CN204730368U - A kind of Frostless air-source air-conditioner system - Google Patents

Abstract

The utility model discloses a kind of Frostless air-source air-conditioner system, comprise outdoor heat exchanger, indoor heat exchanger, compressor, cross valve, described outdoor heat exchanger is provided with blower fan, capillary, compression pump, little muffler, little escape pipe, the first filter is connected with in turn between described outdoor heat exchanger and one end of indoor heat exchanger, flow controller, second filter, the other end of described indoor heat exchanger is connected with cross valve, described outdoor heat exchanger is connected with cross valve by first muffler, first muffler is provided with temperature inductor, one end of described compressor is connected with cross valve by large blast pipe, large blast pipe is provided with vibration damping hammer, gas-liquid separator is connected with in turn between the other end of described compressor and cross valve, second largest muffler, the utility model smart structural design, stable, performance safety are reliable, energy saving, long service life.

Description

A kind of Frostless air-source air-conditioner system

Technical field

The utility model relates to a kind of air-conditioner, particularly relates to a kind of Frostless air-source air-conditioner system.

Background technology

What present market was sold is all defrost machine, just relates to frosting and defrost problem when having arrived below temperature degree of being as low as zero.Not defrost unit can not run, repeatedly be switched to during defrost and run clockwise and counterclockwise, very big to compressor injury, and heating effect obviously declines, operation of air conditioner rather unstable, market, the north cannot be applied substantially, and defrost has become a maximum difficult problem, and the development space of air-conditioner is greatly limited.

Summary of the invention

For overcoming above-mentioned shortcoming, the utility model provides that a kind of smart structural design, stable, performance safety are reliable, energy saving, long service life Frostless air-source air-conditioner system.

The utility model solves the technical scheme that its technical problem adopts:

A kind of Frostless air-source air-conditioner system, comprise outdoor heat exchanger, indoor heat exchanger, compressor, cross valve, described outdoor heat exchanger is provided with blower fan, capillary, compression pump, little muffler, little escape pipe, the first filter is connected with in turn between described outdoor heat exchanger and one end of indoor heat exchanger, flow controller, second filter, the other end of described indoor heat exchanger is connected with cross valve, described outdoor heat exchanger is connected with cross valve by first muffler, first muffler is provided with temperature inductor, one end of described compressor is connected with cross valve by large blast pipe, large blast pipe is provided with vibration damping hammer, gas-liquid separator is connected with in turn between the other end of described compressor and cross valve, second largest muffler.

The utility model has the advantages that: this product structure is simple, it is ingenious to design, can in the extensive use of southern and northern market, and the present invention is without the need to defrost, and the South and the North can be suitable for, particularly the north or sub-zero regional market.

Accompanying drawing explanation

Below in conjunction with drawings and Examples, the utility model is further illustrated.

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

Detailed description of the invention

With reference to Fig. 1, a kind of Frostless air-source air-conditioner system, comprise outdoor heat exchanger 1, indoor heat exchanger 2, compressor 3, cross valve 4, described outdoor heat exchanger 1 is provided with blower fan 5, capillary 6, compression pump 7, little muffler 8, little escape pipe 9, the first filter 10 is connected with in turn between described outdoor heat exchanger 1 and one end of indoor heat exchanger 2, flow controller 11, second filter 12, the other end of described indoor heat exchanger 2 is connected with cross valve 4, described outdoor heat exchanger 1 is connected with cross valve 4 by first muffler 13, first muffler 13 is provided with temperature inductor 14, one end of described compressor 3 is connected with cross valve 4 by large blast pipe 15, large blast pipe 15 is provided with vibration damping hammer 16, gas-liquid separator 17 is connected with in turn between the other end of described compressor 3 and cross valve 4, second largest muffler 18.

Refrigeration work principle of the present utility model: compressor input electric energy starts running, high temperature and high pressure gas is delivered to cross valve C through excessive blast pipe hold, outdoor heat exchanger is delivered to again through excessive muffler, gas carries out the outside heat release of condensation, gas is made to become gas-liquid, be delivered to the first filter to filter refrigerant, be delivered to flow controller and throttling is carried out to high temperature high pressure liquid, high temperature high pressure liquid is made to become Low temperature low pressure liquid, again through the second filter carry out filtration laggard enter indoor heat exchanger evaporate, heat during evaporation in liquid absorption air, refrigerant becomes gaseous state by liquid state, gaseous state is delivered to that cross valve A to cross valve B → delivering to gas-liquid separator through excessive muffler again carries out gas-liquid separation again through copper pipe, gas gets back to compressor, liquid stays gas-liquid separator bottom and progressively compressor is got back in evaporation, again gas is sent back to compressor.Along with the continuous operation of compressor, this cyclic process will constantly back and forth be carried out.

Of the present utility modelly heat operation principle: compressor input electric energy startup optimization, high temperature and high pressure gas is delivered to cross valve A through excessive blast pipe, be delivered to indoor heat exchanger through copper pipe again and carry out condensation, gas external heat release during condensation and finally become liquid by gas, liquid is filtered through the second filter through copper pipe, liquid after filtration is delivered to flow controller and is carried out throttling, high temperature high pressure liquid is made to become Low temperature low pressure liquid, after the first filter, be delivered to outdoor heat exchanger evaporate, during liquid evaporation, the heat absorbed in air gasifies, refrigerant becomes gaseous state by liquid state, gaseous coolant is through excessive muffler, cross valve B, cross valve C, large muffler is delivered to gas-liquid separator and is carried out gas-liquid separation, gas is got back in compressor, liquid state to exist in gas-liquid separator and also constantly absorbs heat gasification along with operation, along with the continuous operation of compressor, this cyclic process will constantly back and forth be carried out.

Frostless device principle of the present utility model: evaporimeter is one and is combined with fin by copper pipe, have four rows or arrange copper pipe more, middle two rows are the supervisor of air-conditioner, the left side one is arranged and the right one is arranged as frostless device, its principle is: operate to after compression pump input electric energy, high temperature and high pressure gas is through too small escape pipe, be delivered to capillary through copper pipe again and carry out throttling, liquid after throttling enters little muffler and evaporates, the rear liquid state of evaporation becomes gaseous state and gets back in compression pump, by the continuous running of compression pump, this process is back and forth carried out, the wind direction of blower fan is dried from left to right, because left side pipe is high-temperature pipe, when fan operation, high-temperature gas is along with air-flow is through air-conditioning main pipeline.The fin of air-conditioner outdoor unit make air-conditioning main pipeline surface temperature higher than hoarfrost point, so would not go up frost.This air-conditioner is without the need to defrost, and the South and the North can be suitable for, particularly the north or sub-zero regional market.

In addition, the utility model is not limited to above-mentioned embodiment, as long as it reaches technique effect of the present utility model with substantially identical means, all should belong to protection domain of the present utility model.

Claims (1)

1. a Frostless air-source air-conditioner system, comprise outdoor heat exchanger (1), indoor heat exchanger (2), compressor (3), cross valve (4), it is characterized in that: described outdoor heat exchanger (1) is provided with blower fan (5), capillary (6), compression pump (7), little muffler (8), little escape pipe (9), the first filter (10) is connected with in turn between one end of described outdoor heat exchanger (1) and indoor heat exchanger (2), flow controller (11), second filter (12), the other end of described indoor heat exchanger (2) is connected with cross valve (4), described outdoor heat exchanger (1) is connected with cross valve (4) by first muffler (13), first muffler (13) is provided with temperature inductor (14), one end of described compressor (3) is connected with cross valve (4) by large blast pipe (15), large blast pipe (15) is provided with vibration damping hammer (16), gas-liquid separator (17) is connected with in turn between the other end of described compressor (3) and cross valve (4), second largest muffler (18).