CN212078096U - Single-pump hydraulic module - Google Patents

Abstract

The utility model discloses a single pump hydraulic module, which comprises a water pump, a conduit, a valve and a control mechanism, wherein the inlet of the water pump is connected with a water storage mechanism, the outlet of the water pump is connected with a water treatment device through a first conduit, and the water treatment device is connected with a pump station after treating water; the water-saving water storage device is divided into two paths after being connected with a return pump station, one path is a water using pipeline for users, the other path is a return pipeline, the water using pipeline for users is connected with a water using pipeline, and the return pipeline is connected with the water storage mechanism through a pipeline. The utility model discloses a standardized design, reasonable lectotype rationally reduce water pump quantity, realize a pump multipotency. The whole device is assembled in a specially designed box body, a standardized supercharging circulation integrated pump station is formed in a factory, the field installation procedure can be greatly simplified, the workload is reduced, and an installer only needs to connect other equipment, containers, user pipelines and the like with corresponding interfaces of the pump station on the field, so that the purpose of three-win quality, efficiency and cost is achieved.

Description

Single-pump hydraulic module

Technical Field

The utility model relates to a with water pipeline erection equipment technical field, especially, relate to a mainly used provides the device that occasions such as family, official working, business realized energy-conserving water.

Background

At present, fluid systems such as heat pumps, solar energy, boilers, air conditioners and the like used in places such as homes, offices, business offices and the like generally need to use a water pump to realize circulation heating or refrigeration, increase or maintain the pressure of a pipeline, or maintain the temperature of the pipeline so as to meet the use requirements. The installation of such systems generally consists of fittings such as water pumps, valves with various functions, pipes and the like, which are assembled on site by installation constructors to form a complex pipe system connected with corresponding equipment.

In the field, the expression of 'three-part products and seven-part installation' is adopted, and whether the equipment can be normally used is closely related to installation. Due to the fact that the layout of different places is different, the technology of constructors is different, understanding of quality is different, installation standard is different, and the like, the system is installed to form a spider-web pipeline, the appearance is not neat and attractive, the quality is different, faults are prone to occurring, cost waste is too high, and maintenance and repair are not prone to occurring. And different functions are usually realized by different water pumps, such as circulation, pressurization and backwater, which use different water pumps, but the daily utilization rate of most water pumps is not high, and some water pumps can generate corrosion due to long-term non-use, thereby causing faults.

SUMMERY OF THE UTILITY MODEL

The to-be-solved technical problem of the utility model is to prior art's defect, provide a realize that the structure is simpler, the design is more reasonable, can simplify the installation procedure greatly, reduce installation work load, improve the installation effectiveness, reduce water pump quantity, reduce installation cost's single pump hydraulic module.

In order to solve the technical problem, the utility model adopts the following technical scheme: the utility model provides a single pump water conservancy module, is including box, water pump, pipe, valve and control mechanism, and install in the box such as water pump, through control mechanism control water pump and corresponding valve, its characterized in that: the inlet of the water pump is connected with the water storage mechanism, the outlet of the water pump is connected with the water treatment equipment through a first conduit, and the outlet of the water treatment equipment is connected back to the pump station; the water-saving water storage device is divided into two paths after being connected with a return pump station, one path is a water using pipeline for users, the other path is a return pipeline, the water using pipeline for users is connected with a water using pipeline, and the return pipeline is connected with the water storage mechanism through a pipeline.

The return pipeline can be connected with a water replenishing pipeline, a water return pipeline or a circulating pipeline of other water treatment equipment as required, and a control mechanism is additionally arranged to realize the control of the automatic coordinated operation of other water treatment equipment, a water pump and other valves. The water return pipeline and the water supplementing pipeline are both connected with electric valves and are connected into a return pipeline, the return pipeline is connected with the water storage mechanism, and the electric valves are connected with the control mechanism.

Furthermore, the inlet of the water pump is connected with the water storage mechanism through a first water inlet joint, the outlet of the water pump is connected with a first water outlet joint through a first conduit, the first water outlet joint is connected with water treatment equipment, and the water treatment equipment is connected back to the pump station through a second water inlet joint; the second water inlet joint is connected to the pump station and then is divided into a water using pipeline and a return pipeline, the water using pipeline is connected with the water using pipeline through a second water outlet joint, and the return pipeline is connected back to the water storage mechanism through a third water outlet joint; the water replenishing pipeline is connected into the pump station through a third water inlet joint, the water returning pipeline is connected into the pump station through a fourth water inlet joint, the fourth water inlet joint and the third water inlet joint are connected with a second conduit together through a three-way joint, the second conduit is connected into the return pipeline through another three-way joint, and the electric valves are respectively arranged at positions close to the tail end of the third water inlet joint and the tail end of the fourth water inlet joint.

Furthermore, an electronic switch is arranged on a water pipeline for users in the pump station, and the electronic switch is connected with the control mechanism.

Furthermore, a positive constant valve and a pressure stabilizing valve are sequentially arranged on a return pipeline in the pump station, the pressure stabilizing valve is positioned between the positive constant valve and the third water outlet connector, and the second guide pipe is connected between the positive constant valve and the pressure stabilizing valve through a three-way connector.

Furthermore, a Y-shaped filter is arranged between the inlet of the water pump and the first water inlet joint, so that impurities are prevented from entering the pump station.

Furthermore, a temperature probe for detecting the temperature of the water return pipeline is arranged in the fourth water inlet joint, and when the temperature in the pipeline is too low, the corresponding electric valve is opened to enable the low-temperature water pressure in the pipeline to return to the circulating pump station and flow back to the water tank.

Furthermore, the water pump is installed in a box body of the pump station through a plurality of shock pads, and a switch button of the control mechanism is arranged on the side face of the box body; first water supply connector and third water supply connector all stretch out in the left side of box, and first water supply connector and second water supply connector all stretch out at the back of box, and second water supply connector, third water supply connector and fourth water supply connector all stretch out on the right side of box. Therefore, the guide pipes can be connected from different sides of the pump station respectively, and the problem that the guide pipes are piled together to cause mutual interference to influence installation and maintenance is avoided.

Furthermore, the water treatment equipment is a heat pump, the heat pump is connected with a first water outlet joint of the pump station through a heat pump water inlet pipe, and is connected with a second water inlet joint of the pump station through a heat pump water outlet pipe so as to guide hot water into the pump station.

Furthermore, the water storage mechanism is a water tank, and the water tank is connected with a first water inlet joint of the pump station through a cold water inlet pipe and is connected with a third water outlet joint of the pump station through a water inlet pipe of the water tank; the third water inlet joint is connected with tap water through a water replenishing pipe, and the fourth water inlet joint is connected with a user pipeline through a water return pipe.

Preferably, the first conduit and the second conduit are both bellows, so as to be able to bend around; the first water inlet joint and the third water outlet joint are ball valves.

The working process is as follows: water enters a pump station from a water tank through a cold water inlet pipe, enters a water pump firstly, is pressurized by the water pump and then enters a condenser of a heat pump host through a first guide pipe and a heat pump inlet pipe; the hot water generated by the heat pump condenser enters the pump station through the heat pump water outlet pipe again to circulate into the main pipeline, and the first branch, namely the user water pipeline, flows to the user end from the water pipeline through the electronic switch.

When water is used: 1. the user opens the water tap, and the electronic switch acts;

2. the rated pressure of the positive constant valve can be set, the opening can be changed along with the change of the water flow pressure, the water flow pressure rises, the opening is increased, the water flow pressure drops, and the opening is decreased, so that a hot water outlet pipeline (namely a water pipeline) keeps certain water pressure, and the pressure stabilizing valve is used for assisting the positive constant valve to play roles in noise reduction and vibration reduction;

3. as the number of the water taps opened by the user side increases, the pressure of the pipeline decreases;

4. when the pressure of the pipeline is reduced to be lower than a set value, the opening of the positive constant valve is zero, the pipeline which flows back to the water tank is cut off, and all the flow is used for meeting the requirements of a user side;

5. when the user side water taps are closed to a certain amount, the pressure value of the pipeline rises, and when the pressure rises to a set value, the positive constant valve is opened;

6. when all the water taps of the user side are closed, the electronic switch is closed.

The utility model discloses a standardized design, reasonable lectotype optimize again, rationally retrench pipe-line system, rationally reduce water pump quantity, realize a pump multipotency, in use makes flow and pressure change through the action order of controlling each valve, realizes the system function. The whole device is assembled in a specially designed box body, production is completed in a factory group, a standard supercharging circulation integrated pump station meeting different system requirements is formed, field installation procedures can be greatly simplified, workload is reduced, installation personnel only need to analyze the internal logic relation of pipelines, water pumps, valves and the like on the field, and other equipment, containers, user pipelines and the like are connected with corresponding interfaces of the pump station to complete installation, so that the purpose of three-win quality, efficiency and cost is achieved.

Drawings

FIG. 1 is the overall structure (inside) of the present invention;

FIG. 2 is an overall structural view (inside) of another aspect of the present invention;

FIG. 3 is a front view (inside) of the present invention;

FIG. 4 is a top view of the structure (inside) of the present invention;

FIG. 5 is a side view of the present invention;

FIG. 6 is a schematic view of an exemplary embodiment of the present invention;

fig. 7 is a pipeline connection diagram of the present invention in the above exemplary application.

In the figure, a is a pump station, B is a water tank, C is a heat pump, 1 is a tank body, 2 is a water pump, 3 is a first guide pipe, 4 is a first water outlet connector, 5 is a Y-shaped filter, 6 is a first water inlet connector, 7 is a second water inlet connector, 8 is an electronic switch, 9 is a second water outlet connector, 10 is a positive constant valve, 11 is a three-way connector, 12 is a pressure stabilizing valve, 13 is a third water outlet connector, 14 is a second guide pipe, 15 is a three-way connector, 16 is a third water inlet connector, 17 is a fourth water inlet connector, 18 is an electric valve, 19 is a temperature probe, 20 is a shock pad, 21 is a switch button, 22 is a cold water inlet pipe, 23 is a water tank inlet pipe, 24 is a heat pump water inlet pipe, 25 is a heat pump water outlet pipe, 26 is a water use pipe, 27 is a water replenishing pipe, and 28 is a water return pipe.

Detailed Description

In this embodiment, referring to fig. 1 to 5, the single-pump hydraulic module includes a tank 1, a water pump 2, a conduit, a valve, and a control mechanism, wherein the water pump 2 and the like are installed in the tank 1, and the control mechanism controls the water pump 2 and the corresponding valve; the inlet of the water pump 2 is connected with the water storage mechanism, the outlet of the water pump is connected with water treatment equipment through a first conduit 3, and the water treatment equipment is connected to a pump station after treating water; the water is divided into two paths after being connected back to the pump station, one path is a water using pipeline for users, the other path is a return pipeline, the water using pipeline for users is connected with a water using pipeline 26, and the return pipeline is connected back to the water storage mechanism through a pipeline; still including moisturizing pipeline and return water pipeline, both all are connected with motorised valve 18 and all insert the return line, connect back water storage mechanism through the return line, motorised valve 18 then is connected with control mechanism, and specific control process then is prior art, need not to be repeated here.

The inlet of the water pump 2 is connected with the water storage mechanism through a first water inlet joint 6, the outlet of the water pump is connected with a first water outlet joint 4 through a first conduit 3, the first water outlet joint 4 is connected with water treatment equipment, and the water treatment equipment is connected back to the pump station through a second water inlet joint 7; the second water inlet joint 7 is connected to the pump station and then is divided into a water using pipeline and a return pipeline, the water using pipeline is connected with a water using pipeline 26 through a second water outlet joint 9, and the return pipeline is connected back to the water storage mechanism through a third water outlet joint 13; the water supplementing pipeline is connected to the pump station through a third water inlet joint 16, the water returning pipeline is connected to the pump station through a fourth water inlet joint 17, the fourth water inlet joint 17 and the third water inlet joint 16 are connected with a second conduit 14 through a three-way joint 15, the second conduit 14 is connected to the return pipeline through another three-way joint 15, and each electric valve 18 is respectively arranged at the position close to the tail end of the third water inlet joint 16 and the position close to the tail end of the fourth water inlet joint 17.

And an electronic switch 8 is arranged on a water pipeline for users in the pump station, and the electronic switch 8 is connected with a control mechanism.

A positive constant valve 10 and a pressure stabilizing valve 12 are sequentially arranged on a return pipeline in the pump station, the pressure stabilizing valve 12 is positioned between the positive constant valve 10 and a third water outlet joint 13, and a second guide pipe 14 is connected between the positive constant valve 10 and the pressure stabilizing valve 12 through a three-way joint 11.

A Y-filter 5 is arranged between the inlet of the water pump 2 and the first water inlet connection 6 to prevent impurities from entering the pump station a.

And a temperature probe 19 for detecting the temperature of the water return pipeline is arranged in the fourth water inlet joint 17, and when the temperature in the pipeline is too low, a corresponding electric valve 18 is opened to enable the low-temperature water pressure in the pipeline to return to the pump station and flow back to the water tank.

The water pump 2 is arranged in the box body 1 of the pump station A through a plurality of shock pads 20, and a switch button 21 of the control mechanism is arranged on the side surface of the box body 1; the first water inlet joint 6 and the third water outlet joint 13 extend out of the left side of the box body 1, the first water outlet joint 4 and the second water inlet joint 7 extend out of the back side of the box body 1, and the second water outlet joint 9, the third water inlet joint 16 and the fourth water inlet joint 17 extend out of the right side of the box body 1. Therefore, the guide pipes can be connected from different sides of the pump station A respectively, and the phenomenon that the guide pipes are piled together to cause mutual interference to influence installation and maintenance is avoided.

Referring to fig. 6 and 7, the water treatment device is a heat pump C, and the heat pump C is connected with the first water outlet connector 4 of the pump station a through a heat pump water inlet pipe 24 and is connected with the second water inlet connector 7 of the pump station a through a heat pump water outlet pipe 25 to introduce hot water into the pump station a.

The water storage mechanism is a water tank B, the water tank B is connected with a first water inlet joint 6 of the pump station A through a cold water inlet pipe 22, and is connected with a third water outlet joint 13 of the pump station A through a water tank inlet pipe 23; the third water inlet joint 16 is connected with tap water through a water replenishing pipe 27, and the fourth water inlet joint 17 is connected with a user pipeline through a water return pipe 28.

The first conduit 3 and the second conduit 14 are both corrugated pipes so as to be bent and rotated; the first water inlet joint 6 and the third water outlet joint 13 are ball valves.

The working process is as follows: water enters a pump station A from a water tank B through a cold water inlet pipe 22, enters a water pump 2, is pressurized by the water pump 2, and then enters a condenser of a heat pump C host through a first guide pipe 3 and a heat pump C water inlet pipe; the hot water generated by the condenser of the heat pump C enters the pump station A through the water outlet pipe of the heat pump C again to circulate into the main pipeline, and the first branch is that the user water pipeline flows to the user end from the water pipeline through the electronic switch 8.

When water is used: 1. the user end opens the water tap, and the electronic switch 8 acts;

2. the rated pressure of the positive constant valve 10 can be set, the opening can be changed along with the change of the water flow pressure, the water flow pressure rises, the opening is increased, the water flow pressure drops, and the opening is decreased, so that a hot water outlet pipeline (namely a water pipeline) keeps certain water pressure, and the pressure stabilizing valve 12 is used for assisting the positive constant valve 10 to play a role in noise reduction and vibration reduction;

3. as the number of the water taps opened by the user side increases, the pressure of the pipeline decreases;

4. when the pressure of the pipeline is reduced to be lower than a set value, the opening of the positive constant valve 10 is zero, the pipeline returning to the water tank B is cut off, and all the flow is used for meeting the requirements of a user side;

5. when the user side water taps are closed to a certain amount, the pressure value of the pipeline rises, and when the pressure rises to a set value, the positive constant valve 10 is opened;

6. when all the water taps at the user end are closed, the electronic switch 8 is closed.

The above description is only a preferred embodiment of the present invention, and should not be taken as limiting the scope of the invention, i.e. the present invention is intended to cover all equivalent variations and modifications within the scope of the present invention.

Claims (10)

1. The utility model provides a single pump water conservancy module, including box, water pump, pipe, valve and control mechanism, the water pump is installed in the box, through control mechanism control water pump and corresponding valve, its characterized in that: the inlet of the water pump is connected with the water storage mechanism, the outlet of the water pump is connected with the water treatment equipment through a first conduit, and the outlet of the water treatment equipment is connected back to the pump station; the water-saving water storage device is divided into two paths after being connected with a return pump station, one path is a water using pipeline for users, the other path is a return pipeline, the water using pipeline for users is connected with a water using pipeline, and the return pipeline is connected with the water storage mechanism through a pipeline.

2. The single pump hydro module of claim 1, wherein: still including moisturizing pipeline and return water pipeline, both all are connected with the motorised valve and all insert the return line, connect back water storage mechanism through the return line, the motorised valve then is connected with control mechanism.

3. The single pump hydro module of claim 2, wherein: the inlet of the water pump is connected with the water storage mechanism through a first water inlet joint, the outlet of the water pump is connected with a first water outlet joint through a first guide pipe, the first water outlet joint is connected with water treatment equipment, and the water treatment equipment is connected back to the pump station through a second water inlet joint; the second water inlet joint is connected to the pump station and then is divided into a water using pipeline and a return pipeline, the water using pipeline is connected with the water using pipeline through a second water outlet joint, and the return pipeline is connected back to the water storage mechanism through a third water outlet joint; the water replenishing pipeline is connected into the pump station through a third water inlet joint, the water returning pipeline is connected into the pump station through a fourth water inlet joint, the fourth water inlet joint and the third water inlet joint are connected with a second conduit together through a three-way joint, the second conduit is connected into the return pipeline through another three-way joint, and the electric valves are respectively arranged at positions close to the tail end of the third water inlet joint and the tail end of the fourth water inlet joint.

4. The single pump hydro module of claim 1, wherein: and an electronic switch is arranged on a water pipeline for users in the pump station and is connected with a control mechanism.

5. The single pump hydro module of claim 3, wherein: and a positive constant valve and a pressure stabilizing valve are sequentially arranged on a return pipeline in the pump station, the pressure stabilizing valve is positioned between the positive constant valve and the third water outlet joint, and the second guide pipe is connected between the positive constant valve and the pressure stabilizing valve through a three-way joint.

6. The single pump hydro module of claim 3, wherein: a Y-shaped filter is arranged between the inlet of the water pump and the first water inlet joint; a temperature probe for detecting the temperature of the water return pipeline is arranged in the fourth water inlet joint.

7. The single pump hydro module of claim 3, wherein: the water pump is arranged in a box body of the pump station through a plurality of shock pads, and a switch button of the control mechanism is arranged on the side surface of the box body; first water supply connector and third water supply connector all stretch out in the left side of box, and first water supply connector and second water supply connector all stretch out at the back of box, and second water supply connector, third water supply connector and fourth water supply connector all stretch out on the right side of box.

8. The single pump hydro module of claim 3, wherein: the water treatment equipment is a heat pump, the heat pump is connected with a first water outlet joint of the pump station through a heat pump water inlet pipe, and is connected with a second water inlet joint of the pump station through a heat pump water outlet pipe so as to lead hot water into the pump station.

9. The single pump hydro module of claim 3, wherein: the water storage mechanism is a water tank, and the water tank is connected with a first water inlet joint of the pump station through a cold water inlet pipe and is connected with a third water outlet joint of the pump station through a water inlet pipe of the water tank; the third water inlet joint is connected with tap water through a water replenishing pipe, and the fourth water inlet joint is connected with a user pipeline through a water return pipe.

10. The single pump hydro module of claim 3, wherein: the first guide pipe and the second guide pipe are corrugated pipes, and the first water inlet joint and the third water outlet joint are ball valves.

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