CN202813881U - Integrated type air-conditioning water heater - Google Patents

Abstract

The utility model provides an integrated type air-conditioning water heater, comprising a compressor (1), a water tank (6), a heat exchanger (5), a four-way valve (3), a condenser (4), a condenser fan (9), a throttling capillary (8), an evaporator (7), and an evaporator fan (10). The integrated type air-conditioning water heater is characterized in that a three-way valve (2) is additionally arranged among the heat exchanger (5), the compressor (1) and the four-way valve (3); and one port of the three-way valve (2) is connected with the compressor (1), one port of the three-way valve (2) is connected with the heat exchanger (5) and one port of the three-way valve (2) is connected with one port of the four-way valve (3). The three-way valve is additionally arranged so that the flowing direction of a refrigerating agent is changed; the refrigerating agent directly enters the four-way valve or enters the water tank and the flowing direction of the refrigerating agent is controlled by the four-way valve so as to finish four working manners in a combined way; and therefore, four functional modes including a hot water refrigerating mode, an air-conditioning refrigerating mode, an independent hot water producing mode and an independent air-conditioning refrigeratinghot water producing mode are realized.

Description

A kind of integral air conditioner water heater

Technical field

The utility model relates to refrigeration, water heating industry, particularly a kind ofly satisfies simultaneously refrigeration, heats the air conditioner and water heater with water heating.

Background technology

Conventional heat pump, air conditioning function are all more single, and the function of only having separate refrigeration or heating generally all occurs as two or more product form.Satisfy simultaneously for needs and to freeze, to heat, fire hot water, and may there be the simultaneously user's request of the combination of several functions, can only satisfy the demands by different device combinations at present, in present room rate environment, the shared residence space size of equipment also is that everybody must not irrespective problem, and everybody wishes that equipment is small and exquisite as much as possible, function is integrated.Therefore satisfy this user's request by a plurality of equipment, increase that certainly will be extra user's burden, and exist install complicated, take up room and shortcoming that whole efficiency is low.

Summary of the invention

Technical problem to be solved in the utility model is how to satisfy simultaneously the demand of freezing, heat, fire hot water at an equipment, and satisfies simultaneously simple installation, the integral body high demand of little and whole efficiency that takes up room.

In order to solve the problems of the technologies described above, the utility model has designed a kind of integral air conditioner water heater, comprise compressor 1, water tank 6, heat exchanger 5, cross valve 3, condenser 4, condenser fan 9, throttle capillary tube 8, evaporimeter 7, evaporator fan 10, it is characterized in that between heat exchanger 5, compressor 1, cross valve 3, having increased a triple valve 2, described triple valve 2 a wherein port links to each other with compressor 1, wherein a port links to each other with heat exchanger 5, and wherein a port links to each other with cross valve 3 one ports.

The integral air conditioner water heater is that described condenser 4, compressor 1 and evaporimeter 7 are fixed on the water tank 6 in order, and evaporator fan 10 and condenser fan 9 are separately positioned on both sides.

By increasing triple valve, change the flow direction of cold-producing medium, can allow cold-producing medium directly enter cross valve or enter the heat exchanger 5 of water tank, add the 4 kinds of working methods of finishing capable of being combined that flow to of cross valve control cold-producing medium, and then realize four kinds of functional modes, water-heating cooling pattern, air conditioner refrigerating pattern, independent water heating pattern and independent water heating pattern realize that an equipment satisfies four kinds of demands of user simultaneously; And on the structural design, with water tank and evaporimeter, compressor, condenser integrated design, reduce the plug-in trouble of water tank, simple installation and take up space little.Therefore the integral air conditioner water heater can be the user and saves equipment cost, and the residence space of saves valuable is more suitable for average family and promotes the use of; And be to utilize contrary Carnot cycle originally to finish refrigeration and heat, so the efficiency of whole set equipment is high, meet the whole requirement of national energy-saving reduction of discharging.

Description of drawings

Fig. 1 fires hot water and air conditioner refrigerating pattern refrigerant flow direction figure simultaneously;

Fig. 2 is independent air conditioner refrigerating pattern refrigerant flow direction figure;

Fig. 3 fires separately hot water pattern refrigerant flow direction figure;

Fig. 4 is independent air-conditioning heating pattern refrigerant flow direction figure;

Fig. 5 is the integral air conditioner water heater structure location drawing.

The specific embodiment

Below in conjunction with the accompanying drawing among the utility model embodiment, the technical scheme among the utility model embodiment is clearly and completely described, obviously, described embodiment only is the utility model part embodiment, rather than whole embodiment.Based on the embodiment in the utility model, those of ordinary skills are not making the every other embodiment that obtains under the creative work prerequisite, all belong to the scope of the utility model protection.

Fig. 1 fires hot water and air conditioner refrigerating pattern refrigerant flow direction figure simultaneously, gaseous refrigerant is compressed into high temperature and high pressure gas through compressor 1, control triple valve 2 makes compressor 1 outlet be communicated with heat exchanger 5 entrances of 6 li in water tank, the high temperature and high pressure gas heat exchanger 5 of flowing through, water by heat exchanger 5 and water tank 6 carries out heat exchange, namely realize the water heating is reached the function of water heating.

Simultaneously, control cross valve 3, heat exchanger 5 outlets are connected with the entrance of condenser 4, cold-producing medium further cooling and liquefaction in condenser 4 of excess temperature is fallen through over-heat-exchanger 5, the outlet of condenser 4 is with being connected with evaporimeter 7 entrances by throttle capillary tube 8, and the cold-producing medium after the liquefaction absorbs heat in evaporimeter 7 and flashes to gaseous state, and control cross valve 3 is communicated with the outlet of evaporimeter 7 with the entrance of compressor 1, the cold-producing medium of gaseous state flows into compressor 1, finishes a circulation.Cold-producing medium after the liquefaction absorbs heat in evaporimeter 7 and evaporates, and absorbs the temperature of surrounding environment, namely to the effect of surrounding environment cooling, has reached the function of air conditioner refrigerating.

Therefore, fire the conduction mode that hot water and air conditioner refrigerating pattern refrigerant flow direction figure mode are controlled triple valve 2 and cross valve 3 according to Fig. 1 is described, can realize simultaneously firing the purpose of hot water and air conditioner refrigerating.

Fig. 2 is independent air conditioner refrigerating pattern refrigerant flow direction figure, gaseous refrigerant is compressed into high temperature and high pressure gas through compressor 1, control triple valve 2 makes compressor 1 outlet be connected with the entrance of condenser 4, high temperature and high pressure gas is lowered the temperature in condenser 4 and is liquefied, the outlet of condenser 4 is with being connected with evaporimeter 7 entrances by throttle capillary tube 8, cold-producing medium after the liquefaction absorbs heat in evaporimeter 7 and flashes to gaseous state, control cross valve 3 is communicated with the outlet of evaporimeter 7 with the entrance of compressor 1, the cold-producing medium of gaseous state flows into compressor 1, finishes a circulation.Cold-producing medium after the liquefaction absorbs heat in evaporimeter 7 and evaporates, and absorbs the temperature of surrounding environment, namely to the effect of surrounding environment cooling, has reached the function of simple air conditioner refrigerating.

Fig. 3 fires separately hot water pattern refrigerant flow direction figure, gaseous refrigerant is compressed into high temperature and high pressure gas through compressor 1, control triple valve 2 makes compressor 1 outlet be communicated with heat exchanger 5 entrances of 6 li in water tank, the high temperature and high pressure gas heat exchanger 5 of flowing through, water by heat exchanger 5 and water tank 6 carries out heat exchange, namely to the water heating, reach the function of water heating, simultaneously cold-producing medium liquefaction; Control cross valve 3, with the outlet of heat exchanger 5 and the outlet conducting of evaporimeter 7, cold-producing medium after the liquefaction is by evaporimeter 7 gasifications, the throttle capillary tube of flowing through again, flow into condenser 4, control cross valve 3 makes condenser 4 entrances and compressor 1 entrance conducting, and the cold-producing medium after the gasification flows back to compressor, finish a circulation, realize firing separately the function of hot water.

Fig. 4 is independent air-conditioning heating pattern refrigerant flow direction figure, gaseous refrigerant is compressed into high temperature and high pressure gas through compressor 1, control triple valve 2 and cross valve 3 are communicated with compressor 1 outlet evaporimeter 7, high temperature and high pressure gas directly enters evaporimeter 7 through 3 commutations of triple valve and cross valve and is condensed into liquid, the condensation process release heat, then be throttled to condenser 7 through throttle capillary tube 8 and flash to gas, control cross valve 3 is with condenser 7 and compressor 1 conducting, cold-producing medium after the gasification is got back to compressor, finishes a circulation.The wind in room is by evaporimeter, and temperature rises, and reaches independent air-conditioning heating function.

Fig. 5 is the integral air conditioner water heater structure location drawing, and condenser 4, compressor 1 and evaporimeter 7 are fixed on the water tank 6 in order, and evaporator fan 10 and condenser fan 9 are separately positioned on both sides.For overall appearance, the profile of water tank 6 can also design various present situations as required.

Above disclosed only is a kind of embodiment of the utility model, certainly can not limit with this interest field of the utility model, one of ordinary skill in the art will appreciate that all or part of flow process that realizes above-described embodiment, and according to the equivalent variations that the utility model claim is done, still belong to the scope that utility model contains.

Claims (2)

1. integral air conditioner water heater, comprise compressor (1), water tank (6), heat exchanger (5), cross valve (3), condenser (4), condenser fan (9), throttle capillary tube (8), evaporimeter (7), evaporator fan (10), it is characterized in that between heat exchanger (5), compressor (1), cross valve (3), having increased a triple valve (2), described triple valve (2) the wherein same compressor of a port (1) links to each other, wherein the same heat exchanger of a port (5) links to each other, and wherein a port links to each other with cross valve (3) one ports.

2. air conditioner and water heater according to claim 1, it is characterized in that described condenser (4), compressor (1) and evaporimeter (7) are fixed on the water tank (6) in order, evaporator fan (10) and condenser fan (9) are separately positioned on both sides.

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