CN216616041U - High-level water tank relay steady flow tank partition water supply system - Google Patents
High-level water tank relay steady flow tank partition water supply system Download PDFInfo
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- CN216616041U CN216616041U CN202123311018.8U CN202123311018U CN216616041U CN 216616041 U CN216616041 U CN 216616041U CN 202123311018 U CN202123311018 U CN 202123311018U CN 216616041 U CN216616041 U CN 216616041U
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- Y—GENERAL TAGGING OF NEW TECHNOLOGICAL DEVELOPMENTS; GENERAL TAGGING OF CROSS-SECTIONAL TECHNOLOGIES SPANNING OVER SEVERAL SECTIONS OF THE IPC; TECHNICAL SUBJECTS COVERED BY FORMER USPC CROSS-REFERENCE ART COLLECTIONS [XRACs] AND DIGESTS
- Y02—TECHNOLOGIES OR APPLICATIONS FOR MITIGATION OR ADAPTATION AGAINST CLIMATE CHANGE
- Y02A—TECHNOLOGIES FOR ADAPTATION TO CLIMATE CHANGE
- Y02A20/00—Water conservation; Efficient water supply; Efficient water use
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Abstract
A high water tank relay steady flow tank partition water supply system comprises: the system comprises a tap water pipe network, a low stationary flow tank, a lift pump group, a high water tank, a high area user pipe network, a middle area stationary flow tank, a middle area user pipe network, a low area stationary flow tank, a low area user pipe network and a microcomputer control cabinet; the tap water pipe network, the low stationary flow tank, the lift pump set and the high water tank are sequentially connected through pipelines; the water outlet of the high-level water tank is connected with a parallel water inlet pipeline of a high-region user pipe network and a middle-region steady flow tank; the water outlet of the middle area flow stabilizing tank is connected with a water inlet pipeline which is connected with the middle area user pipe network and the low area flow stabilizing tank in parallel; and a water outlet pipeline of the low-region flow stabilizing tank is connected with a low-region user pipe network. The top layer of the utility model is provided with the water storage tank to regulate, store and supply water during the peak period of water consumption, and other vertical partitions adopt the flow stabilizing tanks, so that the occupied large building area of the equipment room is reduced, the secondary pollution is eliminated, and the later maintenance operation flow is simplified; meanwhile, the adoption of the flow stabilizing tank can reduce a partition pressure reducing valve and a pipe network overpressure alarm device, and the electrical control is greatly simplified.
Description
Technical Field
The utility model relates to the field of secondary water supply, in particular to a subarea water supply system.
Background
The not enough high-rise water supply of underground equipment room area often adopts and sets up high putting the water tank at the building top simultaneously, and middle floor sets up vertical subregion water tank and supplies water, and these settings need occupy great area at the water tank of vertical subregion and place and cause the waste, and the periodic disinfection of water tank also brings the degree of difficulty for later maintenance in the middle of the while. In the process of building a new project or transforming an old project of the high-rise water supply, if the scheme of setting the vertical partition water tank still continues to be attacked, the problems can still not be avoided. If a pressure reducing valve is adopted for reducing pressure and supplying water, the pressure reducing valve is easy to break down, and the pipe network is easy to generate overpressure, so that the difficulty is increased for the later operation and maintenance of the water supply system.
SUMMERY OF THE UTILITY MODEL
The object of the present invention is to solve at least one of the technical drawbacks mentioned.
Therefore, the utility model aims to provide a relay and steady flow tank partition water supply system for a high-level water tank, which comprises: the system comprises a tap water pipe network, a low stationary flow tank, a lifting pump set, a high water tank, a high-region user pipe network, a middle-region stationary flow tank, a middle-region user pipe network, a low-region stationary flow tank, a low-region user pipe network and a microcomputer control cabinet;
a water inlet pipeline of the low stationary flow tank is provided with a first flow regulating electromagnetic valve, and a tank body of the tank is provided with a first pressure sensor;
a water outlet end of the lifting pump group is provided with a second pressure sensor;
the water inlet pipeline of the high-level water tank is sequentially provided with a third pressure sensor and a ball float valve along the water inlet direction, a liquid level meter is arranged in the water tank body, and the end part of the water outlet pipeline in the water tank body is provided with a water diversion device;
a middle area proportional pressure reducing valve group is arranged on a water inlet pipeline of the middle area steady flow tank, and a fourth pressure sensor is arranged on the tank body of the tank;
a low-region proportional pressure reducing valve group is arranged on a water inlet pipeline of the low-region flow stabilizing tank, and a fifth pressure sensor is arranged on a tank body of the tank;
the tap water pipe network, the low stationary flow tank, the lifting pump set and the high water tank are sequentially connected by pipelines;
the diversion device is connected with the high-region user pipe network and the middle-region steady flow tank and is connected with a water inlet pipeline in parallel;
the water outlet of the middle area flow stabilizing tank is connected with a water inlet pipeline which is connected with the middle area user pipe network and the low area flow stabilizing tank in parallel;
and a water outlet pipeline of the low-region flow stabilizing tank is connected with a low-region user pipe network.
The microcomputer control cabinet is respectively connected with signal lines of the first flow regulating electromagnetic valve, the first pressure sensor, the lifting pump group, the second pressure sensor, the third pressure sensor, the liquid level meter, the fourth pressure sensor and the fifth pressure sensor.
The utility model has the advantages and positive effects that: the area of the underground equipment room is insufficient, a high-rise water supply system with an intermediate tank is arranged in each vertical partition in the prior art, a water storage tank is arranged at the top layer to regulate, store and supply water in a water peak period, and a flow stabilizing tank is adopted in other vertical partitions to replace an intermediate water tank, so that the occupied large building area of the equipment room is reduced, the secondary pollution is eliminated, and the later maintenance operation flow is simplified; meanwhile, the adoption of the flow stabilizing tank can reduce a partition pressure reducing valve and a pipe network overpressure alarm device, and the electrical control is greatly simplified.
Drawings
The above and/or additional aspects and advantages of the present invention will become apparent and readily appreciated from the following description of the embodiments, taken in conjunction with the accompanying drawings of which:
FIG. 1 is a schematic diagram of a relay and steady flow tank partitioned water supply system of a high-level water tank.
In the figure, 1, a tap water pipe network, 2, a low stationary flow tank, 21, a first flow regulating electromagnetic valve, 22, a first pressure sensor, 3, a lifting pump group, 31, a second pressure sensor, 4, a high water tank, 41, a third pressure sensor, 42, a ball float valve, 43, a liquid level meter, 44, a water diversion device, 5, a high area user pipe network, 6, a middle area stationary flow tank, 61, a middle area proportional pressure reducing valve group, 62, a fourth pressure sensor, 7, a middle area user pipe network, 8, a low area stationary flow tank, 81, a low area proportional pressure reducing valve group, 82, a fifth pressure sensor, 9, a low area user pipe network, 10 and a microcomputer control cabinet.
Detailed Description
The present invention will now be described in more detail with reference to the accompanying drawings, in which preferred embodiments of the utility model are shown, it being understood that one skilled in the art may modify the utility model herein described while still achieving the advantageous effects of the utility model. Accordingly, the following description should be construed as broadly as possible to those skilled in the art and not as limiting the utility model.
As shown in fig. 1, a relay and steady flow tank partitioned water supply system of a high-level water tank comprises: the system comprises a tap water pipe network 1, a low stationary flow tank 2, a lifting pump group 3, a high water tank 4, a high-region user pipe network 5, a middle-region stationary flow tank 6, a middle-region user pipe network 7, a low-region stationary flow tank 8, a low-region user pipe network 9 and a microcomputer control cabinet 10;
a water inlet pipeline of the low stationary flow tank 2 is provided with a first flow regulating electromagnetic valve 21, and a tank body of the tank is provided with a first pressure sensor 22;
the water outlet end of the lifting pump group 3 is provided with a second pressure sensor 31;
a third pressure sensor 41 and a ball float valve 42 are sequentially arranged on a water inlet pipeline of the high-level water tank 4 along the water inlet direction, a liquid level meter 43 is arranged in the water tank body, and a water diversion device 44 is arranged at the end part of a water outlet pipeline in the water tank body;
a water inlet pipeline of the middle area steady flow tank 6 is provided with a middle area proportional pressure reducing valve group 61, and the tank body of the tank is provided with a fourth pressure sensor 62;
a water inlet pipeline of the low-region flow stabilizing tank 8 is provided with a low-region proportional pressure reducing valve group 81, and the tank body of the tank is provided with a fifth pressure sensor 82;
a tap water pipe network 1, a low stationary flow tank 2, a lifting pump group 3 and a high water tank 4 are sequentially connected by pipelines;
the water diversion device 44 is connected with the parallel water inlet pipelines of the high-region user pipe network 5 and the middle-region steady flow tank 6;
the water outlet of the middle area steady flow tank 6 is connected with the parallel water inlet pipeline of the middle area user pipe network 7 and the low area steady flow tank 8;
and a water outlet pipeline of the low-region flow stabilizing tank 8 is connected with a low-region user pipe network 9.
The microcomputer control cabinet 10 is respectively connected with the signal lines of the first flow regulating electromagnetic valve 21, the first pressure sensor 22, the lifting pump group 3, the second pressure sensor 31, the third pressure sensor 41, the liquid level meter 43, the fourth pressure sensor 62 and the fifth pressure sensor 82.
The present invention has been described in detail with reference to the embodiments, but the present invention is only the preferred embodiments of the present invention and should not be construed as limiting the scope of the present invention. All equivalent changes and modifications made within the scope of the present invention shall fall within the scope of the present invention.
Claims (2)
1. The utility model provides a high water tank relay stationary flow jar subregion water supply system which characterized in that includes: a tap water pipe network (1), a low-position steady flow tank (2), a lift pump set (3), a high-position water tank (4), a high-region user pipe network (5), a middle-region steady flow tank (6), a middle-region user pipe network (7), a low-region steady flow tank (8), a low-region user pipe network (9) and a microcomputer control cabinet (10);
a water inlet pipeline of the low stationary flow tank (2) is provided with a first flow regulating electromagnetic valve (21), and a tank body of the tank is provided with a first pressure sensor (22);
a second pressure sensor (31) is arranged at the water outlet end of the lifting pump group (3);
a water inlet pipeline of the high-level water tank (4) is sequentially provided with a third pressure sensor (41) and a ball float valve (42) along the water inlet direction, a liquid level meter (43) is arranged in the water tank body, and a water diversion device (44) is arranged at the end part of a water outlet pipeline in the water tank body;
the water inlet pipeline of the middle-area steady flow tank (6) is provided with a middle-area proportional pressure reducing valve group (61), and the tank body of the tank is provided with a fourth pressure sensor (62);
a water inlet pipeline of the low-region flow stabilizing tank (8) is provided with a low-region proportional pressure reducing valve group (81), and a tank body of the low-region flow stabilizing tank is provided with a fifth pressure sensor (82);
the tap water pipe network (1), the low stationary flow tank (2), the lifting pump set (3) and the high water tank (4) are sequentially connected through pipelines;
the water diversion device (44) is connected with the high-region user pipe network (5) and the middle-region steady flow tank (6) in parallel connection with a water inlet pipeline;
the water outlet of the middle area steady flow tank (6) is connected with the middle area user pipe network (7) and the parallel water inlet pipeline of the low area steady flow tank (8);
and a water outlet pipeline of the low-region flow stabilizing tank (8) is connected with the low-region user pipe network (9).
2. The high-level water tank relay steady flow tank partitioned water supply system as claimed in claim 1, wherein the microcomputer control cabinet (10) is respectively connected with the first flow regulating solenoid valve (21), the first pressure sensor (22), the lift pump group (3), the second pressure sensor (31), the third pressure sensor (41), the liquid level meter (43), the fourth pressure sensor (62) and the fifth pressure sensor (82) through signal lines.
Priority Applications (1)
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CN202123311018.8U CN216616041U (en) | 2021-12-27 | 2021-12-27 | High-level water tank relay steady flow tank partition water supply system |
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CN202123311018.8U CN216616041U (en) | 2021-12-27 | 2021-12-27 | High-level water tank relay steady flow tank partition water supply system |
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2021
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