CN207113141U - Temperature control system and air-conditioning - Google Patents

Abstract

The utility model discloses temperature control system and air-conditioning, it is related to field of air conditioning.The utility model provides a kind of temperature control system, and applied to air-conditioning, temperature control system includes refrigeration mechanism, actuating unit, radiating subassembly and temperature control mechanism, and actuating unit is connected with refrigeration mechanism, and actuating unit is used to drive refrigeration mechanism.Temperature control mechanism includes the first drainage system, first passage and second channel, and the first drainage system is used to guide the air current flow inside first passage, and the first drainage system is used to guide the air current flow inside second channel.Radiating subassembly is connected with actuating unit, and radiating subassembly is arranged inside first passage, so that radiating subassembly can heat the air-flow inside first passage.Refrigeration mechanism is connected with second channel, and refrigeration mechanism is used to freeze to second channel internal gas flow.A kind of air-conditioning, employ above-mentioned temperature control system.Temperature control system and air-conditioning provided by the utility model can rationally utilize used heat caused by itself.

Description

Temperature control system and air-conditioning

Technical field

Field of air conditioning is the utility model is related to, in particular to temperature control system and air-conditioning.

Background technology

The temperature control system that existing air-conditioning uses typically controls temperature, and engine by the start and stop of high frequent Caused used heat is also cooled down using cold-zone system in addition, and air-conditioning equipment space-consuming is big, and energy loss is high.

Utility model content

The purpose of this utility model is to provide a kind of temperature control system, and it be able to can have rationally using used heat caused by itself Freezed and heated to effect, and the substantial amounts of energy can be saved.

Another object of the present utility model is to provide a kind of air-conditioning, and it be able to can have rationally using used heat caused by itself Freezed and heated to effect, and the substantial amounts of energy can be saved.

The utility model provides a kind of technical scheme：

A kind of temperature control system, applied to air-conditioning, the temperature control system include refrigeration mechanism, actuating unit, radiating subassembly and Temperature control mechanism, the actuating unit are connected with the refrigeration mechanism, and the actuating unit is used to drive the refrigeration mechanism.It is described Temperature control mechanism includes the first drainage system, first passage and second channel, and first drainage system connects with the first passage Connect and be used to guide the air current flow inside the first passage, first drainage system is connected with the second channel to be used in combination Air current flow inside the guiding second channel.The radiating subassembly is connected with the actuating unit, the radiating subassembly For being radiated to the actuating unit, and the radiating subassembly is arranged inside the first passage, so that the radiating group Part can heat the air-flow inside the first passage.The refrigeration mechanism is connected with the second channel, and the refrigeration machine Structure is used to freeze to the second channel internal gas flow.

Further, the temperature control system also includes the first closed air-valve and the second closed air-valve, the first closed wind Valve is arranged inside the first passage, and the first closed air-valve is selectively turned on described in the first passage or closing First passage, the second closed air-valve are arranged inside the second channel, and the second closed air-valve selectively turns on The second channel closes the second channel.

Further, the radiating subassembly is arranged between the described first closed air-valve and first drainage system, institute Refrigeration mechanism is stated to be arranged between first drainage system and the second closed air-valve.

Further, the temperature control system also includes mainstream channel, and first drainage system is arranged at the major flow Inside road, the first passage and the second channel connect with the mainstream channel respectively.

Further, the actuating unit includes generator, and the refrigeration mechanism includes compressor, the generator and institute Compressor connection is stated, the generator is used to provide mechanical energy to the compressor, and the generator fills with the described first drainage Connection is put, the generator is used to provide electric energy to first drainage system.

Further, the radiating subassembly includes cooling water tank, heat exchanger and the first flow channel, the cooling water tank and The heat exchanger is connected by first flow channel and forms circulation loop, and the cooling water tank connects with the actuating unit Connect, the heat exchanger is arranged inside the first passage.

Further, the radiating subassembly also includes the first control valve, and first control valve and the described first flowing are logical Road connects, and first control valve selectively turns on first flow channel so that first flow channel is led It is logical, or first control valve closing, first flow channel.

Further, the actuating unit also includes smoke evacuation muffler and the second water stream channel, the smoke evacuation muffler with The generator connection, the smoke evacuation muffler are connected with the heat exchanger by second water stream channel with the heat exchanger And form circulation loop.

Further, the second control valve is provided with second water stream channel, second control valve is optionally opened Second water stream channel is opened so that second water stream channel turns on, or second control valve closes second current Passage.

A kind of air-conditioning, including housing and temperature control system, the temperature control system are applied to air-conditioning, and the temperature control system includes system Cold structure, actuating unit, radiating subassembly and temperature control mechanism, the actuating unit are connected with the refrigeration mechanism, the engine Structure is used to drive the refrigeration mechanism.The temperature control mechanism includes the first drainage system, first passage and second channel, and described One drainage system is connected with the first passage and is used to guide the air current flow inside the first passage, first drainage Device is connected with the second channel and is used to guide the air current flow inside the second channel.The radiating subassembly with it is described Actuating unit connects, and the radiating subassembly is used to radiate to the actuating unit, and the radiating subassembly is arranged at described the One channel interior, so that the radiating subassembly can heat the air-flow inside the first passage.The refrigeration mechanism and described the Two passages connect, and the refrigeration mechanism is used to freeze to the second channel internal gas flow.The temperature control system is arranged at The enclosure interior.

Compared with prior art, the beneficial effect of temperature control system and air-conditioning provided by the utility model is：

Temperature control system and air-conditioning provided by the utility model are led to by the first drainage system inside first passage with second Road is internally formed air flow, and actuating unit is radiated by radiating subassembly, and radiating subassembly radiates to actuating unit And the used heat that actuating unit gives out is absorbed, the radiating subassembly for absorbing used heat heats to the air-flow inside first passage, and makes The function of heating can be realized by obtaining the air-flow derived from first passage, and the air-flow inside second channel is freezed by refrigeration mechanism, The air-flow derived from second channel is enabled to realize refrigerating function.The function of heating is realized by using the used heat of actuating unit, Used heat caused by actuating unit rationally is make use of, has saved the substantial amounts of energy.

Brief description of the drawings

, below will be to required use in embodiment in order to illustrate more clearly of the technical scheme of the utility model embodiment Accompanying drawing be briefly described.It should be appreciated that the following drawings illustrate only some embodiments of the present utility model, therefore should not be by Regard the restriction to scope as.For those of ordinary skill in the art, on the premise of not paying creative work, may be used also To obtain other related accompanying drawings according to these accompanying drawings.

Fig. 1 is the structural representation for the temperature control system first state that first embodiment of the present utility model provides；

Fig. 2 is the structural representation for the state of temperature control system second that first embodiment of the present utility model provides；

Fig. 3 is the structural representation for the temperature control system part that first embodiment of the present utility model provides；

Fig. 4 is the structural representation for the temperature control system part that first embodiment of the present utility model provides.

Icon：10- temperature control systems；100- temperature control mechanisms；The drainage systems of 110- first；120- first passages；121- first Closed air-valve；130- second channels；The second closed air-valves of 131-；140- mainstream channels；200- actuating units；220- smoke evacuation noise reductions Device；The water stream channels of 230- second；The control valves of 231- second；300- radiating subassemblies；310- cooling water tanks；320- heat exchangers；330- First flow channel；The control valves of 331- first；400- refrigeration mechanisms；410- compressors；420- condensers；The drainage dresses of 430- second Put；440- reservoirs；450- devices for drying and filtering；460- expansion valves；470- evaporating pressure regulating valves；480- evaporators；490- gas Liquid/gas separator.

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.Generally here described in accompanying drawing and The component of the utility model embodiment shown can be configured to arrange and design with a variety of.

Therefore, the detailed description of the embodiment of the present utility model to providing in the accompanying drawings is not intended to limit requirement below The scope of the utility model of protection, but it is merely representative of selected embodiment of the present utility model.Based in the utility model Embodiment, the every other embodiment that those of ordinary skill in the art are obtained under the premise of creative work is not made, all Belong to the scope of the utility model protection.

It should be noted that：Similar label and letter represents similar terms in following accompanying drawing, therefore, once a certain Xiang Yi It is defined, then it further need not be defined and explained in subsequent accompanying drawing in individual accompanying drawing.

In description of the present utility model, it is to be understood that term " on ", " under ", " interior ", " outer ", "left", "right" etc. The orientation or position relationship of instruction be based on orientation shown in the drawings or position relationship, or the utility model product use when The orientation or position relationship usually put, or the orientation that usually understands of those skilled in the art or position relationship, be only for Be easy to describe the utility model and simplify to describe, rather than instruction or imply signified equipment or element must have it is specific Orientation, with specific azimuth configuration and operation, therefore it is not intended that to limitation of the present utility model.

In addition, term " first ", " second " etc. are only used for distinguishing description, and it is not intended that indicating or implying relatively important Property.

In description of the present utility model, it is also necessary to explanation, unless otherwise clearly defined and limited, " setting ", Terms such as " connections " should be interpreted broadly, for example, " connection " can be fixedly connected or be detachably connected, or one Ground connects；Can be mechanical connection or electrical connection；Can be directly connected to, can also by between intermediary in succession Connect, can be the connection of two element internals.For the ordinary skill in the art, can understand as the case may be Concrete meaning of the above-mentioned term in the utility model.

Below in conjunction with the accompanying drawings, specific embodiment of the present utility model is described in detail.

First embodiment

Referring to Fig. 1, the utility model provides a kind of temperature control system 10, it is applied to air-conditioning (not shown), and it can be closed Reason effectively can be freezed and be heated, and can be saved the substantial amounts of energy using used heat caused by itself.

Wherein, temperature control system 10 includes temperature control mechanism 100, actuating unit 200, radiating subassembly 300 and refrigeration mechanism 400. Actuating unit 200 is connected with refrigeration mechanism 400, to drive refrigeration mechanism 400.In addition, radiating subassembly 300 and actuating unit 200 Connection, radiating subassembly 300 is used to radiate to actuating unit 200, and radiating subassembly 300 can absorb what actuating unit 200 distributed Used heat.Temperature control mechanism 100 includes the first drainage system 110, first passage 120 and second channel 130.First drainage system 110 It is connected with first passage 120 and for guiding air current flow inside first passage 120, and radiating subassembly 300 is arranged at the Inside one passage 120, to enable radiating subassembly 300 to heat the air-flow inside first passage 120.First drainage system 110 with Second channel 130 connects and for guiding the air current flow inside second channel 130, and refrigeration mechanism 400 is in second channel 130 connections, refrigeration mechanism 400 are used to freeze to the air-flow inside second channel 130.

The used heat of actuating unit 200 is absorbed by radiating subassembly 300 and added to the air-flow inside first passage 120 Heat, and the heated air current flow in the inside of first passage 120 is made by the first drainage system 110 and exports first passage 120, with right Extraneous environment or object is heated.The air-flow inside second channel 130 is freezed by refrigeration mechanism 400, and by the One drainage system 110 causes the air current flow inside second channel 130 and exports second channel 130, with to extraneous environment or Person's object is freezed.Radiating subassembly 300 takes full advantage of used heat caused by actuating unit 200, also improves to actuating unit 200 radiating effect, the substantial amounts of energy is saved.And pass through hot gas derived from first passage 120 and second channel 130 respectively Stream and cold airflow are heated and freezed to external environment or object respectively so that heating and two functions of refrigeration are mutually only It is vertical, the efficiency of heating and refrigeration is improved, fast and effeciently external environment and object can be heated and freezed.

Wherein, respectively by first passage 120 and second channel 130 respectively to external environment or object carry out heating and Cooling so that switch between heating function and refrigerating function it is more quick, can rapidly from heating change to cool down or Rapidly from cooling conversion to heating, there is provided the efficiency of temperature control.

Referring to Fig. 3, in the present embodiment, first passage 120 and second channel 130 share a side wall so that temperature control system The structure relative compact of system 10, space is saved, meet the requirement of miniaturization.

Fig. 1 and Fig. 2 are please referred to, wherein, what the direction of arrow referred to is the direction of air current flow.Temperature control mechanism 100 is also Including the first closed 121 and second closed air-valve 131 of air-valve.Wherein, the first closed air-valve 121 is arranged in first passage 120 Portion, the first closed air-valve 121 are used to selectively turn on first passage 120 so that first passage 120 turns on so that the first drainage Device 110 can guide air-flow to pass through first passage 120；Either the first closed air-valve 121 close first passage 120 to reduce or Block the air-flow of the internal flow of first passage 120.Second closed air-valve 131 is arranged inside second channel 130, the second closed wind Valve 131 is used to selectively turn on second channel 130 so that second channel 130 turns on so that the first drainage system 110 can guide Air-flow passes through second channel 130；Either the second closed air-valve 131 closes second channel 130 to reduce or block second channel The air-flow of 130 internal flows.In time to regulate and control the amount of the air-flow of first passage 120 or the internal flow of second channel 130, make It must can be regulated and controled to blander state by the air-flow of first passage 120 or second channel 130.

In the present embodiment, temperature control mechanism 100 has refrigeration mode and heating mode, wherein, when temperature control mechanism 100 is in During heating mode, such as Fig. 1, the first closed air-valve 121 opens first passage 120, and the second closed air-valve 131 closes second channel 130, now the first drainage system 110 guiding first passage 120 inside air current flow, pass through derived from first passage 120 heat Air-flow heats to external environment or object.When temperature control mechanism 100 is in refrigeration mode, such as Fig. 2, the first closed air-valve 121 close first passage 120, and the second closed air-valve 131 opens second channel 130, now the first drainage system 110 guiding second Air current flow inside passage 130, external environment or object are freezed by cold airflow derived from second channel 130.

In addition, the first closed 121 and second closed air-valve 131 of air-valve has corresponding control system (not shown) respectively, That is, the first closed 121 and second closed air-valve 131 of air-valve is separate, and it is logical that the first closed air-valve 121 is turned on or off first Road 120 is turned on or off second channel 130 with the second closed air-valve 131 and not influenced each other.I.e., in other embodiments, it is warm Control mechanism 100 can also simultaneously close off first passage 120 and second channel 130, or open first passage 120 and second simultaneously Passage 130.

It should be appreciated that in other embodiments, the control mode of the first closed 121 and second closed air-valve 131 of air-valve Control can be associated, i.e. when the first closed air-valve 121 is in unlatching 120 state of first passage, the second closed air-valve 131 is in Close the state of second channel 130；When the first closed air-valve 121, which is in, closes 120 state of first passage, the second closed air-valve 131 in the state for opening second channel 130.

Further, radiating subassembly 300 is arranged between the first closed drainage system 110 of air-valve 121 and first, refrigeration machine Structure 400 is arranged between the second closed drainage system 110 of air-valve 131 and first.To cause first passage 120 and second channel 130 will not be accumulated when being closed too to dust cause to open first passage 120 or second channel 130 be occur it is big Measure the situation of airborne dust.Also it is avoided that the airborne dust in the external world is piled up in radiating subassembly 300 and refrigeration mechanism 400 and influences radiating subassembly simultaneously 300 and the operating efficiency of refrigeration mechanism 400.

In addition, temperature control mechanism 100 also includes mainstream channel 140, the first drainage system 110 is arranged in mainstream channel 140 Portion, and first passage 120 and second channel 130 connect with mainstream channel 140 respectively.In the present embodiment, when first is closed Air-valve 121 opens first passage 120, when the second closed air-valve 131 closes second channel 130, first passage 120 turn on and with master Circulation road 140 is collectively forming gas channel, and air-flow is then passed through first passage 120 and mainstream channel 140 by the first drainage system 110 Export.Similarly, when the first closed air-valve 121 closes first passage 120, and the second closed air-valve 131 opens second channel 130, Second channel 130 is turned on and is collectively forming gas channel with mainstream channel 140, and air-flow is then passed through by the first drainage system 110 Two passages 130 and mainstream channel 140 export.

By setting mainstream channel 140 so that the first drainage system 110 can complete first passage 120 and second channel 130 The drainage function of two passages, avoids the control triviality of multiple drainage systems, and is avoided that multiple drainage systems need to cut The complexity changed, and certain cost can also be saved.

In addition, in the present embodiment, mainstream channel 140 is two, and two mainstream channels 140 are respectively arranged at first passage 120 or the both ends of second channel 130, i.e. the first drainage system 110 guiding air current flow causes air-flow to pass sequentially through major flow Road 140, first passage 120 and mainstream channel 140, or pass sequentially through mainstream channel 140, second channel 130 and mainstream channel 140。

Radiating subassembly 300 includes cooling water tank 310, the flow channel 330 of heat exchanger 320 and first.Cooling water tank 310 and change Hot device 320 is connected by the first flow channel 330 and forms circulation loop, wherein, the quantity of the first flow channel 330 is at least Two, at least one first flow channel 330 connects as exhalant canal with heat exchanger 320, so that the water in cooling water tank 310 It can flow in heat exchanger 320, in addition, at least one first flow channel 330 connects as intake tunnel with heat exchanger 320, So that the water handled by heat exchanger 320 can be flowed back in cooling water tank 310.Cooling water tank 310 is connected with actuating unit 200, with The water in cooling water tank 310 is set to absorb the heat that actuating unit 200 distributes.Heat exchanger 320 is arranged in first passage 120 Portion, to enable the water into heat exchanger 320 to carry out heat exchange by the air-flow inside heat exchanger 320 and first passage 120, To heat the air-flow inside first passage 120.Used heat caused by taking full advantage of actuating unit 200, has saved the energy.

Further, radiating subassembly 300 also includes the first control valve 331, the first control valve 331 and the first flow channel 330 connections, and the first control valve 331 selectively turns on the first flow channel 330 so that the first flow channel 330 turns on, Or first control valve 331 close the first flow channel 330.In the present embodiment, the first control valve 331 and the first flow channel 330 quantity is corresponding, i.e. corresponding first control valve 331 of each the first flow channel 330, each first control valve 331 one the first flow channel 330 of control.

Wherein, when the water temperature in cooling water tank 310 is less than the first preset value, the first control valve 331 closes first Flow channel 330.When the water temperature in cooling water tank 310 is higher than the first preset value, the first control valve 331 is opened first-class Dynamic passage 330.In the present embodiment, the first preset value is 30 DEG C.

Actuating unit 200 includes generator (figure is not marked), the smoke evacuation water stream channel 230 of muffler 220 and second, wherein generating electricity Machine is connected as power source with refrigeration mechanism 400, to provide power, wherein generator to refrigeration mechanism 400 to refrigeration mechanism 400 Mechanical energy is provided to drive refrigeration mechanism 400.Passing through the mechanical energy used during electrical power generators drives refrigeration mechanism 400 to operate, So that refrigeration mechanism 400 does not need extra power supply.In addition, generator connects in the first drainage system 110, to be drained to first Device 110 provides the first drainage system of electrical energy drive 110.Wherein, in the present embodiment, generator uses diesel-driven generator.

Smoke evacuation muffler 220 is connected with generator, and muffler 220 of discharging fume can eliminate the noise of smoke evacuation, discharge fume simultaneously Also there is cooling water, the cooling water is used to cool down smoke evacuation muffler 220 in muffler 220.In addition, smoke evacuation muffler 220 are connected with heat exchanger 320 by the second water stream channel 230 and form circulation loop.It is identical with the first flow channel 330, the Two water stream channels 230 at least two, at least one second water stream channel 230 connect as exhalant canal with heat exchanger 320, with Cooling water is enabled to flow into heat exchanger 320 by the second water stream channel 230, at least one second water stream channel 230 is as water inlet Passage connects with heat exchanger 320, to enable the cooling water handled by heat exchanger 320 to flow back to smoke evacuation muffler 220.

In the present embodiment, actuating unit 200 also includes the second control valve 231, and the second control valve 231 is led to the second current Road 230 connects, and the second control valve 231 selectively turns on the second water stream channel 230 so that the second water stream channel 230 is led It is logical, or the second control valve 231 the second water stream channel 230 of closing.Wherein, the quantity of the second control valve 231 is led to the second current The quantity in road 230 is corresponding, i.e. corresponding second control valve 231 of each the second water stream channel 230.

In the present embodiment, when the first control valve 331 is closed, the second control valve 231 is opened, to cause muffler of discharging fume Cooling water in 220 flows into heat exchanger 320 and the air-flow inside first passage 120 is heated.When the first control valve 331 is opened, Second control valve 231 is closed, and now entering heat exchanger 320 by the water in cooling water tank 310 heats inside first passage 120 Air-flow.

Fig. 1 and Fig. 4 are please referred to, refrigeration mechanism 400 includes compressor 410, condenser 420, the second drainage system 430th, reservoir 440, device for drying and filtering 450, expansion valve 460, evaporating pressure regulating valve 470, evaporator 480 and gas-liquid separator 490, wherein compressor 410, condenser 420, reservoir 440, device for drying and filtering 450, expansion valve 460, evaporating pressure regulating valve 470th, evaporator 480 and gas-liquid separator 490 are sequentially connected, and gas-liquid separator 490 is connected formation circulation with compressor 410 Loop.Wherein, evaporator 480 is arranged inside second channel 130, and evaporator 480 is used to absorb the internal gas flow of second channel 130 Heat, to be cooled down to the air-flow inside second channel 130.

In the present embodiment, generator is connected with compressor 410, and generator to compressor 410 provide mechanical energy with Driving compressor 410 operates.Wherein, generator includes belt pulley (not shown), and generator is connected by belt pulley and compressor 410 Connect, and generator drives compressor 410 to operate by belt pulley.

The temperature control system 10 that the present embodiment provides is logical in the inside of first passage 120 and second by the first drainage system 110 Road 130 is internally formed air flow, and actuating unit 200 is radiated by radiating subassembly 300, and radiating subassembly 300 is right Actuating unit 200 radiates and absorbs the used heat that actuating unit 200 gives out, and the radiating subassembly 300 for absorbing used heat is logical to first Air-flow heating inside road 120, and enable the function that heating is realized from air-flow derived from first passage 120, pass through refrigeration machine Structure 400 freezes to the air-flow inside second channel 130 so that can realize refrigerating function from air-flow derived from second channel 130.It is logical The function that heating is realized using the used heat of actuating unit 200 is crossed, rationally make use of used heat caused by actuating unit 200, is saved The substantial amounts of energy.

Second embodiment

A kind of air-conditioning (not shown) is present embodiments provided, it can effectively be entered rationally using used heat caused by itself Row refrigeration and heating, and the substantial amounts of energy can be saved.Wherein air-conditioning includes the temperature that housing (not shown) and first embodiment provide Control system 10, wherein, temperature control system 10 is arranged at enclosure interior.

Preferred embodiment of the present utility model is the foregoing is only, is not limited to the utility model, for this For the technical staff in field, the utility model can have various modifications and variations.It is all in the spirit and principles of the utility model Within, any modification, equivalent substitution and improvements made etc., it should be included within the scope of protection of the utility model.

Claims (10)

1. a kind of temperature control system, applied to air-conditioning, it is characterised in that the temperature control system includes refrigeration mechanism, actuating unit, dissipated Hot component and temperature control mechanism, the actuating unit are connected with the refrigeration mechanism, and the actuating unit is used to drive the refrigeration Mechanism；

The temperature control mechanism includes the first drainage system, first passage and second channel, first drainage system and described the One passage connects and is used to guide the air current flow inside the first passage, first drainage system and the second channel Connect and be used to guide the air current flow inside the second channel；

The radiating subassembly is connected with the actuating unit, and the radiating subassembly is used to radiate to the actuating unit, and institute State radiating subassembly to be arranged inside the first passage, so that the radiating subassembly can heat the gas inside the first passage Stream；

The refrigeration mechanism is connected with the second channel, and the refrigeration mechanism is used for the second channel internal gas flow Refrigeration.

2. temperature control system according to claim 1, it is characterised in that the temperature control system also include the first closed air-valve and Second closed air-valve, the first closed air-valve are arranged inside the first passage, and the first closed air-valve is optionally To open the first passage or close the first passage, the second closed air-valve is arranged inside the second channel, The second closed air-valve selectively turns on the second channel or closes the second channel.

3. temperature control system according to claim 2, it is characterised in that the radiating subassembly is arranged at the described first closed wind Between valve and first drainage system, the refrigeration mechanism is arranged at first drainage system and the second closed air-valve Between.

4. temperature control system according to claim 1, it is characterised in that the temperature control system also includes mainstream channel, described First drainage system is arranged inside the mainstream channel, the first passage and the second channel respectively with the major flow Road connects.

5. temperature control system according to claim 1, it is characterised in that the actuating unit includes generator, the refrigeration Mechanism includes compressor, and the generator is connected with the compressor, and the generator is used to provide machinery to the compressor Can, the generator is connected with first drainage system, and the generator is used to provide electric energy to first drainage system.

6. temperature control system according to claim 1, it is characterised in that the radiating subassembly includes cooling water tank, heat exchanger With the first flow channel, the cooling water tank is connected and formed by first flow channel with the heat exchanger and is recycled back to Road, the cooling water tank are connected with the actuating unit, and the heat exchanger is arranged inside the first passage.

7. temperature control system according to claim 6, it is characterised in that the radiating subassembly also includes the first control valve, institute State the first control valve to be connected with first flow channel, and first control valve selectively turns on first flowing Passage is so that the first flowing channel conductive, or first control valve close first flow channel.

8. temperature control system according to claim 6, it is characterised in that the actuating unit also includes smoke evacuation muffler and the Two water stream channels, the smoke evacuation muffler are connected with the actuating unit, and the smoke evacuation muffler passes through institute with the heat exchanger The second water stream channel is stated to connect with the heat exchanger and form circulation loop.

9. temperature control system according to claim 8, it is characterised in that be provided with the second control on second water stream channel Valve, second control valve selectively turns on second water stream channel so that second water stream channel conducting, Huo Zhesuo State the second control valve and close second water stream channel.

A kind of 10. air-conditioning, it is characterised in that the temperature control system including housing and as described in claim 1-9 any one, it is described Temperature control system is arranged at the enclosure interior.