization Research Branch, Shanghai Mitsubishi Elevator Co:, Ltd:, Kone Elevator Co:, Ltd:, Otis Elevator (China) Investment Co:, Ltd:, Hangzhou Youmai Technology Co:, Ltd:, Guangdong Special Equipment Inspection and Research Institute, Huasheng Fujitec Elevator Co:, Ltd:, Suzhou Jiangnan Jiajie Elevator Co:, Ltd:, Disheng Elevator (Shanghai) Co:, Ltd:, Schindler (China) Elevator Co:, Ltd:, Shanghai Special Equipment Supervision and Inspection Technology Research Institute, Jiangsu Special Equipment Safety Supervision Inspection Research Institute, Xiji Schindler Elevator Co:, Ltd:, Gansu Special Equipment Inspection and Testing Research Institute, Henan Special Equipment Safety Inspection Research Institute, Hangzhou Aolida Elevator Co:, Ltd:, Shanghai Edunburgh Elevator Group Co:, Ltd:, Xizi Elevator Technology Co:, Ltd:, Hangzhou Theo Electric Co:, Ltd: Elevator Co:, Ltd:, Canny Elevator Co:, Ltd:, Toshiba Elevator (China) Co:, Ltd:, Mitsubishi Electric Shanghai Electromechanical Elevator Co:, Ltd:, Suzhou Inovance Technology Co:, Ltd:, Yongda Elevator Equipment (China) Co:, Ltd:, Guangzhou Guangri Elevator Industry Co:, Ltd:, Hyundai (China) Elevator Co:, Ltd: Company, Jianyan Machinery Inspection and Testing (Beijing) Co:, Ltd:, Giant KONE Elevator Co:, Ltd:, Southeast Elevator Co:, Ltd:, Lingwang Elevator Co:, Ltd: Co:, Ltd:, Sunlong Elevator Co:, Ltd:, Julong Elevator Co:, Ltd:, Shandong Fuji Zhiyu Elevator Co:, Ltd:, Xingelin Elevator (China) has Co:, Ltd:, Guangdong Suzuki Elevator Co:, Ltd:, Shanghai New Star Electric Co:, Ltd: The main drafters of this document: Wang Zewei, Luo Minlin, Chen Fengwang, Qiao Jinyou, Hu Zhiqiang, Xia Yingzi, Lin Jianjie, Wang Kui, Li Zhongming, Zhou Weidong, Zhang Shoulin, Qi Songhua, Wang Qigang, Li Gongning, Gao Qipeng, Ma Xiaoshi, Wei Xiaobing, Wang Liang, Pan A Suo, Lang Yue, Zhang Hongbing, Zhang Jianhong, Huang Lei, Liu Jun, Sun Qiang, Xu Xiaochuan, Nie Yibo, Qin Lun, Li Xinlong, Yang Liming, Zhao Zhen, Wang Yunyang, Ding Duanqin, Zhou Guilei, Wang Yulei, Zhang Jianyu, Li Zhibin, Dong Lipeng:

Introduction

0:1 Elevator configuration refers to the description of a group of elevators by the number of elevators, number of passengers, floors served, rated speed, and various other parameters: combine Reasonable elevator configuration can usually provide good service to passengers at low cost in constructing building core space: The elevator industry has previously relied on probability-based up-peak formulas to calculate run times and capacity: If an elevator is configured The configuration is considered acceptable if the run interval and delivery capacity meet the recommended design criteria: This traditional upside peak analysis It is still valid for relay-controlled elevators, and can also be used for evaluation of simple situations or preliminary estimation of more complex situations: Some elevators today employ sophisticated traffic control systems based on computer programs: These control systems are difficult to describe by formula However, computer simulation programs can be used for evaluation: 0:2 This document provides the following two methods for determining the appropriate elevator configuration: a) Calculation method: adopt the traditional upward peak formula: The selection diagrams in Appendix C are based on calculation methods, which provide A quick way to determine elevator configuration for simple cases: The run interval and conveying capacity determined by this method can be used to evaluate the elevator configuration: It is recommended to use this method in simpler cases, or to initially determine the elevator configuration for further simulation: analysis: The method is given in Chapter 7, and Appendix D gives a typical example of the use of the formula: b) Simulation method: used to determine the service level of different traffic control systems (such as destination layer control): In complex situations or where it is necessary to obtain Use this method when you need more information than run intervals and upstream peak capacity: Chapter 8 gives the Methods, typical examples are given in Appendix E: Both methods require building, passenger and elevator data, see Chapter 6: See Appendix F for its initial data sheet: 0:3 This document adopts the suggestion of ISO /T R11071-2: "Although the number of passengers and the load have always been regarded as the same parameter in safety regulations However, when writing safety specifications in the future, it may be more meaningful if the load and the number of passengers can be treated differently: more passengers When refers to the traffic conveying capacity, while the load refers to the maximum carrying capacity of the elevator that is directly related to safety: " Therefore, this document distinguishes between the number of passengers and the load when selecting the rated load capacity and the effective area of the car (see 6:5:3 and Appendix A): 0:4 This document is intended to provide reference for the initial stage of construction projects, especially for elevator customers or building owners, architectural designers, engineering consultants Consultants, building managers, elevator consultants, elevator contractors, building developers, general contractors and other interested parties: 0:5 This document takes into account some special needs, such as the accessibility of persons with disabilities (see 6:5:1): Passengers installed in office, hotel and residential buildings Elevator configuration and selection

1 Scope

1:1 This document applies to the traffic planning and selection of newly installed passenger elevators in office, hotel and residential buildings: The requirements and suggestions given Suitable for both simple and complex elevator configurations: This document provides guidance for selecting the most appropriate transport planning method, where applicable: This document helps to determine the number of elevators and configuration and its main parameters: 1:2 This document applies to the elevator types in Table 1: Table 1 Elevator Types Based on GB/T 7025:1-2023 Category use Class I elevators designed for transporting passengers Class II is mainly designed for the transportation of passengers, but also for the transportation of goods: Class VI Elevators specially designed to adapt to large traffic flow and frequent use This document also applies if buildings with mixed uses can be assessed separately as office, hotel or residential buildings: This article This document presents a standardized approach to elevator traffic planning: Other alternative methods may also be effective, but these are not covered in this document: 1:3 This document gives the basic requirements and suggestions on the configuration and selection of elevators, involving: a) the design criteria used for the assessment; b) design criteria parameters; c) calculation method (see Chapter 7) for simple elevator configuration and selection (see 5:3); d) simulation methods (see Chapter 8) for simple and more complex elevator configuration and selection (see 5:3); e) the report format of the lift configuration and selection analysis results provided to interested parties; f) take into account existing safety regulations for determining the number of passengers for a particular car area; g) Consider space for luggage, strollers, etc:, and other non-personal items that elevator passengers may carry; h) Accessibility for persons with disabilities: 1:4 This document does not cover the following: a) freight elevators only; b) Passenger elevators with multiple cars in the same shaft; c) Double-deck passenger elevators; d) Elevators with a lifting height exceeding:200m and (or) a rated speed greater than 7m/s; e) Changes in the calculation method (for example: different from the traffic situation of the up peak, the door opening time, the height of each floor is not uniform, the height of each floor The number of people is not uniform, and the rated speed cannot be reached when running on a single floor, etc:); f) variations of simulation methods (e:g: traffic models with different passenger demand); g) design of simulation models or traffic control systems; h) high-level characteristic parameters of passengers (eg: walking speed); ......
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