CN214626712U - Motor capable of refrigerating and radiating - Google Patents

Abstract

The utility model provides a can refrigerate radiating motor, including motor body, motor body's surface evenly is provided with motor heat radiation fins, motor body's outside cover is equipped with radiator unit, motor body's bottom fixedly connected with motor support, bolt fixedly connected with support water box is passed through to motor support's bottom. The utility model discloses in, the water pump leads to in the cooling liquid in with the support water box simultaneously first last heat exchanger that looses and the second through water supply hose and first bifurcation in the heat exchanger that looses, get into and also get into through connecting tube gradually on first last heat exchanger that looses and the second in the heat exchanger that looses, the cooling liquid can take away the heat of leading-in motor body on each heat exchanger that looses when the heat exchanger that looses and flow down in the heat exchanger that looses on first last heat exchanger that looses and the second, thereby be convenient for play the radiating effect of refrigeration fast to motor body, also can avoid excessive refrigeration to lead to the problem appearance of comdenstion water on the motor surface to appear simultaneously.

Description

Motor capable of refrigerating and radiating

Technical Field

The utility model relates to the technical field of electric machine, especially, relate to a can refrigerate radiating motor.

Background

The motor is a device for converting electric energy into mechanical energy, mainly comprises a stator, a rotor, a shell, an end cover and the like, and is mainly used for generating driving torque to serve as a power source of electrical appliances or various machines, and is divided according to the types of working power supplies: and can be divided into dc motors and ac motors.

At present, the radiating effect of current motor is poor, and some motors can adopt the semiconductor refrigeration piece to refrigerate the heat dissipation in order to promote the heat-sinking capability, but the low temperature that this kind of heat radiation structure produced can lead to the motor surface to produce the comdenstion water, consequently leads to the inside problem that the infiltration appears of motor very easily to the life of motor has been shortened, in addition, the motor that current base is lighter is because the bottom side is fixed unstable when the drive work piece, the condition that whole rocked appears very easily.

Therefore, it is necessary to provide a motor capable of cooling and dissipating heat to solve the above technical problems.

SUMMERY OF THE UTILITY MODEL

The utility model aims at solving the defects existing in the prior art and providing a motor capable of refrigerating and radiating.

For solving the technical problem, the utility model provides a pair of can refrigerate radiating motor, including motor body, motor body's surface evenly is provided with motor heat radiation fins, motor body's outside cover is equipped with radiator unit, motor body's bottom fixedly connected with motor support, bolt fixedly connected with support water box is passed through to motor support's bottom, the interior bottom side dress of support water box is equipped with the water pump, water supply hose has been installed to one side of water pump, and water supply hose extends to the outside of support water box, water supply hose keeps away from the one end of support water box and has installed first bifurcated pipe, the one end that water supply hose was kept away from to support water box has installed the backward flow hose, the backward flow hose is kept away from the one end of support water box and has installed the second bifurcated pipe.

Preferably, the heat dissipation assembly comprises a first upper heat dissipation cover and a second upper heat dissipation cover, the first upper heat dissipation cover and the second upper heat dissipation cover are both arranged on one side of the top of the motor body close to the water supply hose, lower heat dissipation covers are both arranged on one sides of the first upper heat dissipation cover and the second upper heat dissipation cover away from the water supply hose, fin butt-joint grooves are respectively arranged on the inner surfaces of the lower heat dissipation cover, the first upper heat dissipation cover and the second upper heat dissipation cover at positions corresponding to the positions of the motor heat dissipation fins, the motor heat dissipation fins are connected with the fin butt-joint grooves in an embedded manner, water inlet interfaces and water outlet interfaces are respectively arranged on both sides of the outer surfaces of the lower heat dissipation cover, the first upper heat dissipation cover and the second upper heat dissipation cover, two ends of the first branch pipe away from the water supply hose are respectively connected with the water inlet interfaces on the surfaces of the first upper heat dissipation cover and the second upper heat dissipation cover, and one side of the first upper heat dissipation cover and one side of the second upper heat dissipation cover close to the lower heat dissipation cover are both provided with connecting pipes, and the two ends of the connecting conduit are respectively connected with the adjacent drainage interfaces and the water inlet interface, the second branch pipe is arranged at the outer sides of the two lower heat dissipation covers, and the two ends of the second branch pipe, which are far away from the backflow hose, are respectively connected with the drainage interfaces on the surfaces of the two lower heat dissipation covers.

Preferably, the inner surfaces of each of the lower heat dissipation covers, the first upper heat dissipation cover and the second upper heat dissipation cover are provided with heat-conducting silicone pads.

Preferably, the outer surface edges of the lower heat dissipation covers, the first upper heat dissipation cover and the second upper heat dissipation cover are respectively provided with a connecting side plate, and every two adjacent connecting side plates are fixedly connected through bolts.

Preferably, the outer surface of the bracket water box is uniformly provided with water box radiating fins.

Compared with the prior art, the utility model provides a pair of can refrigerate radiating motor has following beneficial effect:

(1) the utility model provides a can refrigerate radiating motor, the water pump passes through in the cooling liquid of water supply hose and first bifurcation in with the support water box simultaneously leading-in first heat exchanger and the second of going up dispels the heat, get into on first heat exchanger and the second coolant liquid in the heat exchanger that looses also gradually through connecting tube entering down dispel the heat in the heat exchanger, the coolant liquid can take away the heat of leading-in motor body on each heat exchanger when dispelling the heat exchanger and flowing down in the heat exchanger on first heat exchanger and the second of going up, thereby be convenient for play the radiating effect of refrigeration fast to motor body, also can avoid excessive refrigeration to lead to the problem appearance of comdenstion water in the motor surface to appear simultaneously.

(2) The utility model provides a can refrigerate radiating motor, the coolant liquid in each heat exchanger that dispels the heat goes into in the support water box through second bifurcated pipe and backward flow hose backward flow at last in order to carry out interim cooling to be convenient for carry out the cyclic utilization of coolant liquid.

(3) The utility model provides a can refrigerate radiating motor, its holistic weight can increase after support water box pours into the coolant liquid into to be favorable to strengthening the stability of motor body and motor support bottom side, be favorable to reducing the probability that motor body takes place to rock when moving.

Drawings

Fig. 1 is a schematic view of the overall structure of the present invention;

fig. 2 is a schematic top view of the motor body, the upper heat dissipation cover and the lower heat dissipation cover of the present invention;

fig. 3 is a schematic view of the internal structure of the upper heat dissipation cover of the present invention.

Reference numbers in the figures: 1. a motor body; 2. a motor bracket; 3. a bracket water box; 4. a water pump; 5. a water supply hose; 6. a return hose; 7. a water box heat dissipation fin; 8. a first upper heat dissipation cover; 9. a second upper heat-dissipating cover; 10. a water inlet interface; 11. a water drainage interface; 12. connecting a conduit; 13. a first furcation tube; 14. a second furcation tube; 15. a motor heat dissipation fin; 16. a fin butt-joint groove; 17. a thermally conductive silicone pad; 18. connecting the side plates; 19. a lower heat dissipation cover.

Detailed Description

The present invention will be further described with reference to the accompanying drawings and embodiments.

Referring to fig. 1-3, a motor capable of cooling and dissipating heat includes a motor body 1, the outer surface of the motor body 1 is uniformly provided with motor heat dissipation fins 15, the outer side of the motor body 1 is sleeved with a heat dissipation assembly, the bottom end of the motor body 1 is fixedly connected with a motor bracket 2, the bottom end of the motor bracket 2 is fixedly connected with a bracket water box 3 through bolts, the inner bottom side of the bracket water box 3 is provided with a water pump 4, one side of the water pump 4 is provided with a water supply hose 5, the water supply hose 5 extends to the outer side of the bracket water box 3, one end of the water supply hose 5, which is far away from the bracket water box 3, is provided with a first branch pipe 13, one end of the bracket water box 3, which is far away from the water supply hose 5, is provided with a return hose 6, and one end of the return hose 6, which is far away from the bracket water box 3, is provided with a second branch pipe 14.

In a further scheme, the heat dissipation assembly comprises a first upper heat dissipation cover 8 and a second upper heat dissipation cover 9, wherein the first upper heat dissipation cover 8 and the second upper heat dissipation cover 9 are both arranged at one side of the top of the motor body 1 close to the water supply hose 5, one sides of the first upper heat dissipation cover 8 and the second upper heat dissipation cover 9 far away from the water supply hose 5 are both provided with a lower heat dissipation cover 19, the inner surfaces of each lower heat dissipation cover 19, the first upper heat dissipation cover 8 and the second upper heat dissipation cover 9 are both provided with fin butt-joint grooves 16 corresponding to the positions of the motor heat dissipation fins 15, the motor heat dissipation fins 15 are connected with the fin butt-joint grooves 16 in an embedded manner, both sides of the outer surfaces of each lower heat dissipation cover 19, the first upper heat dissipation cover 8 and the second upper heat dissipation cover 9 are both provided with a water inlet 10 and a water outlet 11, and both ends of a first branch pipe 13 far away from the water supply hose 5 are respectively connected with the water inlet 10 on the surfaces of the first upper heat dissipation cover 8 and the second upper heat dissipation cover 9, the first upper heat-radiating cover 8 and the second upper heat-radiating cover 9 are provided with connecting pipes 12 on one sides close to the lower heat-radiating covers 19, two ends of each connecting pipe 12 are respectively connected with the adjacent drainage interfaces 11 and the adjacent water inlet interfaces 10, the second branch pipe 14 is arranged on the outer sides of the two lower heat-radiating covers 19, two ends of the second branch pipe 14 far away from the return hose 6 are respectively connected with the drainage interfaces 11 on the surfaces of the two lower heat-radiating covers 19, the water pump 4 guides the cooling liquid in the bracket water box 3 into the first upper heat-radiating cover 8 and the second upper heat-radiating cover 9 through the water supply hose 5 and the first branch pipe 13, the cooling liquid entering the first upper heat-radiating cover 8 and the second upper heat-radiating cover 9 also gradually enters the lower heat-radiating covers 19 through the connecting pipes 12, and the heat of the motor body 1 guided on each heat-radiating cover can be taken away when the cooling liquid flows in the first upper heat-radiating cover 8, the second upper heat-radiating cover 9 and the lower heat-radiating cover 19, thereby be convenient for play the radiating effect of refrigeration fast to motor body 1, the coolant liquid in each heat exchanger that dispels flows back into support water box 3 through second bifurcated pipe 14 and backward flow hose 6 at last in order to carry out interim cooling to be convenient for carry out the cyclic utilization of coolant liquid.

In a further scheme, the inner surfaces of the lower heat dissipation cover 19, the first upper heat dissipation cover 8 and the second upper heat dissipation cover 9 are respectively provided with a heat conduction silicone grease pad 17, so that the gaps between the heat dissipation covers and the motor body 1 can be filled with the heat conduction silicone grease pads 17, and the heat conduction performance of the heat dissipation covers can be improved conveniently.

In a further scheme, the edges of the outer surfaces of the lower heat dissipation covers 19, the first upper heat dissipation cover 8 and the second upper heat dissipation cover 9 are respectively provided with a connecting side plate 18, every two adjacent connecting side plates 18 are fixedly connected through bolts, and the adjacent connecting side plates 18 are mutually fixed through bolts, so that the fixation among the heat dissipation covers is convenient to realize.

In a further scheme, the water box radiating fins 7 are uniformly arranged on the outer surface of the support water box 3, so that the radiating capacity of the support water box 3 is improved conveniently by arranging the water box radiating fins 7, and the cooling efficiency of the cooling liquid in the support water box 3 is accelerated.

The utility model provides a pair of can refrigerate radiating motor's theory of operation as follows: when the cooling device is used, the temperature of the surface of the motor body 1 is guided into each heat dissipation cover through the heat-conducting silicone pad 17 and the motor heat dissipation fins 15, the water pump 4 guides the cooling liquid in the bracket water box 3 into the first upper heat dissipation cover 8 and the second upper heat dissipation cover 9 through the water supply hose 5 and the first branch pipe 13, the cooling liquid entering the first upper heat dissipation cover 8 and the second upper heat dissipation cover 9 also gradually enters the lower heat dissipation cover 19 through the connecting pipe 12, and the heat of the motor body 1 guided into each heat dissipation cover can be taken away when the cooling liquid flows in the first upper heat dissipation cover 8, the second upper heat dissipation cover 9 and the lower heat dissipation cover 19, therefore, the effect of refrigerating and radiating the motor body 1 is achieved quickly, the cooling liquid in each radiating cover finally flows back into the bracket water box 3 through the second branch pipe 14 and the return hose 6 to be cooled temporarily, and therefore the recycling of the cooling liquid is facilitated;

the whole weight of the bracket water box 3 can be increased after the bracket water box is filled with cooling liquid, so that the stability of the bottom sides of the motor body 1 and the motor bracket 2 is enhanced, and the probability of shaking during the operation of the motor body 1 is reduced.

The above only is the embodiment of the present invention, not limiting the scope of the present invention, all the equivalent structures or equivalent processes of the present invention are used in the specification and the attached drawings, or directly or indirectly applied to other related technical fields, and the same principle is included in the protection scope of the present invention.

Claims (5)

1. The motor capable of refrigerating and dissipating heat is characterized by comprising a motor body (1), motor heat dissipation fins (15) are uniformly arranged on the outer surface of the motor body (1), a heat dissipation assembly is sleeved on the outer side of the motor body (1), a motor support (2) is fixedly connected with the bottom end of the motor body (1), a support water box (3) is fixedly connected with the bottom end of the motor support (2) through bolts, a water pump (4) is arranged on the inner bottom side of the support water box (3), a water supply hose (5) is arranged on one side of the water pump (4), the water supply hose (5) extends to the outer side of the support water box (3), a first branch pipe (13) is arranged at one end, far away from the support water box (3), of the support water box (3), and a backflow hose (6) is arranged at one end, far away from the water supply hose (5), and a second branch pipe (14) is arranged at one end of the return hose (6) far away from the bracket water box (3).

2. The motor capable of refrigerating and dissipating heat as claimed in claim 1, wherein the heat dissipating assembly comprises a first upper heat dissipating cover (8) and a second upper heat dissipating cover (9), the first upper heat dissipating cover (8) and the second upper heat dissipating cover (9) are both disposed on one side of the top of the motor body (1) close to the water supply hose (5), one sides of the first upper heat dissipating cover (8) and the second upper heat dissipating cover (9) far from the water supply hose (5) are both provided with lower heat dissipating covers (19), the inner surfaces of the lower heat dissipating covers (19) and the first upper heat dissipating cover (8) and the second upper heat dissipating cover (9) are both provided with butt-joint slots (16) corresponding to the positions of the motor heat dissipating fins (15), the motor heat dissipating fins (15) are embedded and connected with the butt-joint slots (16), and both sides of the outer surfaces of the lower heat dissipating covers (19) and the first upper heat dissipating cover (8) and the second upper heat dissipating cover (9) are both provided with water inlet ports (10) and water outlet ports (9) Interface (11), and first bifurcated pipe (13) keep away from the both ends of water supply hose (5) respectively with first go up heat exchanger (8) and the second on heat exchanger (9) of dispelling the water intake interface (10) on the surface be connected between, first go up heat exchanger (8) and the second on heat exchanger (9) of dispelling the heat and all be provided with connecting tube (12) near one side of heat exchanger (19) down, and the both ends of connecting tube (12) respectively with adjacent drainage interface (11) and intake interface (10) between be connected, second bifurcated pipe (14) set up in two outside of heat exchanger (19) down, and second bifurcated pipe (14) keep away from backflow hose (6) both ends respectively with two down be connected between heat exchanger (19) surface's drainage interface (11).

3. A machine with cooling and heat dissipation functions as claimed in claim 2, characterized in that the inner surfaces of the lower heat dissipation cover (19) and the first upper heat dissipation cover (8) and the second upper heat dissipation cover (9) are provided with heat-conducting silicone pads (17).

4. The motor capable of refrigerating and dissipating heat as claimed in claim 2, wherein each lower heat dissipation cover (19) and the outer surface edges of the first upper heat dissipation cover (8) and the second upper heat dissipation cover (9) are provided with connecting side plates (18), and each two adjacent connecting side plates (18) are fixedly connected through bolts.

5. A motor capable of refrigerating and radiating as claimed in claim 1, wherein the outer surface of the bracket water box (3) is uniformly provided with water box radiating fins (7).

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