GB 28378-2019_English: PDF (GB28378-2019)
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Minimum allowable values of water efficiency and water efficiency grades for showers
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GB 28378-2019
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Standards related to: GB 28378-2019
Standard ID | GB 28378-2019 (GB28378-2019) | Description (Translated English) | Minimum allowable values of water efficiency and water efficiency grades for showers | Sector / Industry | National Standard | Classification of Chinese Standard | Y71 | Classification of International Standard | 91.060 | Word Count Estimation | 8,827 | Date of Issue | 2019-12-31 | Date of Implementation | 2020-07-01 | Drafting Organization | Jiumu Kitchen and Bathroom Co., Ltd., China National Institute of Standardization, Guangzhou Mona Lisa Sanitary Ware Co., Ltd., Guangdong Lehua Home Furnishing Co., Ltd., National Drainage, Irrigation and Water-saving Equipment Product Quality Supervision and Inspection Center, Xiamen Water Dragonfly Sanitary Ware Technology Co., Ltd., Anhui Provincial Institute of Product Quality Supervision and Inspection, Guangdong Huayi Sanitary Ware Industry Co., Ltd., Hengjie Sanitary Ware Group Co., Ltd., Quanzhou Lianchuang Kitchen and Bathroom Co., Ltd., Foshan Jiajia Sanitary Ware Co., Ltd., Qingdao Economic and Technological Development Zone Haier Water Heater Co., Ltd., Foshan Dongpeng Sanitary Ware Co., Ltd., Hansgrohe Sanitary Ware (Shanghai) Co., Ltd., Xiamen Songlin Technology Co., Ltd., Guangdong Weixiang Sanitary Ware Industry Co., Ltd., Kaiping Hanmark Sanitary Ware Co., Ltd., Taizhou Shenhu Sanitary Ware Co., Ltd. Co., Ltd., Yinchao Sanitary Ware Technology Co., Ltd. | Administrative Organization | National Standardization Administration | Proposing organization | National Standardization Administration, Department of Resource Conservation and Environmental Protection, National Development and Reform Commission of the People's Republic of China | Issuing agency(ies) | State Administration for Market Regulation, National Standardization Administration |
GB 28378-2019
GB
NATIONAL STANDARD OF THE
PEOPLE’S REPUBLIC OF CHINA
ICS 91.060
Y 71
Replacing GB 28378-2012
Minimum Allowable Values of Water Efficiency
and Water Efficiency Grades for Showers
ISSUED ON: DECEMBER 31, 2019
IMPLEMENTED ON: JULY 01, 2020
Issued by: State Administration for Market Regulation;
Standardization Administration of PRC.
Table of Contents
Foreword ... 3
1 Scope ... 5
2 Normative References ... 5
3 Terms and Definitions ... 5
4 Water Efficiency Grade of Shower ... 6
5 Technical Requirements ... 6
6 Test Methods ... 7
Appendix A (Normative) Test Methods ... 8
Minimum Allowable Values of Water Efficiency
and Water Efficiency Grades for Showers
1 Scope
This Standard specifies the water efficiency grade, technical requirements and test
methods of showers.
This Standard is applicable to the water efficiency evaluation for the showers (including
sprinkler or sprinkler combinations) that is used in the shower room and other sanitary
facilities, and that is installed at the end of the cold and hot water supply pipelines in
the building, with a nominal pressure (static pressure) no greater than 1.0MPa, and
medium temperature of 4°C ~90°C.
This Standard is not applicable to showers with their own heating device and
thermostatic showers.
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 33733 Terminology and Classification for the Kitchen and Sanitary Ware
Fittings
3 Terms and Definitions
For the purpose of this document, the terms and definitions given in GB/T 33733 and
the following apply.
3.1 Uniformity of flow; ΔF
Under different test pressures, the difference between the highest average flowrate
and the lowest average flowrate of the hand-held sprinkler for the shower.
3.2 Minimum allowable values of water efficiency for showers
Test according to Appendix A, the average spray force of the hand-held sprinkler shall
be no less than 0.85N.
NOTE: If the sprinkler has multiple water outlet methods, take the maximum average spray
force.
5.3 Uniformity of flow
Test according to Appendix A, the maximum water flow uniformity of the hand-held
sprinkler for the shower shall be no greater than 4.0 L/min.
5.4 Minimum allowable values of water efficiency for showers
The minimum allowable values of water efficiency for showers indicate Grade-3 water
efficiency.
5.5 Evaluating values of water conservation for showers
The evaluating values of water conservation for the showers indicate Grade-2 water
efficiency.
6 Test Methods
The test methods for spray force, flowrate and uniformity of flow for showers shall be
implemented in accordance with Appendix A.
A.1.2 Spray force test procedures
The spray force test is carried out according to the following procedures:
a) The hand-held sprinkler and its accessories (such as shower valve, water-
separating switch, straight pipe/elbow shower column or shower hose, etc.) shall
be assembled according to the assembly method provided by the manufacturer;
b) For the hand-held sprinkler with various water outlet methods, adjust it to the
maximum spray force for test;
c) Install the hand-held sprinkler on the test bench, and connect the water to the
hand-held sprinkler water inlet (for the hand-held shower connected to the hose,
install it on the test bench so that the hose hangs freely in a U shape, no distortion,
hand-held sprinkler panel is horizontal);
d) The spray sphere is installed on the spray force measuring device;
e) Check whether the vertical axis of the spray force measuring device is
perpendicular to the horizontal plane;
f) Adjust the hand-held sprinkler water outlet panel so that it is placed horizontally,
and the vertical distance between it and the spray spherical dome is
400mm~405mm;
g) Pass water to the hand-held sprinkler and gradually adjust the dynamic pressure
to (0.50±0.01) MPa through the pressure regulating device, and keep the
dynamic pressure stable for at least 60s;
h) Turn off the water flow; and then gradually turn on the water flow to adjust the
pressure to (0.30±0.01) MPa; and then read the reading P1 of the spray force
test device after maintaining stability (at least stable for 10s);
i) Repeat Procedure h), the pressure drops to (0.20±0.01) MPa and (0.10±0.01)
MPa; and read P2 and P3;
j) Calculate the average value of P1, P2 and P3 as the average spray force.
A.2 Flowrate test
A.2.1 Flowrate test device
A.2.1.1 Water supply device
The water supply device shall include:
a) A pressure regulating device that can continuously maintain the pressure
required by the standard;
A.2.3 Flowrate test procedures
The flowrate test of various showers is carried out according to the following
procedures:
a) Single handle dual control shower
Connect the shower to the test device according to Figure A.2; turn the handle
to the maximum position of cold and hot water and to the position of the
maximum flowrate of mixed water respectively; record the flowrate when the
flowrate is stable at each position; and take the maximum value of the flowrate.
b) Double handle double control shower
Connect the shower to the test device according to Figure A.2; turn the handle
to the maximum position of cold and hot water and turn the hot and cold water
to the maximum position at the same time; record the flowrate when the flowrate
is stable at each position; and take the maximum value of the flowrate.
c) Single handle single control shower
Connect the shower to the test device according to Figure A.2; turn the handle
to the maximum flowrate at the water outlet position; and record the flowrate
when the flowrate is stable.
A.3 Flowrate uniformity test
A.3.1 Flowrate uniformity test device
The flowrate uniformity test device shall meet the requirements of A.2.1.
A.3.2 Flowrate uniformity test procedures
A.3.2.1 Connect the shower to the test device according to Figure A.2.
A.3.2.2 Adjust the water inlet pressure to a dynamic pressure of 0.50 MPa; and after
turning-on for 1 min, successively adjust to the dynamic pressure (0.30 ± 0.01) MPa,
(0.20 ± 0.01) MPa and (0.10 ± 0.01) MPa, each test 3 times; record the flowrate when
the flowrate is stable under each pressure; respectively calculate the average value;
and calculate the difference between the maximum average flowrate and the minimum
average flowrate.
A.3.2.3 The pressure is tested in turn from high to low, and the test process is as
follows:
a) The flowrates of the 3 tests at (0.30±0.01) MPa are f11, f12, and f13, and the
average value is F1=(f11+f12+f13)/3;
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