CN211172178U - Energy-saving water supply equipment for high-rise building high-low area - Google Patents

Abstract

A high-low region energy-saving water supply device for a high-rise building comprises a water inlet main pipe, a main pressure stabilizing tank, a first water conveying pipeline, a low region water outlet main pipe, a middle region pressure stabilizing tank, a second water conveying pipeline, a middle region water outlet main pipe, a high region pressure stabilizing tank and a third water conveying pipeline; the main pressure stabilizing tank is provided with a water inlet and a water outlet, the water inlet is connected with an output port of the water inlet main pipe, and the water outlet is connected with an input port of the first water conveying pipeline; the middle-area pressure stabilizing tank is provided with a water inlet and a water outlet, the water inlet is connected with the output port of the first water conveying pipeline, and the water outlet is connected with the input port of the second water conveying pipeline; a water inlet and a water outlet are arranged on the high-region pressure stabilizing tank, the water inlet is connected with the output port of the second water conveying pipeline, and the water outlet is connected with the input port of the third water conveying pipeline; the low-region water outlet main pipe is connected with the first water conveying pipeline, and the middle-region water outlet main pipe is connected with the second water conveying pipeline. The utility model discloses a promote water step by step and subregion output, can effectively reduce the energy consumption, energy-concerving and environment-protective has the practicality.

Description

Energy-saving water supply equipment for high-rise building high-low area

Technical Field

The utility model relates to a building water supply field especially relates to an energy-conserving water supply equipment of high-rise building high-low district.

Background

Along with the continuous development of urban scale, high-rise buildings develop more and more, and the resident also becomes higher and more to the water consumption and pressure requirement, and the water supply equipment of traditional high-rise building adopts the water pump with water suction to the highest floor of building, then lets water flow into high district user, middle district user and low district user downwards from the highest floor, and required energy consumption is big, has wasted a large amount of energy, and is energy-concerving and environment-protective inadequately.

SUMMERY OF THE UTILITY MODEL

Objects of the invention

For solving the technical problem who exists among the background art, the utility model provides an energy-conserving water supply equipment in high-rise building high-low district through promoting water step by step and subregion output, can effectively reduce the energy consumption, and energy-concerving and environment-protective has the practicality.

(II) technical scheme

The utility model provides a high-low region energy-saving water supply device for high-rise buildings, which comprises a water inlet main pipe, a total pressure stabilizing tank, a first water conveying pipeline, a low region water outlet main pipe, a middle region pressure stabilizing tank, a second water conveying pipeline, a middle region water outlet main pipe, a high region pressure stabilizing tank and a third water conveying pipeline;

the main pressure stabilizing tank is provided with a water inlet and a water outlet, the water inlet is connected with an output port of the water inlet main pipe, and the water outlet is connected with an input port of the first water conveying pipeline; the middle-area pressure stabilizing tank is provided with a water inlet and a water outlet, the water inlet is connected with the output port of the first water conveying pipeline, and the water outlet is connected with the input port of the second water conveying pipeline; a water inlet and a water outlet are arranged on the high-region pressure stabilizing tank, the water inlet is connected with the output port of the second water conveying pipeline, and the water outlet is connected with the input port of the third water conveying pipeline;

the water inlet main pipe is provided with a filtering and purifying device, a water inlet pressure detecting instrument, a total water inlet flow detecting instrument and a water inlet main valve; a low-region water pump, a low-region water pressure detecting instrument and a first control valve are arranged on the first water conveying pipeline; the low-region water outlet main pipe is connected with the first water conveying pipeline, a low-region water outlet main valve is arranged on the low-region water outlet main pipe, and the low-region water outlet main pipe supplies low-region users; a middle area water pump, a middle area water pressure detection instrument and a second control valve are arranged on the second water conveying pipeline; the middle area water outlet main pipe is connected with the second water conveying pipeline, a middle area water outlet main valve is arranged on the middle area water outlet main pipe, and the middle area water outlet main pipe supplies water to a middle area user; and a high-region water pump, a high-region water pressure detecting instrument and a high-region water outlet main valve are arranged on the third water conveying pipeline, and the third water conveying pipeline is used for high-region users.

Preferably, the system further comprises a control system;

the input end of the control system is in communication connection with the liquid level sensor and the water pressure detection instrument, and the output end of the control system is in control connection with the control valve, the low-region water pump, the middle-region water pump and the high-region water pump.

Preferably, the liquid level sensor comprises a total surge tank liquid level sensor, a middle area surge tank liquid level sensor and a high area surge tank liquid level sensor.

Preferably, the control valves comprise a water inlet main valve, a low-region water outlet main valve, a first control valve, a middle-region water outlet main valve, a second control valve and a high-region water outlet main valve.

Preferably, the control valve is a butterfly valve.

Preferably, the water inlet main pipe is provided with a main pipe check valve.

Preferably, the first water conveying pipeline is provided with a first check valve.

Preferably, the second water conveying pipeline is provided with a second check valve.

Preferably, the low-region water outlet main pipe, the middle-region water outlet main pipe and the third water conveying pipeline are respectively provided with a water outlet flow detecting instrument.

The above technical scheme of the utility model has following profitable technological effect:

the water required by life enters the main pressure stabilizing tank through the water inlet main pipe, the filtering and purifying device filters and purifies the water, the water quality is improved, the water in the main pressure stabilizing tank is input into the first water delivery pipe by the low-region water pump, the water in the first water delivery pipe enters the low-region water outlet main pipe to be used by users in a low region, and the water in the first water delivery pipe can also enter the middle-region pressure stabilizing tank; the middle-area water pump inputs water in the middle-area pressure stabilizing tank into the second water conveying pipeline, the water in the second water conveying pipeline enters the middle-area water outlet main pipe for a middle-area user to use, and the water in the second water conveying pipeline can also enter the high-area pressure stabilizing tank; the high-area water pump pumps water in the high-area pressure stabilizing tank into a third water conveying pipeline so as to be used by high-area users;

when the low district user water, the low district water pump will always the steady voltage jar in water take out can, when the user water of district in the middle of, the median district water pump will be the median district steady voltage jar in water take out can, when the user water of high district, the water pump of high district with the high district steady voltage jar in water take out can, through promote water step by step and subregion output, can effectively reduce the energy consumption, energy-concerving and environment-protective, have the practicality.

Drawings

Fig. 1 is a schematic structural view of the energy-saving water supply equipment for high and low areas of a high-rise building provided by the utility model.

Fig. 2 is a control system diagram of the energy-saving water supply equipment in high and low areas of the high-rise building provided by the utility model.

Reference numerals: 1. a water inlet main pipe; 2. a filtration purification device; 3. a water inlet pressure detecting instrument; 4. a total influent flow detector; 5. a main check valve; 6. a total surge tank; 7. a first water delivery pipeline; 8. a low-region water pump; 9. a low-region water pressure detecting instrument; 10. a low-zone water outlet main pipe; 11. a low-region water outlet main valve; 12. a first control valve; 13. a first check valve; 14. a middle area surge tank; 15. a second water delivery pipeline; 16. a middle area water pump; 17. a middle area water pressure detection instrument; 18. a main water outlet pipe in the middle area; 19. a middle area water outlet main valve; 20. a second control valve; 21. a second check valve; 22. a high-region surge tank; 23. a third water delivery pipeline; 24. a high-area water pump; 25. a high-area water pressure detecting instrument; 26. a high-region water outlet main valve; 27. and a water inlet main valve.

Detailed Description

In order to make the objects, technical solutions and advantages of the present invention more apparent, the present invention will be described in detail with reference to the accompanying drawings. It should be understood that the description is intended to be illustrative only and is not intended to limit the scope of the present invention. Moreover, in the following description, descriptions of well-known structures and techniques are omitted so as to not unnecessarily obscure the concepts of the present invention.

As shown in fig. 1-2, the utility model provides a high-low region energy-saving water supply equipment for high-rise buildings, which comprises a water inlet main pipe 1, a total pressure stabilizing tank 6, a first water pipe 7, a low region water outlet main pipe 10, a middle region pressure stabilizing tank 14, a second water pipe 15, a middle region water outlet main pipe 18, a high region pressure stabilizing tank 22 and a third water pipe 23;

the main pressure stabilizing tank 6 is provided with a water inlet and a water outlet, the water inlet is connected with the output port of the water inlet main pipe 1, and the water outlet is connected with the input port of the first water conveying pipeline 7; the middle-area pressure stabilizing tank 14 is provided with a water inlet and a water outlet, the water inlet is connected with the output port of the first water conveying pipeline 7, and the water outlet is connected with the input port of the second water conveying pipeline 15; a water inlet and a water outlet are arranged on the high-region pressure stabilizing tank 22, the water inlet is connected with the output port of the second water conveying pipeline 15, and the water outlet is connected with the input port of the third water conveying pipeline 23;

the water inlet main pipe 1 is provided with a filtering and purifying device 2, a water inlet pressure detecting instrument 3, a total water inlet flow detecting instrument 4 and a water inlet main valve 27; the first water pipeline 7 is provided with a low-region water pump 8, a low-region water pressure detecting instrument 9 and a first control valve 12; the low-region water outlet main pipe 10 is connected with the first water conveying pipeline 7, a low-region water outlet main valve 11 is arranged on the low-region water outlet main pipe 10, and the low-region water outlet main pipe 10 supplies low-region users; the second water conveying pipeline 15 is provided with a middle area water pump 16, a middle area water pressure detecting instrument 17 and a second control valve 20; the middle area water outlet main pipe 18 is connected with the second water conveying pipeline 15, a middle area water outlet main valve 19 is arranged on the middle area water outlet main pipe 18, and the middle area water outlet main pipe 18 supplies water to a middle area user; the third water pipe 23 is provided with a high-region water pump 24, a high-region water pressure detecting instrument 25 and a high-region water outlet main valve 26, and the third water pipe 23 supplies high-region users.

In an optional embodiment, the system further comprises a control system; the input end of the control system is in communication connection with the liquid level sensor and the water pressure detecting instrument, and the output end of the control system is in control connection with the control valve, the low-region water pump 8, the middle-region water pump 16 and the high-region water pump 24.

In an alternative embodiment, the level sensors include a master surge tank level sensor, a mid-zone surge tank level sensor, and a high-zone surge tank level sensor. In operation, total surge tank level sensor detects the liquid level in total surge tank 6, and well zhong surge tank level sensor detects the liquid level in well zhong surge tank 14, and high surge tank level sensor detects the liquid level in high district surge tank 22.

In an alternative embodiment, the control valves include a main intake valve 27, a low zone main outlet valve 11, a first control valve 12, a middle zone main outlet valve 19, a second control valve 20, and a high zone main outlet valve 26.

In an alternative embodiment, the control valve is a butterfly valve.

In an alternative embodiment, the water inlet manifold 1 is provided with a manifold check valve 5, which can effectively prevent the water from flowing backwards.

In an alternative embodiment, the first water pipe 7 is provided with a first check valve 13, which can effectively prevent the water from flowing backwards.

In an alternative embodiment, the second water pipe 15 is provided with a second check valve 21, which can effectively prevent the water from flowing backwards.

In an alternative embodiment, the low-region main outlet pipe 10, the middle-region main outlet pipe 18 and the third water conveying pipe 23 are respectively provided with an outlet water flow detection instrument, which can detect the outlet water amount of the low region, the middle region and the high region.

In the utility model, when in use, the water needed by life enters the total pressure stabilizing tank 6 through the water inlet header pipe 1, the filtering and purifying device 2 filters and purifies the water, the water quality is improved, the water pressure of the inlet water is monitored by the inlet water pressure detecting instrument 3, and the total inlet water flow detecting instrument 4 monitors the total inlet water flow;

the water in the main surge tank 6 is input into a first water conveying pipeline 7 by a low-region water pump 8, the water in the first water conveying pipeline 7 enters a low-region water outlet main pipe 10 for low-region users to use, and the water in the first water conveying pipeline 7 can also enter a middle-region surge tank 14; the middle area water pump 16 inputs the water in the middle area surge tank 14 into the second water pipe 15, the water in the second water pipe 15 enters the middle area water outlet main pipe 18 for the middle area user to use, and the water in the second water pipe 15 can also enter the high area surge tank 22; the high-region water pump 24 pumps the water in the high-region pressure stabilizing tank 22 into the third water conveying pipeline 23 so as to be used by high-region users;

when the low district user water, the water in low district water pump 8 will always surge tank 6 take out can, when the user water of middle district, the water in middle district water pump 16 will be the middle district surge tank 14 take out can, when the user water of high district, the water in high district water pump 24 will high district surge tank 22 take out can, through promoting water step by step and the subregion output, can effectively reduce the energy consumption, energy-concerving and environment-protective, have the practicality.

It is to be understood that the above-described embodiments of the present invention are merely illustrative of or explaining the principles of the invention and are not to be construed as limiting the invention. Therefore, any modification, equivalent replacement, improvement and the like made without departing from the spirit and scope of the present invention should be included in the protection scope of the present invention. Further, it is intended that the appended claims cover all such variations and modifications as fall within the scope and boundaries of the appended claims or the equivalents of such scope and boundaries.

Claims (9)

1. An energy-saving water supply device for high and low regions of a high-rise building is characterized by comprising a water inlet main pipe (1), a main pressure stabilizing tank (6), a first water conveying pipeline (7), a low region water outlet main pipe (10), a middle region pressure stabilizing tank (14), a second water conveying pipeline (15), a middle region water outlet main pipe (18), a high region pressure stabilizing tank (22) and a third water conveying pipeline (23);

the main pressure stabilizing tank (6) is provided with a water inlet and a water outlet, the water inlet is connected with the output port of the water inlet main pipe (1), and the water outlet is connected with the input port of the first water conveying pipeline (7); a water inlet and a water outlet are arranged on the middle-area pressure stabilizing tank (14), the water inlet is connected with an output port of the first water conveying pipeline (7), and the water outlet is connected with an input port of the second water conveying pipeline (15); a water inlet and a water outlet are arranged on the high-region pressure stabilizing tank (22), the water inlet is connected with the output port of the second water conveying pipeline (15), and the water outlet is connected with the input port of the third water conveying pipeline (23);

the water inlet main pipe (1) is provided with a filtering and purifying device (2), a water inlet pressure detecting instrument (3), a total water inlet flow detecting instrument (4) and a water inlet main valve (27); a low-region water pump (8), a low-region water pressure detecting instrument (9) and a first control valve (12) are arranged on the first water conveying pipeline (7); the low-region water outlet main pipe (10) is connected with the first water conveying pipeline (7), a low-region water outlet main valve (11) is arranged on the low-region water outlet main pipe (10), and the low-region water outlet main pipe (10) supplies low-region users; a middle area water pump (16), a middle area water pressure detecting instrument (17) and a second control valve (20) are arranged on the second water conveying pipeline (15); the middle area water outlet main pipe (18) is connected with the second water conveying pipeline (15), a middle area water outlet main valve (19) is arranged on the middle area water outlet main pipe (18), and the middle area water outlet main pipe (18) supplies a middle area user; a high-region water pump (24), a high-region water pressure detecting instrument (25) and a high-region water outlet main valve (26) are arranged on the third water conveying pipeline (23), and the third water conveying pipeline (23) supplies high-region users.

2. The energy-saving water supply equipment for high-rise building high and low areas of claim 1, further comprising a control system;

the input end of the control system is in communication connection with the liquid level sensor and the water pressure detecting instrument, and the output end of the control system is in control connection with the control valve, the low-region water pump (8), the middle-region water pump (16) and the high-region water pump (24).

3. The energy-saving water supply equipment for high and low areas of high-rise buildings according to claim 2, wherein the liquid level sensors comprise a main surge tank liquid level sensor, a middle area surge tank liquid level sensor and a high area surge tank liquid level sensor.

4. The energy-saving water supply equipment for high and low areas of the high-rise building as claimed in claim 2, wherein the control valves comprise a water inlet main valve (27), a low area water outlet main valve (11), a first control valve (12), a middle area water outlet main valve (19), a second control valve (20) and a high area water outlet main valve (26).

5. The energy-saving water supply equipment for high-rise building high and low areas of claim 2 or 4, wherein the control valve is a butterfly valve.

6. The energy-saving water supply equipment for high and low areas of high-rise buildings and buildings according to claim 1 is characterized in that the water inlet manifold (1) is provided with a manifold check valve (5).

7. The energy-saving water supply equipment for high and low areas of high-rise buildings and buildings according to claim 1, wherein the first water delivery pipeline (7) is provided with a first check valve (13).

8. The energy-saving water supply equipment for high and low areas of high-rise buildings and buildings according to claim 1, wherein the second water delivery pipeline (15) is provided with a second check valve (21).

9. The energy-saving water supply equipment for high and low areas of high-rise buildings according to claim 1, wherein the low area water outlet main pipe (10), the middle area water outlet main pipe (18) and the third water conveying pipe (23) are respectively provided with a water outlet flow detecting instrument.

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