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GB/T 14513.2-2019: Pneumatic fluid power -- Determination of flow-rate characteristics of components using compressible fluids -- Part 2: Alternative test methods
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Pneumatic fluid power -- Determination of flow-rate characteristics of components using compressible fluids -- Part 2: Alternative test methods
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GB/T 14513.2-2019
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Basic data | Standard ID | GB/T 14513.2-2019 (GB/T14513.2-2019) | | Description (Translated English) | Pneumatic fluid power -- Determination of flow-rate characteristics of components using compressible fluids -- Part 2: Alternative test methods | | Sector / Industry | National Standard (Recommended) | | Classification of Chinese Standard | J20 | | Classification of International Standard | 23.100.01 | | Word Count Estimation | 38,320 | | Date of Issue | 2019-10-18 | | Date of Implementation | 2020-05-01 | | Issuing agency(ies) | State Administration for Market Regulation, China National Standardization Administration | GB/T 14513.2-2019: Pneumatic fluid power -- Determination of flow-rate characteristics of components using compressible fluids -- Part 2: Alternative test methods
---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.
Pneumatic fluid power--Determination of flow-rate characteristics of components using compressible fluids--Part 2. Alternative test methods
ICS 23.100.01
J20
National Standards of People's Republic of China
Pneumatic flow using compressible fluid components
Determination of characteristics - Part 2. Alternative test methods
usingcompressiblefluids-Part 2.Alternativetestmethods
(ISO 6358-2.2013, IDT)
Published on.2019-10-17
2020-05-01 implementation
State market supervision and administration
China National Standardization Administration issued
Content
Foreword III
Introduction IV
1 Scope 1
2 Normative references 2
3 Terms and Definitions 2
4 symbols and units 2
5 test equipment 2
6 test procedure 7
7 Test results statement 12
8 Labeling instructions (citing this section) 13
Appendix A (informative) Measurement uncertainty assessment 14
Appendix B (Normative Appendix) Test Method for Determining and Calibrating the Volume of Isothermal Gas Tanks 18
Appendix C (informative) isothermal gas tank filling 23
Appendix D (informative) Test method for determining isothermal performance 25
Appendix E (informative) Calculation equation for flow characteristics 27
Appendix F (informative) The critical back pressure ratio b and the least squares method are calculated by the solver function in MiscrosoftExcel.
Subsonic index m 29
Reference 33
Foreword
GB/T 14513 "Determination of Flow Characteristics of Pneumatic Compressible Fluid Components" is divided into the following three parts.
--- Part 1. General rules and test methods for steady flow;
--- Part 2. Alternative test methods;
--- Part 3. Calculation method for steady-state flow characteristics of the system.
This part is the second part of GB/T 14513.
This part is drafted in accordance with the rules given in GB/T 1.1-2009.
This section uses the translation method equivalent to ISO 6358-2.2013 "Pneumatic use of compressible fluid components for flow characteristics determination
Part 2. Alternative Test Methods.
The documents of our country that have a consistent correspondence with the international documents referenced in this part are as follows.
--- GB/T 786.1-2009 Fluid transmission systems and components - Graphical symbols and circuit diagrams - Part 1.
Graphic symbols processed (ISO 1219-1.2006, IDT)
Aerospace series -- Determination of flow characteristics of fluids - Part 1 . steady flow
General rules and test methods (ISO 6358-1.2013, IDT)
---GB/T 17446-2012 Fluid drive system and component vocabulary (ISO 5598.2008, IDT)
This part was proposed by the China Machinery Industry Federation.
This part is under the jurisdiction of the National Hydraulic and Pneumatic Standardization Technical Committee (SAC/TC3).
This section drafted by. National Pneumatic Product Quality Supervision and Inspection Center, Beijing University of Aeronautics and Astronautics, Zhejiang Yiri Pneumatic Technology Co., Ltd.
Division, Ningbo Jiaerling Pneumatic Machinery Co., Ltd., Ningbo Sonor Industrial Automation Equipment Co., Ltd., Ningbo Lida Pneumatic Complete Set Co., Ltd.
The main drafters of this section. Shi Yan, Liu Lijiao, Lu Bo, Ren Cheli, Shan Junbo, Mao Xinqiang, Xia Jiayong.
Introduction
In pneumatic systems, power is transmitted and controlled by the compressed air in a closed loop. The components that make up the loop, have a solid airflow
There are resistances, so it is necessary to define and determine their flow characteristics to describe their performance.
ISO 6358.1989 is based on a shrink nozzle model for determining the flow characteristics of pneumatic valves. The method includes two special
The parameters are. sound velocity conductance C and critical pressure ratio b, which are used for the proposed numerical calculation of flow characteristics. The method is based on static pressure testing
The results describe the flow characteristics of pneumatic valves ranging from damming to subsonic flow. The new version of ISO 6358-2.2013 takes into account the gas
The effect of body flow velocity on pressure measurement, using stagnation pressure instead of original static pressure.
Experience has shown that many pneumatic valves with shrinkage-expansion characteristics do not fit well with the ISO 6358.1989 model. this
In addition, pneumatic components other than pneumatic valves also require the application of this method. However, for occluded and subsonic flow areas, it is now necessary to make
The flow characteristics are defined by four parameters (C, b, m and Δpc).
This section of GB/T 14513 describes a set of three flow characteristic parameters derived from the test results. These parameters are prioritized
The descending order is described as follows.
--- Sound velocity conductance C is the most important parameter, which corresponds to the maximum flow (damped flow). This parameter is determined by the upstream stagnation condition.
--- Critical back pressure ratio b, which represents the boundary point between choking flow and subsonic flow, is the second most important parameter. Its definition is different
The definition of critical pressure in ISO 6358.1989, which characterizes the ratio of downstream stagnation pressure to upstream stagnation pressure.
--- Subsonic speed index m, more accurately represents subsonic flow characteristics when necessary. For components with fixed runners, m value
About 0.5 or so. In this case, only the two characteristic parameters C and b are used. For other components, m varies widely
Large, you need to determine the C, b and m values.
In order to overcome the obvious violation of the theory of compressible fluids, this section has made some changes to the test equipment. Including increasing import pressure
The measuring tube is used to meet the assumptions of ignoring the inlet speed during the test and allows direct measurement of the upstream stagnation pressure. Increase the outlet measuring tube
Used to directly measure downstream stagnation pressure to meet different pneumatic components. Description of the difference between the upstream stagnation pressure and the downstream stagnation pressure in the component
There is pressure loss.
Combine the flow characteristic parameters of any component and pipe obtained in this part of GB/T 14513 or GB/T 14513.1-2017,
ISO 6358-3 calculates an estimate of the overall flow characteristic parameter consisting of components and piping without measurement.
The deflation test method and the aeration test method specified in this part are compared with the methods specified in GB/T 14513.1-2017.
advantage.
--- No need for a large capacity gas source;
---Testing large flow components is easier;
---The energy consumption is minimal;
--- The test time for the deflation test is shortened, and the noise of the inflation test is reduced.
It should be noted that the characteristic parameters obtained according to the tests in this part are different from the characteristic parameters obtained according to the test in ISO 6358.1989.
Pneumatic flow using compressible fluid components
Determination of characteristics - Part 2. Alternative test methods
1 Scope
This part of GB/T 14513 specifies a deflation test and an inflation test as an alternative test method for the use of compressible
Determination of the flow characteristics of the fluid element.
This section specifies the requirements for test equipment, test procedures, and test results.
This section applies to pneumatic components with fixed or variable internal flow paths.
This section does not apply to components with unstable flow characteristics during use, such as components that exhibit significant hysteresis behavior (because they
Contains elastic parts that will deform during flow) or components with internal feedback (eg pressure relief valves) or elements that require opening pressure
Parts (eg check valves and quick exhaust valves). In addition, this section does not apply to components that exchange energy with fluids during flow measurement.
(eg cylinders, accumulators, etc.). The application of GB/T 14513 test method in various components is shown in Table 1.
Note. This section does not specify the flow characteristics test method for components with hysteresis performance. GB/T 14513.1 specifies the test method.
Table 1 GB/T 14513 test method in various components
element
Test for constant upstream pressure for variable upstream pressure testing
GB/T 14513.1
Constant upstream
pressure test
GB/T 14513.2
Inflatable test
GB/T 14513.1
Variable upstream
pressure test
GB/T 14513.2
Deflation test
First group
Directional control valve is yes yes
The flow control valve is yes and yes
The connector is yes or yes
The valve block is yes yes
The component group is yes or yes
Second Group
Whether the filter and the mister are not
Is the check valve no?
Is the quick exhaust valve correct?
Are the pipes, pipes and hoses correct?
The third group
Muffler and exhaust end oil mist separator
No nozzle is no
Cylinder end cap is no or yes
The inflation test does not apply to components with no connectors on the downstream port.
Appendix A gives an assessment of the measurement uncertainty. Appendix B gives the requirements for the isothermal gas tank volume test method. Appendix C
Guidance for isothermal gas tank filling is given. Appendix D gives the requirements for the isothermal performance test method. Appendix E gives the calculation of flow characteristics
Guidance of the equation. Guidance on calculating flow characteristics is given in Appendix F.
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