CN116507081A - Heat abstractor of electromechanical device - Google Patents

Abstract

The invention discloses a heat dissipating device of electromechanical equipment, which comprises a machine body, a control unit, a driving motor, a first driving mechanism, an air treatment bin, a temperature detection piece, a temperature control unit and a temperature control unit, wherein the driving motor is arranged on the machine body and used for controlling an air cooling system to work, the air cooling system is also connected with the first driving mechanism, one side of the machine body is provided with the air treatment bin which comprises a dehumidification state and a dust removal state, the temperature detection piece is also arranged on the machine body and used for controlling the liquid cooling system to start, the air treatment bin is controlled to be switched from the dehumidification state to the dust removal state, and the heat dissipating efficiency of the liquid cooling system is quickened in a same way along with the rising of temperature. Through air cooling heat dissipation under normal atmospheric temperature or lower temperature, when outside temperature risees and reaches the fixed value, carries out forced air cooling and liquid cooling heat dissipation this moment, and along with the temperature when rising continuously, the velocity of water in the liquid cooling heat dissipation increases, further increases the radiating effect of liquid cooling system, avoids the inside part of electromechanical device impaired, simultaneously can also independently selectively dehumidify or remove dust to the air of income according to the outside temperature condition, further protects spare part.

Description

Heat abstractor of electromechanical device

Technical Field

The invention relates to the technical field of electromechanical equipment, in particular to a heat dissipation device of electromechanical equipment.

Background

The variety of electromechanical devices is great, and although some electromechanical devices are stored in indoor environments, there are many electromechanical devices that are placed outdoors.

The following problems are common with electromechanical devices placed outdoors:

1. the heat dissipation problem is that the traditional electromechanical equipment is only provided with a fan for heat dissipation, only heat energy generated in the electromechanical equipment needs to be discharged at normal temperature, when the high-temperature weather is met, the temperature in the electromechanical equipment can be secondarily increased under the condition of direct sun irradiation, and the electromechanical equipment is protected only by the far insufficient heat dissipation of the fan;

2. the problem of ventilation, when the heat dissipation, in order to guarantee the ventilation further, need to flow in the outside air into the organism, at normal atmospheric temperature or low temperature weather, moisture in the air is more, and too much steam is inhaled in the electromechanical device this moment, can lead to the internals to wet even impaired, and when high temperature, although the moisture in the air reduces, but the dust content in the air greatly increased, and too much dust is sent into electromechanical device, also can cause the influence to electromechanical device.

Disclosure of Invention

Aiming at the defects of the prior art, the invention provides a heat dissipation device of an electromechanical device, which can effectively solve the problems of the electromechanical device stored outdoors.

The technical scheme adopted for solving the technical problems is as follows: the utility model provides a heat abstractor of electromechanical device, includes the organism, be provided with a plurality of control unit of group in the organism, install driving motor on the organism, driving motor is used for controlling air cooling system work, still be connected with on the air cooling system and be used for increasing air circulation's in the organism first actuating mechanism, organism one side is provided with the air treatment storehouse, including dehumidification state and dust removal state, still be provided with the temperature detection spare on the organism, the temperature detection spare is used for controlling the liquid cooling system and starts, and the control simultaneously the air treatment storehouse switches into dust removal state from dehumidification state, and along with the temperature rises, the homonymy quickens the radiating efficiency of liquid cooling system.

In the above technical scheme, further, be provided with first bevel gear on driving motor's the motor pole, air cooling system is including arranging in motor pole both sides and transversely installed left actuating lever and right actuating lever, be provided with on left actuating lever and the right actuating lever with first bevel gear engaged with second bevel gear and third bevel gear, simultaneously the other end of left actuating lever and right actuating lever is provided with first fan and second fan respectively, first fan outwards exhausts, the second fan inwards admits air.

In the above technical scheme, further, the control unit sets up the organism bottom is simultaneously being provided with the baffle between adjacent the control unit, the control unit top is provided with the fly leaf, be provided with a plurality of groups of through-holes on the fly leaf be provided with on left actuating lever and the right actuating lever first actuating mechanism, first actuating mechanism includes first rim plate and second rim plate, is provided with the spliced pole that is close to its edge between first rim plate and the second rim plate simultaneously be provided with the movable seat on the fly leaf, be provided with the connecting axle on the movable seat, the connecting axle with be connected through the equal rotatable connecting rod in both ends between the spliced pole.

In the above technical scheme, further, the liquid cooling system is including twining the cooling tube that the control unit outside set up, the cooling tube includes water delivery layer, air bed, fixed layer, the outer wall of water delivery layer is flexible material, the air bed is connected to in addition in the gasbag, when the gasbag is compressed, gas in the gasbag is pressed in the air bed and is right the water delivery layer extrudees.

Among the above-mentioned technical scheme, further, including dehumidification module and spraying module in the air treatment storehouse, be provided with thermal switch in the temperature detection spare, liquid cooling system and spraying module are connected to on the first power and pass through thermal switch control, liquid cooling system with the spraying module is the off state initially, after temperature detection spare detects that the temperature reaches the fixed value, thermal switch starts, control liquid cooling system with the spraying module starts.

In the above technical scheme, further, both sides are provided with the recess in the air treatment storehouse, the dehumidification module is installed in the recess, the dehumidification module includes the rotor plate, be provided with the moisture absorption layer on the rotor plate, the top of rotor plate is provided with the pivot and imbeds the organism both ends, the pivot with be provided with the bearing between the rotor plate, rotor plate middle part is provided with the spout and is provided with the slide in the spout, be connected through the stay cord between slide and the pivot, the rotor plate reaches the pivot tip is provided with first gear and second gear respectively.

In the above technical scheme, further, the gasbag sets up the one end at hold-down mechanism, hold-down mechanism includes top board and holding down plate, and the middle part is provided with the telescopic link, hold-down mechanism's the other end is provided with metal piece and electro-magnet, the metal piece is located the top board, and the electro-magnet is located the holding down plate, still be provided with first spring between top board and the holding down plate, the electro-magnet passes through the circuit and is connected with the second power, be provided with in the second power with the thermistor that the temperature detection spare is connected, simultaneously the second power with still be provided with between the electro-magnet thermal switch, still be provided with a horizontal pole on the top board, be provided with two sets of second springs on the horizontal pole, the second spring below is connected with the rack, the rack respectively with first gear and second gear mesh, two sets of still be provided with the fixed plate between the rotating plate, under the initial state, rotating plate upper surface and the lower surface corresponding position of fixed plate respectively are provided with first magnet and adsorb, the second power source still be provided with the second gear to rotate the spout, rotate the spout and make in the rotating layer, rotate the spout and the second and rotate the spout and the spout make and the spout rotate to the lining.

In the above technical scheme, further, the magnetic force of electro-magnet with thermistor is the inverse ratio, and external temperature is higher, thermistor is littleer, the magnetic force of electro-magnet is greater, the metal piece is close to more the electro-magnet, the rack below is provided with the locating plate, the rack with behind the locating plate contact, the horizontal pole continues to move down can make the second spring takes place deformation, further can right the gasbag compresses once more, the air bed extrusion the water layer takes place deformation outward, makes the cross-sectional area on water layer reduces, and the circulation speed of rivers increases, liquid cooling system radiating efficiency increases.

In the above technical scheme, further, one side of the machine body is also provided with a water tank connected with the air treatment bin, the machine body is provided with a water pump connected with the spraying module, and the water pump is connected with the water tank.

In the above technical scheme, further, still be provided with the aspiration pump subassembly between organism with the air treatment storehouse, the aspiration pump subassembly is located the below in air treatment storehouse, the other end intercommunication to in the control unit.

The beneficial effects of the invention are as follows: through air cooling heat dissipation under normal atmospheric temperature or lower temperature, when outside temperature risees and reaches the fixed value, carries out forced air cooling and liquid cooling heat dissipation this moment, and along with the temperature when rising continuously, the velocity of water in the liquid cooling heat dissipation increases, further increases the radiating effect of liquid cooling system, avoids the inside part of electromechanical device impaired, simultaneously can also independently selectively dehumidify or remove dust to the air of income according to the outside temperature condition, further protects spare part.

Drawings

The invention will be further described with reference to the drawings and examples.

Fig. 1 is a perspective view of the present invention.

Fig. 2 is an internal structural view of the present invention.

Fig. 3 is another angular internal structural view of the present invention.

Fig. 4 is a connection diagram of the thermal switch of the present invention.

Fig. 5 is a diagram showing the combination of the radiating pipe, the pressing mechanism and the dehumidifying module at normal temperature.

Fig. 6 is a diagram showing the combination of the heat pipe, the pressing mechanism and the dehumidifying module in the high temperature state of the present invention.

Fig. 7 is a diagram showing the combination of the heat pipe with the pressing mechanism and the dehumidifying module in the re-heating state of the present invention.

Fig. 8 is a perspective view of a rotating plate of the present invention.

Fig. 9 is an enlarged view of fig. 2 a of the present invention.

Fig. 10 is a front-rear comparison view of the radiating pipe of the present invention.

Fig. 11 is an enlarged view of fig. 5B of the present invention.

Fig. 12 is an enlarged view of fig. 6 at C of the present invention.

In the drawings, 1, 2, control unit, 3, drive motor, 4, air treatment compartment, 5, temperature sensing member, 6, first bevel gear, 7, left drive shaft, 8, right drive shaft, 9, second bevel gear, 10, third bevel gear, 11, first fan, 12, second fan, 13, baffle, 14, movable plate, 15, through hole, 16, first wheel, 17, second wheel, 18, connecting seat, 20, connecting shaft, 21, connecting rod, 22, heat pipe, 221, water conveying layer, 222, air layer, 223, fixed layer, 23, air bag, 24, thermal switch, 25, first power source, 26, spray module, 27, dehumidification module, 271, rotating plate, 272, moisture absorbing layer, 273, 274, bearing, chute, 276, 279, 277, pull rope, 278, first gear, second gear, 28, groove, 29, upper and lower plate, 30, 31, telescopic rod, 32, metal block, 33, electromagnet, 34, first spring, 35, 36, top plate, 45, heat sensitive switch, 25, 26, 27, dehumidification module, 271, rotating plate, 272, moisture absorbing layer, 274, bearings, slide groove, 276, and air absorbing layer.

Detailed Description

Referring to fig. 1-12, a heat dissipation device of an electromechanical device includes a machine body 1, a plurality of groups of control units 2 are arranged in the machine body 1, a driving motor 3 is installed on the machine body 1, the driving motor 3 is used for controlling an air cooling system to work, a first driving mechanism used for increasing air circulation in the machine body 1 is further connected to the air cooling system, an air treatment bin 4 is arranged on one side of the machine body 1 and comprises a dehumidification state and a dust removal state, a temperature detection piece 5 is further arranged on the machine body 1, the temperature detection piece 5 is used for controlling a liquid cooling system to start, and meanwhile, the air treatment bin 4 is controlled to switch from the dehumidification state to the dust removal state, and the heat dissipation efficiency of the liquid cooling system is quickened in a same way along with the rising of temperature.

Wherein, driving motor 3 sets up the top of organism 1, driving motor 3's motor pole stretches into in the organism 1 the tip of motor pole is provided with first bevel gear 6, the both sides of bevel gear are provided with left actuating lever 7 and right actuating lever 8, simultaneously in the right-hand member of left actuating lever 7 and the left end of right actuating lever 8 be provided with respectively with the second bevel gear 9 and the third bevel gear 10 of first bevel gear 6 meshing, the left side wall of organism 1 is provided with and is used for installing the first fan 11 of left end of left actuating lever 7, right actuating lever 8 passes organism 1 right side wall and be provided with on the right side wall of air treatment storehouse 4 be used for installing the second fan 12 of right-hand member of right actuating lever 8, the direction of first fan 11 and second fan 12 is opposite, first fan 11 outwards exhausts, second fan 12 inwards admits air, inhales outside and discharges inside hot air circulation efficiency increases.

Further, in order to secure the efficiency of discharging the hot air to be placed at the control unit 2 in the machine body 1, a partition 13 is provided between adjacent ones of the control units 2, while a movable plate 14 is provided above the control units 2, a movable groove is arranged on the side wall of the partition plate 13 and the side wall of the machine body 1, a convex edge is arranged on the periphery of the movable plate 14, the convex edge is arranged in the movable groove, the movable plate 14 can move up and down, meanwhile, a plurality of groups of through holes 15 are arranged on the surface of the movable plate 14, the through holes 15 can facilitate gas exchange, the first driving mechanism is arranged on the shafts of the left driving rod 7 and the right driving rod 8, the first driving mechanism comprises a first wheel disc 16 and a second wheel disc 17, at the same time at the edges of the first 16 and second 17 discs there are provided connecting studs 18 connecting the first 16 and second 17 discs, a movable seat 19 is arranged below the first wheel disc 16 and the second wheel disc 17 and fixed on the movable plate 14, a U-shaped groove is arranged on the movable seat 19, and a connecting shaft 20 is arranged in the U-shaped groove, the connecting shaft 20 is connected with the connecting post 18 through a connecting rod 21, the two ends of the connecting rod 21 are provided with sleeves, the connecting shaft 20 and the connecting post 18 are sleeved in the sleeves, when the left driving rod 7 and the right driving rod 8 rotate, the first wheel disc 16 and the second wheel disc 17 can be driven to rotate, meanwhile, the connecting rod 21 is driven to rotate on the first wheel disc 16 and the second wheel disc 17, so that the connecting rod 21 drives the movable plate 14 to move up and down, and the heat exchange efficiency in the control unit 2 is quickened.

The liquid cooling system specifically comprises a water tank 42, a water pump 43, water ice cubes and a radiator which are arranged outside, wherein the water tank 42, the water pump 43, the water ice cubes and the radiator are connected through a radiating pipe 22, the radiating pipe 22 is wound on the side wall of the control unit 2, the radiating pipe 22 is arranged to be semicircular, the semicircular surface is attached to the side wall of the control unit 2, the radiating pipe 22 respectively comprises a water conveying layer 221, an air layer 222 and a fixing layer 223 from inside to outside, condensed water in the water conveying layer 221 is directly contacted with the control unit 2, the outer wall of the water conveying layer 221 is made of flexible materials and can be extruded and deformed, a certain amount of air is filled in the air layer 222 at the beginning, the air layer 222 also has a certain flexibility, the air layer 222 is extensible and is arranged to penetrate through the fixing layer 223 to be connected into the air bag 23, when the air bag 23 is compressed, air is extruded into the air layer 222, the air layer 222 extrudes the water delivery layer 221 to deform, the cross-sectional area of the water delivery layer 221 is reduced, the water flow rate fed into the water delivery layer 221 is fixed, the water flow rate in the water delivery layer 221 can be increased, and the contact surface between the water delivery layer 221 and the control unit 2 is unchanged, so that heat generated on the surface of the control unit 2 can be transferred out through condensed water more quickly, the heat dissipation efficiency is improved, namely, the higher the compression degree is, and the better the heat dissipation effect is.

The air treatment bin 4 comprises a dehumidification module 27 and a spray module 26, the spray module 26 is arranged at the top of the air treatment bin 4 and can spray, moisture in the air is increased, larger dust particles in the air can be adsorbed and fall to the bottom of the air treatment bin 4, the temperature detection part 5 is in the prior art, a thermal switch 24 is arranged in the temperature detection part 5, the liquid cooling system and the spray module 26 are connected to a first power supply 25 and are opened and closed by the thermal switch 24, the liquid cooling system and the spray module 26 are in a closed state in an initial state at normal temperature, and when the temperature detection part 5 detects that the external temperature reaches a fixed value, the thermal switch 24 is opened at the moment, so that the liquid cooling system and the spray module 26 are controlled to be started.

The air treatment bin 4 is provided with grooves 28 on two side walls, the dehumidifying module 27 is installed in the grooves 28, in an initial state, the dehumidifying module 27 is started, the spraying module 26 is closed, the dehumidifying module 27 comprises a rotating plate 271, the upper part of the rotating plate 271 is a rotating end, a rotating shaft 273 is arranged at the rotating end and embedded into the inner wall of the machine body 1, a first gear 278 and a second gear 279 are arranged in the embedded ends of the rotating plate 271 and the rotating shaft 273, in order to ensure free rotation between the rotating shaft 273 and the rotating plate 271, a bearing 274 is arranged between the rotating shaft 273 and the rotating plate 271, meanwhile, a sliding groove 275 is arranged in the middle of the rotating plate 271, a sliding plate 276 is arranged in the sliding groove 275, when the sliding plate 276 is embedded into the depth of the sliding groove 275, the moisture absorption layer 272 is exposed, when the sliding plate 276 is separated, the moisture absorption layer is covered, in order to enable the sliding plate 276 to reset, and in order to enable the other end 277 of the rotating shaft 273 to be connected with the sliding plate 276.

The air bag 23 is arranged on a pressing mechanism, in particular, the air bag 23 is arranged on the left side of the pressing mechanism, the pressing mechanism comprises an upper pressing plate 29 and a lower pressing plate 30, a telescopic rod 31 is arranged in the middle, the air bag 23 is adhered to the upper pressing plate 29 and the lower pressing plate 30 so as not to be separated from the pressing position all the time, a metal block 32 and an electromagnet 33 are arranged at the right end of the telescopic rod 31, the metal block 32 is fixed at the bottom of the upper pressing plate 29, the electromagnet 33 is fixed on the upper surface of the lower pressing plate 30, a first spring 34 is arranged between the upper pressing plate 29 and the lower pressing plate 30, the electromagnet 33 is connected with a second power supply 36 through a circuit, a thermistor 35 communicated with the temperature detecting piece 5 is arranged in the second power supply 36, the thermosensitive switch 24 is arranged in the middle of the circuit connected with the thermistor so as to control the on-off state of the thermosensitive switch, when the value exceeds a fixed value, the thermal switch 24 is turned on, the second power supply 36 energizes the electromagnet 33, the electromagnet 33 can make the metal block 32 be absorbed downwards, when the magnetic force of the electromagnet 33 is stronger, the distance between the electromagnet 33 and the metal block 32 is closer, a cross bar 37 is further arranged on the upper pressing plate 29, two groups of second springs 38 are arranged at the lower end of the cross bar 37, meanwhile, a rack 39 is arranged at the lower end of the second spring 38, at normal temperature, in the initial state of the air bag 23, the rack 39 is primarily meshed with the first gear 278 and the second gear 279, a fixed plate 40 is arranged between the two groups of rotating plates 271, the fixed plate 40 is fixed in the air treatment bin 4, a first magnet 41 is arranged below the fixed plate 40 and on the upper surfaces of the two groups of rotating plates 271, initially, the two sets of rotating plates 271 are in a flat angle state, the rotating plates 271 are adsorbed on the fixed plate 40 through the first magnet 41, but the adsorption force is not large, only a stable effect is achieved, the pull rope 277 is wound on the rotating shaft 273 and pulls the sliding plate 276 into the sliding groove 275, the moisture absorption layer 272 is in a bare state, air enters the lower part of the air treatment bin 4 through the moisture absorption layer 272, when the temperature rises, the electromagnet 33 is electrified to enable the metal block 32 to be pressed downwards, the rack 39 is downwards and is matched with the first gear 278 and the second gear 279, the rotating plates 271 and the rotating shaft 273 are enabled to rotate, meanwhile, in order to limit the movement of the rack 39, a positioning plate 45 is arranged below the rack 39, when the rack 39 is in contact with the positioning plate 45, the transverse plate is pressed down again, the rotating plates 271 and the rotating shaft 273 are not driven to rotate, only the second spring 38 is enabled to be pressed downwards, and when the rack 39 is compressed, the sliding plate 272 is converted into the sliding groove from the transverse position to the transverse position, and the sliding groove is embedded into the sliding groove 28, and gravity is embedded into the sliding groove 28.

One side of the machine body 1 is provided with a water tank 42 connected with the air treatment bin 4, a one-way valve is arranged in a through hole 15 between the two water tank 42 and can only enable water in the air treatment bin 4 to flow into the water tank 42, meanwhile, the bottom of the air treatment bin 4 forms an oblique angle, water inflow is facilitated, the top of the machine body 1 is provided with a water pump 43 connected with the spraying module 26, the effect of recycling can be achieved, and further, a water purifier is arranged between the water pump 43 and the water tank 42, and water sprayed from spraying is guaranteed to be clean.

In order to enable proper air to better enter the machine body 1, an air pump assembly 44 is further arranged between the machine body 1 and the air treatment bin 4, the air pump assembly 44 is located below the air treatment bin 4, and the other end of the air pump assembly 44 is communicated into the control unit 2.

The working process of the invention comprises the following steps: at first, the outside air is at normal temperature or lower temperature, at this time, the moisture of the air is more, the driving motor 3 drives the left driving rod 7 and the right driving rod 8 to rotate, the second fan 12 sucks air into the space below the rotating plate 271, the dehumidified air enters the control unit 2 through the moisture absorption layer 272 on the rotating plate 271, the air pump assembly 44 sends the dehumidified air into the control unit 2 to dissipate heat, the up-and-down movement of the movable plate 14 further increases the air circulation, when the outside temperature rises, the thermal switch 24 is opened when the temperature detecting member 5 rises, the hydraulic system and the spraying module 26 are opened, at the same time, the electromagnet 33 is electrified, the upper pressing plate 29 moves downwards, the rack 39 is matched with the first gear 279 and the second gear 279, the rotating plate 271 is turned into the groove 28, the dehumidification module 27 is closed, at this time, if the temperature further rises, the resistance generated by the thermistor 35 in the second power supply is small, the current flowing into the electromagnet 33 is larger than the electromagnet 33, the air circulation is larger, the air circulation is also reduced, the air circulation is further reduced by the air circulation of the air layer 33 is further reduced, the air circulation is further reduced by the air circulation of the air in the air layer 33, the air is further reduced by the air circulation of the air layer 32, and the air is further reduced by the air circulation in the air layer 32, and the air circulation is further reduced by the air circulation by the air layer is further reduced by the air circulation by the air pump system, and the air is further moves the air is more moves down by the air through the air layer and the air layer has the air circulation, and has a speed is further has air circulation.

The foregoing is merely one embodiment of the present invention and is not intended to limit the invention in any way, and simple modifications, equivalent variations or modifications can be made without departing from the technical solution of the present invention, all falling within the scope of the invention.

Claims (10)

1. The utility model provides a heat abstractor of electromechanical device, includes the organism, be provided with a plurality of control unit of group in the organism, its characterized in that, install driving motor on the organism, driving motor is used for controlling forced air cooling system work, still be connected with on the forced air cooling system and be used for increasing the circulation of air in the organism first actuating mechanism, organism one side is provided with the air treatment storehouse, including dehumidification state and dust removal state, still be provided with the temperature detection spare on the organism, the temperature detection spare is used for controlling the liquid cooling system and starts, and the while control the air treatment storehouse is switched to dust removal state from dehumidification state, and along with the temperature rises, the same ratio accelerates the radiating efficiency of liquid cooling system.

2. The heat dissipating device of an electromechanical device according to claim 1, wherein a first bevel gear is provided on a motor rod of the driving motor, the air cooling system comprises a left driving rod and a right driving rod which are disposed on both sides of the motor rod and are transversely installed, a second bevel gear and a third bevel gear which are engaged with the first bevel gear are provided on the left driving rod and the right driving rod, a first fan and a second fan are respectively provided on the other ends of the left driving rod and the right driving rod, the first fan is exhausted outwards, and the second fan is inlet inwards.

3. The heat dissipating device of an electromechanical device according to claim 2, wherein the control unit is disposed at the bottom of the body while a partition is disposed between adjacent control units, a movable plate is disposed above the control unit, a plurality of groups of through holes are disposed on the movable plate, the first driving mechanism is disposed on the left driving rod and the right driving rod, the first driving mechanism comprises a first wheel disc and a second wheel disc, a connecting column near the edge of the first wheel disc and the second wheel disc is disposed between the first wheel disc and the second wheel disc, a movable seat is disposed on the movable plate, a connecting shaft is disposed on the movable seat, and the connecting shaft is connected with the connecting column through connecting rods with rotatable ends.

4. The heat dissipating device of claim 1, wherein the liquid cooling system comprises a heat dissipating tube wound around the outer side of the control unit, the heat dissipating tube comprises a water transporting layer, an air layer, and a fixing layer, the outer wall of the water transporting layer is made of flexible materials, the air layer is additionally connected to an air bag, and when the air bag is compressed, the air in the air bag is pressed into the air layer and presses the water transporting layer.

5. The heat dissipating double-fuselage of a kind of electromechanical apparatus according to claim 4, wherein, include dehumidification module and spray die set in the said air treatment storehouse, there are thermal switches in the said temperature detection piece, said liquid cooling system and spray die set connect to the first power and through the said thermal switch control, said liquid cooling system and said spray die set are in the closed state initially, after the said temperature detection piece detects the temperature reaches the fixed value, the said thermal switch starts, control the said liquid cooling system and said spray die set to start.

6. The heat dissipating device of an electromechanical device according to claim 5, wherein grooves are provided on both sides in the air treatment cabin, the dehumidification module is installed in the grooves, the dehumidification module comprises a rotating plate, a moisture absorption layer is provided on the rotating plate, a rotating shaft is provided on the top of the rotating plate and embedded into both ends of the machine body, a bearing is provided between the rotating shaft and the rotating plate, a sliding groove is provided in the middle of the rotating plate and a sliding plate is provided in the sliding groove, the sliding plate is connected with the rotating shaft through a pull rope, and a first gear and a second gear are provided on the rotating plate and the end of the rotating shaft respectively.

7. The heat dissipating device of an electromechanical device according to claim 6, wherein the air bag is disposed at one end of the pressing mechanism, the pressing mechanism includes an upper pressing plate and a lower pressing plate, a telescopic rod is disposed in the middle of the pressing mechanism, a metal block and an electromagnet are disposed at the other end of the pressing mechanism, the metal block is disposed on the upper pressing plate, the electromagnet is disposed on the lower pressing plate, a first spring is disposed between the upper pressing plate and the lower pressing plate, the electromagnet is connected with a second power supply through a circuit, a thermistor connected with the temperature detecting element is disposed in the second power supply, meanwhile, a thermal switch is disposed between the second power supply and the electromagnet, a cross bar is disposed on the upper pressing plate, two groups of second springs are disposed on the cross bar, racks are connected under the second springs, the racks are meshed with the first gear and the second gear respectively, a fixed plate is disposed between the two groups of rotating plates, in an initial state, the two groups of rotating plates form a flat angle, the upper surfaces of the rotating plates and the lower surfaces of the fixed plates are respectively provided with a corresponding position, the first gear and the rotating plates are respectively, and the rotating plates are embedded into the rotating grooves, and the rotating grooves are embedded into the rotating grooves.

8. The heat dissipating device of claim 7, wherein the magnetic force of the electromagnet is inversely proportional to the thermistor, the higher the external temperature is, the smaller the thermistor is, the larger the magnetic force of the electromagnet is, the closer the metal block is to the electromagnet, a positioning plate is arranged below the rack, after the rack contacts with the positioning plate, the cross bar moves down continuously to deform the second spring, further compress the air bag, the air layer extrudes the water layer to deform the outside, the cross section area of the water layer is reduced, the circulation speed of water flow is increased, and the heat dissipating efficiency of the liquid cooling system is increased.

9. The heat dissipating device of an electromechanical device according to claim 5, wherein a water tank connected to the air treatment compartment is further provided on one side of the housing, and a water pump connected to the spray module is provided on the housing, and the water pump is connected to the water tank.

10. The heat dissipating device of an electromechanical device according to claim 1, wherein an air pump assembly is further disposed between the machine body and the air treatment cabin, the air pump assembly is disposed below the air treatment cabin, and the other end of the air pump assembly is connected to the control unit.