CN206817817U - A kind of weary wind source heat pump equipment system based on heat pipe heat exchanging - Google Patents

Abstract

A kind of weary wind source heat pump equipment system based on heat pipe heat exchanging, it includes idle air and takes thermal, the net for air-source heat pump units of main passive junction belt heat exchange of heat pipe, idle air heat exchange to rinse defrosting device and the mine heater with heat exchange of heat pipe.Idle air takes thermal to be connected on the waste heat utilized in coal mine methane pipeline in coal mine methane.Inside net for air-source heat pump units, compressor, condenser, evaporator, expansion valve, oil eliminator are respectively equipped with, fully absorbs the heat from idle air heat-exchanger rig, heating unit to mine by condenser provides thermal source.Idle air heat exchange rinses defrosting device and is provided with flushing pump, sedimentation basin, intermediate pool, flushing pond, is connected by hot water heating pipeline with net for air-source heat pump units.Heat pipe heat exchanging technology is combined by the utility model with net for air-source heat pump units, idle air heat transfer technology and equipment system, heat can be reliably obtained from coal mine idle air and be used for equipment, operation windage is small.

Description

A kind of weary wind source heat pump equipment system based on heat pipe heat exchanging

Technical field

The present invention relates to technical field of heat pumps, and in particular to a kind of weary wind source heat pump pit shaft based on heat pipe heat exchanging technology is prevented Jelly system, it is mainly used in coal mine equipment.

Background technology

The industries such as aerospace, military project are widely used in before hot pipe technique, heat pipe possesses the so good capacity of heat transmission.Cause Be for the heat absorption of object, heat release it is relative, it is every with the presence of temperature difference when, just necessarily there is heat at high temperature at low temperature The phenomenon of transmission.From the point of view of three kinds of modes of heat transfer（Radiation, convection current, conduction）, wherein convection current conduction it is most fast.Heat pipe is to utilize The phase transition process that medium condenses after being evaporated in hot junction in cold end, i.e., using the evaporation latent heat and the latent heat of condensation of liquid, make heat fast Speed conduction.General heat pipe is made up of shell, liquid-sucking core and end cap.Inside heat pipe is to be pumped into negative pressure state, is filled with appropriate liquid Body, this boiling point of liquid is low, readily volatilized.Tube wall has liquid-sucking core, and it is made up of capillary-porous material.Heat pipe one end is evaporation End, other end is condensation end, and when heat pipe one end is heated, the liquid rapid vaporization in capillary, steam is in the dynamic of thermal diffusion Other end is flowed under power, and heat is discharged in cold end condensation, liquid flows back to evaporation ends along porous material by capillarity again, So circulation is more than, and until heat pipe both ends, temperature is equal（Now steam thermal diffusion stops）.This circulation is quickly carried out, because This heat can continuously be conducted.

Existing mine air-lack residual-heat utilization technology, mainly there are two kinds of different technology paths, one kind is that fountain takes heat, Fountain takes heat, and in the presence of taking heat small, substantial amounts of coal dust easily product is easily stifled, while, it is necessary to not after idle air temperature is less than 10 degree The defects of disconnected plus antifreeze, another kind are that direct-evaporation-type takes heat, and direct-evaporation-type is weary due to being mixed with more dust in idle air The problems such as wind heat exchanger is easily blocked, causes the wind resistance of idle air heat exchanger larger, while direct-evaporation-type takes heat also to exist The heat exchange area of separate unit evaporator is smaller, and when idle air temperature is relatively low, evaporimeter frosting defrosting problem influences the system of weary wind source heat pump The thermal efficiency, constrain the application and popularization of the weary wind source heat pump of direct-evaporation-type.

Simultaneously all there is a problem of fractional energy savings is not high in above two idle air residual-heat utilization technology, basic in part place On economize on coal and do not save, simply solve the problems, such as using clean energy resource, energy-saving benefit unobvious, therefore the market competitiveness be present not By force, the problems such as difficulty is big is promoted.

Existing pitshaft is antifreeze, mainly using mine heating unit, utilizes steam(-)coil or fin type heat exchange Device directly heats fresh air, and energy expenditure is big.

The content of the invention

For insufficient present in existing idle air UTILIZATION OF VESIDUAL HEAT IN, it is an object of the invention to provide one kind operation windage is small, it is Comprehensive energy consumption of uniting is low and heat exchange efficiency is high, not by that using territory restriction and can save mass energy, reduces one kind of environmental pollution Weary wind source heat pump equipment system based on heat pipe heat exchanging.

The present invention makes full use of the heat energy in idle air, by when mine return air and the outdoor fresh air temperature difference are more than 10 degree, directly Connect using heat pipe heat exchanging technology heating fresh air, when mine return air is less than 10 degree with the outdoor fresh air temperature difference, using air source heat pump skill Art heats fresh air in mine heats unit or uses auxiliary heating source for heating fresh air, improves idle air source heat pump system and is used in The whole efficiency of equipment, energy-conserving and environment-protective, to meet manufacturing technique requirent.

The technical solution adopted by the present invention is as follows：

A kind of weary wind source heat pump equipment system based on heat pipe heat exchanging, thermal, idle air is taken to rinse defrosting by idle air Device, the net for air-source heat pump units of main passive junction belt heat exchange of heat pipe, the mine heater composition with heat exchange of heat pipe are weary Wind takes thermal to be connected between rinsing defrosting device with idle air by flushing line, and idle air takes thermal, main passive junction belt heat It is connected simultaneously by refrigerant line between the net for air-source heat pump units of heat exchange of heat pipe and mine heater with heat exchange of heat pipe Form a complete heat pump circuit.

Taken in described idle air in thermal, be connected provided with idle air passage and with idle air main, set in the air inlet of idle air There is volume damper, finned heat pipe heat exchanger is provided with idle air passage, finned heat pipe heat exchanger is also main passive knot simultaneously The evaporator of the net for air-source heat pump units of crossed belt heat exchange of heat pipe, finned heat pipe heat exchanger are installed on above water-collecting tray, wing The upper end of chip heat exchange of heat pipe is provided with enclosed spray water tank, and inlet side and the air side of finned heat pipe heat exchanger pass through pressure Pipe is connected with differential pressure controller, the sky that finned heat pipe heat exchanger passes through refrigerant tubing and main passive junction belt heat exchange of heat pipe Air supply heat pump unit is connected, and refrigerant distributor is provided with feed tube, and refrigerant is uniformly distributed in each heat-exchanging loop. In water influent pipeline, expansion valve and the first magnetic valve have been arranged in parallel.

The steaming of the evaporator and heat exchange of heat pipe of the net for air-source heat pump units of the passive junction belt heat exchange of heat pipe of described master Originator is designed as an entirety, i.e. finned heat pipe heat exchanger both can be as the evaporation ends of heat exchange of heat pipe, can also conduct The evaporator of the net for air-source heat pump units of main passive junction belt heat exchange of heat pipe, absorbs heat from idle air.

Finned heat pipe heat exchanger is by refrigerant tubing and by second solenoid valve, vapour liquid separator, muffler and pressure Contracting machine is connected.Compressor is connected by gas exhaust piping with secondary oil separator, and secondary oil separator passes through refrigerant line and band The finned cooler of the mine heater of heat exchange of heat pipe is connected, and finned cooler is also the cold of heat exchange of heat pipe simultaneously Solidifying end condenser.Lubricating oil is back in compressor by secondary oil separator by return line, on return line, is set successively There are oil strainer and oil circuit magnetic valve.Finned cooler passes through refrigerant condensate liquid pipeline and expansion valve and the first magnetic valve phase Even, it is connected in the bottom of gas-liquid separator provided with return line by stop valve with the low-pressure end of compressor.Main passive junction belt Second solenoid valve inlet ductwork passes through threeway and check valve phase on the refrigerant tubing of the net for air-source heat pump units of heat exchange of heat pipe Even, check valve by pipeline with from secondary oil separator by together with refrigerant line with heat exchange of heat pipe mine heat The finned cooler of device is connected.

Idle air rinses defrosting device and is connected by heating water return pipeline with external heat source, and electricity is provided with heating supply channel Dynamic ratio adjusting valve.Idle air rinses defrosting device and is provided with a water tank that three parts are divided into internal partition, water tank difference There are settling tank, intermediate water tank, flush box.Heating coil is provided with inside flush box, heating coil is by heating return pipe Road and heating supply channel are connected with the net for air-source heat pump units of main passive junction belt heat exchange of heat pipe.Also set inside flush box There is temperature controller, for adjusting the aperture of electric proportional-regulation valve.Flush box also takes hot charging top set by flushing line and idle air The enclosed spray water tank in portion is connected, and flush cycle pump is additionally provided with flushing line.Settling tank is taken by drainpipe and idle air The water-collecting tray of thermal bottom is connected.Settling tank is additionally provided with water supplement port and sewage draining exit, and it is electronic that moisturizing is provided with water pipe Valve, blowdown motor-driven valve is provided with sewage draining exit.

The mine heater with heat exchange of heat pipe includes centrifugal blower, auxiliary heating finned heat exchanger and fin Formula condenser, the outlet of centrifugal blower connection fresh air, auxiliary heating finned heat exchanger is by electric control valve and from the external world Auxiliary thermal source（The hot water produced such as combustion gas or electric heat storage boiler）It is connected, finned cooler is by refrigerant line and unidirectionally Valve takes the finned heat pipe heat exchanger of thermal to be connected with idle air；Finned cooler passes through liquid trap refrigerant condensate liquid pipeline It is connected with expansion valve and the first magnetic valve.

The present invention's has two kinds of mode of operations：

1）As mine return air temperature -10 degree of outdoor fresh air temperature ＞, the idle air from idle air arterial highway is adjusted by air quantity Valve introduces finned heat pipe heat exchanger, and finned heat pipe heat exchanger carries out heat exchange with idle air.It is finned in heat exchanging process Working medium (refrigerant) in heat exchange of heat pipe absorbs idle air heat and is evaporated to gaseous state rapidly by liquid, is exchanged heat for idle air and rinses defrosting Device defrosting；For gaseous refrigerant under the power of thermal diffusion, the condensation end for flowing to finned heat pipe heat exchanger is condensed into liquid, And release substantial amounts of condensation heat；Condensation heat enters the mine with heat exchange of heat pipe in the mine heater with heat exchange of heat pipe Outdoor fresh air in heater is heated to more than design temperature（Such as 2 degree）, to meet manufacturing technique requirent.

（2）As mine return air temperature -10 degree of outdoor fresh air temperature ＜, start the sky of main passive junction belt heat exchange of heat pipe Air supply heat pump unit, in the presence of compressor, idle air enters finned heat pipe heat exchanger, and refrigerant suction idle air heat is by liquid Evacuator body is gaseous state；Gaseous refrigerant is condensed into liquid in finned heat pipe heat exchanger, and releases substantial amounts of condensation heat, will Outdoor fresh air in mine heater with heat exchange of heat pipe is heated to design temperature（Such as 2 degree）, to meet that production technology will Ask.

It when the dust in idle air causes idle air heat exchanger to block, can be more than the pressure difference before and after finned heat pipe heat exchanger Setting value, now differential pressure controller provide enabling signal, flush cycle pump starts running, and finned heat pipe heat exchanger is carried out clear Wash；

When idle air temperature it is low to 2 degrees Celsius when, finned heat pipe heat exchanger may produce frost, pass through heating dish Pipe heats to the water in flush box, and the hot water in water tank enters enclosed shower water from flush cycle pump and flushing pipe Case, subsequently into finned heat pipe heat exchanger, realize the defrosting function to finned heat pipe heat exchanger.

A kind of weary wind source heat pump equipment system based on heat pipe heat exchanging of the present invention is by heat pipe heat exchanging technology and air-source Source pump, idle air heat transfer technology and equipment system are combined, and can avoid the system or heat of existing idle air heat pump completely The defects of heat exchange of heat pipe system operation, reduce mine fresh air heating process intermediate link.

When the present invention is using the operation of passive type class heat pipe, not power consumption substantially, be advantageous to save a large amount of electric energy；Using active In terms of net for air-source heat pump units, because only needing to run when thermic load is reduced, therefore less source pump can be selected, can To reduce the initial cost of air source heat pump equipment, and net for air-source heat pump units run time is reduced, and energy consumption is reduced clearly.

It is of the invention compared with traditional equipment mode, it is reliable, realize that colliery subtracts coal emission reduction, save running cost With reducing environmental pollution, effectively utilize idle air residual heat resources, energy-conserving and environment-protective are notable.

Brief description of the drawings

Fig. 1 is a kind of structural representation of the weary wind source heat pump equipment system based on heat pipe heat exchanging of the present invention.

In figure, 1, idle air passage, 2, volume damper, 3, differential pressure controller, 4, enclosed spray water tank, 5, finned heat pipe Heat exchanger, 6, refrigerant tubing, 7, refrigerant distributor, 8, expansion valve, 9, gas-liquid separator, 10, muffler, 11, secondary oil Separator oil return pipe, 12, compressor, 13, gas exhaust piping, 14, return line, 15, oil circuit magnetic valve, 16, secondary oil separator, 24th, finned cooler, 25, refrigerant line, 26, refrigerant accumulator, 27, supplementary heat exchanger, 28, centrifuge, 29, band heat The mine heater of heat exchange of heat pipe, 30, fresh air outlet, 31, electric control valve, 32, ratio adjusting valve, 33, flushing line, 34th, temperature controller, 35, flush cycle pump, 36, flush box, 37, heating coil, 38, first partition, 39, second partition, 40, in Between water tank, the 41, the 3rd dividing plate, 42, drainpipe, 43, settling tank, 44, blowoff valve, 45, water compensating valve, 46, water-collecting tray.

Specific implementation method

With reference to specific embodiment, the present invention is further illustrated.

Embodiment：As shown in figure 1, a kind of weary wind source heat pump equipment system based on heat pipe heat exchanging, heat is taken by idle air Device, the net for air-source heat pump units of main passive junction belt heat exchange of heat pipe, idle air rinse defrosting device and with heat exchange of heat pipe Mine heater forms.

Described idle air takes thermal to include idle air passage 1, and idle air passage 1 is connected with idle air main, in idle air passage 1 Air inlet is provided with volume damper 2, is provided with finned heat pipe heat exchanger 5 in idle air passage, finned heat pipe heat exchanger 5 is installed on Above water-collecting tray 46, the upper end of finned heat pipe heat exchanger 5 is provided with enclosed spray water tank 4, and finned heat pipe heat exchanger 5 enters Wind side is connected with air side by pressure pipe with differential pressure controller 3, and finned heat pipe heat exchanger 5 passes through refrigerant tubing 6 and master The net for air-source heat pump units of passive junction belt heat exchange of heat pipe is connected, and the feed tube of finned heat pipe heat exchanger 5 is provided with refrigerant Refrigerant is uniformly distributed in each heat-exchanging loop by distributor 7, refrigerant distributor.

In water influent pipeline, the magnetic valve 19 of expansion valve 8 and first has been arranged in parallel.

When the idle air from idle air arterial highway introduces finned heat pipe heat exchanger and and finned heat pipe by volume damper Refrigerant in heat exchange of heat pipe is exchanged heat, and heat exchange efficiency is higher.

When the dust in idle air causes idle air heat exchanger to block, the pressure difference before and after finned heat pipe heat exchanger 5 can be caused More than setting value, differential pressure controller 3 provides enabling signal, and flush cycle pump 35 is started running, and finned heat pipe heat exchanger 5 is entered Row cleaning.

When idle air temperature is relatively low, caused frosting on idle air heat exchanger fin, by the water in flush box Heated, realize the defrosting function to finned heat pipe heat exchanger 5.

The net for air-source heat pump units of the passive junction belt heat exchange of heat pipe of master includes vapour liquid separator 9, and liquid/gas separator 9 is logical Muffler 10 is crossed with compressor 12 to be connected；Compressor 12 is connected by gas exhaust piping 13 with secondary oil separator 16, secondary oil Lubricating oil is back in compressor 12 by return line 14 from device 16, on return line, is sequentially provided with oil strainer 17 With oil circuit magnetic valve 15；Return line is provided with the bottom of gas-liquid separator 9, return line passes through stop valve 18 and compressor 12 Low-pressure end be connected.

The finned heat pipe heat exchanger 5 takes the sky of thermal and main passive junction belt heat exchange of heat pipe as idle air simultaneously The evaporator of air supply heat pump unit, i.e. finned heat pipe heat exchange 5 both can be as the evaporation ends of heat exchange of heat pipe, can also conduct The evaporator of the net for air-source heat pump units of main passive junction belt heat exchange of heat pipe, absorbs heat from idle air.

Finned heat pipe heat exchanger 5 is by refrigerant tubing 6 and by second solenoid valve 21, vapour liquid separator 9, muffler 10 are connected with compressor 12.Compressor 12 is connected by gas exhaust piping 13 with secondary oil separator 16, and secondary oil separator 16 is logical The finned cooler 24 that refrigerant line 25 is crossed with the mine heater with heat exchange of heat pipe is connected；

The finned cooler 24 is both the condenser of the mine heater with heat exchange of heat pipe, while is also fin The condensation end of formula heat exchange of heat pipe 5.Lubricating oil is back in compressor 12 by secondary oil separator 16 by return line 14, On return line, oil strainer 17 and oil circuit magnetic valve 15 are sequentially provided with.

Finned cooler 24 is connected by refrigerant condensate liquid pipeline with the magnetic valve 19 of expansion valve 8 and first, in gas-liquid The bottom of separator 9 is connected provided with return line by stop valve 18 with the low-pressure end of compressor 12.Main passive junction belt heat pipe The inlet ductwork of second solenoid valve 21 passes through threeway and the phase of check valve 20 on the refrigerant tubing 6 of the net for air-source heat pump units of heat exchanger Even, check valve 20 by pipeline with from secondary oil separator 16 by together with refrigerant line 25 with the ore deposit with heat exchange of heat pipe The finned cooler 24 of well heating system is connected.

Idle air rinses defrosting device by heating water return pipeline 23 and heating supply channel 24 and main passive junction belt heat pipe The net for air-source heat pump units of heat exchanger is connected.Electric proportional-regulation valve 32 is provided with heating supply channel 24.

The idle air rinses defrosting device, including water tank, and moisture is divided into settling tank by two dividing plates inside water tank 43rd, intermediate water tank 40, flush box 36.The inside of flush box 36 is provided with heating coil 37, and heating coil 37 is by heating backwater Pipeline 23 and heating supply channel 24 are connected with the net for air-source heat pump units of main passive junction belt heat exchange of heat pipe.Flush box 36 Inside is additionally provided with temperature controller 34, for adjusting the aperture of electric proportional-regulation valve 32.Flush box 36 also passes through flushing line 33 Take the enclosed spray water tank 4 at the top of thermal to be connected with idle air, flush cycle pump 35 is additionally provided with flushing line 33.Precipitate water Case 43 takes the water-collecting tray 46 of thermal bottom to be connected by drainpipe 42 with idle air.Settling tank 43 is additionally provided with water supplement port and blowdown Mouthful, moisturizing motor-driven valve 45 is provided with water pipe, blowdown motor-driven valve 44 is provided with sewage draining exit.

The dividing plate 41 of first partition 38 and the 3rd is equipped with overfall or overflow launder.

The mine heater 29 with heat exchange of heat pipe includes centrifugal blower 28, auxiliary heating finned heat exchanger 27th, finned cooler 24, fresh inlet 22, centrifugal blower 28 connect fresh air outlet 30, auxiliary heating finned heat exchanger 27 Pass through electric control valve 31 and the auxiliary thermal source from the external world（The hot water produced such as combustion gas or electric heat storage boiler）It is connected, fin Formula condenser 24 takes the finned heat pipe heat exchanger 5 of thermal to be connected by refrigerant line 25 and check valve 20 with idle air；Wing Chip type condenser 24 passes through the refrigerant condensate liquid pipeline of liquid trap 26 and the magnetic valve of expansion valve 8 and first（19）It is connected.

The present invention makes full use of the heat energy in idle air, false by when mine return air and the outdoor fresh air temperature difference are more than 10 degree If outside air temperature is subzero and idle air temperature is more than 10 degree, the first magnetic valve 19, which is powered, to be opened, and second solenoid valve 21 powers off Close, fresh air is directly heated using heat pipe heat exchanging technology, now finned heat pipe heat exchanger 5 is used as in idle air takes thermal and steamed Originator, is used as condensation end in the mine heater 29 with heat exchange of heat pipe, so as to which outdoor fresh air is heated into design temperature （Such as 2 degree）More than, to meet manufacturing technique requirent.The not power consumption substantially in heat transfer process.

Finned heat pipe heat exchanger exchanges heat as idle air rinses the evaporation ends of defrosting device, is heated by idle air air, working medium It is gaseous state to absorb heat by liquid evaporation, so as to absorb the heat in idle air.

When mine return air and the outdoor fresh air temperature difference are less than 10 degree, using air source heat pump technology in mine heats unit Heat fresh air or use auxiliary heating source for heating fresh air.When i.e. outside air temperature is of a relatively high, the power-off of the first magnetic valve 19 is closed, the Two magnetic valves 21, which are powered, to be opened, and starts the net for air-source heat pump units of main passive junction belt heat exchange of heat pipe, in the effect of compressor Under, evaporator of the finned heat pipe heat exchanger as the net for air-source heat pump units of main passive junction belt heat exchange of heat pipe, by idle air Air heats, and it is gaseous state that refrigerant working medium, which absorbs heat by liquid evaporation, so as to absorb the heat in idle air；Changed in band heat pipe Condenser is used as in the mine heater of hot device, refrigerant working medium is condensed into liquid among finned heat pipe heat exchanger by gaseous state State, and substantial amounts of condensation heat is released, so as to which outdoor fresh air is heated into design temperature（Such as 2 degree）More than, to meet production technology It is required that.

Idle air source heat pump system utilization ratio is improved, so as to reduce the overall energy consumption of equipment dress, improves well The overall energy-saving efficiency of cylinder defroster, energy-conserving and environment-protective, to meet manufacturing technique requirent.

The present invention can be directly using the heated of the net for air-source heat pump units for carrying out autonomous passive junction belt heat exchange of heat pipe Refrigerating medium afterwards is exchanged heat, and reduces intermediate link, reduces the energy consumption of subsidiary engine, so as to improve the work of whole system effect Rate, the auxiliary heating finned heat exchanger (27) from auxiliary thermal source can also be used to be heated, system is more reliable.

Claims (8)

1. A kind of 1. weary wind source heat pump equipment system based on heat pipe heat exchanging, it is characterised in that：Thermal, idle air are taken by idle air Rinse defrosting device, the net for air-source heat pump units of main passive junction belt heat exchange of heat pipe, the mine heating dress with heat exchange of heat pipe Composition is put, idle air takes thermal to be connected between rinsing defrosting device with idle air by flushing line, and idle air takes thermal, master passive Pass through refrigerant pipe between the net for air-source heat pump units of junction belt heat exchange of heat pipe and mine heater with heat exchange of heat pipe Road is connected and forms a complete heat pump circuit.
2. A kind of 2. weary wind source heat pump equipment system based on heat pipe heat exchanging according to claim 1, it is characterised in that：It is weary Wind takes the enclosed spray water tank of thermal to rinse the flush box of defrosting device with idle air by flushing line and flush cycle pump Connection；Idle air take thermal by drainpipe be connected to idle air rinse defrosting device settling tank.
3. 3. a kind of weary wind source heat pump equipment system based on heat pipe heat exchanging according to claim 1 or claim 2, its feature exist In：The idle air takes thermal to include idle air passage（1）, idle air passage（1）It is connected with idle air main, in idle air passage（1）'s Air inlet is provided with volume damper（2）, idle air passage（1）It is interior to be provided with finned heat pipe heat exchanger（5）, finned heat pipe heat exchanger （5）It is installed on water-collecting tray（46）Above, finned heat pipe heat exchanger（5）Upper end be provided with enclosed spray water tank（4）, it is finned Heat exchange of heat pipe（5）Inlet side and air side pass through pressure pipe and differential pressure controller（3）It is connected, finned heat pipe heat exchanger （5）Feed tube be provided with refrigerant distributor（7）, refrigerant distributor（7）Refrigerant is uniformly distributed in each heat-exchanging loop； In water influent pipeline, expansion valve has been arranged in parallel（8）With the first magnetic valve（19）.
4. A kind of 4. weary wind source heat pump equipment system based on heat pipe heat exchanging according to claim 1, it is characterised in that：It is weary Wind takes the finned heat pipe heat exchanger of thermal（5）Pass through refrigerant tubing（6）With second solenoid valve and main passive junction belt heat The gas-liquid separator of the net for air-source heat pump units of heat exchange of heat pipe（9）It is connected.
5. 5. according to a kind of weary wind source heat pump equipment system based on heat pipe heat exchanging of claim 1 or 4, its feature exists In：The net for air-source heat pump units of the passive junction belt heat exchange of heat pipe of master includes vapour liquid separator（9）, vapour liquid separator（9） Pass through muffler（10）With compressor（12）It is connected；Compressor（12）Pass through gas exhaust piping（13）With secondary oil separator（16）Phase Even, secondary oil separator（16）Pass through return line（14）Lubricating oil is back to compressor（12）It is interior, on return line, according to It is secondary to be provided with oil strainer（17）With oil circuit magnetic valve（15）；In gas-liquid separator（9）Bottom be provided with return line, return line Pass through stop valve（18）With compressor（12）Low pressure air suction end be connected.
6. A kind of 6. weary wind source heat pump equipment system based on heat pipe heat exchanging according to claim 5, it is characterised in that：It is main The secondary oil separator of the net for air-source heat pump units of passive junction belt heat exchange of heat pipe（16）Pass through refrigerant line（25）With band The finned cooler of the mine heater of heat exchange of heat pipe（24）It is connected；Finned cooler（24）Condensed by refrigerant Liquid pipeline and expansion valve（8）And first magnetic valve（19）It is connected.
7. A kind of 7. weary wind source heat pump equipment system based on heat pipe heat exchanging according to claim 1, it is characterised in that：Institute State idle air flushing defrosting device by heating water return pipeline with external heat source to be connected, electronic ratio is provided with heating supply channel Regulating valve（32）, the idle air, which rinses defrosting device, includes water tank, and dividing plate is provided with water tank and is divided into water tank by dividing plate Settling tank（43）, intermediate water tank（40）, flush box（36）；Flush box（36）Inside is provided with heating coil（37）, rinse Water tank（36）Pass through flush cycle pump（35）And flushing line（33）The enclosed spray water tank at the top of thermal is taken with idle air（4）Phase Even；Flush box（36）Inside is additionally provided with for adjusting electric proportional-regulation valve（32）The temperature controller of aperture（34）；Settling tank （43）Pass through drainpipe（42）The water-collecting tray of thermal bottom is taken with idle air（46）It is connected；Settling tank（43）It is additionally provided with water supplement port With sewage draining exit, moisturizing motor-driven valve is provided with water pipe（45）, blowdown motor-driven valve is provided with sewage draining exit（44）.
8. A kind of 8. weary wind source heat pump equipment system based on heat pipe heat exchanging according to claim 1, it is characterised in that：Institute State the mine heater with heat exchange of heat pipe（29）Including centrifugal blower（28）, auxiliary heating finned heat exchanger (27) and wing Chip type condenser（24）, centrifugal blower（28）Connect fresh air outlet（30）, auxiliary heating finned heat exchanger (27) is by electronic Regulating valve（31）It is connected with the auxiliary thermal source from the external world, finned cooler（24）Pass through refrigerant line（25）And check valve （20）The finned heat pipe heat exchanger of thermal is taken with idle air（5）Connection；Finned cooler（24）Pass through liquid trap（26）System Cryogen condensate liquid pipeline and expansion valve（8）And first magnetic valve（19）It is connected.