CN206831773U - A kind of air conditioner afterheat recovery uses system - Google Patents

Abstract

The utility model discloses a kind of recovery of air conditioner afterheat to use system, it includes evaporator, compressor, shell-and-tube heat exchanger and condenser that loop is sequentially communicated and formed by first circulation water pipe, the shell-and-tube heat exchanger includes heat-exchanging water tank and heat exchanger tube, the heat exchanger tube is placed in heat-exchanging water tank, the heat exchanger tube is connected with the compressor, condenser respectively, the heat-exchanging water tank one end is connected with the first running water pipe, conveying water pipe is connected with the heat-exchanging water tank other end, solar auxiliary heater is additionally provided between the heat-exchanging water tank and the conveying water pipe.The utility model is simple and reasonable, ingenious in design, reduces the work load of air-conditioning condenser, improves the efficiency of condenser system, and and can reaches the purpose using air-conditioning waste heat heating cold water, realizes the purpose of bi-directional energy-saving Waste Heat Recovery.

Description

A kind of air conditioner afterheat recovery uses system

Technical field

Waste heat recovering energy conserving technical field is the utility model is related to, more particularly to a kind of air conditioner afterheat recovery uses system.

Background technology

Air-conditioning is when refrigeration, actually by consuming certain outside energy (such as electric energy, heat energy, solar energy), Heat is transferred to from " low-temperature heat source " process of " high temperature heat source ", the high-temperature refrigeration working medium after refrigeration compressor compresses is led to Condenser is crossed by heat dissipation to outdoor, this heat is referred to as the used heat of air-conditioning, and this used heat can cause hot dirt to environment Dye.Because used heat is included from energy caused by the indoor heat taken out of and refrigeration machine acting, therefore waste heat is bigger than refrigerating capacity, And in currently available technology air conditioner refrigerating be discharged into outdoor used heat can not effectively utilize, waste the energy while be also to ring A kind of pollution in border.

Utility model content

The purpose of this utility model is, in view of the above-mentioned problems, providing a kind of air conditioner afterheat recovery uses system.

Used technical scheme is the utility model to achieve the above object：

A kind of air conditioner afterheat recovery uses system, and it includes the steaming in loop is sequentially communicated and formed by first circulation water pipe Hair device, compressor, shell-and-tube heat exchanger and condenser, the shell-and-tube heat exchanger include heat-exchanging water tank and heat exchanger tube, the heat exchanger tube It is placed in heat-exchanging water tank, the heat exchanger tube is connected with the compressor, condenser respectively, and the heat-exchanging water tank one end is connected with first originally Water pipe, conveying water pipe is connected with the heat-exchanging water tank other end, solar energy is additionally provided between the heat-exchanging water tank and the conveying water pipe Auxiliary heater.

The solar auxiliary heater includes solar thermal collector, press-bearing water tank and controller, the solar thermal collector Connected with the press-bearing water tank by second circulation water pipe and form loop, the press-bearing water tank is provided with the first temperature sensor and pressure Force snesor, the controller electrically connect with first temperature sensor, pressure sensor, in being connected with the press-bearing water tank Two running water pipes, the press-bearing water tank connect with the conveying water pipe.

The conveying water pipe rear end is connected with standpipe and uses water pipe, and the standpipe rear end is connected with boiler storage tank.

The heat-exchanging water tank is provided with second temperature sensor.

The heat exchanger tube is provided with swan-neck, the swan-neck in the shape of a spiral, corrugated or bending wire.

Muff is arranged with the circulating water pipe.

Throttling arrangement is provided between the condenser and the evaporator.

The heat exchanger tube is heat conduction member.

The heat-exchanging water tank is pressure-resistant Steel section member.

The beneficial effects of the utility model are：The utility model is simple and reasonable, ingenious in design, puts during by operation of air conditioner The heat energy gone out effectively utilizes and unloading is hot water, and when hot water water temperature is relatively low or air-conditioning disables, the hot water through heat exchange enters Solar auxiliary heater is heated again, is finally stored, and not only reduces the work load of air-conditioning condenser, is improved The efficiency of condenser system, and can reach the purpose using air-conditioning waste heat heating cold water, realize the mesh of bi-directional energy-saving Waste Heat Recovery 's.

Below in conjunction with the accompanying drawings with embodiment, the utility model is further illustrated.

Brief description of the drawings

Fig. 1 is structural representation of the present utility model；

Fig. 2 is the structural representation of solar auxiliary heater in the utility model.

Embodiment

Embodiment：As depicted in figs. 1 and 2, the utility model is that a kind of recovery of air conditioner afterheat uses system, and it includes passing through First circulation water pipe 1 is sequentially communicated and forms the evaporator 2, compressor 3, shell-and-tube heat exchanger 4 and condenser 5 in loop, the pipe Shell heat exchanger 4 includes heat-exchanging water tank 6 and heat exchanger tube 7, and the heat exchanger tube 7 is placed in heat-exchanging water tank 6, the heat exchanger tube 7 respectively with this Compressor 3, condenser 5 connect, and the one end of heat-exchanging water tank 6 is connected with the first running water pipe 8, connect in the other end of heat-exchanging water tank 6 Conveying water pipe 9 is connected to, solar auxiliary heater 10 is additionally provided between the heat-exchanging water tank 6 and the conveying water pipe 9.

The solar auxiliary heater 10 includes solar thermal collector 11, press-bearing water tank 12 and controller 13, the sun Can heat collector 11 connected with the press-bearing water tank 12 by second circulation water pipe 14 and form loop, the press-bearing water tank 12 is provided with the One temperature sensor 15 and pressure sensor 16, the controller 13 and first temperature sensor 15, the electricity of pressure sensor 16 Connection, in being connected with the second running water pipe 17 on the press-bearing water tank 12, the press-bearing water tank 12 connects with the conveying water pipe 9.

Conveying water pipe 9 rear end is connected with standpipe 18 with using water pipe 19, and the rear end of standpipe 18 is connected with boiler and deposited Storage tank 20, the hot water after the heating of solar auxiliary heater 10, deliver to hot water user through water pump or boiler stores water Case 20.

The heat-exchanging water tank 6 is provided with second temperature sensor, for detecting the tap water temperature of heat-exchanging water tank 6.

The heat exchanger tube 7 is provided with swan-neck, the swan-neck in the shape of a spiral, corrugated or bending wire.

Muff is arranged with the circulating water pipe.

Throttling arrangement 21 is provided between the condenser 5 and the evaporator 2.

The heat exchanger tube 7 is heat conduction member.

The heat-exchanging water tank 6 is pressure-resistant Steel section member.

Heat heat absorption liquid in evaporator 2, by heat absorption liquid evaporator 2, compressor 3, shell-and-tube heat exchanger 4 with Heat energy is absorbed in the pipeline loop of condenser 5；Heat absorption liquid in shell-and-tube heat exchanger 4 with running water heat-shift, heat absorption liquid Body is cooled；By the running water of heat exchange, heat temperature raising is carried out in solar auxiliary heater 10, the heat after heating Water delivers to hot water user or boiler storage tank 20.

The utility model is simple and reasonable, ingenious in design, and the heat energy released during by operation of air conditioner is effectively utilized and turned Hot water is saved as, when hot water water temperature is relatively low or air-conditioning disables, the hot water through heat exchange is carried out into solar auxiliary heater 10 Heat, finally store again, not only reduce the work load of air-conditioning condenser 5, improve the efficiency of condenser system, and can Reach the purpose using air-conditioning waste heat heating cold water, realize the purpose of bi-directional energy-saving Waste Heat Recovery.

It is described above, only it is preferred embodiment of the present utility model, not the utility model is made any formal Limitation.Any those skilled in the art, it is all available in the case where not departing from technical solutions of the utility model ambit The methods and technical content of the disclosure above makes many possible changes and modifications to technical solutions of the utility model, or is revised as The equivalent embodiment of equivalent variations.Therefore every content without departing from technical solutions of the utility model, the shape according to the utility model The equivalence changes that shape, construction and principle are made, it all should be covered by the scope of protection of the utility model.

Claims (9)

1. a kind of air conditioner afterheat recovery uses system, it is characterised in that：It includes being sequentially communicated by first circulation water pipe and shape Into the evaporator in loop, compressor, shell-and-tube heat exchanger and condenser, the shell-and-tube heat exchanger includes heat-exchanging water tank and heat exchange Pipe, the heat exchanger tube are placed in heat-exchanging water tank, and the heat exchanger tube is connected with the compressor, condenser respectively, and the heat-exchanging water tank one end connects The first running water pipe is connected to, conveying water pipe is connected with the heat-exchanging water tank other end, between the heat-exchanging water tank and the conveying water pipe It is additionally provided with solar auxiliary heater.

2. air conditioner afterheat recovery according to claim 1 uses system, it is characterised in that the solar auxiliary heater Including solar thermal collector, press-bearing water tank and controller, the solar thermal collector passes through second circulation water pipe with the press-bearing water tank Connect and form loop, the press-bearing water tank is provided with the first temperature sensor and pressure sensor, the controller with this first Temperature sensor, pressure sensor electrical connection, in being connected with the second running water pipe on the press-bearing water tank, the press-bearing water tank with it is described Convey water pipe connection.

3. air conditioner afterheat recovery according to claim 2 uses system, it is characterised in that conveying water pipe rear end connection There is standpipe and use water pipe, the standpipe rear end is connected with boiler storage tank.

4. air conditioner afterheat according to claim 1 recovery use system, it is characterised in that the heat-exchanging water tank is provided with the Two temperature sensors.

5. air conditioner afterheat recovery according to claim 1 uses system, it is characterised in that the heat exchanger tube is provided with bending Pipe, the swan-neck in the shape of a spiral, corrugated or bending wire.

6. air conditioner afterheat recovery according to claim 1 uses system, it is characterised in that is arranged with the circulating water pipe Muff.

7. air conditioner afterheat recovery according to claim 1 uses system, it is characterised in that the condenser and the evaporation Throttling arrangement is provided between device.

8. air conditioner afterheat recovery according to claim 5 uses system, it is characterised in that the heat exchanger tube is heat conduction structure Part.

9. air conditioner afterheat recovery according to claim 1 uses system, it is characterised in that the heat-exchanging water tank is pressure resistant type Steel member.