CN214009586U - Cold water collecting and circulating system - Google Patents

Abstract

The utility model provides a circulation system is collected to cold water, including water supply pipe, first water pipe, second water pipe, third water pipe, fourth water pipe, fifth water pipe, first valve, second valve, heating device, water receiver and outlet valve door, be connected with first water pipe and second water pipe on the water supply pipe, first water pipe output is linked together with heating device, heating device is linked together with the third water pipe, the output of second water pipe and the input of fourth water pipe are linked together, and the output and the outlet valve door of third water pipe, fourth water pipe are linked together, the output of second water pipe still communicates has the fifth water pipe, fifth water pipe output end is linked together with the outlet valve door, the water receiver of fifth water pipe still with vertical setting is linked together. The utility model discloses cold water resource has been practiced thrift in the design of water receiver, cyclic utilization, more energy-concerving and environment-protective.

Description

Cold water collecting and circulating system

Technical Field

The utility model relates to a water supply system technical field especially relates to a circulation system is collected to cold water.

Background

With the development of social economy and the improvement of the material level of people's lives, the use of water heaters is very common in life, and the existing water heaters waste 5L of cold water and 6.39L of gas according to repeated measurement of experiments when the water heaters are opened to wait for hot water and wait for one minute, and each person may waste 1.8m3 of water and 2.3m3 of gas each year. Therefore, how to improve the utilization rate of the front-stage cold water resource and reduce the waste becomes the focus of attention of people.

There is a need for a novel cold water collection and circulation system, which can recycle water resources, and is more energy-saving and environment-friendly.

SUMMERY OF THE UTILITY MODEL

The utility model provides a circulation system is collected to cold water through carrying out the technological transformation to existing equipment, has solved current water heater and has used the problem that can cause the water waste.

In order to solve the technical problem, the utility model discloses specifically adopt following technical scheme:

a cold water collecting and circulating system comprises a water supply pipeline, a first water pipe, a second water pipe, a third water pipe, a fourth water pipe, a fifth water pipe, a first valve, a second valve, a heating device, a water storage device and a water outlet valve, wherein the water supply pipeline is connected with the first water pipe and the second water pipe, the output end of the first water pipe is communicated with the heating device, the heating device is communicated with the third water pipe, the output end of the second water pipe is communicated with the input end of the fourth water pipe, the output ends of the third water pipe and the fourth water pipe are communicated with the water outlet valve, the output end of the second water pipe is further communicated with the fifth water pipe, a first valve is arranged at the joint of the second water pipe and the fifth water pipe, the first valve can open or close a channel between the second water pipe and the fifth water pipe, the output end of the fifth water pipe is communicated with the water outlet valve, and the fifth water storage device is further communicated with the water storage device which is vertically arranged, and a second valve is arranged at the water outlet valve, the second valve can control the water in the third water pipe to flow to the fifth water pipe, and the water outlet valve can be opened or closed to discharge water to the outside.

Preferably, a first sensor is installed at the lowest end of the water storage device, the first sensor is in electrical signal connection with a first valve, a piston moving up and down along an inner cavity is installed in the first water storage device, the first sensor can control the first valve to close a channel between the second water pipe and the fifth water pipe when the piston leaves the lowest end position, and the first sensor can control the first valve to open the channel between the second water pipe and the fifth water pipe when the piston reaches the lowest end position.

Preferably, a second sensor is installed at the uppermost end of the water reservoir, the second sensor is electrically connected with the second valve in a signal mode, and when the piston reaches the uppermost end position, the second sensor can control the second valve to close a channel between the third water pipe and the fifth water pipe to drain water. When the piston contacts the second inductor, a water draining mechanism is triggered to prevent the water reservoir from malfunctioning when fully loaded.

Preferably, the piston is an elastic piston, and the elastic piston can move up and down under the action of water pressure.

Preferably, the piston is an electric pump piston, the water reservoir is also provided with an electric pump, and the electric pump piston can move up and down under the action of the electric pump.

Preferably, the water storage device is a heating type container, an electric pump is arranged in the water storage device, the water storage device is further communicated with a third water pipe through a sixth water pipe, and the electric pump can convey water in the water storage device to the third water pipe through the sixth water pipe.

Preferably, an electric pump is arranged in the water reservoir, the water reservoir is also communicated with the first water pipe through a seventh water pipe, and the electric pump can convey the water in the water reservoir to the first water pipe through the seventh water pipe.

The utility model discloses when opening the second valve during the use, cold water in the third water pipe will be under the water pressure effect, flow in the water receiver, cold water that flows in the water receiver can push away the piston to the upper end from the lower extreme, first inductor control first valve closes the passageway between second water pipe and the fifth water pipe, prevent that water in the second water pipe flows to outlet valve along the fifth water pipe, water in the third water pipe has all been hot water this moment, open outlet valve, the hot water of third water pipe and the cold water of water receiver can flow through outlet valve simultaneously, water at this time is the warm water, through the directional control temperature of adjustment outlet valve, when continuing to put water, the piston can fall back to the bottom, first inductor can control first valve and open the passageway between second water pipe and the fifth water pipe makes the cold water of second water pipe flow to outlet valve from the fifth water pipe.

The utility model discloses can also be when opening the second valve, cold water in the third water pipe will be under the water pressure effect, flow in the water receiver, after the heating of water receiver becomes hot water, the sixth water pipe of way pipeline, reentrant third water pipe, the continuous cycle is reciprocal, and second water pipe cold water then flows from outlet valve through fourth water pipe pipeline.

Compared with the prior art, the utility model discloses following beneficial effect has:

the utility model discloses be provided with the water receiver of cold water, through second valve control, carry the cold water in the third pipeline to the water receiver and store, temporarily close the second water pipe through first valve and carry out the passageway of going out water through the fifth water pipe, carry the water after will heating to outlet valve through the third pipeline, this moment cold water is the cold water in the water receiver, and when continuing to put water, the piston can fall back to the lower extreme, first inductor can control first valve and open the passageway between second water pipe and the fifth water pipe and make the cold water of second water pipe flow to outlet valve from the fifth water pipe, and the design of water receiver has practiced thrift the cold water that partial second water pipe flows, cyclic utilization, more energy-concerving and environment-protective.

Drawings

Fig. 1 is a schematic structural diagram of the present invention.

Description of reference numerals: the water heater comprises a first water pipe 1, a second water pipe 2, a third water pipe 3, a fourth water pipe 4, a fifth water pipe 5, a first valve 6, a second valve 7, a heating device 8, a water storage device 9, a water supply pipeline 10, a water outlet valve 11, a sixth water pipe 12, a seventh water pipe 13, a piston 14, a first inductor 15 and a second inductor 16.

Detailed Description

The following detailed description of the present invention will be made with reference to the accompanying drawings and examples.

As shown in fig. 1, the embodiment provides a cold water collecting and circulating system, which includes a water supply pipeline 10, a first water pipe 1, a second water pipe 2, a third water pipe 3, a fourth water pipe 4, a fifth water pipe 5, a first valve 6, a second valve 7, a heating device 8, a water storage device 9 and a water outlet valve 11, wherein the water supply pipeline 10 is connected with the first water pipe 1 and the second water pipe 2, an output end of the first water pipe 1 is communicated with the heating device 8, the heating device 8 is communicated with the third water pipe 3, an output end of the second water pipe 2 is communicated with an input end of the fourth water pipe 4, output ends of the third water pipe 3 and the fourth water pipe 4 are communicated with the water outlet valve 11, an output end of the second water pipe 2 is further communicated with the fifth water pipe 5, the joint of the second water pipe 2 and the fifth water pipe 5 is provided with the first valve 6, the first valve 6 can open or close a channel between the second water pipe 2 and the fifth water pipe 5, the output end of the fifth water pipe 5 is communicated with a water outlet valve 11, the fifth water pipe 5 is further communicated with a vertically arranged water storage device 9, a second valve 7 is arranged at the position of the water outlet valve 11, the second valve 7 can control water in the third water pipe 3 to flow to the fifth water pipe 5, and the water outlet valve 11 can be opened or closed to discharge water to the outside.

Further, a first sensor 15 is installed at the lowest end of the water storage device 9, the first sensor 15 is in electrical signal connection with the first valve 6, a piston 14 which moves up and down along the inner cavity is installed in the first water storage device 9, when the piston 14 leaves the lowest end position, the first sensor 15 can control the first valve 6 to close a channel between the second water pipe 2 and the fifth water pipe 5, and when the piston 14 reaches the lowest end position, the first sensor 15 can control the first valve 6 to open a channel between the second water pipe 2 and the fifth water pipe 5.

Further, a second sensor 16 is installed at the uppermost end of the water reservoir 9, the second sensor 16 is in electrical signal connection with the second valve 7, and when the piston 14 reaches the uppermost position, the second sensor 16 can control the second valve 7 to close the passage between the third water pipe 3 and the fifth water pipe 5 for draining water.

Further, the piston 14 is an elastic piston, and the elastic piston can move up and down under the action of water pressure.

Further, the piston 14 is an electric pump piston, and an electric pump is further arranged at the water reservoir 9, and the electric pump piston can move up and down under the action of the electric pump.

When the second valve 7 is opened in the embodiment, the cold water in the third water pipe 3 will flow into the water storage 9 under the action of water pressure, the piston will be pushed from the lower end to the upper end by the cold water flowing into the water storage 9, the first sensor controls the first valve 6 to close the passage between the second water pipe 2 and the fifth water pipe 5, the water in the second water pipe 2 is prevented from flowing to the water outlet valve 11 along the fifth water pipe 5, at this time, the water in the third water pipe 3 is all hot water, the water outlet valve 11 is opened, the hot water in the third water pipe 3 and the cold water in the water storage 9 will flow out through the water outlet valve 11 at the same time, the water at this time is warm water, the water temperature is controlled by adjusting the direction of the water outlet valve 11, when water is continuously discharged, the piston falls back to the lowest end, the first sensor can control the first valve 6 to open the channel between the second water pipe 2 and the fifth water pipe 5, so that the cold water in the second water pipe 2 flows from the fifth water pipe 5 to the water outlet valve 11.

Further, the water storage device 9 is a heating type container, an electric pump is arranged in the water storage device 9, the water storage device 9 is also communicated with the third water pipe 3 through a sixth water pipe 12, and the electric pump can convey the water in the water storage device 9 to the third water pipe 3 through the sixth water pipe 12.

The circulation mode is as follows: the utility model discloses can also be when opening second valve 7, cold water in the third water pipe 3 will be under water pressure, flow in water receiver 9, after the heating of water receiver 9 becomes hot water, path sixth water pipe 12 pipeline, reentrant third water pipe 3, the continuous cycle is reciprocal, and 2 cold water of second water pipe then flows out from outlet valve 11 through fourth water pipe 4 pipeline.

Further, an electric pump is arranged in the water reservoir 9, the water reservoir 9 is also communicated with the first water pipe 1 through a seventh water pipe 13, and the electric pump can convey the water in the water reservoir 9 to the first water pipe 1 through the seventh water pipe 13.

The circulation mode is as follows: the utility model discloses can also be when opening second valve 7, cold water in the third water pipe 3 will be under water pressure, flow in water receiver 9, and water receiver 9's charge pump carries water to reentrant first water pipe 1 through seventh water pipe 13 pipeline, heats through heating device 8 again, carries to outlet valve 11 through third water pipe 3, and continuous circulation is reciprocal, and 2 cold water of second water pipe then flow out from outlet valve 11 through fourth water pipe 4 pipelines.

This embodiment is provided with the cistern 9 of cold water, control through second valve 7, carry the cold water in the third pipeline to the cistern 9 in and store, close the passageway that second water pipe 2 carried out the water through fifth water pipe 5 temporarily through first valve 6, carry the water after will heating to outlet valve 11 through the third pipeline, this moment cold water is the cold water in the cistern 9, when continuing to discharge, the piston can fall back to the lower extreme, first inductor can control first valve 6 and open the passageway between second water pipe 2 and the fifth water pipe 5 and make the cold water of second water pipe 2 flow to outlet valve 11 from fifth water pipe 5, and the design of cistern 9 has practiced thrift the cold water that partial second water pipe 2 flowed out, cyclic utilization, more energy-concerving and environment-protective.

Finally, although the present invention has been described in detail with reference to the preferred embodiments, it should be understood by those skilled in the art that the present invention can be modified or replaced by other means without departing from the spirit and scope of the present invention, which should be construed as limited only by the appended claims.

The utility model discloses the standard part that uses all can purchase from the market, and dysmorphism piece all can be customized according to the description with the record of drawing of description, and the concrete connection mode of each part all adopts conventional means such as ripe bolt, rivet, welding among the prior art, and machinery, part and equipment all adopt conventional model among the prior art, and conventional connection mode among the circuit connection adoption prior art is not detailed here again.

In the description of the present invention, unless expressly stated or limited otherwise, the terms "mounted," "connected," and "fixed" are to be construed broadly, e.g., as meaning either a fixed connection, a removable connection, or an integral part; can be mechanically or electrically connected; either directly or through an intermediary, either internally or in any other relationship. The specific meaning of the above terms in the present invention can be understood in specific cases for those skilled in the art.

Claims (7)

1. A cold water collecting and circulating system is characterized by comprising a water supply pipeline, a first water pipe, a second water pipe, a third water pipe, a fourth water pipe, a fifth water pipe, a first valve, a second valve, a heating device, a water storage device and a water outlet valve, wherein the water supply pipeline is connected with the first water pipe and the second water pipe, the output end of the first water pipe is communicated with the heating device, the heating device is communicated with the third water pipe, the output end of the second water pipe is communicated with the input end of the fourth water pipe, the output ends of the third water pipe and the fourth water pipe are communicated with the water outlet valve, the output end of the second water pipe is also communicated with the fifth water pipe, a first valve is arranged at the joint of the second water pipe and the fifth water pipe, the first valve can open or close a channel between the second water pipe and the fifth water pipe, and the output end of the fifth water pipe is communicated with the water outlet valve, the fifth water pipe is also communicated with a vertically arranged water storage device, a second valve is arranged at the water outlet valve, the second valve can control the water in the third water pipe to flow to the fifth water pipe, and the water outlet valve can be opened or closed to discharge water to the outside.

2. A cold water collection and circulation system according to claim 1, wherein a first sensor is mounted at the lowermost end of said water reservoir, said first sensor is electrically connected to a first valve, a piston is mounted in said first water reservoir and moves up and down along said inner chamber, said first sensor controls said first valve to close the passage between said second water pipe and said fifth water pipe when said piston leaves the lowermost position, and said first sensor controls said first valve to open the passage between said second water pipe and said fifth water pipe when said piston reaches the lowermost position.

3. A cold water collection and circulation system, according to claim 2, wherein said reservoir is provided with a second sensor at the uppermost end thereof, said second sensor is electrically connected to a second valve, and said second sensor controls said second valve to close a passage between said third and fifth water pipes for draining when said piston reaches the uppermost position.

4. A cold water collection cycle according to claim 2, wherein said piston is a resilient piston capable of moving up and down under the influence of water pressure.

5. A cold water collection cycle according to claim 2, wherein said piston is an electric pump piston, and said electric pump is further provided at said water reservoir, said electric pump piston being moved up and down by said electric pump.

6. A cold water collection and circulation system, according to claim 1, wherein said reservoir is a heated reservoir, an electric pump being provided in said reservoir, said reservoir being further in communication with a third water pipe through a sixth water pipe, said electric pump being capable of delivering water from said reservoir to said third water pipe through said sixth water pipe.

7. A cold water collection and circulation system according to claim 1, wherein an electric pump is provided in said reservoir, said reservoir being further connected to said first water pipe by a seventh water pipe, said electric pump being capable of delivering water from said reservoir to said first water pipe by said seventh water pipe.

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