CN207163009U - A kind of geothermal energy resources acquisition device - Google Patents

Abstract

It the utility model is related to underground heat technical field, more particularly to a kind of geothermal energy resources acquisition device, including evaporator, condenser, choke valve, compressor and underground heat acquisition device, compressor connects condenser by condenser pipe, condenser connects choke valve by throttle pipe, and choke valve connects evaporator by evaporation tube；Evaporator passes sequentially through main muffler and connects compressor with underground heat acquisition device；Underground heat acquisition device includes the first acquisition device and the second acquisition device；First acquisition device includes the first return-air arm and the first return-air sleeve pipe, and the upper face of the first return-air sleeve pipe sets the first heat insulation layer；The bottom of first return-air sleeve pipe sets thermal conductive metal pipe, and the second heat insulation layer is set between the first return-air arm and the first return-air sleeve pipe；The main muffler that first return-air sleeve upper end side wall is connected by the connection of first sleeve branch pipe with compressor；First acquisition device and the second acquisition device structure are identical.The utility model can effective acquisition geothermal energy resources, and energy loss is small, utilization rate is high.

Description

A kind of geothermal energy resources acquisition device

Technical field

It the utility model is related to geothermal device technical field, and in particular to a kind of geothermal energy resources acquisition device.

Background technology

Air-conditioning is air regulator, refers to that manually means are adjusted and controlled to the temperature of surrounding air in building Process, in the prior art every household air is adjusted by outdoor machine of air-conditioner and interior machine, extremely waste of resource, and right The heat exhaust into air, causes atmosphere quality to decline.

Utility model content

The technical problem of solution

For the disadvantages mentioned above present in prior art, the utility model provides a kind of geothermal energy resources acquisition device, energy Enough efficiently against the pollution environment present in prior art and geothermal energy resources waste the problem of, while the underground heat improved obtains Efficiency, Optimum utilization geothermal energy resources.

Technical scheme

To realize object above, the utility model is achieved by the following technical programs：

A kind of geothermal energy resources acquisition device, including evaporator, condenser, choke valve, compressor and underground heat acquisition device, institute State compressor and the condenser is connected by condenser pipe, the condenser connects the choke valve, the throttling by throttle pipe Valve connects the evaporator by evaporation tube；The evaporator passes sequentially through main muffler and connects institute with the underground heat acquisition device State compressor；The underground heat acquisition device includes the first acquisition device and the second acquisition device；First acquisition device includes First return-air arm and the first return-air sleeve pipe, the upper face of the first return-air sleeve pipe set the first heat insulation layer；Described first The bottom of return-air sleeve pipe sets thermal conductive metal pipe, and setting second is exhausted between first return-air arm and the first return-air sleeve pipe Thermosphere；The main return-air that the first return-air sleeve upper end side wall is connected by the connection of first sleeve branch pipe with the compressor Pipe；First acquisition device is identical with the second acquisition device structure, and second acquisition device includes the second return-air branch Pipe and the second return-air sleeve pipe and first heat insulation layer, second heat insulation layer, the thermal conductive metal pipe and the second sleeve pipe branch Pipe；Under the main muffler that first return-air arm, the second return-air arm upper end connection are connected with the evaporator End, the main muffler that the first sleeve branch pipe, the second sleeve pipe branch pipe connection are connected with the compressor.

Further, the thermal conductive metal pipe is upper end open, the copper pipe or aluminium-alloy pipe of sealed bottom.

Further, the internal diameter of the thermal conductive metal pipe is equal with the first heat insulation layer internal diameter.

Further, the upper end open edge of the thermal conductive metal pipe and the first heat insulation layer lower ending opening edge are close Envelope connection.

Further, the lower end of the first return-air sleeve pipe connects the first return-air its lower end.

Further, first heat insulation layer, second heat insulation layer and the first return-air sleeve pipe are that upper end is close Envelope, the pipe fitting of lower ending opening.

Beneficial effect

Using technical scheme provided by the utility model, compared with known publicly-owned technology, have the advantages that：

1st, geothermal energy resources can be effectively obtained, and geothermal energy resources are introduced into air-conditioning system and utilized.

2nd, efficiency high is obtained, amount to obtain is big, energy-conserving and environment-protective.

3rd, heat scatters and disappears small, and energy loss is also small.

Brief description of the drawings

, below will be to embodiment in order to illustrate more clearly of the utility model embodiment or technical scheme of the prior art Or the required accompanying drawing used is briefly described in description of the prior art.It should be evident that drawings in the following description are only It is some embodiments of the utility model, for those of ordinary skill in the art, is not paying the premise of creative work Under, other accompanying drawings can also be obtained according to these accompanying drawings.

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

Label in figure represents respectively：Evaporator 1；Condenser 2；Choke valve 3；Compressor 4；Main muffler 5；First obtains Device 6；Second acquisition device 7；First return-air arm 8；First return-air sleeve pipe 9；First heat insulation layer 10；Thermal conductive metal pipe 11；The Two heat insulation layers 12；First sleeve branch pipe 13；Second return-air arm 14；Second return-air sleeve pipe 15；Second sleeve pipe branch pipe 16.

Embodiment

It is new below in conjunction with this practicality to make the purpose, technical scheme and advantage of the utility model embodiment clearer Accompanying drawing in type embodiment, the technical scheme in the embodiment of the utility model is clearly and completely described.Obviously, retouched The embodiment stated is the utility model part of the embodiment, rather than whole embodiments.Based on the implementation in the utility model Example, the every other embodiment that those of ordinary skill in the art are obtained under the premise of creative work is not made, is belonged to The scope of the utility model protection.

With reference to embodiment, the utility model will be further described.

Embodiment

A kind of geothermal energy resources acquisition device of the present embodiment, including evaporator 1, condenser 2, choke valve 3, the and of compressor 4 Underground heat acquisition device, compressor 4 connect condenser 2 by condenser pipe, and condenser 2 connects choke valve 3, choke valve by throttle pipe 3 connect evaporator 1 by evaporation tube；It is characterized in that：Evaporator 1 passes sequentially through main muffler 5 and connected with underground heat acquisition device Compressor 4；Underground heat acquisition device includes the first acquisition device 6 and the second acquisition device 7；First acquisition device 6 includes first time The return-air sleeve pipe 9 of gas branch pipe 8 and first, the upper face of the first return-air sleeve pipe 9 set the first heat insulation layer 10；First return-air sleeve pipe 9 Bottom set thermal conductive metal pipe 11, the second heat insulation layer 12 is set between first return-air arm 8 and the first return-air sleeve pipe 9；First The upper end side wall of return-air sleeve pipe 9 connects the main muffler 5 being connected with compressor 4 by first sleeve branch pipe 13；First acquisition device 6 Identical with the structure of the second acquisition device 7, the second acquisition device 7 includes the second return-air arm 14 and the second return-air sleeve pipe 15 and the One heat insulation layer 10, the second heat insulation layer 12, the sleeve pipe branch pipe 16 of thermal conductive metal pipe 11 and second；First return-air arm 8, the second return-air branch The upper end of pipe 14 lower end of main muffler 5 that is connected with evaporator 1 of connection, first sleeve branch pipe 13, the second sleeve pipe branch pipe 16 connect and The connected main muffler 5 of compressor 4；Thermal conductive metal pipe 11 is upper end open, the copper pipe or aluminium-alloy pipe of sealed bottom；Heat conduction gold The internal diameter for belonging to pipe 11 is equal with the internal diameter of the first heat insulation layer 10；Under the upper end open edge of thermal conductive metal pipe 11 and the first heat insulation layer 10 End opening edge seal connects；Lower end connection the first return-air sleeve pipe 9 lower end of first return-air sleeve pipe 9；First heat insulation layer 10, second Heat insulation layer and the first return-air sleeve pipe 9 are upper end sealing, the pipe fitting of lower ending opening.

Operation principle：The part of underground heat acquisition device lower end thermal conductive metal pipe 11 is embedded in underground 40m to 50m depths, air-conditioning Refrigeration（Heating）Refrigerant is flowed according to the direction shown in arrow in figure in system work process, and geothermal energy resources are obtained by underground heat Take device intervention refrigeration（Heating）System, air conditioner refrigerating can be substantially reduced（Heating）Consumed resource in system.It is empty in summer When modulating cold, the geotemperature of ground end depths is less than surface temperature, and therefore, low-temperature geothermal resource can pass through thermal conductive metal pipe 11 The temperature of refrigerant is reduced, so as to save heat dissipation capacity of the refrigerant in condenser 2, geothermal energy resources are using sufficiently Side, summer even can close condenser 2 also can position air-conditioning refrigeration system operation.When air-conditioning heating in the winter time, ground The geotemperature of bottom depths is higher than surface temperature, can ensure temperature environment required when refrigerant gas quickly flows, auxiliary Help increase further to gasify by the refrigerant gas-liquid mixture of evaporator 1, meet heating system work requirements, geothermal energy resources Using sufficient place, can even close in the winter time evaporator 1 also can position air-conditioning heating system operation.

Underground heat acquisition device includes but is not limited to the first acquisition device 6 and the second acquisition device 7, can be according to practice of construction Environment and usage amount suitably increase the quantity of underground heat acquisition device, increase the utilization to geothermal energy resources, Jie of geothermal energy resources Enter to substantially reduce the power consumption of air-conditioning, reduce the wasting of resources, improve atmospheric environment.

First heat insulation layer 10 can effectively reduce heat and scatter and disappear, and ensure the high quality that underground heat obtains；The energy of second heat insulation layer 12 Enough completely cut off between the first return-air arm 8 and the first return-air sleeve pipe 9, the energy between the second return-air arm 14 and the second return-air sleeve pipe 15 Amount is transmitted.

Above example is only to illustrate the technical solution of the utility model, rather than its limitations；Although with reference to foregoing reality Example is applied the utility model is described in detail, it will be understood by those within the art that：It still can be to preceding State the technical scheme described in each embodiment to modify, or equivalent substitution is carried out to which part technical characteristic；And these Modification or replace, can't make appropriate technical solution essence depart from various embodiments of the utility model technical scheme spirit and Scope.

Claims (6)

1. a kind of geothermal energy resources acquisition device, including evaporator（1）, condenser（2）, choke valve（3）, compressor（4）And underground heat Acquisition device, the compressor（4）The condenser is connected by condenser pipe（2）, the condenser（2）Connected by throttle pipe The choke valve（3）, the choke valve（3）The evaporator is connected by evaporation tube（1）；It is characterized in that：The evaporator （1）Pass sequentially through main muffler（5）The compressor is connected with the underground heat acquisition device（4）；The underground heat acquisition device bag Include the first acquisition device（6）With the second acquisition device（7）；First acquisition device（6）Including the first return-air arm（8）With One return-air sleeve pipe（9）, the first return-air sleeve pipe（9）Upper face set the first heat insulation layer（10）；The first return-air set Pipe（9）Bottom set thermal conductive metal pipe（11）, first return-air arm（8）With the first return-air sleeve pipe（9）Between set Put the second heat insulation layer（12）；The first return-air sleeve pipe（9）Upper end side wall passes through first sleeve branch pipe（13）Connection and the pressure Contracting machine（4）The connected main muffler（5）；First acquisition device（6）With second acquisition device（7）Structure phase Together, second acquisition device（7）Including the second return-air arm（14）With the second return-air sleeve pipe（15）And first thermal insulation Layer（10）, second heat insulation layer（12）, the thermal conductive metal pipe（11）With the second sleeve pipe branch pipe（16）；The first return-air branch Pipe（8）, second return-air arm（14）Upper end connects and the evaporator（1）The connected main muffler（5）Lower end, institute State first sleeve branch pipe（13）, the second sleeve pipe branch pipe（16）Connection and the compressor（4）The connected main muffler （5）.

2. geothermal energy resources acquisition device according to claim 1, it is characterised in that the thermal conductive metal pipe（11）For upper end Opening, the copper pipe or aluminium-alloy pipe of sealed bottom.

3. geothermal energy resources acquisition device according to claim 1, it is characterised in that the thermal conductive metal pipe（11）Internal diameter With first heat insulation layer（10）Internal diameter is equal.

4. geothermal energy resources acquisition device according to claim 1, it is characterised in that the thermal conductive metal pipe（11）Upper end Edge of opening and first heat insulation layer（10）Lower ending opening edge seal connects.

5. geothermal energy resources acquisition device according to claim 1, it is characterised in that the first return-air sleeve pipe（9）Under End connects the first return-air sleeve pipe（9）Lower end.

6. geothermal energy resources acquisition device according to claim 1, it is characterised in that first heat insulation layer（10）, it is described Second heat insulation layer and the first return-air sleeve pipe（9）It is upper end sealing, the pipe fitting of lower ending opening.