CN217299114U - Low single tube of putting water tank and parallelly connected two high stationary flow jar subregion water supply system of putting - Google Patents

Abstract

A low water tank single tube of putting connects two high stationary flow jar subregion water supply systems of putting, includes: the system comprises a tap water pipe network, a water storage tank positioned in a basement, a variable frequency booster pump, a steady flow tank, a downlink user pipe network and a microcomputer control cabinet; the tap water pipe network, the water storage tank positioned in the basement and the variable-frequency booster pump are sequentially connected through pipelines; the pipeline of the variable-frequency booster pump is connected with the two flow stabilizing tanks and is connected into a water pipeline; the outlet pipeline of the steady flow tank is connected with a down user pipe network. The utility model discloses guaranteed that outer net water supply pressure fluctuation is great in area building secondary water supply and do not directly draw water from the outer net, reduced the influence to the outer net. Meanwhile, the high-level water tank in the original partitioned parallel single-pipe water supply society is replaced by the high-level steady flow tank, the area and the load required by the top equipment room are reduced, and the water in the steady flow tank cannot be stored for a long time, so that the pollution possibility is reduced.

Description

Low single tube of putting water tank and parallelly connected two high stationary flow jar subregion water supply system of putting

Technical Field

The utility model relates to a secondary water supply field, in particular to subregion water supply system.

Background

In high-rise buildings with extremely large water supply pressure change in the external network, water is not allowed to be directly pumped from the external network to supply water to a user pipe network, and a water supply system is connected in a subarea-by-pipe mode, so that the high-rise buildings are a common water supply mode. In the past, the water supply mode is usually realized by arranging the transfer water tank among the top devices of a plurality of water supply subareas, and the water supply water tank needs to store a large amount of water, so that the possibility of pollution is increased by long-time storage of water, the load of the devices on buildings is increased, meanwhile, the area of the water tank occupied by the devices is higher, and the space utilization rate of the buildings is reduced.

SUMMERY OF THE UTILITY MODEL

The purpose of the present invention is to solve at least one of the technical drawbacks.

Therefore, an object of the utility model is to provide a low water tank single tube of putting and connect two high stationary flow jar subregion water supply system of putting, include: the system comprises a tap water pipe network, a water storage tank positioned in a basement, a variable frequency booster pump, a steady flow tank, a descending user pipe network and a microcomputer control cabinet;

a water tank electromagnetic valve and a water tank ball float valve are sequentially arranged at the water inlet pipeline of the water storage tank along the water flow direction, and a water tank liquid level meter is arranged in the tank body;

a booster pump pressure sensor is arranged at the water outlet end of the variable-frequency booster pump;

the steady flow tank body is respectively provided with a steady flow tank liquid level meter and a steady flow tank pressure sensor;

the tail end of the downlink user pipe network is provided with a user pipe network pressure sensor;

the tap water pipe network, the water storage tank positioned in the basement and the variable-frequency booster pump are sequentially connected through pipelines;

the pipeline of the variable-frequency booster pump is connected with the two flow stabilizing tanks and is connected into a water pipeline;

the water outlet pipeline of the steady flow tank is connected with a downstream user pipe network;

the microcomputer control cabinet is respectively connected with the water tank electromagnetic valve, the water tank liquid level meter, the variable-frequency booster pump, the booster pump pressure sensor, the steady flow tank liquid level meter and the steady flow tank pressure sensor through signal wires.

The utility model has the advantages and positive effects that: the system ensures that the secondary water supply of the building in the area with larger pressure fluctuation of the water supply of the external network does not directly pump water from the external network, and reduces the influence on the external network. Meanwhile, the high-level water tank in the original partitioned parallel single-pipe water supply society is replaced by the high-level steady flow tank, the area and the load required by the top equipment room are reduced, and the water in the steady flow tank cannot be stored for a long time, so that the pollution possibility is reduced.

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 the low water tank single tube connected with the double high steady flow tank partitioned water supply system of the present invention.

In the figure, 1, a tap water pipe network, 2, a water storage tank, 21, a water tank electromagnetic valve, 22, a water tank ball float valve, 23, a water tank liquid level meter, 3, a variable frequency booster pump, 31, a booster pump pressure sensor, 4, a steady flow tank, 41, a steady flow tank liquid level meter, 42, a steady flow tank pressure sensor, 5, a downlink user pipe network, 51, a user pipe network pressure sensor and 6, a microcomputer control cabinet.

Detailed Description

The present invention will now be described in more detail with reference to the appended drawings, in which preferred embodiments of the invention are shown, it being understood that those skilled in the art may modify the invention herein described while still achieving the advantageous effects of the invention. Accordingly, the following description should be construed as broadly as possible to those skilled in the art and not as limiting the invention.

As shown in fig. 1, a single-pipe parallel-connection double-high-position steady flow tank partitioned water supply system with a low-position water tank comprises a tap water pipe network 1, a water storage tank 2 positioned in a basement, a variable-frequency booster pump 3, a steady flow tank 4, a downlink user pipe network 5 and a microcomputer control cabinet 6;

a water tank electromagnetic valve 21 and a water tank ball float valve 22 are sequentially arranged at the water inlet pipeline of the water storage tank 2 along the water flow direction, and a water tank liquid level meter 23 is arranged in the tank body;

a booster pump pressure sensor 31 is arranged at the water outlet end of the variable-frequency booster pump 3;

a tank body of the steady flow tank 4 is respectively provided with a steady flow tank liquid level meter 41 and a steady flow tank pressure sensor 42;

a tap water pipe network 1, a water storage tank 2 positioned in a basement and a variable frequency booster pump 3 are sequentially connected through pipelines;

the variable frequency booster pump 3 is connected with the two flow stabilizing tanks 4 by pipelines and is connected into a water pipeline;

a water outlet pipeline of the steady flow tank 4 is connected with a downlink user pipe network 5;

the microcomputer control cabinet 6 is respectively connected with the water tank electromagnetic valve 21, the water tank liquid level meter 23, the variable frequency booster pump 3, the booster pump pressure sensor 31, the steady flow tank liquid level meter 41 and the steady flow tank pressure sensor 42 through signal lines.

The present invention has been described in detail with reference to the embodiments, but the present invention is only a preferred embodiment, and should not be construed as limiting the scope of the present invention. All the equivalent changes and improvements made according to the application scope of the present invention should still fall within the patent coverage of the present invention.

Claims (1)

1. The utility model provides a low water tank single tube of putting connects two high stationary flow jar subregion water supply systems of putting which characterized in that includes: a tap water pipe network (1), a water storage tank (2) positioned in a basement, a variable frequency booster pump (3), a steady flow tank (4), a downlink user pipe network (5) and a microcomputer control cabinet (6);

a water tank electromagnetic valve (21) and a water tank ball float valve (22) are sequentially arranged at the water inlet pipeline of the water storage tank (2) along the water flow direction, and a water tank liquid level meter (23) is arranged in the tank body;

a booster pump pressure sensor (31) is arranged at the water outlet end of the variable-frequency booster pump (3);

the tank body of the steady flow tank (4) is respectively provided with a steady flow tank liquid level meter (41) and a steady flow tank pressure sensor (42);

a user pipe network pressure sensor (51) is arranged at the tail end of the downlink user pipe network (5);

the tap water pipe network (1), the water storage tank (2) positioned in the basement and the variable-frequency booster pump (3) are sequentially connected through pipelines;

the pipeline of the variable-frequency booster pump (3) is connected with the two steady flow tanks (4) and is connected into a water pipeline;

the water outlet pipeline of the steady flow tank (4) is connected with the downlink user pipe network (5);

the microcomputer control cabinet (6) is respectively connected with the water tank electromagnetic valve (21), the water tank liquid level meter (23), the variable-frequency booster pump (3), the booster pump pressure sensor (31), the steady flow tank liquid level meter (41) and the steady flow tank pressure sensor (42) through signal lines.

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