CN207145005U

CN207145005U - A kind of equipment system based on efficient weary wind source heat pump

Info

Publication number: CN207145005U
Application number: CN201621282562.0U
Authority: CN
Inventors: 闫风强; 江河; 黄德祥; 胡文青
Original assignee: Shanxi Wen Long Sino American Ring Polytron Technologies Inc
Current assignee: Shanxi Wen Long Sino American Ring Polytron Technologies Inc
Priority date: 2016-11-28
Filing date: 2016-11-28
Publication date: 2018-03-27
Anticipated expiration: 2026-11-28

Abstract

A kind of equipment system based on efficient weary wind source heat pump, belongs to technical field of heat pumps, solves the big technical problem of the antifreeze power consumption of pitshaft, and solution is：The idle air takes thermal to include idle air passage, idle air passage air inlet connection idle air arterial highway, idle air passage exhaust outlet connects with external environment, idle air takes thermal to be connected by pipeline and rinses defrosting device, rinse defrosting device and connected respectively with hot pump in low temp unit feed water inlet with water return outlet with heating supply channel by heating water return pipeline, hot pump in low temp unit connects mine heater by pipeline.The utility model can reliably obtain heat from coal mine idle air and be used for equipment, it is small to run windage, the high heat pump of the efficiency of heating surface is combined with high efficiency well winterization system, and simple system is reliable, achievable colliery subtracts coal emission reduction, operating cost and clean energy resource are saved, environmental pollution is reduced, effectively utilizes idle air residual heat resources, energy-conserving and environment-protective, there is good practicality.

Description

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

Technical field

The utility model belongs to technical field of heat pumps, and in particular to for a kind of well based on efficient weary wind source heat pump in colliery Cylinder winterization system.

Background technology

Existing mine air-lack residual-heat utilization technology, mainly there are two kinds of different technology paths：Fountain takes hot and direct Vaporation-type takes heat.Wherein, fountain heat taking method, which exists, takes heat small, and substantial amounts of coal dust easily product is easily stifled, while in idle air temperature , it is necessary to the defects of constantly adding antifreeze after degree is less than 10 degree；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 weary wind source heat pump heating Refrigerant solution distribution and problem of oil return between efficiency, more evaporators be present, reliability is low, constrains answering for weary wind source heat pump With with popularization.

Existing pitshaft is antifreeze, and mainly using mine heating unit, fresh air is directly heated using steam(-)coil, Energy expenditure is big.

Utility model content

The purpose of this utility model is：Overcoming the shortcomings of the prior art, there is provided operation windage is small, and system energy consumption is low, Heat exchange efficiency is high, is not limited by place, can increase considerably heat exchange area and can the effectively save energy, the one of reduction environmental pollution Equipment system of the kind based on efficient weary wind source heat pump.

The utility model is achieved by the following technical programs.

A kind of equipment system based on efficient weary wind source heat pump, it include idle air take thermal, flushing defrosting device, Hot pump in low temp unit and mine heater, wherein：

The idle air takes thermal to include idle air passage, idle air passage air inlet connection idle air arterial highway, idle air passage air draft Mouth connects with external environment, and idle air takes thermal to be connected by pipeline and rinses defrosting device, rinses defrosting device by heating back Water lines connect with hot pump in low temp unit feed water inlet with water return outlet respectively with heating supply channel, and hot pump in low temp unit passes through pipeline Connect mine heater；

The idle air takes thermal also to include idle air heat exchanger, and idle air heat exchanger is arranged in idle air passage and led to idle air Road axis direction is vertical, and spray water tank is provided with above idle air heat exchanger, is provided with water-collecting tray below idle air heat exchanger, idle air changes The inlet side of hot device is connected with air side by pressure pipe with differential pressure controller；Input duct is provided with the idle air heat exchanger With drain pipe road, the liquid in input duct carries out heat exchange after flowing into idle air heat exchanger and flowed out by drain pipe road, feed tube Road is connected with hot pump in low temp unit respectively with drain pipe road；

It is described flushing defrosting device include casing and dividing plate, by dividing plate by casing be divided into settling tank, intermediate water tank and Flush box, the intermediate water tank between settling tank and flush box, with described catchment by the settling tank discharge outlet Disk connects, and settling tank connects with moisturizing pipeline with blow-off line respectively；Set in parallel to each other with dividing plate in the flush box Be equipped with filter, the heating water return pipeline is arranged in flush box with heating supply channel, the heating water return pipeline with Heating coil is provided between heating supply channel, the heating supply channel pipeline is provided with assisted heating device, flushing water Case is connected by flushing line with the spray water tank, and the flushing line is provided with flush cycle pump；

The hot pump in low temp unit includes gas-liquid separator, compressor, secondary oil separator, injector and condenser, institute State gas-liquid separator to connect with drain pipe road with the idle air heat exchanger by input duct, gas-liquid separator connects with compressor Logical, compressor is connected by gas exhaust piping with secondary oil separator, and secondary oil separator passes through refrigerant line and condenser phase Even, lubricating oil is back in compressor by secondary oil separator by return line, along lubricating oil flow on the return line Direction is sequentially provided with oil strainer and oil circuit magnetic valve；Condenser is connected by refrigerant condensate liquid pipeline with gas-liquid separator, It is swollen that along oil flow direction stop valve, device for drying and filtering, visor and electronics are sequentially provided with the refrigerant condensate liquid pipeline Swollen valve；Condenser is also connected by induction tunnel with injector, and injector is connected by stop valve with gas-liquid separator, injection gas-liquid Refrigerant in separator is connected with the mixture of lubricating oil by gas-liquid separator return line with compressor；Condenser is made The hot water taken conveys heat by heating tube and return pipe to user, and hot water circulating pump is provided with heating tube；

The mine heating unit includes fresh inlet and fresh air exports, and is provided with centrifugal blower at fresh inlet, centrifuges The second finned heat exchanger is provided between blower fan and fresh air outlet.

Further, input duct and drain pipe road are provided with the idle air heat exchanger, the liquid flow in input duct Enter to carry out after idle air heat exchanger heat exchange and flowed out by drain pipe road, input duct and drain pipe road respectively with hot pump in low temp unit Feed water inlet connects with water return outlet.

Further, the spray water tank is enclosed spray water tank；The idle air heat exchanger is that high efficient fin type idle air changes Hot device, high efficient fin type idle air heat exchanger fin material are stainless steel or red copper or antiseptic and hydrophilic aluminium foil；The idle air passage with Volume damper is provided with pipeline between idle air arterial highway；The input duct is provided with expansion valve and refrigerant distributor.

Further, input duct uses different refrigerating mediums from drain pipe road according to different idle air temperature, described Refrigerating medium can be the aqueous solution of water or glycol water or inorganic salts.

Further, the heating supply channel is provided with electric proportional-regulation valve.

Further, the dividing plate is provided with overfall and/or overflow launder.

Further, it is additionally provided with temperature controller inside the flush box.

Further, the moisturizing pipeline is provided with moisturizing motor-driven valve, and the blow-off line is provided with blowdown motor-driven valve.

Further, the gas-liquid separator is falling film type gas-liquid separator, or is full-liquid type gas-liquid separator, or is dry Formula gas-liquid separator.

Further, the idle air heat exchanger can be the combination of one or any number of units.

The utility model has the advantages that compared with prior art.

A kind of equipment system based on efficient weary wind source heat pump provided by the utility model, can be reliably from coal mine Heat is obtained in idle air and is used for equipment, operation windage is small, and the high heat pump of the efficiency of heating surface is prevented with high efficiency well Jelly system is combined, and simple system is reliable, and achievable colliery subtracts coal emission reduction, saves operating cost and clean energy resource, is reduced Environmental pollution, idle air residual heat resources effectively are utilized, energy-conserving and environment-protective, there is good practicality.

Brief description of the drawings

Fig. 1 is the utility model overall structure diagram.

Embodiment

The utility model is elaborated with reference to embodiment, the present embodiment is with technical solutions of the utility model Premised under implemented, give detailed embodiment and specific operating process, but the scope of protection of the utility model It is not limited to following embodiments.

As shown in figure 1, a kind of equipment system based on efficient weary wind source heat pump, it takes thermal 2, punching including idle air Defrosting device 3, hot pump in low temp unit 4 and mine heater 5 are washed, wherein：

The idle air takes thermal 2 to include idle air passage 21, and the air inlet of idle air passage 21 connection idle air arterial highway 1, idle air leads to The exhaust outlet of road 21 connects with external environment, and idle air takes thermal 2 to be connected by pipeline and rinses defrosting device 3, rinses defrosting device 3 are connected with the feed water inlet of hot pump in low temp unit 4 with water return outlet respectively by heating water return pipeline 314 with heating supply channel 313, low Warm pump assembly 4 and mine heater 5 is connected by pipeline.

The idle air takes thermal 2 also to include idle air heat exchanger 24, and idle air heat exchanger 24 is arranged in idle air passage 21 simultaneously Vertical with the axis direction of idle air passage 21, the top of idle air heat exchanger 24 is provided with spray water tank 22, and the lower section of idle air heat exchanger 24 is set Water-collecting tray 25 is equipped with, the inlet side of idle air heat exchanger 24 is connected with air side by pressure pipe with differential pressure controller 23；It is described weary Input duct 26 and drain pipe road 27 are provided with wind heat exchanger 24, after the liquid in input duct 26 flows into idle air heat exchanger 24 Carry out heat exchange and flowed out by drain pipe road 27, input duct 26 is connected with hot pump in low temp unit 4 respectively with drain pipe road 27.

The flushing defrosting device 3 includes casing and dividing plate 34, and casing is divided into settling tank 33, centre by dividing plate 34 Water tank 32 and flush box 31, the intermediate water tank 32 is between settling tank 33 and flush box 31, the settling tank 33 discharge outlet connect with the water-collecting tray 25, and settling tank 33 connects with moisturizing pipeline 35 with blow-off line 36 respectively；The punching It is provided with filter 311, the heating water return pipeline 314 and heating supply channel in water tank 31 in parallel to each other with dividing plate 34 313 are arranged in flush box 31, and heating coil is provided between the heating water return pipeline 314 and heating supply channel 313 312, the heating pipeline of supply channel 313 is provided with assisted heating device 317, flush box 31 by flushing line 315 and The spray water tank 22 connects, and the flushing line 315 is provided with flush cycle pump；When the idle air from idle air arterial highway 1 can be with By volume damper, idle air heat exchanger 24 is introduced, it is and direct because high efficient fin type idle air heat exchanger is using refrigerating medium Vaporation-type idle air takes hot difference, can open all high efficient fin type idle air heat exchangers completely and be exchanged heat, and is exchanged heat in part When device does not need work, only volume damper 11 need to be closed.If the dust in idle air causes idle air heat exchanger 24 simultaneously During blocking, high efficient fin type idle air heat exchanger inlet side and the pressure difference of air draft side can be caused to be more than setting value, differential pressure controller 23 Enabling signal is provided, flush cycle pump is started running, and high efficient fin type idle air heat exchanger is cleaned.If idle air temperature compared with When low, after having frosting on fin, it can realize and high efficient fin type idle air is changed by being heated to the water in flush box 31 The defrosting function of hot device.

The hot pump in low temp unit 4 includes gas-liquid separator 41, compressor 42, secondary oil separator 43, the and of injector 44 Condenser 45, the gas-liquid separator 41 are connected by input duct 26 with drain pipe road 27 with the idle air heat exchanger 24, gas Liquid/gas separator 41 is connected with compressor 42, and compressor 42 is connected by gas exhaust piping 461 with secondary oil separator 43, secondary oil Separator 43 is connected by refrigerant line 462 with condenser 45, and secondary oil separator 43 is by return line 463 by lubricating oil It is back in compressor 42, oil strainer and oil circuit electromagnetism is sequentially provided with along oil flow direction on the return line 463 Valve；Condenser 45 is connected by refrigerant condensate liquid pipeline 464 with gas-liquid separator 41, the refrigerant condensate liquid pipeline 464 On along oil flow direction be sequentially provided with stop valve, device for drying and filtering, visor and electric expansion valve；Condenser 45 is also by drawing Penetrate pipe 465 with injector 44 to be connected, injector 44 is connected by stop valve with gas-liquid separator 41, in injection gas-liquid separator 41 Refrigerant be connected with the mixture of lubricating oil by the tunnel of gas-liquid separator oil return pipe 466 with compressor 42；Condenser 45 is made The hot water taken conveys heat by heating tube 467 and return pipe 468 to user, and hot water circulating pump is provided with heating tube 467.

The mine heating unit includes fresh inlet 51 and fresh air outlet 52, and centrifugal blower is provided with fresh inlet 51 53, the second finned heat exchanger 54 is provided between centrifugal blower 53 and fresh air outlet 52, can directly use and come from hot pump in low temp Refrigerating medium after unit 4 heats is exchanged heat, and is reduced intermediate link, is reduced the energy consumption of subsidiary engine, so as to improve whole system The operating efficiency of system.

Further, input duct 26 and drain pipe road 27 are provided with the idle air heat exchanger 24, in input duct 26 Liquid flow into idle air heat exchanger 24 after carry out heat exchange and flowed out by drain pipe road 27, input duct 26 is divided with drain pipe road 27 Do not connected with the feed water inlet of hot pump in low temp unit 4 with water return outlet.

Further, the spray water tank 22 is enclosed spray water tank；The idle air heat exchanger 24 is that high efficient fin type is weary Wind heat exchanger, high efficient fin type idle air heat exchanger fin material are stainless steel or red copper or antiseptic and hydrophilic aluminium foil；The idle air leads to Volume damper 11 is provided with pipeline between road 21 and idle air arterial highway 1；The input duct 26 is provided with expansion valve and system Refrigerant distributor.

Further, input duct 26 uses different refrigerating mediums from drain pipe road 27 according to different idle air temperature, The refrigerating medium can be the aqueous solution of water or glycol water or inorganic salts.

Further, the heating supply channel 313 is provided with electric proportional-regulation valve.

Further, the dividing plate 34 is provided with overfall and/or overflow launder.

Further, it is additionally provided with temperature controller 316 inside the flush box 31.

Further, the moisturizing pipeline 35 is provided with moisturizing motor-driven valve 351, and the blow-off line 36 is provided with blowdown electricity Dynamic valve 361.

Further, the gas-liquid separator 41 is falling film type gas-liquid separator, or is full-liquid type gas-liquid separator, or is Dry type gas-liquid separator.

Further, the idle air heat exchanger 24 can be the combination of one or any number of units, more efficient wings Chip idle air heat exchanger is exchanged heat using refrigerant with idle air, improves heat exchange efficiency, so as to improve the efficiency of whole system.

It is described above, only specific embodiment of the present utility model, but the scope of protection of the utility model is not limited to It is any to be familiar with those skilled in the art in the technical scope that the utility model discloses in this, the change that can be readily occurred in Or replace, it should all cover within the scope of protection of the utility model.Therefore, the scope of protection of the utility model should be with the power The protection domain that profit requires is defined.

Claims

1. a kind of equipment system based on efficient weary wind source heat pump, it takes thermal (2) including idle air, rinses defrosting device (3), hot pump in low temp unit (4) and mine heater (5), it is characterised in that：

The idle air takes thermal (2) to include idle air passage (21), and idle air passage (21) air inlet connection idle air arterial highway (1) is weary Wind passage (21) exhaust outlet connects with external environment, and idle air takes thermal (2) to be connected by pipeline and rinses defrosting device (3), punching Wash defrosting device (3) and supplied respectively with hot pump in low temp unit (4) with heating supply channel (313) by heating water return pipeline (314) The mouth of a river connects with water return outlet, and hot pump in low temp unit (4) connects mine heater (5) by pipeline；

The idle air takes thermal (2) also to include idle air heat exchanger (24), and idle air heat exchanger (24) is arranged at idle air passage (21) It is interior and vertical with idle air passage (21) axis direction, spray water tank (22), idle air heat exchange are provided with above idle air heat exchanger (24) Water-collecting tray (25) is provided with below device (24), the inlet side of idle air heat exchanger (24) is controlled with air side by pressure pipe and pressure difference Device (23) is connected；Input duct (26) and drain pipe road (27), input duct (26) are provided with the idle air heat exchanger (24) Interior liquid flows into idle air heat exchanger (24) and carries out heat exchange afterwards and flowed out by drain pipe road (27), and input duct (26) is with going out liquid Pipeline (27) is connected with hot pump in low temp unit (4) respectively；

It is described flushing defrosting device (3) include casing and dividing plate (34), by dividing plate (34) by casing be divided into settling tank (33), Intermediate water tank (32) and flush box (31), the intermediate water tank (32) be located at settling tank (33) and flush box (31) it Between, settling tank (33) discharge outlet connects with the water-collecting tray (25), settling tank (33) respectively with moisturizing pipeline (35) Connected with blow-off line (36)；Filter (311), institute are provided with parallel to each other with dividing plate (34) in the flush box (31) State heating water return pipeline (314) to be arranged in flush box (31) with heating supply channel (313), the heating water return pipeline (314) heating coil (312) is provided between heating supply channel (313), is set on described heating supply channel (313) pipeline There is assisted heating device (317), flush box (31) is connected by flushing line (315) with the spray water tank (22), described Flushing line (315) is provided with flush cycle pump；

The hot pump in low temp unit (4) includes gas-liquid separator (41), compressor (42), secondary oil separator (43), injector (44) changed with condenser (45), the gas-liquid separator (41) by input duct (26) with drain pipe road (27) with the idle air The connection of hot device (24), gas-liquid separator (41) connect with compressor (42), compressor (42) by gas exhaust piping (461) with it is secondary Oil eliminator (43) is connected, and secondary oil separator (43) is connected by refrigerant line (462) with condenser (45), secondary oil Lubricating oil is back in compressor (42) by return line (463) from device (43), along lubrication on the return line (463) Oily flow direction is sequentially provided with oil strainer and oil circuit magnetic valve；Condenser (45) by refrigerant condensate liquid pipeline (464) with Gas-liquid separator (41) be connected, on the refrigerant condensate liquid pipeline (464) along oil flow direction be sequentially provided with stop valve, Device for drying and filtering, visor and electric expansion valve；Condenser (45) is also connected by induction tunnel (465) with injector (44), injection Device (44) is connected by stop valve with gas-liquid separator (41), and the refrigerant and lubricating oil in injection gas-liquid separator (41) mix Compound is connected by gas-liquid separator oil return pipe (466) road with compressor (42)；The hot water that condenser (45) is produced passes through confession Heat pipe (467) conveys heat with return pipe (468) to user, and hot water circulating pump is provided with heating tube (467)；

The mine heating unit includes fresh inlet (51) and fresh air outlet (52), and fresh inlet (51) place is provided with centrifugation wind Machine (53), the second finned heat exchanger (54) is provided between centrifugal blower (53) and fresh air outlet (52).

A kind of 2. equipment system based on efficient weary wind source heat pump according to claim 1, it is characterised in that：It is described It is provided with input duct (26) and drain pipe road (27) on idle air heat exchanger (24), the liquid in input duct (26) flows into idle air Heat exchanger (24) carries out heat exchange and flowed out by drain pipe road (27) afterwards, input duct (26) and drain pipe road (27) respectively with it is low Warm pump assembly (4) feed water inlet connects with water return outlet.

A kind of 3. equipment system based on efficient weary wind source heat pump according to claim 1, it is characterised in that：It is described Spray water tank (22) is enclosed spray water tank；The idle air heat exchanger (24) is high efficient fin type idle air heat exchanger, high-efficiency fin Formula idle air heat exchanger fin material is stainless steel or red copper or antiseptic and hydrophilic aluminium foil；The idle air passage (21) and idle air arterial highway (1) volume damper (11) is provided with the pipeline between；The input duct (26) is provided with expansion valve and distributed with refrigerant Device.

A kind of 4. equipment system based on efficient weary wind source heat pump according to claim 1, it is characterised in that：Feed liquor Pipeline (26) uses different refrigerating mediums from drain pipe road (27) according to different idle air temperature, and the refrigerating medium can be water Or the aqueous solution of glycol water or inorganic salts.

A kind of 5. equipment system based on efficient weary wind source heat pump according to claim 1, it is characterised in that：It is described Heating supply channel (313) is provided with electric proportional-regulation valve.

A kind of 6. equipment system based on efficient weary wind source heat pump according to claim 1, it is characterised in that：It is described Dividing plate (34) is provided with overfall and/or overflow launder.

A kind of 7. equipment system based on efficient weary wind source heat pump according to claim 1, it is characterised in that：It is described Temperature controller (316) is additionally provided with inside flush box (31).

A kind of 8. equipment system based on efficient weary wind source heat pump according to claim 1, it is characterised in that：It is described Moisturizing pipeline (35) is provided with moisturizing motor-driven valve (351), and the blow-off line (36) is provided with blowdown motor-driven valve (361).

A kind of 9. equipment system based on efficient weary wind source heat pump according to claim 1, it is characterised in that：It is described Gas-liquid separator (41) is falling film type gas-liquid separator, or is full-liquid type gas-liquid separator, or is dry type gas-liquid separator.

A kind of 10. equipment system based on efficient weary wind source heat pump according to claim 1, it is characterised in that：Institute State the combination that idle air heat exchanger (24) can be one or any number of units.