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Mechanical vibration -- Laboratory method for evaluating vehicle seat vibration -- Part 2: Application to railway vehicle
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Basic data Standard ID | GB/T 18707.2-2010 (GB/T18707.2-2010) | Description (Translated English) | Mechanical vibration -- Laboratory method for evaluating vehicle seat vibration -- Part 2: Application to railway vehicle | Sector / Industry | National Standard (Recommended) | Classification of Chinese Standard | J04 | Classification of International Standard | 17.160 | Word Count Estimation | 19,114 | Date of Issue | 2010-12-23 | Date of Implementation | 2011-06-01 | Quoted Standard | GB/T 2298; GB/T 13441.1; GB/T 13823.4; GB/T 13823.5; GB/T 13823.6; GB/T 13823.8; GB/T 13823.9; GB/T 13823.12; GB/T 13823.14; GB/T 13823.15; GB/T 13823.16; GB/T 13823.17; GB/T 13823.19; GB/T 13823.20; GB/T 14412; GB/T 18707.1; GB/T 23716; GB/T 20485.1; GB/T 20485.11; GB/T 20485.12; GB/T 20485.13; GB/T 20485.15; GB/T 20485.21; GB/T 20485.22; ISO 13090-1 | Adopted Standard | ISO 10326-2-2001, IDT | Regulation (derived from) | National Standard Approval Announcement 2010 No.10 (Total No.165) | Issuing agency(ies) | General Administration of Quality Supervision, Inspection and Quarantine of the People's Republic of China, Standardization Administration of the People's Republic of China | Summary | This standard specifies the laboratory test methods for moving vehicles and trailers on rail passengers and crew to take the vehicle seat. |
GB/T 18707.2-2010: Mechanical vibration -- Laboratory method for evaluating vehicle seat vibration -- Part 2: Application to railway vehicle ---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.
Mechanical vibration Laboratory method for evaluating vehicle seat vibration Part 2. Application to railway vehicle
ICS 17.160
J04
National Standards of People's Republic of China
Mechanical vibration
Evaluating vehicle seat vibration - Laboratory method
Part 2. Apply rolling stock
Part 2. Applicationtorailwayvehicle
(ISO 10326-2.2001, IDT)
Issued on. 2010-12-23
2011-06-01 implementation
Administration of Quality Supervision, Inspection and Quarantine of People's Republic of China
Standardization Administration of China released
Table of Contents
Preface Ⅰ
Introduction Ⅱ
1 Scope 1
2 Normative references 1
3 Terms and definitions, symbols and abbreviated terms 1
4 vibration direction 2
Description 5 3 vibration transmission
General observations 4 6
7 measuring point 4
Test equipment 5 8
9 6 Safety requirements
10 seat test and test personnel 6
11 Enter the vibration test 6
7 12 parameters used to characterize the vibration transmission
8 13 test program
8 14 test reports
Examples Appendix A (informative) excitation generating process 11
References 14
Foreword
GB/T 18707 "Mechanical vibration laboratory methods evaluating vehicle seat vibration" is divided into two parts.
--- Part 1. General requirements;
--- Part 2. apply to rolling stock.
This section is GB/T Part of 218,707.
This part identical with ISO 10326-2.2001 "Mechanical vibration laboratory evaluating vehicle seat vibration - Part 2. Application
In rolling stock "(in English).
This section is equivalent translation ISO 10326-2.2001.
For ease of use, the use of ISO 10326-2.2001 when made the following editorial changes.
--- Deleted international standards foreword;
--- For some punctuation modified and deleted;
--- For ISO 10326-2.2001 and other international standards referenced in our country has been adopted as a standard by our standards instead of the corresponding
International standards. It has not been adopted as the standard of a direct reference to international standards.
Appendix A of this section is informative appendix.
This part of the National mechanical vibration, shock and condition monitoring Standardization Technical Committee (SAC/TC53) and focal points.
This part of the main drafting unit. China Academy of Railway Sciences, Zhengzhou Machinery Research Institute, Beijing Institute of Technology.
The main drafters of this section. Fan Ronghua, Shi Chun Min, Ma Yun, Initial Idea Han Guoming, Gregory.
Introduction
Although passenger railway vehicle always feel the vibration of low amplitude, but in fact in contact with the seat cushion and the seat back surface shape
Acceleration into the body frame than is sometimes passed to encourage the acceleration is much greater. Therefore, the seat rail projects were the most fundamental test
It is to get a seat and its overall dynamic aspects of component characteristics; these components include. a seat frame, suspension systems, bushings, seat surface and so on.
These features will eventually select the most suitable seat assembly and further improve passenger comfort provide useful guidance.
Laboratory tests have to clearly define and tested under reproducible excitation conditions. Thus, these tests provides the current
Research complementary basic research methods course implementation.
Vibration railway vehicle seat bottom is random, broadband type belongs. Its spectrum of complex forms and non-stationary vehicle depends on self
Body structure, self-loading, wheels section condition, track geometry and quality status and other factors. Therefore, this section provides for a test
Staff take a seat in the three directions X, Y and Z axes continuous wide-band pseudo-random vibration excitation. It's quite simple vibration spectrum
And has a sufficient magnitude, it can cover the track of the observed spectrum of most real, but the latter has a very different place.
In the laboratory test results under different environmental conditions in the human body - seat system data at different points in response to the measured and used to limit
Comparison value or an acceptable value. Therefore, this section provides the use of these test data to determine the human body - seat system in the seat cushion and chair
Frequency in the back three directions X, Y and Z axis on the response function. These are sufficient to describe the vibration frequency response function with the occupant of the seat
Dynamic characteristics. Thereby clearly demonstrated the direction of excitation, favorable or unfavorable frequency and corresponding gain. These input parameters with different structures
Comparative seat related.
Automatic calculation of the frequency response function can be used to evaluate a seat on the actual use of the vehicle suffered a similar incentive incentive
The inherent characteristics of the particular seat. Ultimately, they must be determined by the modulus and phase. Direct and cross-ratios are related, as vertical, horizontal
As a coupling between the longitudinal movement. In this part of the test procedure allows these interactions.
However, the effectiveness of such calculations is only based on human assumptions considered - seating system is fully linear case. To laboratory conditions
Member under test this hypothesis, the provisions of this section to add a test cycle. In the test, a peak in the pseudo-random excitation frequency obtained
Rate as sinusoidal excitation frequency and high amplitude mode for testing.
Frequency range limitations associated with the condition of the railway between 0.5Hz ~ 50Hz. When the seat rail is not conveyed below 0.5Hz vibration
Plus modulation correction. However, above the vibration of 50Hz, since in practical use the seat is isolated, usually not too small an amount of vibration of the seat
Passengers on the perceived.
Mechanical vibration
Evaluating vehicle seat vibration - Laboratory method
Part 2. Apply rolling stock
1 Scope
This section GB/T 18707 specifies the railway motor car and trailer vehicle passengers and crew to take the seat of laboratory tests
method.
This section relates to the frequency of the three-axis linear vibration of 0.5Hz ~ 50Hz. This section provides the input for the test seat
Vibration test methods.
This section makes the frequency response function in the form of how to characterize the vibrations transmitted to the passenger manner possible. However, this characterization only
There are people in the - under the seat system is seen as sufficient linear condition was completely valid.
2 Normative references
The following documents contain provisions which, through reference GB/T 18707 in this section, constitute provisions of this part. For dated reference documents
Member, all subsequent amendments (not including errata content) or revisions do not apply to this section, however, encouraged to reach under this section
Parties to research agreement to use the latest versions of these documents. For undated reference documents, the latest versions apply to this
section.
GB/T 2298 Mechanical vibration, shock and condition monitoring of vocabulary (GB/T 2298-2010, ISO 2041.2009, IDT)
GB/T 13441.1 Mechanical vibration and impact evaluation of human exposure to whole body vibration - Part 1. General requirements
(GB/T 13441.1-2007, ISO 2631-1.1997, IDT)
GB/T 13823 (all parts) calibration methods (ISO 5347, IDT) vibration and shock sensor
GB/T 14412 Mechanical vibration and shock - Mechanical mounting of accelerometers (GB/T 14412-2005, ISO 5348.1998,
IDT)
GB/T 18707.1 Mechanical vibration laboratory evaluating vehicle seat vibration - Part 1. General requirements (GB/T 18707.1-
2002, ISO 10326-1.1992, IDT)
GB/T 23716 body vibration response of measuring instruments (GB/T 23716-2009, ISO 8041.2005, IDT)
GB/T 20485 (all parts) calibration of vibration and shock sensor (ISO 16063, IDT)
ISO 13090-1 Mechanical vibration and shock tests and live tests Safety Guide Part 1. body mechanical vibration and repeated shock
3 Terms and definitions, symbols and abbreviated terms
3.1 Terms and Definitions
GB/T 2298 as determined by the terms and definitions apply to this section.
3.2 Symbols and abbreviated terms
This section uses the following symbols and abbreviated terms.
arms --- rms acceleration, m/s2;
a (t) --- the instantaneous value of the acceleration time history, m/s2;
a (t, Be, f) --- frequency (f -Be/2) is the filtered ~ (f Be/2) the range of the time history of acceleration a (t) is the instantaneous
Value, m/s2;
b (t) --- acceleration time history of the instantaneous value, m/s2;
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