1
/
von
7
PayPal, credit cards. Download editable-PDF and invoice in 1 second!
JB/T 10386-2002 English PDF (JBT10386-2002)
JB/T 10386-2002 English PDF (JBT10386-2002)
Normaler Preis
$145.00 USD
Normaler Preis
Verkaufspreis
$145.00 USD
Grundpreis
/
pro
Versand wird beim Checkout berechnet
Verfügbarkeit für Abholungen konnte nicht geladen werden
Delivery: 3 seconds. Download true-PDF + Invoice.
Get QUOTATION in 1-minute: Click JB/T 10386-2002
Historical versions: JB/T 10386-2002
Preview True-PDF (Reload/Scroll if blank)
JB/T 10386-2002: Electronic expansion valve for household and similar air conditioner
JB/T 10386-2002
JB
MACHINERY INDUSTRY STANDARD
OF THE PEOPLE’S REPUBLIC OF CHINA
ICS 29.120
K 32
Electronic expansion valve for
household and similar air conditioner
ISSUED ON. DECEMBER 27, 2002
IMPLEMENTED ON. APRIL 1, 2003
Issued by. State Economic and Trade Commission of the People's
Republic of China
3. No action is required - Full-copy of this standard will be automatically and
immediately delivered to your EMAIL address in 0~60 minutes.
Table of Contents
Foreword ... 3
1 Scope .. 4
2 Normative references ... 4
3 Terms and definitions ... 5
4 Model .. 5
5 Requirements ... 6
6 Test methods .. 9
7 Inspection rules .. 15
8 Marks ... 17
9 Packaging, transport, storage ... 17
Foreword
This Standard was drafted in accordance with the basic principle of direct-acting
electronic expansion valve, with reference to technical information of advanced
countries.
This Standard was proposed by China Machinery Industry Federation.
This Standard shall be under the jurisdiction of National Technical Committee
on Automatic Controllers of Standardization Administration of China.
The drafting organizations of this Standard. Zhejiang Sanhua Group Co., Ltd.,
Jiangsu Chang Heng Group, Foshan Huaying Refrigeration Equipment Co.,
Ltd., Zhejiang Chunhui Group, Guangzhou Institute of Electrical Science.
Main drafters of this Standard. Chen Yuzhong, Gao Jiguang, Li Shukang, Gu
Qigang, Yang Changchun, Huang Kaiyun.
Electronic expansion valve for
household and similar air conditioner
1 Scope
This Standard specifies the terms and definitions, model, requirements, test
methods, inspection rules and marks, packaging, transport and storage of
electronic expansion valve for household and similar air conditioner.
This Standard applies to direct-acting electronic expansion valve of which the
rated voltage is not greater than 36V, the valve diameter is not more than 4mm,
R22 is used as refrigerant (hereinafter referred to as the value). The electronic
expansion valve that takes R406C, R410A as refrigerants shall refer to this for
implementation.
2 Normative references
The provisions in following documents become the provisions of this Standard
through reference in this Standard. For dated references, the subsequent
amendments (excluding corrigendum) or revisions do not apply to this Standard,
however, parties who reach an agreement based on this Standard are
encouraged to study if the latest versions of these documents are applicable.
For undated references, the latest edition of the referenced document applies.
GB/T 191, Packaging and storage marks
GB/T 2423.1, Environmental testing for electric and electronic and electronic
products - Part 2. Test methods - Tests A. Cold
GB/T 2423.2, Environmental testing for electric and electronic products - Part
2. Test methods - Tests B. Dry heat
GB/T 2423.3, Environmental testing for electric and electronic products - Part
2. Testing method test Cab. Damp heat Steady state
GB/T 2423.10, Environmental testing for electric and electronic products -
Part 2. Tests methods - Test Fc. Vibration (sinusoidal)
GB/T 2423.22, Environmental testing - Part 2. Tests methods - Test N.
Change of temperature
GB/T 10125, Corrosion tests in artificial atmospheres - Salt spray tests
5.2.11 Electrical strength
The valve coil lead and valve body can withstand AC 500V, 1min and AC 600V,
1s electrical strength test, no breakdown or flashover phenomenon (set the
leakage current value as 5mA).
5.2.12 Pulse resistance voltage
After the valve withstands 1/40 μs wave, 5kV peak voltage, five consecutive
pulse voltage tests, it can still meet the requirements of 5.2.10 and 5.2.11.
5.2.13 Noise
The noise is not greater than 45dB (A).
5.2.14 Coil temperature rise
The coil temperature rise is not greater than 60K.
5.2.15 High temperature resistance
The valve can still meet the requirements of 5.2.3, 5.2.6, 5.2.7, 5.2.9 and 5.2.10,
5.2.11 after it is subjected to the high temperature test of 80°C, 72h.
5.2.16 Low temperature resistance
The valve can still meet the requirements of 5.2.3, 5.2.6, 5.2.7, 5.2.9 and 5.2.10,
5.2.11 after it is subjected to the low temperature test of -30°C, 72h.
5.2.17 Temperature resistance change
The valve withstands -30°C, 1h, 80°C, 1h as a cycle. It shall also meet the
requirements of 5.2.3, 5.2.6, 5.2.7, 5.2.9, 5.2.10, 5.2.11 and 5.2.13 after five
cycles of temperature change test.
5.2.18 Moist heat resistance
After the valve withstands 48h moist heat test, it shall also meet the
requirements of 5.2.10 and 5.2.11.
5.2.19 Vibration resistance
After the valve is subjected to the vibration test, it shall also meet the
requirements of 5.2.3, 5.2.6, 5.2.7 and 5.2.8.
5.2.20 Corrosion resistance
After the valve withstands 72h corrosion test, it shall also meet the requirements
of 5.2.3, 5.2.10 and 5.2.11.
electromagnetic valve; 7-testing valve; 8-flow meter.
Figure 5
6.2.9 Valve leakage test
Connect as Figure 1. Turn off the valve. Then apply 1.0MPa of air pressure at
the valve inlet (the pressure is acting on the valve at the off direction). Apply
atmospheric pressure to the exit end. Measure the air leakage at the outlet, in
accordance with the requirements of 5.2.9.
6.2.10 Insulation resistance test
Use a DC 500V megger to measure the insulation resistance between the lead
and the valve body, in accordance with the requirements of 5.2.10.
6.2.11 Electrical strength test
Apply DC 500V, 1min or DC 600V, 1s between the lead and the valve body, in
accordance with the requirements of 5.2.11.
6.2.12 Impulse voltage resistance test
Apply 1/40μs wave between the lead and the valve body. The peak voltage is
5kV. After 5 consecutive impacts, it shall meet the requirements of 5.2.12.
6.2.13 Noise test
Hang the valve in the air. At the rated voltage, in the specified excitation method,
at the excitation speed and under the number of pulses in the control range,
perform the on-off cycle. Measure the noises at 6 points up and down, left and
right, front and back, 300mm from the motor surface, in accordance with the
requirements of 5.2.13.
6.2.14 Coil temperature rise test
Place the valve in a 40°C ± 2°C thermostat. And connect the measurement and
control circuits. After 2h temperature equilibrium, measure and record the initial
resistance of the coil. Then connect the valve to 110% of the rated voltage. In
the specified excitation method, at the excitation speed, within the valve-on
scope of the number of pulse specified by pattern, perform consecutive on-off
cycles for 2h. Then measure the resistance of the coil. Use the resistance
method to measure the temperature rise of the coil, as calculated according to
the following equation.
where,
Δt - coil temperature rise value, in K;
t1 - ambient temperature at the beginning of the test, in °C;
t2 - final ambient temperature of test, in °C;
R1 - coil resistance at temperature t1, in Ω;
R2 - coil resistance at temperature t2, in Ω.
The coil temperature rise shall be in accordance with the requirements of 5.2.14.
6.2.15 High temperature resistance test
In the absence of electricity conditions, carry out the high temperature test of
which the temperature is 80°C, the time is 72h, according to the provisions of
GB/T 2423.2. Take the valve out and let it recover at room temperature for 2h.
It shall meet the requirements of 5.2.15. ...
Get QUOTATION in 1-minute: Click JB/T 10386-2002
Historical versions: JB/T 10386-2002
Preview True-PDF (Reload/Scroll if blank)
JB/T 10386-2002: Electronic expansion valve for household and similar air conditioner
JB/T 10386-2002
JB
MACHINERY INDUSTRY STANDARD
OF THE PEOPLE’S REPUBLIC OF CHINA
ICS 29.120
K 32
Electronic expansion valve for
household and similar air conditioner
ISSUED ON. DECEMBER 27, 2002
IMPLEMENTED ON. APRIL 1, 2003
Issued by. State Economic and Trade Commission of the People's
Republic of China
3. No action is required - Full-copy of this standard will be automatically and
immediately delivered to your EMAIL address in 0~60 minutes.
Table of Contents
Foreword ... 3
1 Scope .. 4
2 Normative references ... 4
3 Terms and definitions ... 5
4 Model .. 5
5 Requirements ... 6
6 Test methods .. 9
7 Inspection rules .. 15
8 Marks ... 17
9 Packaging, transport, storage ... 17
Foreword
This Standard was drafted in accordance with the basic principle of direct-acting
electronic expansion valve, with reference to technical information of advanced
countries.
This Standard was proposed by China Machinery Industry Federation.
This Standard shall be under the jurisdiction of National Technical Committee
on Automatic Controllers of Standardization Administration of China.
The drafting organizations of this Standard. Zhejiang Sanhua Group Co., Ltd.,
Jiangsu Chang Heng Group, Foshan Huaying Refrigeration Equipment Co.,
Ltd., Zhejiang Chunhui Group, Guangzhou Institute of Electrical Science.
Main drafters of this Standard. Chen Yuzhong, Gao Jiguang, Li Shukang, Gu
Qigang, Yang Changchun, Huang Kaiyun.
Electronic expansion valve for
household and similar air conditioner
1 Scope
This Standard specifies the terms and definitions, model, requirements, test
methods, inspection rules and marks, packaging, transport and storage of
electronic expansion valve for household and similar air conditioner.
This Standard applies to direct-acting electronic expansion valve of which the
rated voltage is not greater than 36V, the valve diameter is not more than 4mm,
R22 is used as refrigerant (hereinafter referred to as the value). The electronic
expansion valve that takes R406C, R410A as refrigerants shall refer to this for
implementation.
2 Normative references
The provisions in following documents become the provisions of this Standard
through reference in this Standard. For dated references, the subsequent
amendments (excluding corrigendum) or revisions do not apply to this Standard,
however, parties who reach an agreement based on this Standard are
encouraged to study if the latest versions of these documents are applicable.
For undated references, the latest edition of the referenced document applies.
GB/T 191, Packaging and storage marks
GB/T 2423.1, Environmental testing for electric and electronic and electronic
products - Part 2. Test methods - Tests A. Cold
GB/T 2423.2, Environmental testing for electric and electronic products - Part
2. Test methods - Tests B. Dry heat
GB/T 2423.3, Environmental testing for electric and electronic products - Part
2. Testing method test Cab. Damp heat Steady state
GB/T 2423.10, Environmental testing for electric and electronic products -
Part 2. Tests methods - Test Fc. Vibration (sinusoidal)
GB/T 2423.22, Environmental testing - Part 2. Tests methods - Test N.
Change of temperature
GB/T 10125, Corrosion tests in artificial atmospheres - Salt spray tests
5.2.11 Electrical strength
The valve coil lead and valve body can withstand AC 500V, 1min and AC 600V,
1s electrical strength test, no breakdown or flashover phenomenon (set the
leakage current value as 5mA).
5.2.12 Pulse resistance voltage
After the valve withstands 1/40 μs wave, 5kV peak voltage, five consecutive
pulse voltage tests, it can still meet the requirements of 5.2.10 and 5.2.11.
5.2.13 Noise
The noise is not greater than 45dB (A).
5.2.14 Coil temperature rise
The coil temperature rise is not greater than 60K.
5.2.15 High temperature resistance
The valve can still meet the requirements of 5.2.3, 5.2.6, 5.2.7, 5.2.9 and 5.2.10,
5.2.11 after it is subjected to the high temperature test of 80°C, 72h.
5.2.16 Low temperature resistance
The valve can still meet the requirements of 5.2.3, 5.2.6, 5.2.7, 5.2.9 and 5.2.10,
5.2.11 after it is subjected to the low temperature test of -30°C, 72h.
5.2.17 Temperature resistance change
The valve withstands -30°C, 1h, 80°C, 1h as a cycle. It shall also meet the
requirements of 5.2.3, 5.2.6, 5.2.7, 5.2.9, 5.2.10, 5.2.11 and 5.2.13 after five
cycles of temperature change test.
5.2.18 Moist heat resistance
After the valve withstands 48h moist heat test, it shall also meet the
requirements of 5.2.10 and 5.2.11.
5.2.19 Vibration resistance
After the valve is subjected to the vibration test, it shall also meet the
requirements of 5.2.3, 5.2.6, 5.2.7 and 5.2.8.
5.2.20 Corrosion resistance
After the valve withstands 72h corrosion test, it shall also meet the requirements
of 5.2.3, 5.2.10 and 5.2.11.
electromagnetic valve; 7-testing valve; 8-flow meter.
Figure 5
6.2.9 Valve leakage test
Connect as Figure 1. Turn off the valve. Then apply 1.0MPa of air pressure at
the valve inlet (the pressure is acting on the valve at the off direction). Apply
atmospheric pressure to the exit end. Measure the air leakage at the outlet, in
accordance with the requirements of 5.2.9.
6.2.10 Insulation resistance test
Use a DC 500V megger to measure the insulation resistance between the lead
and the valve body, in accordance with the requirements of 5.2.10.
6.2.11 Electrical strength test
Apply DC 500V, 1min or DC 600V, 1s between the lead and the valve body, in
accordance with the requirements of 5.2.11.
6.2.12 Impulse voltage resistance test
Apply 1/40μs wave between the lead and the valve body. The peak voltage is
5kV. After 5 consecutive impacts, it shall meet the requirements of 5.2.12.
6.2.13 Noise test
Hang the valve in the air. At the rated voltage, in the specified excitation method,
at the excitation speed and under the number of pulses in the control range,
perform the on-off cycle. Measure the noises at 6 points up and down, left and
right, front and back, 300mm from the motor surface, in accordance with the
requirements of 5.2.13.
6.2.14 Coil temperature rise test
Place the valve in a 40°C ± 2°C thermostat. And connect the measurement and
control circuits. After 2h temperature equilibrium, measure and record the initial
resistance of the coil. Then connect the valve to 110% of the rated voltage. In
the specified excitation method, at the excitation speed, within the valve-on
scope of the number of pulse specified by pattern, perform consecutive on-off
cycles for 2h. Then measure the resistance of the coil. Use the resistance
method to measure the temperature rise of the coil, as calculated according to
the following equation.
where,
Δt - coil temperature rise value, in K;
t1 - ambient temperature at the beginning of the test, in °C;
t2 - final ambient temperature of test, in °C;
R1 - coil resistance at temperature t1, in Ω;
R2 - coil resistance at temperature t2, in Ω.
The coil temperature rise shall be in accordance with the requirements of 5.2.14.
6.2.15 High temperature resistance test
In the absence of electricity conditions, carry out the high temperature test of
which the temperature is 80°C, the time is 72h, according to the provisions of
GB/T 2423.2. Take the valve out and let it recover at room temperature for 2h.
It shall meet the requirements of 5.2.15. ...
Share






