CN205102312U - Heat pump trigeminy supplies device - Google Patents

Abstract

The utility model relates to a heat pump trigeminy supplies device, characteristics are including compressor, first electronic cross valve, vapour and liquid separator, evaporimeter, a electronic expansion valve, first heat exchanger, an electric T -shaped valve, the 2nd electronic expansion valve, the 2nd electric T -shaped valve, the electronic cross valve of second and second heat exchanger, its advantage does: the problem of ultra -low temperature environment high temperature goes out the water problems to utilize the heat accumulation effect of water tank, make the low temperature heating system obtain the buffering under high temperature environment, avoid the compressor frequently to open and stop, low temperature heating system and high temperature heating a plurality of independent refrigerating system that connect, according to the nimble refrigerating system number of adjusting the operation of variation in load, energy saving, the improvement heats efficiency, does not have the coolant leakage is solved.

Description

Heat pump trilogy supply device

Technical field

The utility model relates to a kind of heat pump trilogy supply device.

Background technology

At present, a kind of heat pump trilogy supply device is had to adopt one to enter to have more valve, in refrigeration or when heating, one enters to have more the flow direction that valve can change refrigerant, thus reach refrigeration or the object that heats, but its complex structure, after using a period of time, one enters to have more valve and there will be secondary refrigerant leakage problem; Another kind of heat pump trilogy supply device, evaporimeter is arranged in water tank by it, and because specific heat of water is comparatively large, when temperature is higher, the rate of heat exchange of evaporimeter in water tank is low, and compression ceaselessly works, and compares and wastes energy, be unfavorable for popularizing.

Summary of the invention

The purpose of this utility model overcomes the deficiencies in the prior art and provides a heat pump trilogy supply device, and this apparatus structure is compact, and there will not be secondary refrigerant leakage phenomenon, rate of heat exchange is high, energy-conservation.

In order to achieve the above object, the utility model is achieved in that it is a kind of heat pump trilogy supply dress put, comprise compressor, the first electric four-way valve, gas-liquid separator, evaporimeter, the first electric expansion valve, First Heat Exchanger, the first electric T-shaped valve, the second electric expansion valve, the second electric T-shaped valve, the second electric four-way valve and the second heat exchanger; Wherein

The exhaust outlet of described compressor is communicated with the D mouth of the first electric four-way valve, the air entry of compressor and the outlet of gas-liquid separator;

The C mouth of described first electric four-way valve is communicated with the D mouth of the second electric four-way valve, the S mouth of the first electric four-way valve and the inlet communication of gas-liquid separator, and the E mouth of the first electric four-way valve is communicated with one end of evaporimeter;

Described one end of first electric expansion valve is communicated with the other end of evaporimeter, and the other end of the first electric expansion valve is communicated with a mouth of First Heat Exchanger and a mouth of the first electric T-shaped valve respectively;

The a mouth of described First Heat Exchanger is communicated with the b mouth of First Heat Exchanger, and the c mouth of First Heat Exchanger is communicated with the d mouth of First Heat Exchanger; The b mouth of described First Heat Exchanger is communicated with the b mouth of the first electric T-shaped valve and one end of the second electric expansion valve respectively, and c mouth and the d mouth of described First Heat Exchanger are communicated with indoor set respectively;

The c mouth of described second heat exchanger is communicated with a mouth of the second heat exchanger, and the d mouth of the second heat exchanger is communicated with the b mouth of the second heat exchanger; The a mouth of described second heat exchanger is communicated with the S mouth of the second electric four-way valve and the other end of the second electric expansion valve respectively, the c mouth of described second heat exchanger is communicated with the C mouth of the second electric four-way valve, and d mouth and the b mouth of described second heat exchanger are communicated with water heater respectively;

The c mouth of described second electric T-shaped valve is communicated with the E mouth of the second electric four-way valve, and a mouth of the second electric T-shaped valve and the inlet communication of gas-liquid separator, the b mouth of the second electric T-shaped valve is communicated with the c mouth of the first electric T-shaped valve.

The utility model advantage is compared with prior art: solve ultra-low temperature surroundings high-temperature water outlet problem, and utilize the accumulation of heat effect of water tank, low-temperature heating system is cushioned in high temperature environments, avoid high frequent start and stop, low-temperature heating system and high temperature heating multiple independently refrigeration system in parallel, according to the refrigeration system number that load variations flexible modulation is run, economize energy, improve heating efficiency, there is not the problem of coolant leakage.

Accompanying drawing explanation

Fig. 1 is the fundamental diagram of low-temperature heating system of the present utility model and water tank.

Detailed description of the invention

Below in conjunction with accompanying drawing, detailed description of the invention of the present utility model is described further.It should be noted that at this, the explanation for these embodiments understands the utility model for helping, but does not form restriction of the present utility model.In addition, if below in described each embodiment of the utility model involved technical characteristic do not form conflict each other and just can be combined with each other.

In description of the present utility model, term " first " and " second " only for describing object, and can not be interpreted as instruction or hint relative importance.

As shown in Figure 1, it is a kind of heat pump trilogy supply device, comprises compressor 1, first electric four-way valve 2, gas-liquid separator 3, evaporimeter 4, first electric expansion valve 5, First Heat Exchanger 6, first electric T-shaped valve 7, second electric expansion valve 8, second electric T-shaped valve 9, second electric four-way valve 10 and the second heat exchanger 11; Wherein

The exhaust outlet of described compressor 1 is communicated with the D mouth of the first electric four-way valve 2, the air entry of compressor 1 and the outlet of gas-liquid separator 3;

The C mouth of described first electric four-way valve 2 is communicated with the D mouth of the second electric four-way valve 10, the S mouth of the first electric four-way valve 2 and the inlet communication of gas-liquid separator 3, and the E mouth of the first electric four-way valve 2 is communicated with one end of evaporimeter 4;

One end of described first electric expansion valve 5 is communicated with the other end of evaporimeter 4, and the other end of the first electric expansion valve 5 is communicated with a mouth of First Heat Exchanger 6 and a mouth of the first electric T-shaped valve 7 respectively;

The a mouth of described First Heat Exchanger 6 is communicated with the b mouth of First Heat Exchanger 6, and the c mouth of First Heat Exchanger 6 is communicated with the d mouth of First Heat Exchanger 6; The b mouth of described First Heat Exchanger 6 is communicated with the b mouth of the first electric T-shaped valve 7 and one end of the second electric expansion valve 8 respectively, and c mouth and the d mouth of described First Heat Exchanger 6 are communicated with indoor set respectively;

The c mouth of described second heat exchanger 11 is communicated with a mouth of the second heat exchanger 11, and the d mouth of the second heat exchanger 11 is communicated with the b mouth of the second heat exchanger 11; The a mouth of described second heat exchanger 11 is communicated with the S mouth of the second electric four-way valve 10 and the other end of the second electric expansion valve 8 respectively, the described c mouth of the second heat exchanger 11 is communicated with the C mouth of the second electric four-way valve, and d mouth and the b mouth of described second heat exchanger 11 are communicated with water heater respectively;

The c mouth of described second electric T-shaped valve 9 is communicated with the E mouth of the second electric four-way valve 10, a mouth of the second electric T-shaped valve 9 and the inlet communication of gas-liquid separator 3, and the b mouth of the second electric T-shaped valve 9 is communicated with the c mouth of the first electric T-shaped valve 7.

During work, when only needing hot water, the D mouth of described first electric four-way valve 2 is communicated with the C mouth of the first electric four-way valve 2, the S mouth of the first electric four-way valve 2 is communicated with the E mouth of the first electric four-way valve 2, the D mouth of described second electric four-way valve 10 is communicated with the C mouth of the second electric four-way valve 10, the E mouth of the second electric four-way valve 10 is communicated with the S mouth of the second electric four-way valve 10, first electric expansion valve 5 is communicated with, second electric expansion valve 8 disconnects, the a mouth of the first electric T-shaped valve 7 is communicated with the c mouth of the first electric T-shaped valve 7, the b mouth of the second electric T-shaped valve 9 is communicated with the c mouth of the second electric T-shaped valve 9, refrigerant is discharged from the exhaust outlet of compressor 1, the c mouth of the second heat exchanger 11 is entered through the second electric four-way valve 10, refrigerant condensation heat release in the second heat exchanger 11, heating flows to the water of the second heat exchanger 11, thus generation hot water, discharge from a mouth of the second heat exchanger 11 after refrigerant heat release, after the second electric four-way valve 10, second electric T-shaped valve 9, first electric T-shaped valve 7, first electric expansion valve 5 and evaporimeter 4, enter the import of gas-liquid separator 3, finally get back in compressor 1,

When only needing heating, the D mouth of described first electric four-way valve 2 is communicated with the C mouth of the first electric four-way valve 2, the S mouth of the first electric four-way valve 2 is communicated with the E mouth of the first electric four-way valve 2, the D mouth of described second electric four-way valve 10 is communicated with the E mouth of the second electric four-way valve 10, the C mouth of the second electric four-way valve 10 is communicated with the S mouth of the second electric four-way valve 10, first electric expansion valve 5 is communicated with, second electric expansion valve 8 disconnects, the b mouth of the first electric T-shaped valve 7 is communicated with the c mouth of the first electric T-shaped valve 7, the b mouth of the second electric T-shaped valve 9 is communicated with the c mouth of the second electric T-shaped valve 9, refrigerant is discharged after the first electric four-way valve 2, second electric four-way valve 10, second electric T-shaped valve 9, first electric T-shaped valve 7 from the exhaust outlet of compressor 1, enter the b mouth of First Heat Exchanger 6, refrigerant is condensation heat release in First Heat Exchanger 6, heat the air through First Heat Exchanger 6, thus generation heating installation, discharge from a mouth of First Heat Exchanger 6 after refrigerant heat release, through the first electric expansion valve 5, evaporimeter 4 and gas-liquid separator 3, get back in compressor 1,

When needs freeze, the D mouth of described first electric four-way valve 2 is communicated with the E mouth of the first electric four-way valve 2, the S mouth of the first electric four-way valve 2 is communicated with the C mouth of the first electric four-way valve 2, first electric expansion valve 5 is communicated with, second electric expansion valve 8 disconnects, the b mouth of the first electric T-shaped valve 7 is communicated with the c mouth of the first electric T-shaped valve 7, and a mouth of the second electric T-shaped valve 9 is communicated with the b mouth of the second electric T-shaped valve 9; Refrigerant is discharged from the exhaust outlet of compressor 1, after the first electric four-way valve 2, evaporimeter 4 and the first electric expansion valve 5, after entering a mouth of First Heat Exchanger 6, refrigerant is evaporation endothermic in First Heat Exchanger 6, be cooled through the air of First Heat Exchanger 6, thus reach the effect of refrigeration, discharge from the b mouth of First Heat Exchanger 6 after refrigerant heat absorption, through the first electric T-shaped valve 7, second electric T-shaped valve 9 and gas-liquid separator 3, get back in compressor 1;

When needs heating and hot water, the D mouth of described first electric four-way valve 2 is communicated with the C mouth of the first electric four-way valve 2, the S mouth of the first electric four-way valve 2 is communicated with the E mouth of the first electric four-way valve 2, the D mouth of described second electric four-way valve 10 is communicated with the C mouth of the second electric four-way valve 10, the E mouth of the second electric four-way valve 10 is communicated with the S mouth of the second electric four-way valve 10, first electric expansion valve 5 is communicated with, second electric expansion valve 8 disconnects, the a mouth of the first electric T-shaped valve 7 is communicated with the c mouth of the first electric T-shaped valve 7, the a mouth of the second electric T-shaped valve 9 is communicated with the c mouth of the second electric T-shaped valve 9, refrigerant is discharged from the exhaust outlet of compressor 1, after the first electric four-way valve 2 and the second electric four-way valve 10, enter the c mouth of the second heat exchanger 11, refrigerant condensation heat release in the second heat exchanger 11, the water of the second heat exchanger 11 is flow through in heating, produce hot water, refrigerant is discharged from a mouth of the second heat exchanger 11, through the second electric four-way valve 10, second electric T-shaped valve 9 and the first electric T-shaped valve 7 enter the b mouth of First Heat Exchanger 6, refrigerant continues condensation heat release, heat the air through First Heat Exchanger 6, reach the effect of heating, after refrigerant heat release, discharge from a mouth of First Heat Exchanger 6, through the first electric expansion valve 5, evaporimeter 4 and gas-liquid separator 3, get back in compressor 1,

When needs refrigeration and hot water, the D mouth of described first electric four-way valve 2 is communicated with the C mouth of the first electric four-way valve 2, the S mouth of the first electric four-way valve 2 is communicated with the E mouth of the first electric four-way valve 2, the D mouth of described second electric four-way valve 10 is communicated with the C mouth of the second electric four-way valve 10, first electric expansion valve 5 disconnects, second electric expansion valve 8 is communicated with, the a mouth of the first electric T-shaped valve 7 is communicated with the c mouth of the first electric T-shaped valve 7, and a mouth of the second electric T-shaped valve 9 is communicated with the b mouth of the second electric T-shaped valve 9, refrigerant is discharged from the exhaust outlet of compressor 1, after the first electric four-way valve 2 and the second electric four-way valve 10, enter the c mouth of the second heat exchanger 11, refrigerant condensation heat release in the second heat exchanger 11, heat the water through the second heat exchanger 11, after refrigerant heat release, discharge from a mouth of the second heat exchanger 11, the b mouth of First Heat Exchanger 6 is entered through the second electric expansion valve 8, refrigerant evaporation absorbs heat, be cooled through the air of First Heat Exchanger 6, reach the effect of refrigeration, after refrigerant heat absorption, discharge from a mouth of First Heat Exchanger 6, through the first electric T-shaped valve 7, second electric T-shaped valve 9 and gas-liquid separator 3, get back in compressor 1.

Below by reference to the accompanying drawings detailed description is made to embodiment of the present utility model, but the utility model is not limited to described embodiment.For the ordinary skill in the art, carry out multiple change, amendment, replacement and distortion when not departing from principle of the present utility model and aim to these embodiments still to fall within protection domain of the present utility model.

Claims (1)

1. a heat pump trilogy supply device, is characterized in that comprising compressor (1), the first electric four-way valve (2), gas-liquid separator (3), evaporimeter (4), the first electric expansion valve (5), First Heat Exchanger (6), the first electric T-shaped valve (7), the second electric expansion valve (8), the second electric T-shaped valve (9), the second electric four-way valve (10) and the second heat exchanger (11); Wherein

The exhaust outlet of described compressor (1) is communicated with the D mouth of the first electric four-way valve (2), the air entry of compressor (1) and the outlet of gas-liquid separator (3);

The C mouth of described first electric four-way valve (2) is communicated with the D mouth of the second electric four-way valve (10), the S mouth of the first electric four-way valve (2) and the inlet communication of gas-liquid separator (3), the E mouth of the first electric four-way valve (2) is communicated with one end of evaporimeter (4);

One end of described first electric expansion valve (5) is communicated with the other end of evaporimeter (4), and the other end of the first electric expansion valve (5) is communicated with a mouth of First Heat Exchanger (6) and a mouth of the first electric T-shaped valve (7) respectively;

The a mouth of described First Heat Exchanger (6) is communicated with the b mouth of First Heat Exchanger (6), and the c mouth of First Heat Exchanger (6) is communicated with the d mouth of First Heat Exchanger (6); The b mouth of described First Heat Exchanger (6) is communicated with the b mouth of the first electric T-shaped valve (7) and one end of the second electric expansion valve (8) respectively, and c mouth and the d mouth of described First Heat Exchanger (6) are communicated with indoor set respectively;

The c mouth of described second heat exchanger (11) is communicated with a mouth of the second heat exchanger (11), and the d mouth of the second heat exchanger (11) is communicated with the b mouth of the second heat exchanger (11); The a mouth of the second heat exchanger (11) is communicated with the S mouth of the second electric four-way valve (10) and the other end of the second electric expansion valve (8) respectively, the described c mouth of the second heat exchanger (11) is communicated with the C mouth of the second electric four-way valve, and d mouth and the b mouth of described second heat exchanger (11) are communicated with water heater respectively;

The c mouth of described second electric T-shaped valve (9) is communicated with the E mouth of the second electric four-way valve (10), the a mouth of the second electric T-shaped valve (9) and the inlet communication of gas-liquid separator (3), the b mouth of the second electric T-shaped valve (9) is communicated with the c mouth of the first electric T-shaped valve (7).