CN206113444U - Heat pump divides fluidization frost system - Google Patents

Abstract

The utility model discloses a heat pump divides fluidization frost system, including compressor, condenser, liquid storage pot, expansion valve, evaporimeter and gas liquid separator, is connected through the induction -pipe between give vent to anger end and the inlet end of condenser of compressor, the end of giving vent to anger of condenser is connected with the liquid storage pot, and the giving vent to anger to hold of liquid storage pot is connected with the inlet end of expansion valve, and the giving vent to anger to hold of expansion valve is connected with the inlet end of evaporimeter, and the giving vent to anger to hold of evaporimeter is connected with gas liquid separator, gas liquid separator bottom is equipped with the fluid -discharge tube, and upper portion is equipped with the gas vent, be connected through the gas -supply pipe between gas liquid separator's gas vent and the inlet end of compressor, still be equipped with an air filter section of thick bamboo on the gas -supply pipe, the white pipeline of being equipped with on the evaporimeter, the inlet end of changing white pipeline passes through branch pipe and induction -pipe intercommunication, be equipped with the solenoid valve on the branch pipe. The utility model discloses equipment cost is low, and changes that white process is stable, safety, has avoided simultaneously that the condition of temperature toboggan takes place in the baking house.

Description

Heat pump shunts defrosting system

Technical field

This utility model belongs to heat pump defrost technical field, and in particular to a kind of heat pump shunts defrosting system.

Background technology

Heat pump in the winter time when, when being especially ambient temperature below zero degrees celsius, heat pump run one section when Between after, frost occurs above the fin of vaporizer, the heat transfer effect of vaporizer after frosting, can be substantially reduced, when serious Wait, system there is also low pressure alarming, and impact equipment normally runs.For such case, existing defrost technology can typically be adopted The defrost of power taking heating tube or cross valve commutation defrost.Mainly energy consumption is larger and has dangerous for the shortcoming of existing electrical heating defrost Hidden danger；The shortcoming of cross valve defrost is mainly, and when defrost, compressor does not quit work, after cross valve commutation, condenser It is changed into vaporizer, is lowered the temperature, cause the efficiency of heating surface low, compressor stopped work when defrost, just with pressure The afterheat return of contracting machine carrys out defrost, and this when, compressor did not work, and temperature can decline rapidly, when frost is thicker, waste heat Defrost is impracticable.

Utility model content

Technical problem to be solved in the utility model is for above-mentioned the deficiencies in the prior art, there is provided a kind of heat pump point Fluidisation defrosting system, it is its simple structure, reasonable in design, defrost effectively can be carried out to vaporizer, and ensure that temperature during defrost Fall is little.

The technical scheme adopted by this utility model is：A kind of heat pump shunts defrosting system, including compressor, condenser, Fluid reservoir, expansion valve, vaporizer and vapour liquid separator, by sending between the outlet side of the compressor and the inlet end of condenser Trachea connects, and the outlet side of condenser is connected with fluid reservoir, and the outlet side of fluid reservoir is connected with the inlet end of expansion valve, expansion valve Outlet side be connected with the inlet end of vaporizer, the outlet side of vaporizer is connected with vapour liquid separator, the vapour liquid separator bottom Portion is provided with discharging tube, and top is provided with air vent, by defeated between the inlet end of the air vent and compressor of the vapour liquid separator Trachea connects, and Air filter element cartridge is additionally provided with the appendix, and the vaporizer is provided with defrost pipeline, the defrost pipeline Inlet end is connected with snorkel by arm, and the arm is provided with electromagnetic valve, and liquid-collecting box, liquid collecting are additionally provided with the vaporizer Box is circumscribed with copper pipe, and the copper pipe other end is provided with fluid reservoir.

Preferably, being additionally provided with heat regenerator between the expansion valve and vaporizer.

The beneficial effects of the utility model are：This utility model simple structure, reasonable in design, equipment cost is low, and changes White process stabilization, safety, while avoiding the situation generation that temperature in drying room significantly declines.

Description of the drawings

Fig. 1 is this utility model structural representation.

In figure：1st, compressor；2nd, condenser；3rd, fluid reservoir；4th, expansion valve；5th, vaporizer；6th, vapour liquid separator；7th, supply gas Pipe；8th, discharging tube；9th, air vent；10th, appendix；11st, Air filter element cartridge；12nd, defrost pipeline；13rd, arm；14th, electromagnetic valve； 15th, liquid-collecting box；16th, copper pipe.

Specific embodiment

Below in conjunction with the accompanying drawings and the specific embodiments this utility model is described in further detail.

Embodiment 1：As shown in figure 1, this utility model includes compressor 1, condenser 2, fluid reservoir 3, expansion valve 4, evaporation Device 5 and vapour liquid separator 6, are connected by snorkel 7 between the outlet side of the compressor 1 and the inlet end of condenser 2, condensation The outlet side of device 2 is connected with fluid reservoir 3, the outlet side of fluid reservoir 3 be connected with the inlet end of expansion valve 4, the outlet of expansion valve 4 End is connected with the inlet end of vaporizer 5, and the outlet side of vaporizer 5 is connected with vapour liquid separator 6,6 bottom of the vapour liquid separator Discharging tube 8 is provided with, top is provided with air vent 9, passes through between the inlet end of the air vent 9 and compressor 1 of the vapour liquid separator 6 Appendix 10 connects, and Air filter element cartridge 11 is additionally provided with the appendix 10, and the vaporizer 5 is provided with defrost pipeline 12, institute The inlet end for stating defrost pipeline 12 is connected with snorkel 7 by arm 13, and the arm 13 is provided with electromagnetic valve 14, the evaporation Liquid-collecting box 15 is additionally provided with device 5, liquid-collecting box 15 is circumscribed with copper pipe 16, and 16 other end of copper pipe is provided with fluid reservoir 3.

Embodiment 2：It is identical with above-described embodiment 1, wherein being additionally provided with heat regenerator between above-mentioned expansion valve 4 and vaporizer 5.

This utility model is by setting up single defrost pipeline 12 in vaporizer 5, and arranges the introducing snorkel 7 of arm 13 Interior high temperature and high pressure gas so that vaporizer 5 heats up, so as to complete defrost work, after the completion of defrost, white water is flowed by copper pipe 16 Enter in fluid reservoir 3.When vaporizer 5 needs defrost, electromagnetic valve 14 is opened, arm 13 introduces high temperature and high pressure gas, make high temperature high Body of calming the anger is entered in the defrost pipeline 12 of vaporizer 5, completes defrost work, after the completion of defrost, closes electromagnetic valve 14, in defrost During, as arm 13 has only introduced fraction high-temperature high-pressure air flow, most of heat is still sent in drying room, it is ensured that dry Temperature in room is basically unchanged.

This utility model simple structure, reasonable in design, equipment cost is low, and defrost process stabilization, safety, while avoiding The situation that temperature significantly declines in drying room occurs.

Claims (2)

1. a kind of heat pump shunts defrosting system, it is characterised in that：Including compressor (1), condenser (2), fluid reservoir (3), expansion Valve (4), vaporizer (5) and vapour liquid separator (6), lead between the outlet side of the compressor (1) and the inlet end of condenser (2) Snorkel (7) connection is crossed, the outlet side of condenser (2) is connected with fluid reservoir (3), outlet side and the expansion valve (4) of fluid reservoir (3) Inlet end connection, the outlet side of expansion valve (4) is connected with the inlet end of vaporizer (5), the outlet side of vaporizer (5) and vapour-liquid Separator (6) connects, and vapour liquid separator (6) bottom is provided with discharging tube (8), and top is provided with air vent (9), the vapour-liquid point It is connected by appendix (10) between the air vent (9) and the inlet end of compressor (1) of device (6), on the appendix (10) Air filter element cartridge (11) is additionally provided with, the vaporizer (5) is provided with defrost pipeline (12), the inlet end of the defrost pipeline (12) Connected with snorkel (7) by arm (13), the arm (13) is provided with electromagnetic valve (14), also sets on the vaporizer (5) There is liquid-collecting box (15), liquid-collecting box (15) is circumscribed with copper pipe (16), and copper pipe (16) other end is connected with fluid reservoir (3).

2. heat pump according to claim 1 shunts defrosting system, it is characterised in that：The expansion valve (4) and vaporizer (5) Between be additionally provided with heat regenerator.