CN207515369U - A kind of dehumidifying drying all-in-one machine - Google Patents

Abstract

The utility model provides a kind of dehumidifying drying all-in-one machine, is related to eliminating the technical field of drying of liquid from solid material or product, solves the technical issues of how rapid draing cools down material.For the removal moisture drying to drying chamber, including four-way reversing valve, body and the condenser being respectively arranged in body, compressor and evaporator, compressor is connected to and in communication with four-way reversing valve, evaporator is connected to and in communication with respectively with four-way reversing valve and condenser, and condenser is connected to and in communication with four-way reversing valve；The export and import of body and drying chamber is connected to and in communication with；Condenser is located at the exit of body, and is equipped with the first wind turbine in the exit of body；The import of body can be connected with space where condenser；It is cooled by cooling medium liquid followed by compressor, four-way reversing valve, evaporator, condenser, four-way reversing valve and compressor so as to be formed after condenser dehumidification cooling in dry cold wind and entrance drying chamber from the hot wind that drying chamber flows out to material.

Description

A kind of dehumidifying drying all-in-one machine

Technical field

The utility model is related to eliminate the technical field of drying of liquid from solid material or product, more particularly, to one kind Dehumidification drying machine.

Background technology

In the prior art, removal moisture drying, but dehumidifying drying unit are carried out to material by using dehumidifying drying unit After drying stage terminates, material natural cooling needs the long period, and material is easily by outside in natural cooling process Air impact so as to which material drying be caused to get damp, and then influences the drying effect to material.And the natural cooling time is long, so as to Extend the drying cycle time.

Utility model content

The purpose of this utility model is to provide a kind of dehumidifying drying all-in-one machine, with solve it is in the prior art how Rapid draing cools down the technical issues of material.Optimal technical scheme in many technical solutions provided by the utility model can produce Raw many technique effects elaboration as detailed below.

To achieve the above object, the utility model provides following technical scheme：

For the removal moisture drying to drying chamber, refrigerant is converted including being used for for dehumidifying drying all-in-one machine provided by the utility model Liquid stream to four-way reversing valve, body and the condenser being respectively arranged in the body, compressor and evaporator, the four-way Reversal valve is fixedly installed in the body, and the compressor is connected to and in communication with the four-way reversing valve, the evaporator point It is not connected to and in communication with the four-way reversing valve and the condenser, the condenser connect and connects with the four-way reversing valve It is logical；The inlet and outlet of the body corresponds to be connected to and in communication with the export and import of the drying chamber respectively；The condenser position The first wind turbine is installed in the exit of the body, and in the exit of the body；The import of the body can be with institute Space connection where stating condenser；By cooling medium liquid followed by the compressor, the four-way reversing valve, the evaporator, The condenser, the four-way reversing valve and the compressor are so that the hot wind flowed out from the drying chamber is removed by the condenser It is clammy but to form dry cold wind afterwards and cool into the drying chamber is interior to material.

The beneficial effects of the utility model are that the flow direction of cooling medium liquid can be converted by the setting of four-way switching valve, so as to Cooling medium liquid is enough made to complete refrigerant followed by compressor, four-way reversing valve, evaporator, condenser, four-way reversing valve and compressor The cycle of liquid.And then condenser is enable to play the effect of heat absorption condensation, hot-air is cooled down and the moisture in hot-air is cold It coagulates so as to which the moisture removed in hot-air forms dry cold air.Since the outlet of drying chamber is connected with the import of body, and The import of body can be connected again with space where condenser, and condenser is located at the exit of body, therefore, positioned at body Under the driving of first wind turbine in exit, the hot-air of drying chamber enters in body and can to flow through condenser dry so as to be formed Cold air.It can cool after cold air enters drying chamber to the material in drying chamber, and then reaching drops material rapid draing The effect of temperature shortens cooling time, avoids getting damp in natural cooling process material.

Based on the above technical solution, the utility model can also do following improvement.

Further, the dehumidifying drying all-in-one machine, be separately installed on the side wall of the body the second wind turbine and First air-valve, second wind turbine are located at the rear side of the evaporator, and first air-valve is located at the front side of the evaporator.

Advantageous effect using above-mentioned further scheme is that the first air-valve can make the cold air in external environment enter machine In vivo, and due in drying chamber hot-air enter body so as to improve the temperature in body.It needs by starting the second wind turbine band Stream of hot air in the dynamic cold air mixed organism into body, by the cooling effect of evaporator, forms heat through evaporator Air arranges outwardly environment at the second wind turbine, so as to reduce machine body temperature.

Further, the dehumidifying drying all-in-one machine is installed on the side wall of the body at second wind turbine There is the second air-valve.

Advantageous effect using above-mentioned further scheme be the second air-valve be turned on and off can be in control machine body sky Whether gas outwardly flows.

Further, the dehumidifying drying all-in-one machine, further includes multiple partition boards, and multiple partition boards are installed on the machine In vivo and the inner space of the body is divided into multiple sealing chambers.

Advantageous effect using above-mentioned further scheme be sealing chamber setting can in limiting body air flowing side To so as to be conducive to the drying and cooling to drying chamber.

Further, the dehumidifying drying all-in-one machine, the sealing chamber include the first Room and second Room, first Room Outlet with the body is connected, and the second Room is connected with the import of the body, first Room and described second Third air-valve is installed between room；It is indoor that the condenser is located at described first.

Advantageous effect using above-mentioned further scheme can be limited in drying chamber by the setting of the first Room and second Room Hot-air in the first Room and the second indoor moveable, so as to which hot-air quickly is converted to cold air.

Further, the dehumidifying drying all-in-one machine, the sealing chamber further include third room and fourth ventricle, the third 4th air-valve is installed between room and the fourth ventricle；The compressor and the evaporator are respectively positioned in the third room；Institute It states the first Room and the fourth ventricle is mutually isolated, the second Room and the third room are mutually isolated.

Advantageous effect using above-mentioned further scheme is can to limit each sealing chamber by the setting of multiple sealing chambers Interior wind direction, so as to form hot-air circulating path and cold air circulating path.

Further, the dehumidifying drying all-in-one machine, the 4th air-valve are installed on the top of the evaporator.

Advantageous effect using above-mentioned further scheme is that the 4th air-valve is set to the top of evaporator to make the 4th The hot-air of room comes into full contact with after entering third room with evaporator, so as to be cooled down hot-air and condense the moisture shape in hot-air Into dry cold air.

Further, the dehumidifying drying all-in-one machine, further includes Returning heat-exchanger, and the Returning heat-exchanger is installed on institute It states on partition board and is located in first Room, the second Room, the third room and the fourth ventricle respectively.

Advantageous effect using above-mentioned further scheme is that the setting of Returning heat-exchanger can will pass through the temperature before evaporator Degree reduces, so as to avoid evaporating temperature in evaporator excessively high；It will be preheated simultaneously into the cold air before condenser, reach and fill Divide the effect using heat in air circulation.

Further, the dehumidifying drying all-in-one machine, the Returning heat-exchanger include the first heat of sequentially head and the tail connection Exchange side, the second heat exchange, third heat exchange and the 4th heat exchange, and respectively it is corresponding with first Room, second Room, Third room is connected with fourth ventricle, and first heat exchange is connected with the third heat exchange, second heat exchange Side is connected with the 4th heat exchange.

Advantageous effect using above-mentioned further scheme is can be formed to intersect heat friendship by the setting of Returning heat-exchanger It changes, so as to be conducive to the utilization of heat in air circulation.

Further, the dehumidifying drying all-in-one machine, further includes electric heater, and the electric heater is installed on the machine In vivo and positioned at the side of the condenser.

Advantageous effect using above-mentioned further scheme is that the setting of electric heater can realize that low temperature environment does not influence to remove The normal operation of wet drying integral machine when external environment exceeds the temperature range of compressor operating, can first open electrical heating Device.After standby body temperature reaches the temperature of compressor operating, start compressor heating operation.Due to air and refrigerant in body The cycle of liquid is interior cycle, and after dehumidifying drying all-in-one machine is opened, the temperature of external environment will not be to the fortune of dehumidifying drying all-in-one machine Row has any impact.

Description of the drawings

It in order to illustrate the embodiment of the utility model or the technical proposal in the existing technology more clearly, below will be to embodiment Or attached drawing needed to be used in the description of the prior art is briefly described, it should be apparent that, the accompanying drawings in the following description is only It is some embodiments of the utility model, for those of ordinary skill in the art, in the premise not made the creative labor Under, it can also be obtained according to these attached drawings other attached drawings.

Fig. 1 is the utility model cooling procedure schematic diagram；

Fig. 2 is the utility model drying course schematic diagram；

Fig. 3 is the utility model Returning heat-exchanger heat exchange schematic diagram.

1- drying chambers in figure, 2- bodies, 3- partition boards, 4- condensers, 5- compressors, 6- evaporators, 7- four-way reversing valves, 21- First Room, 22- second Rooms, 23- thirds room, 24- fourth ventricles, the first wind turbines of 25-, the second wind turbines of 26-, the first air-valves of 81-, 82- Second air-valve, 83- third air-valves, the 4th air-valves of 84-, the first heat exchanges of 91-, the second heat exchanges of 92-, 93- thirds heat are handed over Side change, the 4th heat exchanges of 94-, 10- electric heaters, 20- expansion valves.

Specific embodiment

It, below will be to the technology of the utility model to make the purpose of this utility model, technical solution and advantage clearer Scheme is described in detail.Obviously, the described embodiments are only a part of the embodiments of the utility model rather than whole Embodiment.Based on the embodiment in the utility model, those of ordinary skill in the art are not before creative work is made Obtained all other embodiment is put, belongs to the range that the utility model is protected.

The utility model provides a kind of dehumidifying drying all-in-one machine, for the removal moisture drying to drying chamber 1.Including being used to convert Four-way reversing valve 7, body 2 and the condenser 4 being respectively arranged in body 2, compressor 5 and the evaporator 6 that cooling medium liquid flows to.Four Logical reversal valve 7 is fixedly installed in body 2.Compressor 5 is connected to and in communication with four-way reversing valve 7.Evaporator 6 changes respectively with four-way It is connected to and in communication with to valve 7 and condenser 4.Condenser 4 is connected to and in communication with four-way reversing valve 7.The inlet and outlet difference of body 2 The corresponding export and import with drying chamber 1 is connected to and in communication with.Condenser 4 is located at the exit of body 2, and in the exit of body 2 First wind turbine 25 is installed.The import of body 2 can be connected with 4 place space of condenser.By cooling medium liquid followed by compression Machine 5, four-way reversing valve 7, evaporator 6, condenser 4, four-way reversing valve 7 and compressor 5 are so that the hot wind flowed out from drying chamber 1 passes through Dry cold wind is formed after 4 dehumidification cooling of condenser and is entered in drying chamber 1 and is cooled to material.

Specifically, as shown in Figure 1, wherein Fig. 1 is the utility model cooling procedure schematic diagram.Four-way reversing valve 7 has four A interface, condenser 4, compressor 5 and evaporator 6 respectively have there are two interface.Wherein, two interfaces difference of compressor 5 It is connected to and in communication with two interfaces of four-way reversing valve 7.One interface of condenser 4 connects with an interface of four-way reversing valve 7 It connects and connects, another interface of condenser is connected to and in communication with an interface of evaporator 6.Another interface of evaporator 6 It is connected to and in communication with an interface of four-way reversing valve 7.Between condenser 4, compressor 5, evaporator 6 and four-way reversing valve 7 Circulation makes cooling medium liquid.The material for being oven-dried and cooling down is placed in drying chamber 1.

Terminate in material drying, the material cooling procedure being oven-dried in order to prevent is got damp, the utility model it is cooled Journey is as described below.The flow direction of cooling medium liquid is converted by four-way switching valve 7, so as to which cooling medium liquid be made to be changed followed by compressor 5, four-way To valve 7, evaporator 6, condenser 4, four-way reversing valve 7 and compressor 5, the cycle of cooling medium liquid is completed so as to make evaporator 6 Condenser use is done, condenser 4 does evaporator use.And then condenser 4 is enable to play the effect of heat absorption condensation, hot-air is cooled down And by the condensate moisture in hot-air so as to which the moisture removed in hot-air forms dry cold air.Due to the outlet of drying chamber 1 Import with body 2 is connected, and the import of body 2 can be connected with 4 place space of condenser, and condenser 4 is located at machine The exit of body 2, therefore, under the driving positioned at first wind turbine 25 in the exit of body 2, the hot-air of drying chamber 1 enters body 2 It is interior and condenser 4 can be flowed through so as to form dry cold air.It can be to the object in drying chamber 1 after cold air enters drying chamber 1 Material cools, and then achievees the effect that material rapid draing is made to cool down, and shortens cooling time and drying stand-by period, improves and remove The utilization rate of wet drying integral machine avoids getting damp and can taking out material in time in natural cooling process material.

Optionally embodiment is separately installed with the second wind turbine 26 and the first air-valve 81 on the side wall of body 2.The Two wind turbines 26 are located at the rear side of evaporator 6, and the first air-valve 81 is located at the front side of evaporator 6.

Specifically, as shown in Figure 1, Electric air valve may be used in the first air-valve 81, consequently facilitating opening and closing.First wind The unlatching of valve 81 can be such that the cold air in external environment enters in body 2.And since the heat in drying chamber 1 in cooling procedure is empty Gas enters body 2 so as to improve the temperature in body 2.It needs to drive by the second wind turbine 26 of startup cold into body 2 Hot-air in air mixer body 2 flows through interior so as to increase the contact with evaporator 6 into evaporator 6 from the front side of evaporator 6 Area by the cooling effect of evaporator 6, forms hot-air and outwardly environment is arranged at the second wind turbine 26, so as to reduce machine Temperature in body 2.

Optionally embodiment is equipped with the second air-valve 82 on the side wall of the body 2 at the second wind turbine 26.

Specifically, as shown in Figure 1, Electric air valve may be used in the second air-valve 82, consequently facilitating opening and closing.Second wind Whether the air being turned on and off to control in body 2 of valve 82 outwardly flows.

Optionally embodiment further includes multiple partition boards 3.Multiple partition boards 3 are installed in body 2 and by bodies 2 Inner space is divided into multiple sealing chambers.

Specifically, as shown in Figure 1, the setting of sealing chamber can in limiting body 2 air flow direction, so as to be conducive to Drying and cooling to drying chamber.

Further, sealing chamber includes the first Room 21 and second Room 22.First Room 21 is connected with the outlet of body 2.The Two Room 22 are connected with the import of body 2.Third air-valve 83 is installed between first Room 21 and second Room 22.Condenser 4 is located at In first Room 21.

Specifically, as shown in Figure 1, Electric air valve may be used in third air-valve 83, consequently facilitating opening and closing.First Room 21 can be located at the top of second Room 22.The first Room 21 can be made to be connected with second Room 22 by opening and closing third air-valve 83 Or closing, so as to which the hot-air in drying chamber 1 is made to be flowed in the first Room 21 and second Room 22, and then can quickly will be hot Air is converted to cold air.In cooling procedure is carried out, it is necessary first to open third air-valve 83 so that the first Room 21 and second Room 22 are connected.Condenser 4 can also by the way of being obliquely installed, so that the lower surface of condenser 4 is corresponding with third air-valve 83, So as to increase the contact area of condenser 4 and hot-air.

Further, sealing chamber further includes third room 23 and fourth ventricle 24.It is equipped between third room 23 and fourth ventricle 24 4th air-valve 84.Compressor 5 and evaporator 6 are respectively positioned in third room 23.First Room 21 and fourth ventricle 24 are mutually isolated.Second Room 22 and third room 23 it is mutually isolated.

Specifically, as shown in Figure 1, Electric air valve may be used in the 4th air-valve 84, consequently facilitating opening and closing.Fourth ventricle 24 are located at the lower section of third room 23.Fourth ventricle 24 can be made to be connected with third room 23 by the unlatching of the 4th air-valve 84, so as to The flowing of air between each sealing chamber.

Further, the 4th air-valve 84 is installed on the top of evaporator 6.

Specifically, the heat of fourth ventricle 24 can be made empty as shown in Fig. 2, the 4th air-valve 84 to be set to the top of evaporator 6 Gas comes into full contact with after entering third room 23 with evaporator 6, so as to hot-air is cooled down and condense the moisture in hot-air formed it is dry Dry cold air, and then play the role of dehumidifying.The lower end that the 4th air-valve 84 may be used in 4th air-valve 84 is fixedly installed in steaming The partition board 3 at 6 top of device is sent out, upper end is fixedly mounted on the roof of body 2, and when the 4th air-valve 84 is closed, the 4th air-valve 84 rises To the effect of isolation third room 23 and fourth ventricle 24；When the 4th air-valve 84 is opened, the hot-air in fourth ventricle 24 can enter In third room 23, so as to which evaporator 6 is made to dehumidify the moisture in hot-air.

Further, Returning heat-exchanger is further included.Returning heat-exchanger be installed on partition board 3 and respectively be located at the first Room 21, In second Room 22, third room 23 and fourth ventricle 24.

Specifically, the distributary used in the prior art, which may be used, in Returning heat-exchanger exchanges core or countercurrent heat exchange core Or one kind in cross-counterflow heat exchanging core, it can realize 22 He of heat exchange and second Room of the first Room 21 and third room 23 The heat exchange of fourth ventricle 24, and without heat exchange, adjacent second Room 22 and third between the first adjacent Room 21 and fourth ventricle 24 Without heat exchange between room 23.

Further, Returning heat-exchanger includes sequentially the first heat exchange 91 of head and the tail connection, the second heat exchange 92, the Three heat exchanges 93 and the 4th heat exchange 94, and corresponding and the first Room 21, second Room 22, third room 23 and fourth ventricle 24 respectively It is connected, first heat exchange 91 is connected with third heat exchange 93, the second heat exchange 92 and the 4th heat exchange 94 are connected.

Specifically, as shown in Figures 2 and 3, wherein, Fig. 2 is the utility model drying course schematic diagram, and Fig. 3 is this practicality Novel Returning heat-exchanger heat exchange schematic diagram.Cube structure may be used in Returning heat-exchanger.It was dried in dehumidifying drying all-in-one machine Cheng Zhong, the 4th air-valve 84 are opened, and the first air-valve 81, the second air-valve 82 and third air-valve 83 are turned off.Start 25 He of the first wind turbine Second wind turbine 26.Hot wet air heating in drying chamber 1 enters second Room 22, and enter from the second heat exchange 92 from the outlet of drying chamber 1 Returning heat-exchanger from the 4th heat exchange 94 goes out and has carried out the humid air that first time heat exchange forms cooling, into the 4th Room 24.Enter third room 23 from fourth ventricle 24 by the 4th air-valve 84.Enter evaporator 6 from the hot side of evaporator 6, from evaporator 6 cold side goes out evaporator 6, and cooling humid air is further cooled down by evaporator 6, and after water capacity reaches saturation, this process has cold Condensate is precipitated and forms dry cold air.Drying cold air in third room 23 enters backheat by third heat exchange 93 and hands over Parallel operation goes out from the first heat exchange 91, and the heat in Returning heat-exchanger in absorption first time heat exchange is formed to drying The preheating of cold air completes second of heat exchange, into the first Room 21.Enter condenser 4 from the cold side of condenser 4, from cold The hot side of condenser 4 goes out, and forms dry hot-air and enters drying chamber 1.After material drying, dry hot air temperature reduces, humidity Increase, the second Room 22 for returning again to dehumidifying drying all-in-one machine completes hot air circulation.

Wherein, the effect of Returning heat-exchanger is will to be reduced by the air themperature before evaporator 6, cooling medium liquid is avoided to follow The evaporating temperature of ring is excessively high；It will be preheated simultaneously into the cold air before condenser 4.Belong to heat recycle process, make full use of system Internal heat.

Expansion valve 20 can also be installed on the pipeline for being connected and connecting with evaporator 6 in condenser 4.

Cooling medium liquid cycle is in drying course, and cooling medium liquid is followed by compressor 5, four-way reversing valve 7, condenser 4, swollen Swollen valve 20, evaporator 6, four-way reversing valve 7 and compressor 5 are so that from the damp-heat air that drying chamber 1 flows out by evaporator 6 except clammy But dry cold air is formed afterwards and dry hot-air is formed after evaporator 6 enters in drying chamber 1 to drying materials.

Optionally embodiment further includes electric heater 10.Electric heater 10 is installed in body 2 and positioned at condensation The side of device 4.

Specifically, as shown in Fig. 2, being installed with fixed plate on the inner wall of body 2, electric heater 10 can pass through spiral shell It tethers to connect and be fixedly mounted in fixed plate.When external environment exceeds the temperature range of compressor operating, it can first open electricity and add Hot device 10.After the temperature that temperature in body 2 reaches the operation of compressor 5, start 5 heating operation of compressor.Due to empty in body 2 The cycle of gas and cooling medium liquid is interior cycle, and after dehumidifying drying all-in-one machine is opened, the temperature of external environment will not be to dehumidifying drying one The operation of body machine has any impact.

In the description of the present invention, it is to be appreciated that term " " center ", " on ", " under ", "front", "rear", The orientation or position relationship of the instructions such as "left", "right", " transverse direction ", " vertical ", " level ", " bottom " " interior ", " outer " are based on attached drawing Shown orientation or position relationship are for only for ease of description the utility model and simplify description rather than instruction or imply institute The device or element of finger must have specific orientation, with specific azimuth configuration and operation, therefore it is not intended that this reality With novel limitation.

In addition, term " first ", " second " are only used for description purpose, and it is not intended that instruction or hint relative importance Or the implicit quantity for indicating indicated technical characteristic.Define " first " as a result, the feature of " second " can be expressed or Implicitly include at least one this feature." multiple " are meant that at least two, such as two in the description of the present invention, It is a, three etc., unless otherwise specifically defined.

In the utility model unless specifically defined or limited otherwise, term " installation ", " connected ", " connection ", " Gu It is fixed " etc. terms should be interpreted broadly, for example, it may be being fixedly connected or being detachably connected or integral；Can be Mechanical connection or electrical connection；It can be directly connected, can also be indirectly connected by intermediary, can be two The interaction relationship of connection or two elements inside element, unless otherwise restricted clearly.For the common skill of this field For art personnel, concrete meaning of the above-mentioned term in the utility model can be understood as the case may be.

In the utility model unless specifically defined or limited otherwise, fisrt feature is "above" or "below" second feature Can be that the first and second features are in direct contact or the first and second features pass through intermediary mediate contact.Moreover, first is special Sign second feature " on ", " top " and " above " can be fisrt feature right over second feature or oblique upper or only Represent that fisrt feature level height is higher than second feature.Fisrt feature second feature " under ", " lower section " and " below " can be with It is fisrt feature immediately below second feature or obliquely downward or is merely representative of fisrt feature level height less than second feature.

The above, only specific embodiment of the present utility model, but the scope of protection of the utility model is not limited to In this, in the technical scope that any one skilled in the art discloses in the utility model, variation can be readily occurred in Or replace, it should be covered within the scope of the utility model.Therefore, the scope of protection of the utility model should be with the power Subject to the protection domain of profit requirement.

Claims (10)

1. a kind of dehumidifying drying all-in-one machine, for the removal moisture drying to drying chamber (1), which is characterized in that convert refrigerant including being used for Liquid stream to four-way reversing valve (7), body (2) and the condenser (4) being respectively arranged in the body (2), compressor (5) and Evaporator (6),

The four-way reversing valve (7) is fixedly installed in the body (2), the compressor (5) and the four-way reversing valve (7) It is connected to and in communication with, the evaporator (6) is connected to and in communication with respectively with the four-way reversing valve (7) and the condenser (4), described Condenser (4) is connected to and in communication with the four-way reversing valve (7)；

The inlet and outlet of the body (2) corresponds to be connected to and in communication with the export and import of the drying chamber (1) respectively；It is described cold Condenser (4) is equipped with the first wind turbine (25) positioned at the exit of the body (2), and in the exit of the body (2)；It is described The import of body (2) can be connected with space where the condenser (4)；

By cooling medium liquid followed by the compressor (5), the four-way reversing valve (7), the evaporator (6), the condensation Device (4), the four-way reversing valve (7) and the compressor (5) are so that the hot wind flowed out from the drying chamber (1) passes through the condensation Dry cold wind is formed after device (4) dehumidification cooling and is entered in the drying chamber (1) and is cooled to material.

2. dehumidifying drying all-in-one machine according to claim 1, which is characterized in that on the side wall of the body (2) respectively Second wind turbine (26) and the first air-valve (81) be installed, second wind turbine (26) positioned at the evaporator (6) rear side, it is described First air-valve (81) is positioned at the front side of the evaporator (6).

3. dehumidifying drying all-in-one machine according to claim 2, which is characterized in that described at second wind turbine (26) Second air-valve (82) is installed on the side wall of body (2).

4. dehumidifying drying all-in-one machine according to claim 1, which is characterized in that multiple partition boards (3) are further included, it is multiple described Partition board (3) is installed in the body (2) and the inner space of the body (2) is divided into multiple sealing chambers.

5. dehumidifying drying all-in-one machine according to claim 4, which is characterized in that the sealing chamber include the first room (21) and Second Room (22), first room (21) are connected with the outlet of the body (2), the second Room (22) and the body (2) import is connected, and third air-valve (83) is equipped between first room (21) and the second Room (22)；The condensation Device (4) is in first room (21).

6. dehumidifying drying all-in-one machine according to claim 5, which is characterized in that the sealing chamber further includes third room (23) With fourth ventricle (24), the 4th air-valve (84) is installed between the third room (23) and the fourth ventricle (24)；The compressor (5) it is respectively positioned in the third room (23) with the evaporator (6)；First room (21) and the fourth ventricle (24) mutually every From the second Room (22) and the third room (23) are mutually isolated.

7. dehumidifying drying all-in-one machine according to claim 6, which is characterized in that the 4th air-valve (84) is installed on described The top of evaporator (6).

8. dehumidifying drying all-in-one machine according to claim 6, which is characterized in that further include Returning heat-exchanger, the backheat Exchanger is installed on the partition board (3) and is located at first room (21), the second Room (22), the third room respectively (23) and in the fourth ventricle (24).

9. dehumidifying drying all-in-one machine according to claim 8, which is characterized in that the Returning heat-exchanger includes sequentially head and the tail The first heat exchange (91), the second heat exchange (92), third heat exchange (93) and the 4th heat exchange (94) of connection, and Correspondence is connected with first room (21), the second Room (22), the third room (23) and the fourth ventricle (24) respectively, First heat exchange (91) is connected with the third heat exchange (93), second heat exchange (92) and described Four heat exchanges (94) are connected.

10. according to claim 1 to 9 any one of them dehumidifying drying all-in-one machine, which is characterized in that further include electric heater (10), the electric heater (10) is installed in the body (2) and positioned at the side of the condenser (4).