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QC/T 660-2019 English PDF (QCT660-2019)
QC/T 660-2019 English PDF (QCT660-2019)
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QC/T 660-2019: The test method for automobile air-conditioning compressors
QC/T 660-2019
QC
AUTOMOTIVE INDUSTRY STANDARD
OF THE PEOPLE’S REPUBLIC OF CHINA
ICS 43.040.60
T 26
Replacing QC/T 660-2000
The Test Method for Automobile Air-Conditioning
Compressors
ISSUED ON: NOVEMBER 11, 2019
IMPLEMENTED ON: APRIL 01, 2020
Issued by: Ministry of Industry and Information Technology of PRC
Table of Contents
Foreword ... 7
1 Scope ... 10
2 Normative References ... 10
3 Test Provisions ... 11
4 Test Method ... 12
Appendix A (Normative) Determination Method of the Cleanliness of the
Compressor ... 23
The Test Method for Automobile Air-Conditioning
Compressors
1 Scope
This Standard specifies the test method for automobile air-conditioning compressors.
This Standard is applicable to various types of pulley-driven automobile air-
conditioning compressors that use HFC-134a/HFO-1234yf refrigerants. Other
environmentally-friendly refrigerant compressors can be implemented by reference.
2 Normative References
The following documents are essential to the application of this document. For the
dated documents, only the versions with the dates indicated are applicable to this
document; for the undated documents, only the latest version (including all the
amendments) is applicable to this document.
GB/T 3785.1 Electroacoustics - Sound Level Meters - Part 1: Specifications
GB/T 5773 The Method of Performance Test for Positive Displacement Refrigerant
Compressors
GB/T 6283 Chemical Products - Determination of Water Karl · Fischer Method
(General Method)
GB/T 10125-2012 Corrosion Tests in Artificial Atmospheres - Salt Spray Tests
GB/T 18655-2018 Vehicles, Boats and Internal Combustion Engines - Radio
Disturbance Characteristics - Limits and Methods of Measurement for the
Protection of on-Board Receivers
GB/T 21437.2-2008 Road Vehicles - Electrical Disturbances from Conduction and
Coupling - Part 2: Electrical Transient Conduction along Supply Lines only
GB/T 32691-2016 Disintegrated Molten BOF Steel Slag by Steam
JB/T 4330-1999 Determination of Noise Emitted by Refrigerating and Air Condition
JB/T 9058-1999 Measuring Method of Refrigerating Equipment Cleanliness
4.5 Durability
4.5.1 The durability test device shall meet the requirements of design working
conditions and the special requirements of users, and shall also take protective
measures against temperature, pressure, pressure difference, and electricity-leakage.
4.5.2 The compressor shall be fastened to the durability test device according to the
design requirements or the installation method determined through negotiation
between the supplier and the purchaser.
4.5.3 The durability test conditions are carried out in accordance with the design
requirements or the conditions negotiated by the supplier and the purchaser. If
undercharge or oil shortage tests are required, the amount of refrigerant or refrigerating
machine oil can be reduced as required.
4.5.4 After checking that the installation is correct, vacuumize, maintain pressure, and
charge the specified amount of refrigerant and refrigerating machine oil; and then start
the compressor to operate according to the working conditions. The compressor shall
be operating normally during operation, otherwise it shall be shut down immediately
for inspection. Analyze the cause of the failure. If it does not belong to the compressor
itself, continue the test after troubleshooting. All the tests performed before the
shutdown are valid, otherwise, the test is invalid.
4.5.5 After the test, the inspection shall be carried out according to the design
requirements or the requirements negotiated by the supplier and the purchaser.
4.6 Corrosion resistance
4.6.1 Use a dry and clean cloth to remove the dust on the outer surface of the
compressor; and then use a clean cloth soaked in isooctane solvent oil or a volatile
environmentally friendly solvent to remove the grease on the outer surface. Do not
touch with bare hands after removing the grease, and avoid re-contamination after
cleaning.
4.6.2 Fix the compressor under test in the salt spray test device at an angle of 15°~30°
downward in the direction of the pulley. Th compressor under test must not touch the
cabinet, neither the two contact each other; and the distance between them shall not
affect the salt mist falls freely on the compressor under test; and the salt solution on
any compressor shall not drip on other compressors.
4.6.3 After the installation is correct, perform the test according to the salt spray test in
GB/T 10125-2012. The test procedure time is based on the design requirements of the
tested compressor or the requirements negotiated between the supplier and the
purchaser.
4.6.4 After the test, remove the compressor under test from the salt spray test device.
4.6.5 Remove the clutch from the compressor under test.
4.6.6 Wash the clutch and compressor by water to remove all salt deposits on the
surface; and immediately dry the clutch and compressor by strong hot air.
4.6.7 After drying, immediately inspect and record the compressor under test in
accordance with the provisions of Clause 11 of GB/T 10125-2012.
4.7 Vibration resistance
4.7.1 After installing the fixture on the vibration test device platform, install the
compressor on the fixture according to the installation method negotiated by the
supplier and the purchaser. The center of gravity of the clamp and compressor shall
be on the central axis of vibration.
4.7.2 Before the vibration test, the appearance of compressor under test shall be
visually inspected; and there shall be no looseness in the compressor fastening part.
4.7.3 Vibrate in accordance with design requirements or working conditions negotiated
between the supplier and the purchaser.
4.7.4 After the end of the vibration test, inspect according to the design requirements
or the requirements negotiated by the supplier and the purchaser.
4.8 Residual moisture
4.8.1 The relative humidity of the test room environment shall be less than 60%.
4.8.2 Shake the compressor under test (filled with the specified amount of oil) in the X,
Y, and Z directions for more than 10 times by hand to make the water and oil in the
compressor evenly distributed.
4.8.3 Use a syringe to take a 5mL of oil sample from the compressor oil injection
position. Reseal the compressor immediately after sampling.
4.8.4 Weigh the mass of the oil sample with a precision balance; and the reading is
accurate to 1mg.
4.8.5 Inject the oil sample into the Karl Fischer test solution; and perform the test
according to the Karl Fischer method in GB/T 6283.
4.8.6 The water content, X, of the oil sample is expressed by mass fraction of 10-6;
which is calculated according to the formula in GB/T 6283 or directly displayed by an
automatic detector.
4.8.7 Repeat procedures 4.8.2 to 4.8.5 for 4 times.
L – the distance from the position on the torque measuring rod where the tensile meter
is hung to the center of the pulley, in m.
4.12 Temperature rise
It is carried out under the design requirements or the environment negotiated by the
supplier and the purchaser. If there is no special environmental requirement, the coil
temperature rise test shall be carried out according to GB/T 32691-2016.
4.13 Thermal cycling
Determine the positioning method of the sample according to design requirements or
negotiation between the supplier and the purchaser, including but not limited to the
placement direction, angle, and spacing require...
Get QUOTATION in 1-minute: Click QC/T 660-2019
Historical versions: QC/T 660-2019
Preview True-PDF (Reload/Scroll if blank)
QC/T 660-2019: The test method for automobile air-conditioning compressors
QC/T 660-2019
QC
AUTOMOTIVE INDUSTRY STANDARD
OF THE PEOPLE’S REPUBLIC OF CHINA
ICS 43.040.60
T 26
Replacing QC/T 660-2000
The Test Method for Automobile Air-Conditioning
Compressors
ISSUED ON: NOVEMBER 11, 2019
IMPLEMENTED ON: APRIL 01, 2020
Issued by: Ministry of Industry and Information Technology of PRC
Table of Contents
Foreword ... 7
1 Scope ... 10
2 Normative References ... 10
3 Test Provisions ... 11
4 Test Method ... 12
Appendix A (Normative) Determination Method of the Cleanliness of the
Compressor ... 23
The Test Method for Automobile Air-Conditioning
Compressors
1 Scope
This Standard specifies the test method for automobile air-conditioning compressors.
This Standard is applicable to various types of pulley-driven automobile air-
conditioning compressors that use HFC-134a/HFO-1234yf refrigerants. Other
environmentally-friendly refrigerant compressors can be implemented by reference.
2 Normative References
The following documents are essential to the application of this document. For the
dated documents, only the versions with the dates indicated are applicable to this
document; for the undated documents, only the latest version (including all the
amendments) is applicable to this document.
GB/T 3785.1 Electroacoustics - Sound Level Meters - Part 1: Specifications
GB/T 5773 The Method of Performance Test for Positive Displacement Refrigerant
Compressors
GB/T 6283 Chemical Products - Determination of Water Karl · Fischer Method
(General Method)
GB/T 10125-2012 Corrosion Tests in Artificial Atmospheres - Salt Spray Tests
GB/T 18655-2018 Vehicles, Boats and Internal Combustion Engines - Radio
Disturbance Characteristics - Limits and Methods of Measurement for the
Protection of on-Board Receivers
GB/T 21437.2-2008 Road Vehicles - Electrical Disturbances from Conduction and
Coupling - Part 2: Electrical Transient Conduction along Supply Lines only
GB/T 32691-2016 Disintegrated Molten BOF Steel Slag by Steam
JB/T 4330-1999 Determination of Noise Emitted by Refrigerating and Air Condition
JB/T 9058-1999 Measuring Method of Refrigerating Equipment Cleanliness
4.5 Durability
4.5.1 The durability test device shall meet the requirements of design working
conditions and the special requirements of users, and shall also take protective
measures against temperature, pressure, pressure difference, and electricity-leakage.
4.5.2 The compressor shall be fastened to the durability test device according to the
design requirements or the installation method determined through negotiation
between the supplier and the purchaser.
4.5.3 The durability test conditions are carried out in accordance with the design
requirements or the conditions negotiated by the supplier and the purchaser. If
undercharge or oil shortage tests are required, the amount of refrigerant or refrigerating
machine oil can be reduced as required.
4.5.4 After checking that the installation is correct, vacuumize, maintain pressure, and
charge the specified amount of refrigerant and refrigerating machine oil; and then start
the compressor to operate according to the working conditions. The compressor shall
be operating normally during operation, otherwise it shall be shut down immediately
for inspection. Analyze the cause of the failure. If it does not belong to the compressor
itself, continue the test after troubleshooting. All the tests performed before the
shutdown are valid, otherwise, the test is invalid.
4.5.5 After the test, the inspection shall be carried out according to the design
requirements or the requirements negotiated by the supplier and the purchaser.
4.6 Corrosion resistance
4.6.1 Use a dry and clean cloth to remove the dust on the outer surface of the
compressor; and then use a clean cloth soaked in isooctane solvent oil or a volatile
environmentally friendly solvent to remove the grease on the outer surface. Do not
touch with bare hands after removing the grease, and avoid re-contamination after
cleaning.
4.6.2 Fix the compressor under test in the salt spray test device at an angle of 15°~30°
downward in the direction of the pulley. Th compressor under test must not touch the
cabinet, neither the two contact each other; and the distance between them shall not
affect the salt mist falls freely on the compressor under test; and the salt solution on
any compressor shall not drip on other compressors.
4.6.3 After the installation is correct, perform the test according to the salt spray test in
GB/T 10125-2012. The test procedure time is based on the design requirements of the
tested compressor or the requirements negotiated between the supplier and the
purchaser.
4.6.4 After the test, remove the compressor under test from the salt spray test device.
4.6.5 Remove the clutch from the compressor under test.
4.6.6 Wash the clutch and compressor by water to remove all salt deposits on the
surface; and immediately dry the clutch and compressor by strong hot air.
4.6.7 After drying, immediately inspect and record the compressor under test in
accordance with the provisions of Clause 11 of GB/T 10125-2012.
4.7 Vibration resistance
4.7.1 After installing the fixture on the vibration test device platform, install the
compressor on the fixture according to the installation method negotiated by the
supplier and the purchaser. The center of gravity of the clamp and compressor shall
be on the central axis of vibration.
4.7.2 Before the vibration test, the appearance of compressor under test shall be
visually inspected; and there shall be no looseness in the compressor fastening part.
4.7.3 Vibrate in accordance with design requirements or working conditions negotiated
between the supplier and the purchaser.
4.7.4 After the end of the vibration test, inspect according to the design requirements
or the requirements negotiated by the supplier and the purchaser.
4.8 Residual moisture
4.8.1 The relative humidity of the test room environment shall be less than 60%.
4.8.2 Shake the compressor under test (filled with the specified amount of oil) in the X,
Y, and Z directions for more than 10 times by hand to make the water and oil in the
compressor evenly distributed.
4.8.3 Use a syringe to take a 5mL of oil sample from the compressor oil injection
position. Reseal the compressor immediately after sampling.
4.8.4 Weigh the mass of the oil sample with a precision balance; and the reading is
accurate to 1mg.
4.8.5 Inject the oil sample into the Karl Fischer test solution; and perform the test
according to the Karl Fischer method in GB/T 6283.
4.8.6 The water content, X, of the oil sample is expressed by mass fraction of 10-6;
which is calculated according to the formula in GB/T 6283 or directly displayed by an
automatic detector.
4.8.7 Repeat procedures 4.8.2 to 4.8.5 for 4 times.
L – the distance from the position on the torque measuring rod where the tensile meter
is hung to the center of the pulley, in m.
4.12 Temperature rise
It is carried out under the design requirements or the environment negotiated by the
supplier and the purchaser. If there is no special environmental requirement, the coil
temperature rise test shall be carried out according to GB/T 32691-2016.
4.13 Thermal cycling
Determine the positioning method of the sample according to design requirements or
negotiation between the supplier and the purchaser, including but not limited to the
placement direction, angle, and spacing require...
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