CN218394919U - Automatic fine water heating device of mending of miniwatt heat-preserving container circulating pump - Google Patents

Abstract

The utility model discloses an automatic smart hot water supply device of miniwatt heat-preserving container circulating pump, including the industry hot-water machine, the liquid outlet of industry hot-water machine passes through hot-water machine-cell body transfer line and washs the cell body inlet and be connected, still including the heat-preserving container of a miniwatt, the inlet of heat-preserving container passes through hot-water machine-heat-preserving container transfer line and is connected with the liquid outlet of industry hot-water machine, the liquid outlet of heat-preserving container passes through the heat-preserving container-circulating pump transfer line and is connected with the inlet of circulating pump, the liquid outlet of circulating pump pass through circulating pump-cell body transfer line with the inlet of wasing the cell body is connected. The utility model discloses greatly reduced opening of industrial water heater and stopped the frequency, reduced the energy consumption, practiced thrift the cost and improved the life of industrial water heater.

Description

Automatic fine water heating device of mending of miniwatt heat-preserving container circulating pump

Technical Field

The utility model belongs to photovoltaic cleaning equipment field particularly, relates to an automatic smart hot water supply equipment that mends of miniwatt heat-preserving container circulating pump.

Background

In the automatic hot water supply of the tank body of the photovoltaic cleaning equipment, most of the industrial water heaters are adopted to heat cold water entering the tank body from the outside and then supply the cold water to the corresponding tank body after being measured by a pipeline and a flow sensor; however, according to the process requirements, a small amount of hot water needs to be supplemented into the tank body for multiple times during cleaning, in practical application, each single tank only needs 5-10L of liquid supplement each time, the power of an industrial water heater is 180KW, the full-power operation is needed for 7-12s during each water supplement, and the liquid supplement needs 5-10L again after the average interval of 150 s; when multiple grooves are produced simultaneously, the industrial water heater needs to be started at the full power at an average interval of 30s, and is stopped after the industrial water heater runs for 7-12 s; the mode of supplementing hot water to the tank body causes the industrial water heater to be started and stopped frequently, thereby greatly increasing the electric energy consumption, seriously reducing the service life of the water heater and improving the cost.

SUMMERY OF THE UTILITY MODEL

In order to solve the problems existing in the prior art, the utility model aims to provide an automatic accurate hot water device of mending of miniwatt heat-preserving container circulating pump to realize opening of reducing industry hot-water machine and stop number of times and power consumption, and improve the life of hot-water machine, practice thrift the cost.

In order to achieve the technical purpose and effect, the utility model discloses a following technical scheme realizes:

the automatic precise hot water supplementing device comprises an industrial water heater, wherein a liquid outlet of the industrial water heater is connected with a liquid inlet of a cleaning groove body through a water heater-groove body infusion pipeline, the device also comprises a low-power heat-preserving container, a liquid inlet of the heat-preserving container is connected with a liquid outlet of the industrial water heater through a water heater-heat-preserving container infusion pipeline, a liquid outlet of the heat-preserving container is connected with a liquid inlet of a circulating pump through a heat-preserving container-circulating pump infusion pipeline, and a liquid outlet of the circulating pump is connected with a liquid inlet of the cleaning groove body through a circulating pump-groove body infusion pipeline.

Furthermore, an automatic ball valve is arranged in the water heater-trough body infusion pipeline.

Further, automatic ball valves are respectively arranged in the water heater-heat preservation barrel infusion pipeline and the circulating pump-trough body infusion pipeline.

Furthermore, a manual flow valve is arranged in the circulating pump-groove body infusion pipeline.

Furthermore, a flow sensor is also arranged in the circulating pump-groove body infusion pipeline.

Furthermore, the power of the heat-preserving container is 9KW.

Furthermore, a low liquid level sensor and a high liquid level sensor are arranged in the heat-preserving barrel.

The utility model has the advantages as follows: the utility model discloses an increase a miniwatt insulation can, except carrying out the moisturizing to wasing the cell body at the first industry hot-water machine that uses, all the other moisturizing is gone on all to the internal insulation can that carries on of washing tank and subsequent order industry hot-water machine only carries out the moisturizing for the insulation can, and the insulation can of miniwatt can realize carrying out the moisturizing to the internal lot of washing tank when realizing carrying out heat retaining to its inside hot water, thereby greatly reduced opening of industry hot-water machine and stop the frequency, the energy consumption is reduced, the cost is practiced thrift and the life of industry hot-water machine has been improved.

The above description is only an overview of the technical solution of the present invention, and in order to make the technical means of the present invention clearer and can be implemented according to the content of the description, the following detailed description is made with reference to the preferred embodiments of the present invention and accompanying drawings. The detailed description of the present invention is given by the following examples and the accompanying drawings.

Drawings

The accompanying drawings, which are included to provide a further understanding of the invention and are incorporated in and constitute a part of this application, illustrate embodiment(s) of the invention and together with the description serve to explain the invention without undue limitation to the invention. In the drawings:

FIG. 1 is a schematic view of the connection structure of the device and the single tank of the present invention;

fig. 2 is a schematic view of the connection structure of the device and the multiple grooves of the present invention.

The numbering in the figures illustrates: 1. an industrial water heater; 2. cleaning the tank body; 3. a heat-preserving barrel; 4. a circulation pump; 5. an automatic ball valve; 6. a manual flow valve; 7. a flow sensor; 8. a low level sensor; 9. a high level sensor; 10. water heater-ball valve infusion line; 11. ball valve-tank infusion line; 12. circulation pump-flow valve infusion lines; 13. flow valve-sensor infusion line; 14. sensor-ball valve infusion lines; 15. a heat-insulating barrel-circulating pump infusion pipeline; 16. ball valve-insulation can infusion pipeline.

Detailed Description

The present invention will be described in detail below with reference to the accompanying drawings in conjunction with embodiments.

It should be noted that all directional indicators (such as upper, lower, left, right, front, back, upper end, lower end, top, bottom … …) in the embodiments of the present invention are only used to explain the relative position relationship between the components, the motion situation, etc. in a specific posture (as shown in the drawings), and if the specific posture is changed, the directional indicator is changed accordingly.

Referring to fig. 1-2, the automatic fine hot water replenishing device for the circulating pump of the low-power heat-preserving container comprises an industrial water heater 1, wherein a liquid outlet of the industrial water heater 1 is connected with a liquid inlet of a cleaning tank 2 through a water heater-tank infusion pipeline, the automatic fine hot water replenishing device further comprises a low-power heat-preserving container 3, a liquid inlet of the heat-preserving container 3 is connected with a liquid outlet of the industrial water heater 1 through a water heater-heat-preserving container infusion pipeline, a liquid outlet of the heat-preserving container 3 is connected with a liquid inlet of a circulating pump 4 through a heat-preserving container-circulating pump infusion pipeline 15, and a liquid outlet of the circulating pump 4 is connected with a liquid inlet of the cleaning tank 2 through a circulating pump-tank infusion pipeline.

With continued reference to fig. 1-2, in the present embodiment, an automatic ball valve 5 is disposed in the water heater-tank fluid pipe for cutting off or connecting the water heater-tank fluid pipe; automatic ball valves 5 for cutting off or connecting the hot water machine-heat preservation barrel infusion pipeline and the circulating pump-trough body infusion pipeline are respectively arranged in the hot water machine-heat preservation barrel infusion pipeline and the circulating pump-trough body infusion pipeline; a manual flow valve 6 for manually adjusting the liquid flow in the circulating pump-tank body infusion pipeline is arranged in the circulating pump-tank body infusion pipeline; and a flow sensor 7 for monitoring the flow of the liquid passing through the circulating pump-trough body infusion pipeline is also arranged in the circulating pump-trough body infusion pipeline.

In addition, as shown in fig. 1, when connected to a cleaning tank 2, in the present embodiment, the hot water machine-tank infusion pipe includes a hot water machine-ball valve infusion pipe 10 and a ball valve-tank infusion pipe 11; one end of the water heater-ball valve infusion pipeline 10 is connected with a liquid outlet of the industrial water heater 1, the other end of the water heater-ball valve infusion pipeline 10 is connected with a liquid inlet of the automatic ball valve 5, a liquid outlet of the automatic ball valve 5 is connected with one end of the ball valve-trough body infusion pipeline 11, and the other end of the ball valve-trough body infusion pipeline 11 is connected with a liquid inlet of the cleaning trough body 2.

A manual flow valve 6, a flow sensor 7 and an automatic ball valve 5 are arranged in the circulating pump-trough body infusion pipeline, in the embodiment, the manual flow valve 6, the flow sensor 7 and the automatic ball valve 5 are sequentially arranged, so that the circulating pump-trough body infusion pipeline comprises a circulating pump-flow valve infusion pipeline 12, a flow valve-sensor infusion pipeline 13, a sensor-ball valve infusion pipeline 14 and a ball valve-trough body infusion pipeline 11; one end of the circulating pump-flow valve infusion pipeline 12 is connected with a liquid outlet of the circulating pump 4, the other end of the circulating pump-flow valve infusion pipeline 12 is connected with a liquid inlet of the manual flow valve 6, a liquid outlet of the manual flow valve 6 is connected with one end of the flow valve-sensor infusion pipeline 13, the other end of the flow valve-sensor infusion pipeline 13 is connected with a liquid inlet of the flow sensor 7, a liquid outlet of the flow sensor 7 is connected with one end of the sensor-ball valve infusion pipeline 14, the other end of the sensor-ball valve infusion pipeline 14 is connected with a liquid inlet of the automatic ball valve 5, a liquid outlet of the automatic ball valve 5 is connected with one end of the ball valve-groove body infusion pipeline 11, and the other end of the ball valve-groove body infusion pipeline 11 is connected with a liquid inlet of the cleaning groove body 2.

As shown in fig. 2, when a plurality of cleaning tanks 2 are connected at the same time, unlike the connection with one cleaning tank 2, one end of the hot water machine-ball valve infusion pipeline 10 is connected with the liquid outlet of the industrial hot water machine 1, the other end of the hot water machine-ball valve infusion pipeline 10 branches off to form a plurality of paths and is respectively connected with the liquid inlet of one automatic ball valve 5, the liquid outlet of each automatic ball valve 5 is connected with one end of a group of ball valve-tank infusion pipelines 11, and the other end of each ball valve-tank infusion pipeline 11 is connected with the corresponding liquid inlet of the cleaning tank 2.

And flow valve-sensor transfer line 13 one end with manual flow valve 6's liquid outlet is connected, flow valve-sensor transfer line 13's the other end branching goes out the multichannel to be connected with one respectively flow sensor 7's inlet, every flow sensor 7's liquid outlet all with a set of sensor-ball valve transfer line 14's one end is connected, every group sensor-ball valve transfer line 14 other end all with an automatic ball valve 5's inlet is connected, every automatic ball valve 5's liquid outlet all with a set of ball valve-cell body transfer line 11's one end is connected, ball valve-cell body transfer line 11's the other end with correspond wash the inlet of cell body 2 and be connected.

In addition, as shown in fig. 1-2, regardless of whether one or more cleaning tanks 2 are connected, the hot water machine-thermal insulation barrel infusion pipeline comprises a hot water machine-ball valve infusion pipeline 10 and a ball valve-thermal insulation barrel infusion pipeline 16, one end of the hot water machine-ball valve infusion pipeline 10 is connected with the liquid outlet of the industrial hot water machine 1, the other end of the hot water machine-ball valve infusion pipeline 10 is connected with the liquid inlet of the automatic ball valve 5, the liquid outlet of the automatic ball valve 5 is connected with one end of the ball valve-thermal insulation barrel infusion pipeline 16, and the other end of the ball valve-thermal insulation barrel infusion pipeline 19 is connected with the liquid inlet of the circulating pump 4.

With continued reference to fig. 1-2, a low liquid level sensor 8 and a high liquid level sensor 9 for monitoring the liquid level in the heat-insulating barrel 3 are arranged in the heat-insulating barrel 3; the power of the heat-insulating barrel 3 is 9KW, the capacity is 150L, hot water can be supplied into the cleaning tank body 2 in 15-30 batches, the starting and stopping frequency of the industrial water heater is reduced, the energy consumption is reduced, the cost is saved, and the service life of the industrial water heater is prolonged.

The working principle of the utility model is as follows:

before the use, link to each other industrial hot water machine 1's inlet with cold water through the pipeline to after adjusting manual flow valve 6 to suitable position, be connected this device with control system, and set for the hot water quantity that needs the replenishment at every turn through control system.

When the device is used for the first time, the device is started, the control system controls the industrial water heater 1 to respectively supply water to the cleaning tank body 2 and the heat preservation barrel 3, and meanwhile, automatic ball valves 5 on a water heater-tank body infusion pipeline and a water heater-heat preservation barrel infusion pipeline in the control device are opened, so that hot water flows into the cleaning tank body 2 and the heat preservation barrel 3; when the industrial water heater 1 supplies the set amount of hot water into the cleaning tank body 2, the control system controls the automatic ball valve 5 on the water heater-tank body infusion pipeline to be closed; after a high liquid level sensor 9 in the heat-insulating barrel 3 detects that the liquid level in the heat-insulating barrel 3 reaches a set position, a confidence is fed back to a control system, and the control system controls an automatic ball valve 5 on a water heater-heat-insulating barrel infusion pipeline to be closed; wherein, when supplying water for the first time, only after the cleaning tank body 2 and the heat-preserving container 3 finish supplying water, the control system controls the industrial water heater 1 to stop heating.

In addition, the hot water entering the heat-preserving container 3 is heat-preserved by the heat-preserving container 3 through a self low-power heater.

In the working process of cleaning the trough body 2, when the control system obtains an instruction and needs to supply hot water to the cleaning trough body 2, the control system controls the automatic ball valve 5 connected with the cleaning trough body 2 on the circulating pump-trough body infusion pipeline to be opened, and controls the circulating pump 4 to be started to supply the hot water in the heat-insulating barrel 3 to the cleaning trough body 2, wherein in the supply process, the flow sensor 7 connected with the cleaning trough body 2 monitors the flow of the flowing hot water, and when the supply amount reaches each time set in the control system, the control system controls the automatic ball valve 5 to be closed and the circulating pump 4 to stop working.

When the liquid level in the heat-insulating barrel 3 is lower than the set height, the low liquid level sensor 8 feeds back to the control system, and the control system controls the starting of the industrial water heater 1 and simultaneously controls the opening of an automatic ball valve 5 on a water heater-heat-insulating barrel infusion pipeline to supply hot water into the heat-insulating barrel 3; after a high liquid level sensor 9 in the heat-insulating barrel 3 detects that the liquid level in the heat-insulating barrel 3 reaches a set position, the high liquid level sensor feeds back confidence to a control system, and the control system controls the industrial water heater 1 and an automatic ball valve 5 on a water heater-heat-insulating barrel infusion pipeline to be closed.

The above description is only a preferred embodiment of the present invention and is not intended to limit the present invention, and various modifications and changes may be made by those skilled in the art. Any modification, equivalent replacement, or improvement made within the spirit and principle of the present invention should be included in the protection scope of the present invention.

Claims (7)

1. The utility model provides an automatic smart hot water supply device of miniwatt heat-preserving container circulating pump, includes industry hot water machine (1), the liquid outlet of industry hot water machine (1) is connected with washing cell body (2) inlet through hot water machine-cell body transfer line, its characterized in that: the cleaning device is characterized by further comprising a low-power heat-preserving container (3), wherein a liquid inlet of the heat-preserving container (3) is connected with a liquid outlet of the industrial water heater (1) through a water heater-heat-preserving container infusion pipeline, a liquid outlet of the heat-preserving container (3) is connected with a liquid inlet of the circulating pump (4) through a heat-preserving container-circulating pump infusion pipeline (15), and a liquid outlet of the circulating pump (4) is connected with a liquid inlet of the cleaning groove body (2) through a circulating pump-groove body infusion pipeline.

2. The automatic fine hot water supply device of miniwatt heat-preserving container circulating pump of claim 1 is characterized in that: an automatic ball valve (5) is arranged in the water heater-trough body infusion pipeline.

3. The automatic fine hot water supply device of miniwatt heat-preserving container circulating pump of claim 1 is characterized in that: automatic ball valves (5) are respectively arranged in the water heater-heat preservation barrel infusion pipeline and the circulating pump-trough body infusion pipeline.

4. The automatic fine hot water supply device of miniwatt heat-preserving container circulating pump of claim 3 is characterized in that: and a manual flow valve (6) is arranged in the circulating pump-tank body liquid conveying pipeline.

5. The automatic fine hot water supply device of miniwatt heat-preserving container circulating pump of claim 4, characterized in that: and a flow sensor (7) is also arranged in the circulating pump-groove body infusion pipeline.

6. The automatic fine hot water supply device of miniwatt heat-preserving container circulating pump of claim 1 is characterized in that: the power of the heat-insulating barrel (3) is 9KW.

7. The automatic fine hot water supply device of miniwatt heat-preserving container circulating pump of claim 6, characterized in that: a low liquid level sensor (8) and a high liquid level sensor (9) are arranged in the heat-insulating barrel (3).

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