CN212080508U - Pump station for eliminating pipeline vibration - Google Patents

Abstract

The utility model discloses an eliminate pump station of pipeline vibration, including pressure damping jar, governing valve and processing outlet pipe, the governing valve is connected to pressure damping jar one end, and water storage mechanism is connected to the other end of pressure damping jar, the governing valve with handle out water piping connection, handle outlet pipe connection water treatment facilities, the governing valve adjusts the pipeline aperture according to rivers pressure, and the pipeline vibration is eliminated to the pressure damping jar, handles the water of accomplishing with water treatment facilities through pressure damping jar, governing valve and processing outlet pipe entering water storage mechanism, and the inside of design pressure damping jar is multilayer structure, and the inside moisture layer of inflow pressure damping jar flows, slows down water velocity, need not manual rotation regulation surge damping valve and eliminates the pipeline vibration, effectively solves the problem that leads to discharge few because of the pipeline vibration.

Description

Pump station for eliminating pipeline vibration

Technical Field

The utility model relates to a water pipeline erection equipment technical field especially relates to a mainly used provides the pump station of eliminating the pipe vibration 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.

Therefore, design an integral type pump station, but discover the problem that pipeline discharge is few after putting into service, through the analysis that the pump station adopts the surge damping valve to eliminate the pipeline vibration, and the surge damping valve can be screwed, unscrewed, and the influence can cause the unit vibration big after the user has transferred, the valve of screwing also can reduce the discharge of return water tank.

Therefore, there is a need to develop a pump station, which can solve the problem of low water flow caused by pipeline vibration.

SUMMERY OF THE UTILITY MODEL

The to-be-solved technical problem of the utility model is to prior art's defect, a pump station of elimination pipeline vibration that solution leads to discharge to be few because of pipeline vibration is provided.

In order to solve the technical problem, the utility model adopts the following technical scheme: the utility model provides an eliminate pump station of pipeline vibration, adopts the pipe to be connected with water storage mechanism, water treatment facilities and user, the pump station is including box, water pump, pipe, valve and control mechanism, and the water pump is installed in the box, through control mechanism control water pump and corresponding valve, the pump station is including pressure damping jar, governing valve and processing outlet pipe, the governing valve is connected to pressure damping jar one end, and water storage mechanism is connected to the other end of pressure damping jar, the governing valve with handle out water piping connection, handle outlet pipe connection water treatment facilities, the governing valve is according to rivers pressure regulation pipeline aperture, and the pipeline vibration is eliminated to the pressure damping jar, handles the water that accomplishes with water treatment facilities and gets into water storage mechanism through pressure damping jar, governing valve and processing outlet pipe.

Furthermore, the pressure vibration-damping tank comprises an inner pipeline and an outer pipeline, the inner pipeline is arranged in the outer pipeline, the inner pipeline is provided with a plurality of small holes, water fills the inner pipeline, flows into the outer pipeline from the small holes in the inner pipeline, and then flows out of the pressure vibration-damping tank through the outer pipeline, so that the water flow speed is reduced, and the pipeline vibration is eliminated.

Furthermore, the inner pipeline is provided with a first water inlet, the outer pipeline is provided with a water outlet, the first water inlet is connected with the regulating valve, the water outlet is connected with the water storage mechanism, the first water inlet and the water outlet are oppositely arranged, and water enters the pressure damping tank through the first water inlet and flows to the water storage mechanism from the water outlet.

Further, the pressure vibration-damping tank comprises a layer A, a layer B and a layer C, wherein the layer A is communicated with the first water inlet, the layer B wraps the layer A and is communicated with the layer A, the layer C wraps the layer B and is communicated with the water outlet, water enters the layer A and flows into the layer B, and then flows into the layer C from the layer B.

Furthermore, the small holes are formed in the layer B, water in the layer B flows into the layer C through the small holes and is discharged from the water outlet, the water flow speed is reduced, and therefore pipeline vibration is eliminated.

Furthermore, the water storage device further comprises a water supplementing pipe, a water return pipe and a return pipe, wherein one ends of the water supplementing pipe and the water return pipe are connected with electric valves and are connected with the return pipe, the electric valves are connected with the water storage mechanism through the return pipe, the other end of the water return pipe is connected with a user side, and the electric valves are connected with the control mechanism.

Furthermore, the pressure vibration-damping tank comprises a second water inlet, the second water inlet is arranged between the first water inlet and the water outlet, the second water inlet is connected with the return pipe, and water passing through the water supplementing pipe and the water return pipe flows into the pressure vibration-damping tank from the return pipe to be guided into the water storage mechanism.

Further, still including handling the inlet tube, the one end of handling the inlet tube is connected with the access connection of water pump, and the other end of handling the inlet tube is connected with water treatment facilities, and the export of water pump is connected with water storage mechanism, and water storage mechanism's water flows through from the water pump and handles the inlet tube and get into water treatment facilities.

Furthermore, the water treatment equipment is a heat pump, the heat pump is connected with a treatment water outlet pipe of the pump station through a heat pump water inlet pipe, and is connected with the treatment water inlet pipe 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, the water tank is connected with an outlet of the pump station through a water tank outlet pipe, and is connected with the pressure damping tank through a water tank inlet pipe so as to be led into the hot water supply tank.

Further, the water replenishing pipe leads tap water to the pump station through a tap water pipe, and the water return pipe leads warm water to the pump station through a user pipe.

The working process is as follows: water enters a pump station from a water tank through a water outlet pipe of the water tank, enters a water pump, is pressurized by the water pump, and then enters a condenser of the heat pump through a treatment water outlet pipe and a heat pump water inlet pipe; hot water generated by a condenser of the heat pump enters a treatment water inlet pipe of a pump station through a heat pump water outlet pipe again, when the water consumption of a user side is low, an electronic switch controls the hot water to flow to the user side and divide the hot water into two paths, and one path flows to the user side from a water outlet pipeline; the other path of the water flows from the bypass pipe through the water pump under pressure and flows through the treatment water outlet pipe to enter the heat pump, and then flows from the water outlet pipe to the user side through circulation; when the user side does not use water, hot water generated by a condenser of the heat pump directly flows into the treatment water inlet pipe, passes through the regulating valve and the pressure damping tank and then enters the water storage mechanism; when the water consumption of the user side is large, hot water in the water storage mechanism flows into an inlet of a pump station from a water outlet pipe of the water tank, is pressurized by the pump station, flows through a treatment water outlet pipe, enters a heat pump, and flows to the user side from the water outlet pipe through circulation.

The principle of the steps is as follows:

1. the user opens the water tap, and the electronic switch acts;

2. the governing valve rated pressure can be set for, and the aperture can change along with rivers pressure variation, and rivers pressure rises, and the aperture grow, rivers pressure decline, and the aperture diminishes to the messenger handles the inlet tube and keeps certain water pressure, and the pressure damping jar is used for supplementary governing valve, plays amortization, damping effect, pressure damping jar principle: the water passes through the small water pipe and then passes through the large water pipe extension water pipe, the water flow speed is reduced in the large water pipe, the water flows to the wall of the pressure damping tank through the small hole of the large water pipe, and then flows out of the tank body through the small water pipe;

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 regulating 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 regulating valve is opened;

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

The beneficial effects of the utility model reside in that:

(1) the pressure damping tank is adopted to replace a pressure stabilizing valve, the pressure damping tank is designed to be of a multilayer structure, water flowing into the pressure damping tank flows in a layered mode, the water flow speed is reduced, manual rotation for adjusting the pressure stabilizing valve is not needed to eliminate pipeline vibration, and the problem of small water flow caused by pipeline vibration is effectively solved;

(2) the pressure vibration-damping tank remixes the water flow with impact force entering the vibration-damping tank in the tank to achieve stable output by changing the flow direction, prolonging the flow path and redistributing the flow, thereby eliminating the impact vibration of the pipeline;

(3) through standardized design, reasonable model selection and optimization, the pipeline system is reasonably simplified, the number of water pumps is reasonably reduced, multiple functions of one pump are realized, and the flow and the pressure are changed by controlling the action sequence of each valve in use, so that the system function is realized;

(4) the whole device is assembled in a specially designed box body, production is completed in a factory group, a standardized 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 purposes of quality, efficiency and cost win-win are achieved.

Drawings

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

FIG. 2 is the whole structure view (inside) of the utility model after the box body is disassembled;

FIG. 3 is a view showing the overall structure of the pressure damping tank of the present invention;

FIG. 4 is a sectional view of the pressure damping tank of the present invention;

FIG. 5 is a front view (inside) of the present invention;

FIG. 6 is a top view of the structure (inside) of the present invention;

FIG. 7 is a side view of the present invention;

FIG. 8 is a back view of the present invention;

fig. 9 is an installation diagram of a typical application of the present invention.

In the figure, a is a water tank, B is a pump station, C is a heat pump, 1 is a tank, 2 is a water pump, 21 is an inlet of the water pump, 22 is an outlet of the water pump, 3 is a control mechanism, 4 is an electronic switch, 5 is a bypass pipe, 6 is a water outlet pipe, 7 is a water replenishing pipe, 8 is a water return pipe, 9 is a return pipe, 10 is a pressure-damping tank, 101 is a first water inlet, 102 is a second water inlet, 103 is a water outlet, 104 is a layer a, 105 is a layer B, 106 is a layer C, 107 is a small hole, 108 is an inner pipe, 109 is an outer pipe, 11 is a regulating valve, 12 is a treatment water inlet pipe, 13 is a treatment water outlet pipe, 14 is a shock pad, 15 is a button, 16 is a water tank water inlet pipe, 17 is a water tank water outlet pipe, 18 is a heat pump water inlet pipe, 19 is a heat pump water outlet pipe, 20 is a water outlet pipe, 21.

Detailed Description

The technical solution of the embodiment of the present invention will be clearly and completely described below with reference to the accompanying drawings of the present invention.

Referring to fig. 9, the utility model discloses the pump station combines the working process of water tank and heat pump: water enters a pump station B from a water tank A through a water tank water outlet pipe 17, enters a water pump 2, is pressurized by the water pump 2, and then enters a condenser of a heat pump C through a treatment water outlet pipe 13 and a heat pump water inlet pipe 18; the hot water that produces through the condenser of heat pump C gets into pump station B's processing inlet tube 12 through heat pump outlet pipe 19, and when the user side water consumption was less, the condition one: the electronic switch 4 controls the hot water to directly flow from the water outlet pipe 20 to the user side; when the water consumption of the user end is less, the second condition is that: hot water generated by the heat pump C enters the water tank A after passing through the regulating valve 11 and the pressure damping tank 10, then enters the pump station B from the water tank water outlet pipe 17, is pressurized by the water pump 2, flows through the bypass pipe 5 from the outlet 22 of the water pump, and then flows to a user end from the water outlet pipe 20; when the water consumption of the user end is increased, hot water generated by the heat pump C directly enters the water outlet pipe 20 through the electronic switch 4 and flows to the user end without flowing into the water tank A, and meanwhile, the hot water in the water tank A is pressurized by the water pump 2, flows through the bypass pipe 5 from the outlet 22 of the water pump and then flows to the user end from the water outlet pipe 20; when the user does not use water, the hot water generated by the condenser of the heat pump C directly flows into the treatment water inlet pipe 12, passes through the regulating valve 11 and the pressure damping tank 10 and then enters the water tank A; when the temperature of the hot water in the water tank A is lower than the set temperature, the hot water in the water tank A flows into the inlet 21 of the water pump from the water outlet pipe 17 of the water tank, is pressurized by the water pump 2, flows through the treatment water outlet pipe 13, enters the heat pump C, and then enters the water tank after passing through the treatment water inlet pipe 12, the regulating valve 11 and the pressure damping tank 10.

The principle of the steps is as follows:

1. the user end opens the water tap, and the electronic switch 4 acts;

2. 11 rated pressure of governing valve can set for, and the aperture can change along with rivers pressure variation, and rivers pressure rises, and the aperture grow, rivers pressure decline, and the aperture diminishes to make and handle inlet tube 12 and keep certain water pressure, pressure damping jar 10 is used for supplementary governing valve 11, plays amortization, damping effect, pressure damping jar 10 principle: the water passes through the small water pipe, then passes through the large water pipe, prolongs the pipeline of the water pipe, reduces the flow speed of the water in the small water pipe, flows to the wall of the pressure damping tank 10 through the small hole of the large water pipe, and then flows out of the tank body through the small water pipe;

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 regulating valve 11 is zero, the pipeline which flows back to the water tank A 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 regulating valve 11 is opened;

6. when all the water taps of the user side are closed, the electronic switch 4 is closed.

The control mechanism in the utility model is a circuit board, the regulating valve plays a very critical role in the work of the pump station, the rated pressure of the regulating valve is input through a program, when the pressure of a pipeline is reduced to be lower than a set value, the opening degree of the regulating valve 11 is zero, the pipeline which flows back to the water tank A is cut off, and all the flow is used for meeting the requirements of a user side; the pressure value of the pipeline rises, and when the pressure rises to a set value, the regulating valve 11 is opened, and the hot water flows back to the water tank.

Example 1

Referring to fig. 1-8, a pump station for eliminating pipeline vibration, which is connected with a water storage mechanism, a water treatment device and a user end by using guide pipes, the pump station comprises a box body 1, a water pump 2, a guide pipe, a valve and a control mechanism 3, the water pump 2 is arranged in the box body 1, the water pump 2 and corresponding valves are controlled by the control mechanism 3, the pump station comprises a pressure damping tank 10, a regulating valve 11 and a processing water outlet pipe 13, one end of the pressure vibration-damping tank 10 is connected with the regulating valve 11, the other end of the pressure vibration-damping tank 10 is connected with the water storage mechanism, the regulating valve 11 is connected with the treatment water outlet pipe 13, the treatment water outlet pipe 13 is connected with the water treatment device, the regulating valve 11 regulates the opening of the pipeline according to the water flow pressure, the pressure vibration elimination tank 10 eliminates the pipeline vibration, and the water treated by the water treatment device enters the water storage mechanism through the pressure vibration elimination tank 10, the regulating valve 11 and the treatment water outlet pipe 13.

The pressure vibration-damping tank comprises an inner pipeline 108 and an outer pipeline 109, the inner pipeline 108 is arranged in the outer pipeline 109, the inner pipeline 108 is provided with a plurality of small holes 107, water fills the inner pipeline, flows into the outer pipeline 109 from the small holes 107 on the inner pipeline 108, and then flows out of the pressure vibration-damping tank through the outer pipeline 109, so that the water flow speed is reduced, and the pipeline vibration is eliminated.

The inner pipeline 108 is provided with a first water inlet 101, the outer pipeline 109 is provided with a water outlet 103, the first water inlet 101 is connected with the regulating valve 11, the water outlet 103 is connected with the water storage mechanism, the first water inlet 101 and the water outlet 103 are oppositely arranged, and water enters the pressure damping tank 10 through the first water inlet 101 and flows to the water storage mechanism from the water outlet 103.

The pressure damping tank 10 comprises a layer A104, a layer B105 and a layer C106, wherein the layer A104 is communicated with the first water inlet 101, the layer B105 wraps the layer A104, the layer B105 is communicated with the layer A104, the layer C106 wraps the layer B105, the layer C106 is communicated with the water outlet 103, and water enters the layer A104, flows into the layer B105 and then flows into the layer C106 from the layer B105.

The small holes 107 are formed in the layer B105, water in the layer B105 flows into the C106 through the small holes 107 and is discharged from the water outlet 103, the water flow rate is reduced, and therefore pipeline vibration is eliminated.

Still including moisturizing pipe 7, wet return 8 and back flow 9, the one end of moisturizing pipe 7 and wet return 8 all is connected with motorised valve 23 and all links into back flow 9, connects water storage mechanism through back flow 8, and the user side is connected to the other end of wet return 8, and motorised valve 23 is then connected with control mechanism 3.

The pressure damping tank 10 comprises a second water inlet 102, the second water inlet 102 is arranged between the first water inlet 101 and the water outlet 103, the second water inlet 102 is connected with the return pipe 8, and water passing through the water supplementing pipe 7 and the water return pipe 8 flows into the pressure damping tank 10 from the return pipe 9 to be guided into the water storage mechanism.

The pump station is still including electronic switch 4, bypass pipe 5 and the outlet pipe 20 of being connected with the user, electronic switch 4 is connected to outlet pipe 20 one end, the emission of electronic switch 4 control user's water, bypass pipe 5 is connected to the other end of outlet pipe 20, bypass pipe 5 is connected with the export 22 of water pump, and the hot water of supplying to the user side divide into two the tunnel, directly flows out from outlet pipe 20 all the way, and another way flows through water pump 2 income water treatment facilities from outlet pipe 20 outflow from bypass pipe 5 flow through.

The device is characterized by further comprising a treatment water inlet pipe 12, one end of the treatment water inlet pipe 12 is connected with an inlet 21 of a water pump, the other end of the treatment water inlet pipe 12 is connected with water treatment equipment, an outlet 22 of the water pump is connected with a water storage mechanism, and water of the water storage mechanism flows through the treatment water inlet pipe 12 from the water pump 2 and enters the water treatment equipment.

The water treatment equipment is a heat pump C, the heat pump C is connected with a treatment water outlet pipe 13 of a pump station B through a heat pump water inlet pipe 18, and is connected with a treatment water inlet pipe 12 of the pump station through a heat pump water outlet pipe 19 so as to guide hot water into the pump station B.

The water storage mechanism is a water tank A, the water tank A is connected with an outlet 103 of the pump station through a water tank outlet pipe 17, and is connected with the pressure damping tank 10 through a water tank inlet pipe 16 to be led into the hot water supply tank A.

The water replenishing pipe 7 is used for introducing tap water to the pump station B through a tap water pipe 22, and the water returning pipe 8 is used for introducing warm water to the pump station B through a user pipe 21.

A shock pad 14 is arranged below the water pump 22, the shock pad 14 abuts against the box body 1, and vibration friction between the water pump 2 and the box body 1 is reduced through the shock pad 14.

The side of the box body 1 is provided with a plurality of buttons 15, the buttons 15 are connected with the control mechanism 3, and the pump station B is controlled to work through the buttons 15. Referring to fig. 7, the number of the buttons is 5, the buttons are respectively a forced heating button, a forced water replenishing button, a forced water returning button, a forced pressurizing button and a forced circulation button, and an indicator lamp is arranged below the button and is respectively provided with an auxiliary heat indicator lamp, a water replenishing indicator lamp, a water returning indicator lamp, a pressurizing indicator lamp, a circulation indicator lamp and a power indicator lamp.

Example 2

The bypass pipe is detached, and the rest structures are unchanged, so that the function of eliminating the pipeline vibration can be realized.

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 an eliminate pump station of pipeline vibration, adopts pipe and water storage mechanism, water treatment facilities and user side to be connected, the pump station is including box, water pump, pipe, valve and control mechanism, and the water pump is installed in the box, through control mechanism control water pump and corresponding valve, its characterized in that: the pump station is including pressure damping jar, governing valve and processing outlet pipe, the governing valve is connected to pressure damping jar one end, and the water storage mechanism is connected to the other end of pressure damping jar, the governing valve with handle water piping connection, handle outlet pipe connection water treatment facilities, the governing valve is according to rivers pressure regulation pipeline aperture, and the pipeline vibration is eliminated to the pressure damping jar, handles the water that the completion is handled to water treatment facilities through pressure damping jar, governing valve and handle the outlet pipe and get into water storage mechanism.

2. The pump station for eliminating the vibration of the pipeline according to claim 1, wherein: the pressure vibration-damping tank comprises an inner pipeline and an outer pipeline, the inner pipeline is arranged in the outer pipeline, the inner pipeline is provided with a plurality of small holes, water fills the inner pipeline, flows into the outer pipeline from the small holes in the inner pipeline, and then flows out of the pressure vibration-damping tank through the outer pipeline, so that the water flow speed is reduced, and the pipeline vibration is eliminated.

3. The pump station for eliminating the pipeline vibration according to claim 2, wherein: the inner pipeline is provided with a first water inlet, the outer pipeline is provided with a water outlet, the first water inlet is connected with the regulating valve, the water outlet is connected with the water storage mechanism, the first water inlet and the water outlet are oppositely arranged, and water enters the pressure damping tank through the first water inlet and flows to the water storage mechanism from the water outlet.

4. The pump station for eliminating the pipeline vibration according to claim 2, wherein: the pressure vibration-damping tank comprises a layer A, a layer B and a layer C, wherein the layer A is communicated with the first water inlet, the layer B wraps the layer A, the layer B is communicated with the layer A, the layer C wraps the layer B, the layer C is communicated with the water outlet, water enters the layer A, flows into the layer B, and then flows into the layer C from the layer B.

5. The pump station for eliminating the pipeline vibration according to claim 2, wherein: the small holes are formed in the layer B, water in the layer B flows into the layer C through the small holes and is discharged from the water outlet, the water flow speed is reduced, and therefore pipeline vibration is eliminated.

6. The pump station for eliminating the vibration of the pipeline according to claim 1, wherein: still including moisturizing pipe, wet return and back flow, the one end of moisturizing pipe and wet return all is connected with the motorised valve and all links into the back flow, connects water storage mechanism through the back flow, and the user side is connected to the other end of wet return, and the motorised valve then is connected with control mechanism, the moisturizing pipe is through water pipe with leading-in running water for the pump station, the water return is through a user's pipe with leading-in warm water for the pump station.

7. The pump station for eliminating the pipeline vibration according to claim 3, wherein: the pressure vibration-damping tank comprises a second water inlet, the second water inlet is arranged between the first water inlet and the water outlet, the second water inlet is connected with the return pipe, and water passing through the water supplementing pipe and the water return pipe flows into the pressure vibration-damping tank from the return pipe to be guided into the water storage mechanism.

8. The pump station for eliminating the vibration of the pipeline according to claim 1, wherein: still including handling the inlet tube, the one end of handling the inlet tube is connected with the access connection of water pump, and the other end of handling the inlet tube is connected with water treatment facilities, and the export of water pump is connected with water storage mechanism, and water storage mechanism's water flows through from the water pump and handles the inlet tube and get into water treatment facilities.

9. The pump station for eliminating the vibration of the pipeline according to claim 1, wherein: the water treatment equipment is a heat pump, the heat pump is connected with a treatment water outlet pipe of the pump station through a heat pump water inlet pipe, and is connected with the treatment water inlet pipe of the pump station through a heat pump water outlet pipe so as to guide hot water into the pump station.

10. The pump station for eliminating the vibration of the pipeline according to claim 1, wherein: the water storage mechanism is a water tank, the water tank is connected with the outlet of the pump station through a water tank outlet pipe, and is connected with the pressure damping tank through a water tank inlet pipe so as to be led into the hot water supply tank.

Images