CN111988963A - Based on electromechanical device is with circulating heat abstractor - Google Patents

Abstract

The invention belongs to the technical field of heat dissipation devices, in particular to a circulating heat dissipation device based on electromechanical equipment, and aims at solving the problem that cold air is not recycled. The gas guide pipe is arranged to enable gas to enter the cooling box and the mixing tank, so that used cooling can be filtered and reused, and waste of energy is reduced.

Description

Based on electromechanical device is with circulating heat abstractor

Technical Field

The invention relates to the technical field of heat dissipation devices, in particular to a circulating type heat dissipation device based on electromechanical equipment.

Background

As is well known, the heat generated by the electromechanical device is relatively serious during the operation, especially in hot summer, although the electromechanical device is provided with a heat dissipation device, the heat in the electromechanical device cannot be controlled in time due to the limitation of the housing, and the electromechanical device is easily broken down and the working efficiency is affected when the electromechanical device is heated or even scalded for a long time.

Through retrieval, chinese patent application publication No. CN 110809393a discloses a novel heat dissipation protection device for electromechanical devices, which comprises a device housing, wherein a bottom plate is fixedly mounted at the bottom of the device housing.

The above patent also has the following disadvantages: when the electromechanical device is cooled, cold air is generally used for dissipating heat, but the used cold air is not recycled, and the cooled air is directly discharged, so that energy waste is caused.

Disclosure of Invention

Based on the technical problem that heat is generally dissipated by using cold air when electromechanical equipment is cooled, the heat is not recycled by using the cold air after being used, and the dissipated gas is directly discharged, so that energy is wasted, the invention provides the circulating type cooling device based on the electromechanical equipment.

The invention provides a circulating heat dissipation device for electromechanical equipment, which comprises a bottom plate, wherein a mixing tank and a heat dissipation box are arranged on the outer wall of the top of the bottom plate, the same air guide pipe is arranged on the inner wall of the bottom of the mixing tank and the inner wall of one side of the heat dissipation box, a cooling box is arranged on the inner wall of the bottom of the heat dissipation box, refrigerators are arranged on two sides of the inner wall of the cooling box, a second motor is arranged on the outer wall of one side of the cooling box, an output shaft of the second motor is connected with a driving roller through a coupler, a conveying belt is arranged on the outer wall of the driving roller, second stirring rods distributed at equal intervals are arranged on the outer wall of the conveying belt, slots are arranged on two sides of the inner wall of the cooling box, insertion blocks are inserted into the inner walls of the slots.

Preferably, the inner wall of blending tank is provided with the diaphragm, and the top outer wall of diaphragm sets up the bleeder vent that the equidistance distributes, and the top outer wall of diaphragm is provided with the first semiconductor refrigeration piece that the equidistance distributes.

Preferably, the top outer wall of blending tank is provided with the motor, and the output shaft of motor has the bull stick through the coupling joint, and the outer wall welding of bull stick has the stirring ring of equidistance distribution.

Preferably, the stirring ring is of a structure with gradually increasing size, stirring rods distributed at equal intervals are welded on the outer wall of the stirring ring, and the stirring rods are of a fold line structure.

Preferably, one side inner wall of blending tank is provided with the choked flow groove, and the bottom outer wall of choked flow groove is provided with the air inlet that the equidistance distributes, and the top outer wall of choked flow groove is provided with the gas outlet.

Preferably, the inner wall of the choke groove is provided with a first choke channel and a second choke channel, and the inner walls of the first choke channel and the second choke channel are welded with choke blocks which are distributed in a mutually staggered manner.

Preferably, the first flow blocking channel and the second flow blocking channel are both of a zigzag structure, and the flow blocking block is a mixed structure of a rectangular structure and an arc structure.

Preferably, the inner wall of the heat dissipation box is provided with a placing plate, and the top outer wall of the placing plate is provided with an electromechanical device body.

Preferably, one side outer wall of heat dissipation case is provided with the fan, and the input of fan and one side inner wall of blending tank are provided with same first pipe, and the inner wall of heat dissipation case is provided with the cold wind dish, and the bottom outer wall of cold wind dish is provided with the cold wind shower nozzle that the equidistance distributes, and one side inner wall of cold wind dish and the output of fan are provided with same second pipe.

Preferably, the second filter plate is disposed at an inner wall of the first flow blocking passage.

The beneficial effects of the invention are as follows:

1. this heat abstractor convenient to circulate, through being provided with the blending tank, the heat dissipation case, the air duct, the cooler bin, the driving roller, refrigerator and second puddler, the setting of air duct can be with gaseous going into cooler bin and blending tank, can filter the back reuse with the cooling after using, the waste of the energy has been reduced, open the second motor and can make the driving roller rotate, and then the belt begins the transmission, the second puddler can carry out the mixing to air conditioning in the driven, the cyclic utilization of air conditioning of being convenient for.

2. This heat abstractor convenient to circulate, through being provided with the choked flow groove, the gas outlet, the air inlet, first choked flow passageway, second choked flow passageway and choked flow piece, three air inlet corresponds a gas outlet, reduce the gas outlet and can effectively reduce gaseous flow velocity, first choked flow passageway and second choked flow passageway are zigzag structure, the motion route of air conditioning has been increased, choked flow piece is the mixed structure of the rectangle structure and the arc structure of crisscross distribution each other, can carry out more thorough deceleration to gas, be convenient for gas carries out better mixture in the blending tank.

3. This heat abstractor convenient to circulate through being provided with motor, bull stick, stirring ring and puddler, and the stirring ring is the structure that the size and dimension scales up gradually, and the puddler is zigzag-shaped structure, can make air conditioning carry out abundant mixing in the blending tank, the effectual degree of consistency that improves air conditioning, in addition through being provided with the second filter, the second filter both can reduce gaseous flow velocity, can filter air conditioning again, the effectual practicality that improves the device.

The parts of the device not involved are the same as or can be implemented using prior art.

Drawings

Fig. 1 is a schematic structural diagram of a circulating heat dissipation apparatus for an electromechanical device according to embodiment 1 of the present invention;

FIG. 2 is a schematic structural view of portion A of FIG. 1;

fig. 3 is a schematic structural diagram of a first flow-blocking channel of a circulating heat dissipation device for an electromechanical device according to embodiment 1 of the present invention;

fig. 4 is a schematic structural view of a second stirring rod of a circulating heat dissipation apparatus for an electromechanical device according to embodiment 1 of the present invention;

fig. 5 is a schematic structural diagram of a second filter plate based on a circulating heat dissipation device for an electromechanical device according to embodiment 2 of the present invention.

In the figure: 1 bottom plate, 2 blending tank, 3 first semiconductor refrigeration piece, 4 bleeder vents, 5 choked flow groove, 6 motors, 7 diaphragm, 8 bull sticks, 9 first pipe, 10 fan, 11 second pipe, 12 cold wind dish, 13 cold wind shower nozzles, 14 electromechanical device bodies, 15 place the board, 16 cooler bin, 17 stirring ring, 18 puddler, 19 first choked flow passageway, 20 choked flow piece, 21 air inlet, 22 second choked flow passageway, 23 gas outlets, 24 slots, 25 pull rings, 26 filter screens, 27 inserted blocks, 28 driving rollers, 29 second puddlers, 30 second filter.

Detailed Description

The technical solutions in the embodiments of the present invention will be clearly and completely described below with reference to the drawings in the embodiments of the present invention, and it is obvious that the described embodiments are only a part of the embodiments of the present invention, and not all of the embodiments.

In the description of the present invention, it is to be understood that the terms "upper", "lower", "front", "rear", "left", "right", "top", "bottom", "inner", "outer", and the like, indicate orientations or positional relationships based on the orientations or positional relationships shown in the drawings, are merely for convenience in describing the present invention and simplifying the description, and do not indicate or imply that the device or element being referred to must have a particular orientation, be constructed and operated in a particular orientation, and thus, should not be construed as limiting the present invention.

Example 1

Referring to fig. 1-4, a circulating heat dissipation device for electromechanical devices comprises a base plate 1, a mixing tank 2 and a heat dissipation box are fixed on the outer wall of the top of the base plate 1 through screws, the inner wall of the bottom of the mixing tank 2 and the inner wall of one side of the heat dissipation box are connected with a same air duct through flanges, the inner wall of the bottom of the heat dissipation box is fixed with a cooling box 16 through screws, two sides of the inner wall of the cooling box 16 are both fixed with refrigerators through screws, the outer wall of one side of the cooling box 16 is provided with a second motor, the output shaft of the second motor is connected with a driving roller 28 through a coupling, the outer wall of the driving roller 28 is provided with a conveyor belt, the outer wall of the conveyor belt is provided with second stirring rods 29 distributed at equal intervals, two sides of the inner wall of the cooling box 16 are both fixed with slots 24 through screws, the inner walls of the, and a pull ring 25 is fixed to the top outer wall of the insert block 27 by a screw.

In the invention, a transverse plate 7 is fixed on the inner wall of the mixing tank 2 through screws, air holes 4 are formed in the outer wall of the top of the transverse plate 7 and are distributed equidistantly, and first semiconductor refrigerating sheets 3 are fixed on the outer wall of the top of the transverse plate 7 and are distributed equidistantly.

In the invention, the outer wall of the top of the mixing tank 2 is fixed with a motor 6 through a screw, an output shaft of the motor 6 is connected with a rotating rod 8 through a coupler, and stirring rings 17 which are distributed equidistantly are welded on the outer wall of the rotating rod 8.

In the invention, the stirring ring 17 is of a structure with gradually increasing size, the outer wall of the stirring ring 17 is welded with stirring rods 18 distributed at equal intervals, and the stirring rods 18 are of a fold line structure.

In the invention, a flow blocking groove 5 is arranged on the inner wall of one side of a mixing tank 2, air inlets 21 distributed equidistantly are arranged on the outer wall of the bottom of the flow blocking groove 5, an air outlet 23 is arranged on the outer wall of the top of the flow blocking groove 5, a first flow blocking channel 19 and a second flow blocking channel 22 are arranged on the inner wall of the flow blocking groove 5, flow blocking blocks 20 distributed in a mutually staggered mode are welded on the inner walls of the first flow blocking channel 19 and the second flow blocking channel 22, the first flow blocking channel 19 and the second flow blocking channel 22 are of a fold line structure, and the flow blocking blocks 20 are of a mixed structure of a rectangular structure and an arc.

According to the invention, a placing plate 15 is fixed on the inner wall of a heat dissipation box through screws, an electromechanical device body 14 is arranged on the outer wall of the top of the placing plate 15, a fan 10 is fixed on the outer wall of one side of the heat dissipation box through screws, the input end of the fan 10 and the inner wall of one side of a mixing tank 2 are connected with a same first guide pipe 9 through flanges, a cold air disc 12 is arranged on the inner wall of the heat dissipation box, cold air spray heads 13 distributed at equal intervals are fixed on the outer wall of the bottom of the cold air disc 12 through screws, and a same second guide pipe 11 is connected on the inner wall of one side of the cold air disc.

Connect the power with equipment, at first open first semiconductor refrigeration piece 3 and motor 6, motor 6 drives bull stick 8 and rotates, and then stirring ring 17 and puddler 18 carry out abundant mixing to air conditioning, flow velocity through resistance groove 5 reduction gas, the air conditioning of being convenient for carries out abundant mixing in blending tank 2, open fan 10, through first pipe 9, second pipe 11 and cold wind shower nozzle 13 carry out abundant heat dissipation to electromechanical device body 14, gas after the heat dissipation enters into cooler bin 16, filter gas through filter screen 26, open refrigerator and second motor, driving roller 28 transmission drives belt and second puddler 29 and mixes air conditioning, final gas gets back to again through the air duct and cools off once more in blending tank 2.

Example 2

Referring to fig. 5, a circulation type heat dissipation device for an electromechanical device, in this embodiment, compared to embodiment 1, further includes a second filter plate 30 disposed on an inner wall of the first flow blocking passage 19.

The equipment is connected with a power supply, the first semiconductor refrigeration sheet 3 and the motor 6 are firstly switched on, the motor 6 drives the rotating rod 8 to rotate, the stirring ring 17 and the stirring rod 18 fully mix the cold air, the flowing speed of the air is reduced through the flow resistance groove 5, the cold air is conveniently and fully mixed in the mixing tank 2, the fan 10 is turned on, the electromechanical equipment body 14 is fully radiated by the first guide pipe 9, the second guide pipe 11 and the cold air spray head 13, the radiated air enters the cooling box 16, the gas is filtered by the filter screen 26, the refrigerator and the second motor are started, the driving roller 28 drives the belt and the second stirring rod 29 to mix the cold gas, finally the gas returns to the mixing tank 2 through the gas guide pipe to be cooled again, in addition, the second filter plate 30 can filter the cold air as well as reduce the flow velocity of the gas.

The above description is only for the preferred embodiment of the present invention, but the scope of the present invention is not limited thereto, and any person skilled in the art should be considered to be within the technical scope of the present invention, and the technical solutions and the inventive concepts thereof according to the present invention should be equivalent or changed within the scope of the present invention.

Claims (10)

1. A circulating heat dissipation device for electromechanical equipment comprises a bottom plate (1) and is characterized in that a mixing tank (2) and a heat dissipation box are arranged on the outer wall of the top of the bottom plate (1), the inner wall of the bottom of the mixing tank (2) and the inner wall of one side of the heat dissipation box are provided with the same air duct, a cooling box (16) is arranged on the inner wall of the bottom of the heat dissipation box, refrigerators are arranged on two sides of the inner wall of the cooling box (16), a second motor is arranged on the outer wall of one side of the cooling box (16), an output shaft of the second motor is connected with a transmission roller (28) through a coupler, a conveyor belt is arranged on the outer wall of the transmission roller (28), second stirring rods (29) distributed at equal intervals are arranged on the outer wall of the conveyor belt, slots (24) are arranged on two sides of the inner wall of the cooling box (16), and, a filter screen (26) is arranged on the outer wall of one side of the insertion block (27), and a pull ring (25) is arranged on the outer wall of the top of the insertion block (27).

2. A circulating heat dissipation device for electromechanical equipment according to claim 1, wherein a transverse plate (7) is disposed on the inner wall of the mixing tank (2), air holes (4) are formed in the outer wall of the top of the transverse plate (7) and are distributed equidistantly, and first semiconductor cooling fins (3) are arranged on the outer wall of the top of the transverse plate (7) and are distributed equidistantly.

3. A circulating heat dissipation device for electromechanical equipment according to claim 2, wherein the top outer wall of the mixing tank (2) is provided with a motor (6), an output shaft of the motor (6) is connected with a rotating rod (8) through a coupling, and stirring rings (17) are welded on the outer wall of the rotating rod (8) and are distributed at equal intervals.

4. A circulating heat dissipation device based on electromechanical device according to claim 3, wherein the stirring ring (17) has a structure with gradually increasing size, and the stirring rods (18) are welded to the outer wall of the stirring ring (17) and distributed equidistantly, and the stirring rods (18) have a zigzag structure.

5. A circulating heat dissipation device for electromechanical equipment according to claim 1, wherein one side of the mixing tank (2) is provided with a flow-blocking groove (5), the bottom outer wall of the flow-blocking groove (5) is provided with air inlets (21) distributed at equal intervals, and the top outer wall of the flow-blocking groove (5) is provided with an air outlet (23).

6. A circulating heat dissipation device for electromechanical equipment according to claim 5, wherein the inner wall of the choke groove (5) is provided with a first choke channel (19) and a second choke channel (22), and the inner walls of the first choke channel (19) and the second choke channel (22) are welded with choke blocks (20) which are distributed in a staggered manner.

7. A circulating heat dissipation device for electromechanical-based equipment according to claim 6, wherein the first flow blocking passage (19) and the second flow blocking passage (22) are both of a zigzag structure, and the flow blocking block (20) is a mixture of a rectangular structure and an arc structure.

8. A circulating heat sink device based on electromechanical device according to claim 1, wherein the inner wall of the heat sink box is provided with a placing plate (15), and the top outer wall of the placing plate (15) is provided with the electromechanical device body (14).

9. A circulating heat dissipation device for electromechanical equipment according to claim 8, wherein the fan (10) is disposed on an outer wall of one side of the heat dissipation box, the same first conduit (9) is disposed on an input end of the fan (10) and an inner wall of one side of the mixing tank (2), the cold air plate (12) is disposed on the inner wall of the heat dissipation box, the cold air nozzles (13) are disposed on an outer wall of the bottom of the cold air plate (12) and are distributed equidistantly, and the same second conduit (11) is disposed on an inner wall of one side of the cold air plate (12) and an output end of the fan (10).

10. A circulating heat sink for an electromechanical-based device according to claim 7, further comprising a second filter plate (30) disposed on an inner wall of the first flow-blocking passage (19).

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