CN210529839U - Intelligent clean water supply system for high-rise building - Google Patents

Abstract

The utility model provides an intelligent clean water supply system for high-rise buildings, which comprises a low-level water pumping system, a high-level water tank, a water delivery system, a purification component and a controller; the high-level water tank is arranged on the top layer of the building, a water feeding pipe is connected between the high-level water tank and the low-level water pumping system, two water outlets are formed in the lower portion of the high-level water tank, a water level height limiting ball float valve is arranged in the high-level water tank, and the ball float valve is connected with the low-level water pumping system. The water delivery system comprises a self-flowing water outlet pipe and a pressurizing water outlet pipe, the self-flowing water outlet pipe and the pressurizing water outlet pipe are respectively connected with a water outlet, the purification component can purify water in the high-level water tank and reduce the risk of secondary pollution, and the controller is in signal connection with the low-pressure water pumping system, the pressure sensor and the pressurizing pump. The utility model discloses a set up the threshold value of highest restriction water level in the controller, when exceeding the threshold value, the steerable low-pressure pumping system of closing of controller prevents that the water in the head tank from spilling over.

Description

Intelligent clean water supply system for high-rise building

Technical Field

The utility model belongs to the technical field of supply water, concretely relates to clean water supply system of high-rise building intelligence.

Background

With the development of economy, a plurality of buildings with the height of more than 100 meters appear in the city, and the height of a plurality of newly built residential buildings is close to 100 meters, so that the water supply is difficult due to the high height, and a great challenge is brought to a water supply system.

In order to meet the water supply requirements of high-rise buildings, a reservoir is generally built on the top of the building, then a water pump is used for pumping tap water into the reservoir, and water is supplied to residents through water pipes. At present, when the water is pumped to the reservoir, the problem of overflow of the water in the reservoir caused by the damage of the float valve can occur sometimes. In addition, because the heights of all floors are inconsistent, users on lower floors have overlarge water pressure when using, and users on higher floors have the problem of lower water pressure, so that daily use is influenced.

SUMMERY OF THE UTILITY MODEL

The utility model provides a clean water supply system of high-rise building intelligence, aim at solve because the ball-cock assembly damages to have water pressure too big when leading to the cistern inner water to spill over and lower floor user uses, and there is the lower problem of water pressure again in higher floor.

Therefore, the utility model adopts the following technical scheme:

an intelligent clean water supply system for high-rise buildings comprises a low-level water pumping system, a high-level water tank, a water delivery system and a controller;

the high-level water tank is arranged on the top layer of the building, a water feeding pipe is connected between the high-level water tank and the low-level water pumping system, two water outlets are formed in the lower part of the high-level water tank, a ball float valve for limiting the height of the water level is arranged in the high-level water tank, and the ball float valve is connected with the low-level water pumping system through a cable; in addition, a liquid level measuring device is arranged in the high-level water tank and comprises a pressure sensor, a spring and a floating ball, the pressure sensor is arranged at the bottom of the high-level water tank, one end of the spring is connected with the pressure sensor, the other end of the spring is connected with the floating ball, and the floating ball can ascend and descend along with the ascending and descending of the liquid level;

the water delivery system comprises a self-flowing water outlet pipe and a pressurizing water outlet pipe, wherein the self-flowing water outlet pipe and the pressurizing water outlet pipe are respectively connected with a water outlet, and the self-flowing water outlet pipe is connected to a user water pipe through a self-flowing branch pipe; the pressure water pipe is provided with a pressure pump, and the pressure pump is connected to the user water pipe through a pressure branch pipe after being pressurized;

the purification assembly comprises an ultraviolet lamp and an adsorption tank, the ultraviolet lamp is arranged at the top of the high-level water tank, the adsorption tank is arranged at the bottom of the high-level water tank, meshes are densely distributed on the adsorption tank, and activated carbon is arranged in the adsorption tank;

and the controller is in signal connection with the low-level water pumping system, the pressure sensor and the pressurizing pump.

Furthermore, a plurality of self-flowing branch pipes are connected to the self-flowing water outlet pipe, electric valves and first flow meters are sequentially arranged on the self-flowing branch pipes, the electric valves and the first flow meters are in signal connection with a controller, and the controller can control the opening and closing degree of the electric valves according to the feedback value of the first flow meters.

Furthermore, the pressurizing water outlet pipe is connected with a plurality of pressurizing branch pipes, the pressurizing branch pipes are provided with second flow meters, the second flow meters are in signal connection with the controller, and the controller can adjust the pressurizing power of the pressurizing pump according to numerical values fed back by the second flow meters on the pressurizing branch pipes.

Furthermore, a display screen is connected to the controller through signals.

Furthermore, all be equipped with the stop valve on the artesian branch pipe.

Furthermore, the pressurizing branch pipes are provided with stop valves.

Further, the low-level water pumping system is arranged in an underground room of the building.

Further, the bottom fixedly connected with base of adsorption tank.

Further, the adsorption tank is made of plastic, and the base is made of ceramic.

The beneficial effects of the utility model reside in that:

1. the utility model discloses a set up the threshold value of the highest restriction water level in the controller, if the ball-cock assembly destroys, when the water level height reaches the highest restriction water level in the high-order water tank, the controller obtains the water level height signal that pressure sensor conveys, can control to close the low level pumping system, stops to continue the water injection in the high-order water tank, avoids the water in the high-order water tank to spill over;

2. the controller of the utility model can control the opening and closing degree of the electric valve according to the numerical value of the first flowmeter, and prevent the water pressure of users at lower floors from being too high;

3. the controller of the utility model can control the pressure pump to work according to the numerical value of the second flowmeter, so as to prevent the water pressure of the high-rise users from being too low;

4. the lowest limit water level can be set in the controller, when the water level in the high-level water tank is reduced to the lowest limit water level, the pressure sensor transmits the information of the water level height to the controller, and the controller can control the low-level water pumping system to work and start to inject water into the high-level water tank;

5. the utility model can automatically detect the height of the water level, inject water into the high-level water tank, and adjust the water pressure of a user according to the flow, and has the advantages of intellectualization and automation;

6. the utility model discloses a be equipped with the purification subassembly among the high flush tank, can purify the water among the high flush tank, prevent quality of water secondary pollution.

Drawings

FIG. 1 is a schematic diagram of the present invention;

FIG. 2 is a schematic structural view of the high level water tank of the present invention;

in the figure: 1-a high-level water tank, 2-a ball float valve, 3-a liquid level measuring device, 301-a pressure sensor, 302-a spring, 303-a floating ball, 4-a water outlet, 5-a low-level water pumping system, 6-a water feeding pipe, 7-a controller, 8-a display screen, 9-a self-flowing water outlet pipe, 10-a self-flowing branch pipe, 11-an electric valve, 12-a first flowmeter, 13-a stop valve, 14-a pressurizing water outlet pipe, 15-a pressurizing branch pipe, 16-a pressurizing pump, 17-a second flowmeter, 18-an ultraviolet lamp, 19-an adsorption tank and 20-a base.

Detailed Description

The present invention will be further explained with reference to the accompanying drawings:

as shown in fig. 1 and 2, the intelligent clean water supply system for the high-rise building comprises a low-level water pumping system 5, a high-level water tank 1, a water delivery system, a purification assembly and a controller 7.

High flush tank 1 locates the top layer of building, and high flush tank 1's bottom is equipped with two delivery ports, is equipped with level measurement device 3 in high flush tank 1, and level measurement device 3 includes pressure sensor 301, spring 302 and floater 303, and pressure sensor 301 locates high flush tank 1's bottom, and pressure sensor 301 other end is connected to the one end of spring 302 and floater 303 is connected, and floater 303 can be along with the ascending and descending decline of liquid level. A float valve 2 for limiting the height of the water level is arranged in the high-level water tank 1, and the float valve 2 and the low-level water pumping system 5 are connected with a cable through a switch. The low-level water pumping system 5 is arranged in the basement of the building and is connected with the high-level water tank 1 through a water feeding pipe 6.

The water delivery system comprises a self-flowing water outlet pipe 9 and a pressurizing water outlet pipe 14, wherein the self-flowing water outlet pipe 9 and the pressurizing water outlet pipe 14 are respectively connected with a water outlet 4, the self-flowing water outlet pipe 9 is connected with a plurality of self-flowing branch pipes 9, the self-flowing branch pipes 9 are sequentially connected with an electric valve 11, a first flow meter 12 and a user water pipe, the electric valve 11 and the first flow meter 12 are in signal connection with a controller 7, and the controller 7 can control the opening degree of the electric valve 11 according to the feedback value of the first flow meter 12; the pressurizing water outlet pipe 14 is provided with a pressurizing pump 16, the pressurizing water outlet pipe 14 behind the pressurizing pump 16 is connected with a plurality of pressurizing branch pipes 15, the pressurizing branch pipes 15 are provided with second flow meters 17, the second flow meters 17 are in signal connection with the controller 7, the controller 7 can adjust the pressurizing power of the pressurizing pump 16 according to numerical values fed back by the second flow meters 17 on the pressurizing branch pipes 15, and the other ends of the pressurizing branch pipes 15 are connected to a user water pipe. The gravity branch pipe 10 and the pressure branch pipe 15 are both provided with a stop valve 13.

The purification component comprises ultraviolet lamps 18 and an adsorption tank 19 made of plastic materials, and the ultraviolet lamps 18 comprise two ultraviolet lamps which are arranged at the top of the high-level water tank 1. The adsorption tank 19 is arranged at the bottom of the high-level water tank 1, meshes are densely distributed on the adsorption tank 19, activated carbon is arranged in the adsorption tank 19, and a base 20 made of ceramic materials is fixedly connected to the bottom of the adsorption tank 19. Because the density of pottery is high, select for use ceramic material can keep the adsorption tank to sink in the bottom of high flush tank 1 all the time. In order to ensure the water supply safety, the high-rise water supply tank is generally cleaned once in half a year to one year, and the activated carbon in the adsorption tank can be replaced simultaneously when the water tank is cleaned.

The controller 7, the optional ordinary singlechip that uses of controller 7, controller 7 and low level pump water system 5, pressure sensor 301 and force (forcing) pump 16 signal connection, signal connection has the display screen on the controller 7, can look over the water level height in the high-order water tank 1 through the display screen, also can control low level pump water system 5 and carry out the water injection to and adjust the power of force (forcing) pump 16. In addition, the threshold value of the highest limit water level and the threshold value of the lowest limit water level of the head tank 1 are input in the controller 7 by a program, and normally, the height of the water level in the head tank 1 is maintained between the two threshold values. When the water level is lower than the threshold value of the lowest limit water level, the liquid level measuring device 3 feeds back a water level height signal to the controller 7, the controller 7 starts the low-level water pumping system 5 after receiving the signal to start to inject water into the high-level water tank 1, when the water level height rises to the control water level of the ball float valve 2, the ball float valve 2 is started, then the switch is driven to close the low-level water pumping system 5, and water injection into the high-level water tank 1 is stopped. If the float valve 2 breaks down, when the low-level water pumping system 5 cannot be closed, the water level continues to rise, when the water level rises to the threshold value of the highest limit water level, the liquid level measuring device 3 feeds back a water level height signal to the controller 7, the controller 7 closes the low-level water pumping system 5 after receiving the signal, water injection into the high-level water tank 1 is stopped, and water is prevented from overflowing from the high-level water tank 1.

It should be noted that the above is only a preferred embodiment of the present invention, and it should be noted that, for those skilled in the art, many modifications and substitutions can be made without departing from the technical principle of the present invention, and these modifications and substitutions should also be regarded as the protection scope of the present invention.

Claims (8)

1. An intelligent clean water supply system for high-rise buildings is characterized by comprising a low-level water pumping system (5), a high-level water tank (1), a water delivery system, a purification assembly and a controller (7);

the high-level water tank (1) is arranged on the top layer of a building, an upper water pipe (6) is connected between the high-level water tank (1) and the low-level water pumping system (5), two water outlets (4) are arranged on the lower portion of the high-level water tank (1), a ball float valve (2) for limiting the height of a water level is arranged in the high-level water tank (1), and the ball float valve (2) is connected with the low-level water pumping system (5) through a cable; in addition, a liquid level measuring device (3) is arranged in the high-level water tank (1), the liquid level measuring device (3) comprises a pressure sensor (301), a spring (302) and a floating ball (303), the pressure sensor (301) is arranged at the bottom of the high-level water tank (1), one end of the spring (302) is connected with the pressure sensor (301), the other end of the spring (302) is connected with the floating ball (303), and the floating ball (303) can ascend and descend along with the ascending and descending of the liquid level;

the water delivery system comprises a self-flowing water outlet pipe (9) and a pressurizing water outlet pipe (14), wherein the self-flowing water outlet pipe (9) and the pressurizing water outlet pipe (14) are respectively connected with a water outlet (4), the self-flowing water outlet pipe (9) is connected with a plurality of self-flowing branch pipes (10), and the self-flowing branch pipes (10) are connected to a user water pipe; the automatic flow branch pipe (10) is sequentially provided with an electric valve and a first flowmeter (12), the electric valve (11) and the first flowmeter (12) are in signal connection with a controller (7), and the controller (7) can control the opening and closing degree of the electric valve (11) according to the feedback value of the first flowmeter (12); a pressurizing pump (16) is arranged on the pressurizing water outlet pipe (14), and the pressurizing pump (16) is connected to a user water pipe through a pressurizing branch pipe (15) after being pressurized;

the purification assembly comprises an ultraviolet lamp (18) and an adsorption tank (19), the ultraviolet lamp (18) is arranged at the top of the high-level water tank (1), the adsorption tank (19) is arranged at the bottom of the high-level water tank (1), meshes are densely distributed on the adsorption tank (19), and activated carbon is arranged in the adsorption tank (19);

and the controller (7), the controller (7) is in signal connection with the low-level water pumping system (5), the pressure sensor (301) and the pressurizing pump (16).

2. The intelligent and clean water supply system for the high-rise building as claimed in claim 1, wherein the pressurizing water outlet pipe (14) is connected with a plurality of pressurizing branch pipes (15), the pressurizing branch pipes (15) are provided with second flow meters (17), the second flow meters (17) are in signal connection with the controller (7), and the controller (7) can adjust the pressurizing power of the pressurizing pump (16) according to the numerical values fed back by the second flow meters (17) on the pressurizing branch pipes (15).

3. The intelligent clean water supply system for high-rise buildings according to claim 2, characterized in that the controller (7) is connected with a display screen (8) through signals.

4. The intelligent and clean water supply system for high-rise buildings according to claim 3, characterized in that the gravity branch pipes are provided with stop valves.

5. The intelligent and clean water supply system for high-rise buildings according to claim 4, characterized in that the pressure branch pipes (15) are provided with stop valves (13).

6. The intelligent clean water supply system for high-rise buildings according to claim 5, characterized in that the low-level water pumping system (5) is arranged in the underground chamber of the building.

7. The intelligent clean water supply system for high-rise buildings according to claim 6, characterized in that the bottom of the adsorption tank (19) is fixedly connected with a base (20).

8. The intelligent clean water supply system for high-rise buildings according to claim 7, characterized in that the adsorption tank (19) is made of plastic and the base (20) is made of ceramic.

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