CN210220113U - Water pump integrated heat exchange system - Google Patents

Abstract

The utility model provides an integrated heat transfer system of water pump, include: the water pump, the safety valve, the water pressure sensor, the automatic exhaust valve, the expansion tank, the heat exchanger and the water pump power supply junction box, a water pump inlet tube is installed at the inlet of the water pump, the water pressure sensor, the automatic exhaust valve and the safety valve are all installed on the water pump, the water pump is connected with the water inlet of the heat exchanger through a water pump outlet pipe, a heat exchanger outlet pipe is installed at the water outlet of the heat exchanger, the expansion tank is installed on one side of the heat exchanger, the expansion tank is connected with the heat exchanger outlet pipe through an expansion tank connecting pipe, the water pump power supply junction box is installed on the water pump, a flow feedback device and a central controller are installed in. The inside pipeline spare of this water pump integrated heat transfer system highly integrates, the installation and the integrated control of the whole equipment of being convenient for, heat exchange efficiency is high, and factor of safety is high.

Description

Water pump integrated heat exchange system

Technical Field

The utility model relates to a heat transfer system, concretely relates to integrated heat transfer system of water pump.

Background

The heat exchanger is a device for transferring part of heat of hot fluid to cold fluid, and is also called as a heat exchanger. The heat exchanger plays an important role in chemical industry, petroleum industry, power industry, food industry and other industrial production, can be used as a heater, a cooler, a condenser, an evaporator, a reboiler and the like in chemical industry production, is widely applied, can work as long as an air conditioner works, and can cause the temperature of the heat exchanger in a cooling water pump to rise when the air conditioner is used for a long time in summer or winter, thereby causing the reduction of heat exchange efficiency.

The air conditioning system consists of one or more cold and heat source systems and a plurality of air conditioning systems. The principle of liquid gasification refrigeration is adopted to provide the required cold energy for the air conditioning system so as to offset the cold load of the indoor environment; the heating system provides the air conditioning system with the required heat to offset the indoor ambient heat load. The refrigeration system is a vital part of the air conditioning system, and the type, the operation mode, the structural form and the like of the refrigeration system directly influence the economical efficiency, the high efficiency and the rationality of the air conditioning system in operation. Among the prior art, among the water pump heat transfer system of air conditioner, the degree of integrating is low, and the pipe connections is chaotic, and heat exchange efficiency is low, is unfavorable for the control of integration.

SUMMERY OF THE UTILITY MODEL

The utility model provides a not enough to prior art, the utility model provides a water pump integrated heat transfer system, inside pipeline spare highly integrates, the installation and the integrated control of the whole equipment of being convenient for.

In order to realize the technical scheme, the utility model provides an integrated heat transfer system of water pump, include: the water pump, the safety valve, the water pressure sensor, the automatic exhaust valve, the expansion tank, the heat exchanger and the water pump power terminal box, the water pump inlet tube is installed to the import of water pump, and water pressure sensor, automatic exhaust valve and safety valve are all installed on the water pump, and the water pump passes through the water pump outlet pipe to be connected with the water inlet of heat exchanger, and the heat exchanger outlet pipe is installed to the delivery port of heat exchanger, and the expansion tank is installed in one side of heat exchanger, be connected through the expansion tank connecting pipe between expansion tank and the heat exchanger outlet pipe, water pump power terminal box installs on the water pump, install flow feedback ware and central controller in the water pump power terminal box, central controller respectively.

In the above technical scheme, when the water pump receives the operating signal, water or heat transfer medium gets into the integrated heat transfer system of water pump through the water pump inlet tube, when heat transfer system is inside to have the air, automatic exhaust valve discharges inside air until finishing discharging, water or heat transfer medium pass through the water pump outlet pipe and get into the heat exchanger, through the in-process of heat exchanger, carry out the heat transfer (absorb the heat or emit the heat) with the heat transfer medium of opposite side, after the heat transfer is accomplished, get into the heat exchanger outlet pipe and flow out the integrated heat transfer system of water pump. In the whole process, the water pressure sensor continuously feeds back the internal pressure of the system to the central controller, the flow feedback device arranged in the water pump power supply junction box also continuously feeds back the internal flow of the system to the central controller, when the internal pressure of the water pump integrated heat exchange system reaches a set value of the safety valve, the safety valve opens the pressure relief protection heat exchange system, and the expansion tank provides a scaling buffer space for expansion with heat and contraction with cold for the whole heat exchange system. The work of each component is independent and mutually related, the mutual independence is that the function and the responsibility of each component are different, and the mutual relation is that each component is connected into a whole to complete the work flow.

When the water pump does not receive the working signal, the water pump does not operate, water or a heat exchange medium in the water pump integrated heat exchange system does not flow, and the heat exchanger does not exchange heat; the automatic exhaust valve can still automatically exhaust air in the system; when the safety valve detects that the pressure exceeds a set value, the pressure relief protection heat exchange system is still started; because water or a heat exchange medium in the system is influenced by the ambient temperature, the water or the heat exchange medium does not flow and has the physical characteristics of expansion with heat and contraction with cold, and the expansion tank can still provide a contraction and expansion buffering space for expansion with heat and contraction with cold; the water pressure sensor, the flow feedback device and the central controller which are arranged in the water pump power supply junction box are in a standby state, and the internal pressure and the flow of the system can be fed back to the central controller at any time.

Preferably, a connecting flange is arranged at the water inlet of the water inlet pipe of the water pump, so that the water inlet of the system can be quickly connected with an external pipeline.

Preferably, a connecting flange is arranged at the water outlet of the water outlet pipe of the heat exchanger, so that the water outlet of the system can be quickly connected with an external pipeline.

Preferably, the heat exchanger is a plate heat exchanger, a shell-and-tube heat exchanger or a double-tube heat exchanger.

The utility model provides a pair of integrated heat transfer system of water pump's beneficial effect lies in:

1) the water pump integrated heat exchange system has clear heat exchange flow, and the pipeline parts are highly integrated, so that integrated intelligent control can be realized, all parts of air conditioners and heating equipment are effectively protected, the equipment is enabled to run efficiently, and the service life is prolonged;

2) the water pump integrated heat exchange system is convenient and simple to install and construct, does not need to install each protection component on site, and is simple in installation of a waterway system and an electric control system when a user installs air conditioners and heating equipment, convenient to operate and low in cost;

3) the water pump integrated heat exchange system is high in heat exchange efficiency and safety coefficient, and efficient and safe operation of the system can be achieved through cooperation between the central controller, the flow feedback device, the safety valve, the water pressure sensor and the automatic exhaust valve.

Drawings

Fig. 1 is a front view of the three-dimensional structure of the present invention.

Fig. 2 is a rear view of the three-dimensional structure of the present invention.

In the figure: 1. a water pump; 2. a water inlet; 3. a water inlet pipe of a water pump; 4. a water pressure sensor; 5. a safety valve; 6. an automatic exhaust valve; 7. an expansion tank; 8. an expansion tank connecting pipe; 9. a water outlet; 10. a water outlet pipe of the heat exchanger; 11. a heat exchanger; 12. a water outlet pipe of the water pump; 13. and a water pump power supply junction box.

Detailed Description

The technical solutions in the embodiments of the present invention will be described clearly and completely with reference to the accompanying drawings in the embodiments of the present invention, and it is obvious that the described embodiments are only some embodiments of the present invention, not all embodiments. All other embodiments obtained by a person skilled in the art without any inventive step are within the scope of the present invention.

Example 1: an integrated heat exchange system of a water pump.

Referring to fig. 1 to 2, a water pump integrated heat exchange system includes: the system comprises a water pump 1, a safety valve 5, a water pressure sensor 4, an automatic exhaust valve 6, an expansion tank 7, a heat exchanger 11 and a water pump power supply junction box 13, wherein a water pump inlet pipe 3 is installed at the inlet of the water pump 1, a connecting flange is arranged at the position of a water inlet 2 of the water pump inlet pipe 3, so that the quick connection between the water inlet of the system and an external pipeline is facilitated, the water pressure sensor 4, the automatic exhaust valve 6 and the safety valve 5 are all sequentially installed on the water pump 1, the water pump 1 is connected with the water inlet of the heat exchanger 11 through a water pump outlet pipe 12, the heat exchanger 11 is a plate type heat exchanger, a heat exchanger outlet pipe 10 is installed at the water outlet of the heat exchanger 11, the connecting flange is arranged at the water outlet of the heat exchanger outlet pipe 10, so that the quick connection between, the water pump power supply junction box 13 is installed on the water pump 1, a flow feedback device and a central controller are installed in the water pump power supply junction box 13, and the central controller is electrically connected with the flow feedback device and the water pressure sensor 4 respectively.

In this embodiment, the water pump 1 is used for providing power for circulating heat exchange between water or a heat exchange medium and the heat exchanger. The function of the water pressure sensor 4 is to detect the pressure in the pipeline and feed back a pressure signal to the controller. The safety valve 5 is used for releasing pressure when the pressure or the temperature inside the pipeline is too high, so that the heat exchange system is protected. The automatic exhaust valve 6 is used for automatically exhausting air in the pipeline and the water pump, and the efficient and safe operation of the heat exchange system is guaranteed. The expansion tank 7 has the function of providing sufficient expansion space for the water or the heat exchange medium in the heat exchange system due to the physical properties of expansion with heat and contraction with cold of the water or the heat exchange medium. The heat exchanger 11 is used for completing heat exchange between water or a heat exchange medium in the heat exchange system and a heat exchange medium on the other side, namely, heat is released and absorbed to external water or the heat exchange medium. The function of the water pump power supply junction box 13 (with the flow feedback device and the central controller inside) is to realize the connection of the water pump and the external power supply and protect the flow feedback device and the central controller.

In this embodiment, in the concrete working process, when water pump 1 received the operating signal, water or heat transfer medium got into the integrated heat transfer system of water pump through water pump inlet tube 3, when heat transfer system was inside to have the air, 6 inside air that discharge of air relief valve were until the completion, water or heat transfer medium passed through water pump outlet pipe 12 and got into heat exchanger 11, through the in-process of heat exchanger 11, heat transfer (absorption heat or heat of giving off) is carried out with the heat transfer medium of opposite side, the back is accomplished in the heat transfer, get into heat exchanger outlet pipe 10 and flow out the integrated heat transfer system of water pump. In the whole process, the water pressure sensor 4 continuously feeds back the internal pressure of the system to the central controller, the flow feedback device arranged in the water pump power supply junction box 13 also continuously feeds back the internal flow of the system to the central controller, when the internal pressure of the water pump integrated heat exchange system reaches a set value of the safety valve 5, the safety valve 5 opens the pressure relief protection heat exchange system, and the expansion tank 7 provides a contraction and contraction buffering space for the whole heat exchange system. The work of each component is independent and mutually related, the mutual independence is that the function and the responsibility of each component are different, and the mutual relation is that each component is connected into a whole to complete the work flow.

When the water pump 1 does not receive the working signal, the water pump does not operate, water or a heat exchange medium in the water pump integrated heat exchange system does not flow, and the heat exchanger 11 does not exchange heat; the automatic exhaust valve 6 can still automatically exhaust the air in the system; when the safety valve 5 detects that the pressure exceeds a set value, the pressure relief protection heat exchange system is still started; because water or a heat exchange medium in the system is influenced by the ambient temperature, the water or the heat exchange medium does not flow and can also penetrate the physical characteristics of expansion with heat and contraction with cold, and the expansion tank 7 can still provide a contraction and expansion buffering space for expansion with heat and contraction with cold; the water pressure sensor 4, a flow feedback device arranged in the water pump power supply junction box 13 and the central controller are in a standby state, and the internal pressure and the flow of the system can be fed back to the central controller at any time.

The water pump integrated heat exchange system has clear heat exchange flow, and the pipeline parts are highly integrated, so that integrated intelligent control can be realized, all parts of air conditioners and heating equipment are effectively protected, the equipment is enabled to run efficiently, and the service life is prolonged; the installation and construction are convenient and simple, each protection part does not need to be installed on site, and a waterway system and an electric control system are simple to install, convenient to operate and low in cost when a user installs air conditioners and heating equipment; through the cooperation between central controller, flow feedback ware, relief valve 5, water pressure sensor 4 and automatic exhaust valve 6, can realize the high-efficient and safe operation of system.

The above description is a preferred embodiment of the present invention, but the present invention should not be limited to the disclosure of the embodiment and the accompanying drawings, and therefore, all equivalents and modifications that can be accomplished without departing from the spirit of the present invention are within the protection scope of the present invention.

Claims (4)

1. The utility model provides a water pump integration heat transfer system which characterized in that includes: the water pump, the safety valve, the water pressure sensor, the automatic exhaust valve, the expansion tank, the heat exchanger and the water pump power terminal box, the water pump inlet tube is installed to the import of water pump, and water pressure sensor, automatic exhaust valve and safety valve are all installed on the water pump, and the water pump passes through the water pump outlet pipe to be connected with the water inlet of heat exchanger, and the heat exchanger outlet pipe is installed to the delivery port of heat exchanger, and the expansion tank is installed in one side of heat exchanger, be connected through the expansion tank connecting pipe between expansion tank and the heat exchanger outlet pipe, water pump power terminal box installs on the water pump, install flow feedback ware and central controller in the water pump power terminal box, central controller respectively.

2. The water pump integrated heat exchange system of claim 1, wherein: and a connecting flange is arranged at the water inlet of the water inlet pipe of the water pump.

3. The water pump integrated heat exchange system of claim 1, wherein: and a connecting flange is arranged at the water outlet of the water outlet pipe of the heat exchanger.

4. The water pump integrated heat exchange system of claim 1, wherein: the heat exchanger is a plate heat exchanger, a shell and tube heat exchanger or a sleeve type heat exchanger.

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