CN110829691A

CN110829691A - Motor with shaft cooling channel

Info

Publication number: CN110829691A
Application number: CN201911229641.3A
Authority: CN
Inventors: 刘贵生; 吕佳明; 刘志钢; 吴庆国; 许嘉慧; 吕学文
Original assignee: Beidou Aerospace Automobile Beijing Co Ltd
Current assignee: Beidou Aerospace Automobile Beijing Co Ltd
Priority date: 2019-12-04
Filing date: 2019-12-04
Publication date: 2020-02-21

Abstract

A motor with a shaft cooling channel comprises a shell, a stator, a rotor and a rotating shaft, wherein the stator, the rotor and the rotating shaft are arranged in the shell, the shell is provided with a spiral cooling channel, the spiral cooling channel surrounds the shell, the spiral cooling channel is provided with a cooling medium inlet and a cooling medium outlet, one end of the shell is provided with a flow guide cavity, the other end of the shell is provided with a backflow cavity, and a liquid guide device is arranged in the flow guide cavity; or a liquid discharge device is arranged in the reflux cavity; or a liquid guide device is arranged in the flow guide cavity and a liquid drainage device is arranged in the backflow cavity. Compared with the prior art, the motor with the shaft cooling channel provided by the invention has the following advantages: the invention sets spiral cooling channel, flow guiding cavity and reflux cavity on the shell, sets shaft cooling channel in the rotating shaft, and uses the cooling medium driven by the liquid guiding device and the liquid discharging device to make the cooling medium flow in the shaft cooling channel quickly.

Description

Motor with shaft cooling channel

Technical Field

The invention relates to a motor, in particular to a motor with a shaft cooling channel.

Background

The motor can produce a large amount of heat when working, mainly include stator copper loss and iron loss, because of motor internal seal, make the heat can only give off the heat to the external world through the casing, along with the progress of technique, people improve the radiating efficiency through the scheme that sets up concatenation formula pivot and filling medium on the motor shaft, but its pivot adopts the concatenation axle mode, with some axle inside filling cooling medium, with this axle and main shaft part mechanical connection, under this kind of scheme, because of the axle needs to be connected there is the structural strength problem, especially when the high-speed operation of motor, there is great hidden danger.

As disclosed in 2018, 11, 23, the application numbers are: 201810602824.4, a heat dissipation motor, comprising a housing, a stator disposed in the housing, and a rotor disposed in the housing, wherein a base is disposed below the housing; the method is characterized in that: the shell is provided with a heat dissipation mechanism for absorbing heat, and the heat dissipation mechanism comprises a spiral channel arranged in the shell and a refrigerating device arranged at the top of the shell. Although the motor of this kind of structure can play fine radiating effect to motor casing, but the heat of the pivot of motor and stator can not in time lower the temperature, and the inside and outside difference in temperature of motor is great, and the motor is the performance when the rotor temperature is higher and still can receive the influence to there is certain potential safety hazard in the great also of the inside and outside difference in temperature of motor.

Disclosure of Invention

The technical problem to be solved by the present invention is to overcome the above-mentioned deficiencies of the prior art, and to provide a motor with a shaft cooling channel, which can implement synchronous liquid cooling of a housing and a rotating shaft.

The motor with the shaft cooling channel provided by the invention adopts the main technical scheme that: the cooling device comprises a shell, a stator, a rotor and a rotating shaft, wherein the stator, the rotor and the rotating shaft are arranged in the shell, a spiral cooling channel is arranged on the shell, the spiral cooling channel is surrounded on the shell, a cooling medium inlet and a cooling medium outlet are arranged on the spiral cooling channel, a flow guide cavity is arranged at one end of the shell, a backflow cavity is arranged at the other end of the shell, one end of the rotating shaft is positioned in the flow guide cavity, the other end of the rotating shaft penetrates through the backflow cavity, a shaft cooling channel is arranged in the middle of the rotating shaft, a liquid inlet and a liquid outlet which are communicated with the shaft cooling channel are arranged on the rotating shaft, the liquid inlet is positioned in the flow guide cavity, the liquid outlet is positioned in the backflow cavity, and the flow; a liquid guide device is arranged in the flow guide cavity; or a liquid discharge device is arranged in the reflux cavity; or a liquid guide device is arranged in the flow guide cavity and a liquid drainage device is arranged in the backflow cavity.

The motor with the shaft cooling channel further adopts the following auxiliary technical scheme:

the liquid guiding device is provided with a liquid guiding inlet and a liquid guiding outlet, and the liquid guiding inlet is opposite to the liquid inlet.

The liquid guiding device comprises a cylinder body, and a micro motor and an axial flow impeller which are arranged in the cylinder body, wherein the micro motor drives the axial flow impeller to rotate, one end of the cylinder body is provided with a liquid guiding inlet, and the other end of the cylinder body is provided with a liquid guiding outlet.

And the liquid drainage device is provided with a liquid drainage inlet and a liquid drainage outlet, and the liquid drainage outlet is opposite to the spiral cooling channel.

The liquid guide device and the liquid discharge device have the same structure.

The flow guide cavity is internally provided with a mounting bracket, and the liquid guide device is arranged on the mounting bracket.

The liquid inlet is arranged at one end of the rotating shaft, and the liquid outlet is arranged on the side wall of the rotating shaft.

The backflow cavity comprises a backflow chamber and a backflow channel which are communicated, the liquid outlet is located in the backflow chamber, one end of the backflow channel is communicated with the backflow chamber, the other end of the backflow channel is communicated with the spiral cooling channel, and the liquid drainage device is arranged in the backflow channel.

And a buffer bending part is arranged in the backflow channel and is positioned between the liquid drainage device and the spiral cooling channel.

The shell comprises a cylindrical middle shell, a front end cover and a rear end cover, wherein the front end cover is arranged at one end of the cylindrical middle shell, and the rear end cover is arranged at the other end of the cylindrical middle shell; the spiral cooling channel is arranged in the cylindrical middle shell, the flow guide cavity is arranged in the rear end cover, and the backflow cavity is arranged in the front end cover.

The cooling medium inlet and the cooling medium outlet are both arranged on the cylindrical middle shell, the cooling medium inlet is close to the diversion cavity, and the cooling medium outlet is close to the reflux cavity.

The cylindrical middle shell comprises an inner shell and an outer shell, the outer shell is sleeved on the inner shell, a spiral groove is formed in the outer wall of the inner shell, and the spiral groove and the inner wall of the outer shell form the spiral cooling channel.

A first shaft hole is formed in the rear end cover and is communicated with the flow guide cavity, one end of the rotating shaft is inserted into the first shaft hole, and a first sealing ring is arranged between the rotating shaft and the first shaft hole; the front end cover is provided with a second shaft hole, the second shaft hole is communicated with the backflow cavity, the other end of the rotating shaft is inserted into the second shaft hole and penetrates through the backflow cavity, and a second sealing ring is arranged between the rotating shaft and the second shaft hole.

Compared with the prior art, the motor with the shaft cooling channel provided by the invention has the following advantages: the invention has simple structure and convenient assembly, the spiral cooling channel, the flow guide cavity and the backflow cavity are arranged on the shell, the shaft cooling channel is arranged in the rotating shaft, the cooling medium is driven by the cooling medium of the liquid guide device and the liquid drainage device, the continuous flow guide and the continuous suction and discharge of the cooling medium are realized at the two ends of the shaft cooling channel, so that the cooling medium can rapidly flow in the shaft cooling channel, the phenomenon that the cooling medium cannot flow in the shaft cooling channel due to the flow guide effect of the heat dissipation mechanism because the shaft cooling channel is too thin is avoided, the heat of the stator, the rotor, the shell and the rotating shaft is absorbed by the cooling medium, the rotor conducts the heat to the shaft cooling channel and the backflow cavity through the rotating shaft, and the stator conducts the heat to the spiral cooling channel through the shell, thereby realizing the synchronous heat dissipation of the stator and the rotor.

Drawings

In order to more clearly illustrate the embodiments of the present invention or the technical solutions in the prior art, the drawings used in the description of the embodiments or the prior art will be briefly described below, it is obvious that the drawings in the following description are only some embodiments of the present invention, and for those skilled in the art, other drawings can be obtained according to the drawings without creative efforts.

Fig. 1 is a schematic cross-sectional structure of the present invention.

FIG. 2 is a schematic view of the liquid guiding device of the present invention.

Detailed Description

In order to make the objects, technical solutions and advantages of the present invention more apparent, the technical solutions of the present invention will be described in detail below. It is to be understood that the described embodiments are merely exemplary of the invention, and not restrictive of the full scope of the invention. All other embodiments, which can be derived by a person skilled in the art from the examples given herein without any inventive step, are within the scope of the present invention.

Referring to fig. 1 and 2, an embodiment of the motor with a shaft cooling channel according to the present invention includes a housing, a stator 2 disposed in the housing, a rotor 3 and a rotating shaft 4, the casing is provided with a spiral cooling channel 13, the spiral cooling channel 13 is surrounded on the casing, the spiral cooling channel 13 is provided with a cooling medium inlet 14 and a cooling medium outlet 15, one end of the shell is provided with a flow guide cavity 61, the other end of the shell is provided with a backflow cavity, one end of the rotating shaft 4 is positioned in the flow guide cavity 61, the other end of the rotating shaft 4 penetrates through the reflux cavity, a shaft cooling channel 41 is arranged in the middle of the rotating shaft 4, a liquid inlet 42 and a liquid outlet 43 which are communicated with the shaft cooling channel 41 are arranged on the rotating shaft 4, the liquid inlet 42 is located in the flow guide cavity 61, the liquid outlet 43 is located in the reflux cavity, and both the flow guide cavity 61 and the reflux cavity are communicated with the spiral cooling channel 13; the liquid guiding device 7 is arranged in the flow guiding cavity 61, or the liquid draining device 8 is arranged in the backflow cavity, or the liquid guiding device 7 is arranged in the flow guiding cavity 61, and the liquid draining device 8 is arranged in the backflow cavity. The ratio of the sum of the volumes of the diversion cavity 61, the reflux cavity and the shaft cooling channel 41 to the volume of the spiral cooling channel 13 is 1: 0.4-1: 0.1. the present embodiment is preferably 1: 0.25. in this embodiment, it is preferable that the liquid guiding device 7 is disposed in the liquid guiding chamber 61, and the liquid discharging device 8 is disposed in the liquid returning chamber. When the cooling device is used, a corresponding heat dissipation mechanism is selected according to the use environment, the heat dissipation mechanism comprises a cooling pipeline, a cooling water pump arranged in the cooling pipeline, an intercooler arranged on the cooling pipeline and a controller connected with the water pump and the intercooler, the heat dissipation mechanism is a mature technology in the prior art, and detailed description is omitted; when the cooling device is used, the heat dissipation mechanism can be replaced by the fan and the cooling pipeline, one end of the cooling pipeline is connected with an air outlet of the fan, and the other end of the cooling pipeline is connected with the cooling medium inlet 14. In the use process, cooling media are required to be added into the spiral cooling channel 13, the diversion cavity 61, the shaft cooling channel 41 and the reflux cavity, and the cooling media can adopt water, anti-freezing cooling liquid and the like; one end of the cooling pipeline is connected with the cooling medium inlet 14, and the other end of the cooling pipeline is connected with the cooling medium outlet 15; cooling medium is at spiral cooling channel 13, water conservancy diversion chamber 61, the backward flow chamber, axle cooling channel 41 and cooling tube circulation, at spiral cooling channel 13, water conservancy diversion chamber 61, absorb heat in axle cooling channel 41 and the backward flow chamber, cooling medium dispels the heat when flowing to the intercooler, casing in with this realized the motor, stator 2, rotor 3, the heat dissipation of pivot 4, specifically in the use have conductive connecting piece and lead liquid device 7 and drain 8 to be connected, for example connect external power source for leading liquid device 7 and drain 8 power supplies power through the wire, this type of technique is common prior art, the no longer detailed description here. The liquid guiding device 7 guides the cooling medium in the flow guiding cavity 61 to the liquid inlet 42 of the shaft cooling channel 41, and the liquid drainage device 8 sucks the cooling medium in the backflow cavity and discharges the cooling medium to the spiral cooling channel 13, so that the cooling medium in the shaft cooling channel 41 can flow rapidly, and the rotating shaft 4 is cooled. The invention has simple structure and convenient assembly, the spiral cooling channel 13, the flow guide cavity 61 and the return cavity are arranged on the shell, the shaft cooling channel 41 is arranged in the rotating shaft 4, the cooling medium of the liquid guide device 7 and the liquid discharge device 8 is adopted for driving, the continuous flow guide and the continuous suction and discharge are realized for the cooling medium at the two ends of the shaft cooling channel 41, the cooling medium is enabled to flow rapidly in the shaft cooling channel 41, the phenomenon that the cooling medium cannot flow in the shaft cooling channel 41 due to the flow guide effect of the heat dissipation mechanism because the shaft cooling channel 41 is too thin is avoided, the heat of the stator 2, the rotor 3, the shell and the rotating shaft 4 is absorbed by the cooling medium, the heat is conducted to the shaft cooling channel 41 and the return cavity by the rotating shaft 4 through the rotor 3, and the heat is conducted to the spiral cooling channel 13 by the stator 2 through the shell, so as to realize the synchronous heat dissipation of the stator 2 and the rotor 3, the heat dissipation effect of the invention is greatly improved, the service life of the invention is prolonged, the reliability of the invention is improved, meanwhile, the liquid guide device 7 and the liquid discharge device 8 can still work after the invention is closed, namely the rotating shaft 4 stops rotating for a period of time, the rotating shaft 4 and the rotor 3 are ensured to be fully cooled, the service life of the invention is prolonged, the reliability of the invention is improved, and the maintenance rate is reduced.

Referring to fig. 1 and 2, according to the above-mentioned embodiment of the present invention, the liquid guiding device 7 is provided with a liquid guiding inlet 74 and a liquid guiding outlet 75, and the liquid guiding inlet 74 is opposite to the liquid inlet 42. The cooling medium in the diversion cavity 61 is rapidly pushed to the liquid inlet 42, and the flow speed of the cooling medium in the shaft cooling channel 41 is accelerated.

Referring to fig. 1 and 2, according to the above-mentioned embodiment of the present invention, the liquid guiding device 7 includes a cylinder 71, a micro motor 72 and an axial-flow impeller 73, the micro motor 72 is disposed in the cylinder 71, the axial-flow impeller 73 is driven by the micro motor 72 to rotate, one end of the cylinder 71 is the liquid guiding inlet 74, and the other end of the cylinder 71 is the liquid guiding outlet 75. The liquid guiding device 7 is simple in structure, convenient to assemble and low in production cost, the micromotor 72 in the liquid guiding device 7 drives the axial flow impeller 73 to suck cooling media from the liquid guiding inlet 74 and discharge the cooling media from the liquid guiding outlet 75, the liquid guiding device 7 operates independently, the cooling media in the flow guiding cavity 61 can be pushed to the liquid inlet 42 assuredly, and the flow speed of the cooling media in the shaft cooling channel 41 is accelerated.

Referring to fig. 1 and 2, according to the above embodiment of the present invention, the drain device 8 is provided with a drain inlet and a drain outlet, and the drain outlet is opposite to the spiral cooling channel 13. The cooling medium in the reflux cavity is rapidly discharged to the spiral cooling channel 13, the resistance of the liquid inlet 42 of the shaft cooling channel 41 is reduced, the negative pressure in the shaft cooling channel 41 is improved, and the flow speed of the cooling medium in the shaft cooling channel 41 is accelerated.

Referring to fig. 1 and 2, according to the above-mentioned embodiment of the present invention, the liquid guiding device 7 and the liquid discharging device 8 are identical in structure. The processing and the whole machine assembly are convenient, and the production efficiency and the maintenance cost are improved.

Referring to fig. 1 and 2, according to the above-described embodiment of the present invention, a mounting bracket 62 is disposed in the diversion cavity 61, and the liquid guiding device 7 is disposed on the mounting bracket 62. The arrangement of the mounting bracket 62 ensures that the cooling medium in the diversion cavity 61 can smoothly enter the liquid guiding device 7 through the liquid guiding inlet 74, and simultaneously, the liquid guiding outlet 75 of the liquid guiding device 7 can be opposite to the liquid inlet 42 of the shaft cooling channel 41, so that the liquid guiding efficiency of the shaft cooling channel 41 is improved.

Referring to fig. 1 and 2, according to the above-mentioned embodiment of the present invention, the liquid inlet 42 is disposed at one end of the rotating shaft 4, and the liquid outlet 43 is disposed on the side wall of the rotating shaft 4. Under the condition of guaranteeing 4 mechanical strength of pivot, realize that the coolant in the water conservancy diversion chamber 61 can smoothly get into axle cooling channel 41 to the coolant in the axle cooling channel 41 can be smoothly arranged to the backward flow chamber, establish the liquid outlet 43 on the lateral wall of pivot 4 can be under the effect of centrifugal force with the coolant in the axle cooling channel 41 and get rid of the row to the backward flow chamber in.

Referring to fig. 1 and 2, according to the above-mentioned embodiment of the present invention, the backflow cavity includes a backflow chamber 51 and a backflow passage 52, the liquid outlet 43 is located in the backflow chamber 51, one end of the backflow passage 52 is communicated with the backflow chamber 51, the other end of the backflow passage 52 is communicated with the spiral cooling passage 13, and the liquid drainage device 8 is disposed in the backflow passage 52. A buffer bent part 521 is arranged in the return channel 52, and the buffer bent part 521 is located between the liquid discharge device 8 and the spiral cooling channel 13. The arrangement of the drain 8 in the return passage 52 contributes to an improvement in the operating efficiency of the drain 8 and ensures smooth discharge of the cooling medium in the return chamber 51. The arrangement of the buffer bent part 521 can reduce the impact of the cooling medium discharged from the liquid discharge device 8 on the cooling medium in the spiral cooling channel 13, ensure the balanced circulation of the cooling medium in the shaft cooling channel 41 and the cooling medium in the spiral cooling channel 13, and avoid the faults caused by overhigh temperature of the cooling medium in the shaft cooling channel 41 or overhigh temperature of the cooling medium in the spiral cooling channel 13 and unbalanced heat dissipation, thereby greatly improving the reliability of the invention.

Referring to fig. 1, according to the above-mentioned embodiment of the present invention, the casing includes a cylindrical middle shell 1, a front end cover 5 and a rear end cover 6, the front end cover 5 is disposed at one end of the cylindrical middle shell 1, and the rear end cover 6 is disposed at the other end of the cylindrical middle shell 1; the spiral cooling channel 13 is arranged in the cylindrical middle shell 1, the diversion cavity 61 is arranged in the rear end cover 6, and the reflux cavity is arranged in the front end cover 5. The casing has a simple structure, is convenient to assemble, and facilitates the arrangement of the spiral cooling channel 13, the flow guide cavity 61 and the reflux cavity.

Referring to fig. 1, according to the above-mentioned embodiment of the present invention, the cooling medium inlet 14 and the cooling medium outlet 15 are both disposed on the cylindrical middle shell 1, the cooling medium inlet 14 is close to the diversion cavity 61, and the cooling medium outlet 15 is close to the return cavity. Under the action of the external heat dissipation mechanism, the cooling medium can be ensured to stably and uniformly enter the diversion cavity 61 and the spiral cooling channel 13, and stably and uniformly flow out of the return cavity and the spiral cooling channel 13.

Referring to fig. 1, according to the above-mentioned embodiment of the present invention, the cylindrical middle shell 1 includes an inner shell 11 and an outer shell 12, the outer shell 12 is sleeved on the inner shell 11, a spiral groove is provided on an outer wall of the inner shell 11, and the spiral groove and an inner wall of the outer shell 12 form the spiral cooling channel 13. Similarly, in practice, the spiral groove may be formed on the inner wall of the housing 12. The cylindrical middle shell 1 has the advantages that the structure is simple, the assembly is convenient, the reliability of the spiral cooling channel 13 is high, compared with the spiral tube type spiral cooling channel 13 surrounding the outside of the cylindrical middle shell 1, the spiral cooling channel 13 is not easy to be collided and damaged by the outside, the reliability is higher, the distance from the spiral cooling channel 13 to the stator 2 is shorter, and the cooling effect is better.

Referring to fig. 1, according to the above embodiment of the present invention, a first shaft hole is formed in the rear end cover 6, the first shaft hole is communicated with the diversion cavity 61, one end of the rotating shaft 4 is inserted into the first shaft hole, and a first sealing ring 91 is disposed between the rotating shaft 4 and the first shaft hole; the front end cover 5 is provided with a second shaft hole, the second shaft hole is communicated with the backflow cavity, the other end of the rotating shaft 4 is inserted into the second shaft hole and penetrates through the backflow cavity, and a second sealing ring 92 is arranged between the rotating shaft 4 and the second shaft hole. The sealing performance between the rotating shaft 4 and the first shaft hole and the second shaft hole is ensured.

The above description is only for the specific embodiments of the present invention, but the scope of the present invention is not limited thereto, and any person skilled in the art can easily conceive of the changes or substitutions within the technical scope of the present invention, and all the changes or substitutions should be covered within the scope of the present invention. Therefore, the protection scope of the present invention shall be subject to the protection scope of the appended claims.

Claims

1. The utility model provides a motor with axle cooling channel, includes the casing, establishes stator, rotor and pivot in the casing, be equipped with spiral cooling channel on the casing, spiral cooling channel encircles on the casing, be equipped with coolant entry and coolant export on the spiral cooling channel, its characterized in that: a flow guide cavity is formed in one end of the shell, a backflow cavity is formed in the other end of the shell, one end of the rotating shaft is located in the flow guide cavity, the other end of the rotating shaft penetrates through the backflow cavity, a shaft cooling channel is formed in the middle of the rotating shaft, a liquid inlet and a liquid outlet which are communicated with the shaft cooling channel are formed in the rotating shaft, the liquid inlet is located in the flow guide cavity, the liquid outlet is located in the backflow cavity, and the flow guide cavity and the backflow cavity are both communicated with the spiral cooling channel; a liquid guide device is arranged in the flow guide cavity; or a liquid discharge device is arranged in the reflux cavity; or a liquid guide device is arranged in the flow guide cavity and a liquid drainage device is arranged in the backflow cavity.

2. The electric machine with shaft cooling channel of claim 1, wherein: the liquid guiding device is provided with a liquid guiding inlet and a liquid guiding outlet, and the liquid guiding inlet is opposite to the liquid inlet.

3. The electric machine with shaft cooling channels of claim 2, wherein: the liquid guiding device comprises a cylinder body, and a micro motor and an axial flow impeller which are arranged in the cylinder body, wherein the micro motor drives the axial flow impeller to rotate, one end of the cylinder body is provided with a liquid guiding inlet, and the other end of the cylinder body is provided with a liquid guiding outlet.

4. The electric machine with shaft cooling channel of claim 1, wherein: and the liquid drainage device is provided with a liquid drainage inlet and a liquid drainage outlet, and the liquid drainage outlet is opposite to the spiral cooling channel.

5. The electric machine with shaft cooling channel of claim 1, wherein: the liquid guide device and the liquid discharge device have the same structure.

6. The electric machine with shaft cooling channel of claim 1, wherein: the flow guide cavity is internally provided with a mounting bracket, and the liquid guide device is arranged on the mounting bracket.

7. The electric machine with shaft cooling channel of claim 1, wherein: the liquid inlet is arranged at one end of the rotating shaft, and the liquid outlet is arranged on the side wall of the rotating shaft.

8. The electric machine with shaft cooling channel of claim 1, wherein: the backflow cavity comprises a backflow chamber and a backflow channel which are communicated, the liquid outlet is located in the backflow chamber, one end of the backflow channel is communicated with the backflow chamber, the other end of the backflow channel is communicated with the spiral cooling channel, and the liquid drainage device is arranged in the backflow channel.

9. The electric machine with shaft cooling channels of claim 8, wherein: and a buffer bending part is arranged in the backflow channel and is positioned between the liquid drainage device and the spiral cooling channel.

10. The electric machine with shaft cooling channel of claim 1, wherein: the shell comprises a cylindrical middle shell, a front end cover and a rear end cover, wherein the front end cover is arranged at one end of the cylindrical middle shell, and the rear end cover is arranged at the other end of the cylindrical middle shell; the spiral cooling channel is arranged in the cylindrical middle shell, the flow guide cavity is arranged in the rear end cover, and the backflow cavity is arranged in the front end cover.