CN217159438U - Liquid cooling double-shaft extension permanent magnet synchronous servo motor - Google Patents
Liquid cooling double-shaft extension permanent magnet synchronous servo motor Download PDFInfo
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- CN217159438U CN217159438U CN202122799289.6U CN202122799289U CN217159438U CN 217159438 U CN217159438 U CN 217159438U CN 202122799289 U CN202122799289 U CN 202122799289U CN 217159438 U CN217159438 U CN 217159438U
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- Y—GENERAL TAGGING OF NEW TECHNOLOGICAL DEVELOPMENTS; GENERAL TAGGING OF CROSS-SECTIONAL TECHNOLOGIES SPANNING OVER SEVERAL SECTIONS OF THE IPC; TECHNICAL SUBJECTS COVERED BY FORMER USPC CROSS-REFERENCE ART COLLECTIONS [XRACs] AND DIGESTS
- Y02—TECHNOLOGIES OR APPLICATIONS FOR MITIGATION OR ADAPTATION AGAINST CLIMATE CHANGE
- Y02T—CLIMATE CHANGE MITIGATION TECHNOLOGIES RELATED TO TRANSPORTATION
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- Y02T10/64—Electric machine technologies in electromobility
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Abstract
The utility model relates to the technical field of motors, and discloses a liquid cooling double-shaft extension permanent magnet synchronous servo motor, which comprises a frame, a stator core with windings, a rotor core, a rotor shaft, a front end cover, a rear end cover and an encoder, wherein one end of the frame is connected with the front end cover, the other end of the frame is connected with the rear end cover, and the frame, the front end cover and the rear end cover form an accommodating space; the winding stator iron core, the rotor iron core and the rotor shaft are all arranged in the accommodating space, the rotor iron core is arranged on the rotor shaft, the winding stator iron core is arranged on the outer peripheral side of the rotor iron core, one end of the rotor shaft extends out of the front end cover, and the other end of the rotor shaft extends out of the rear end cover; the rear end cover is provided with an accommodating cavity, and the encoder is arranged in the accommodating cavity; the engine base is provided with a cooling liquid inlet, a cooling flow channel and a cooling liquid outlet, wherein cooling liquid enters the cooling flow channel through the cooling liquid inlet and flows out of the cooling flow channel through the cooling liquid outlet so as to take heat generated in the accommodating space out. The utility model discloses can improve motor performance and efficiency, compact structure.
Description
Technical Field
The utility model relates to the technical field of electric machines, especially, relate to a liquid cooling double-shaft extension permanent magnet synchronous servo motor.
Background
The motor is a power source of an industrial system, and a double-shaft extension motor is required to be used as power output in a power system of the existing extrusion mechanical equipment. At present, the double-shaft stretching motor usually takes an asynchronous motor as a main part, but the asynchronous motor has high energy consumption and low efficiency, and the whole structure occupies a large space, so that the development of using a synchronous servo motor in the double-shaft stretching motor is very important. However, the cooling mode of the existing double-shaft extension synchronous servo motor is usually natural cooling without a cooling structure, so that the requirement of a high-power motor needing liquid cooling cannot be met.
SUMMERY OF THE UTILITY MODEL
In view of the above problem, the utility model aims at providing a liquid cooling biax stretches permanent magnetism synchronous servo motor to solve the problem that current biax stretches synchronous servo motor can't satisfy the demand that needs use the high-power motor of liquid cooling.
In order to achieve the above purpose, the utility model adopts the following technical scheme:
the utility model discloses a liquid cooling biax is stretched permanent magnetism synchronous servo motor, including frame, stator core, rotor shaft, front end housing, rear end cap and encoder that have the winding, wherein, one end of frame is connected the front end housing, the other end of frame is connected the rear end cap, the frame, the front end housing with the rear end cap forms accommodation space; the wound stator core, the rotor core and the rotor shaft are all arranged in the accommodating space, the rotor core is arranged on the rotor shaft, the wound stator core is arranged on the outer peripheral side of the rotor core, one end of the rotor shaft extends out of the front end cover, and the other end of the rotor shaft extends out of the rear end cover; the rear end cover is provided with a containing cavity, and the encoder is arranged in the containing cavity; the engine base is provided with a cooling liquid inlet, a cooling flow channel and a cooling liquid outlet, cooling liquid enters the cooling flow channel through the cooling liquid inlet, and flows out of the cooling flow channel through the cooling liquid outlet so as to take heat generated in the accommodating space out.
Preferably, the cooling flow channel is arranged in a labyrinth manner inside the engine base.
Preferably, the liquid-cooled double-shaft-extension permanent magnet synchronous servo motor further comprises a wire outlet box, the wire outlet box is arranged on the upper surface of the rear end cover, a wire outlet hole is formed in the rear end cover, and a three-phase power line with a winding stator core enters the wire outlet box through the wire outlet hole.
Preferably, one side of the rear end cap is recessed to form the accommodating cavity.
Preferably, the rear end cover comprises a first circular plate, a second circular plate and a transition plate, the first circular plate and the second circular plate are arranged at an interval, the outer diameter of the first circular plate is smaller than the inner diameter of the second circular plate, one side of the transition plate is connected with the outer edge of the first circular plate, and the other side of the transition plate is connected with the inner edge of the second circular plate.
Preferably, an annular wall extends axially from one side of the first annular plate, and the annular wall forms a bearing mounting groove.
Preferably, a front bearing is arranged between the front end cover and the rotor shaft, and a rear bearing is arranged between the rear end cover and the rotor shaft.
Preferably, the front end cover is connected with the engine base through bolts, and the rear end cover is connected with the engine base through bolts.
Preferably, the liquid cooling double-shaft extension permanent magnet synchronous servo motor further comprises a rear cover plate, the rear cover plate is connected with the rear end cover, and the rear cover plate is provided with a through hole for the rotor shaft to extend out.
Preferably, the liquid cooling biaxial tension permanent magnet synchronous servo motor further comprises a bottom plate, the bottom plate is arranged below the base, and the base, the front end cover and the rear end cover are all connected with the bottom plate.
The embodiment of the utility model provides a liquid cooling biax stretches synchronous servo motor of permanent magnetism compares with prior art, and its beneficial effect lies in:
the utility model discloses liquid cooling biaxial extension permanent magnetism synchronous servo motor is provided with the cooling runner in the frame, utilizes the heat that the cooling liquid cooling frame internals of circulation produced among the cooling runner. The cooling mode of liquid cooling is adopted, and compared with the existing cooling mode of air cooling and natural cooling, the power density of the motor can be further improved, and the performance and the efficiency of the motor are improved. Moreover, the requirement that a permanent magnet synchronous motor can be selected when a user selects a high-power double-shaft extension motor, the cooling mode is liquid cooling, and the overall structure of the motor is more compact and concise.
Drawings
Fig. 1 is a schematic three-dimensional structure diagram of a liquid-cooled biaxial tension permanent magnet synchronous servo motor according to an embodiment of the present invention;
fig. 2 is a half sectional view of a liquid-cooled double-shaft permanent magnet synchronous servo motor according to an embodiment of the present invention;
fig. 3 is a schematic front view of a liquid-cooled biaxial tension permanent magnet synchronous servo motor according to an embodiment of the present invention;
fig. 4 is a schematic cross-sectional view of the base of the present invention;
fig. 5 is a schematic front view of the rear end cap of the present invention;
FIG. 6 is a view from the A-A direction of FIG. 5;
fig. 7 is a schematic top view of a rear end cap according to the present invention;
in the figure, 1, a machine base; 101. a coolant inlet; 102. a cooling flow channel; 103. a coolant outlet; 2. a wound stator core; 3. a rotor core; 4. a rotor shaft; 5. a front end cover; 6. a rear end cap; 61. a first annular plate; 62. a second annular plate; 621. a wire outlet channel; 63. a transition plate; 631. a wire outlet hole; 64. an annular wall; 7. an encoder; 8. a rear cover plate; 9. a base plate; 10. an outlet box; 11. a front bearing; 12. a rear bearing; 13. a bearing fixing sleeve; 14. an inner bearing cover; 15. a lifting ring.
Detailed Description
The following detailed description of the embodiments of the present invention is provided with reference to the accompanying drawings and examples. The following examples are intended to illustrate the invention, but are not intended to limit the scope of the invention.
As shown in fig. 1-4, a liquid-cooled dual-shaft permanent magnet synchronous servo motor according to a preferred embodiment of the present invention includes a stator and a rotor, wherein the stator includes a base 1 and a stator core 2 with windings, the stator core 2 with windings includes a stator core and windings, and the rotor includes a rotor core 3, a rotor shaft 4, a front end cap 5, a rear end cap 6 and an encoder 7, wherein one end of the base 1 is connected to the front end cap 5, the other end of the base 1 is connected to the rear end cap 6, the base 1, the front end cap 5 and the rear end cap 6 form a receiving space, for example, the front end cap 5 and the rear end cap 6 respectively cover two ends of the base 1, preferably, the front end cap 5 is bolted to the base 1, and the rear end cap 6 is bolted to the base 1, so as to facilitate installation and disassembly; the winding stator core 2, the rotor core 3 and the rotor shaft 4 are all installed in the accommodating space, the rotor core 3 is installed on the rotor shaft 4, the winding stator core 2 is arranged on the outer peripheral side of the rotor core 3, one end of the rotor shaft 4 extends out of the front end cover 5, the other end of the rotor shaft 4 extends out of the rear end cover 6, and preferably, the rotor core 3 is of a magnetic steel structure; the rear end cover 6 is provided with an accommodating cavity, and the encoder 7 is arranged in the accommodating cavity so as to shorten the overall length of the motor and make the motor overall concise and attractive; the machine base 1 is provided with a cooling liquid inlet 101, a cooling flow channel 102 and a cooling liquid outlet 103, cooling liquid enters the cooling flow channel 102 through the cooling liquid inlet 101 and flows out of the cooling flow channel 102 through the cooling liquid outlet 103 so as to bring out heat generated in the accommodating space, and the heat generated by the operation of the winding stator core 2 and the rotor core 3 is included so as to ensure the normal operation of the motor. Wherein the cooling fluid may be water.
The motor has the winding stator core 2 and forms the rotating magnetic field after circular telegram, and rotor core 3 rotates and carries out torque output. In the running process of the motor, the cooling liquid is introduced into the cooling flow channel 102 of the base 1, and the heat generated by the running of the motor is brought out by the circulating flow of the cooling liquid, so that the continuous normal running of the motor is ensured.
The utility model discloses be provided with cooling runner 102 in frame 1, utilize the heat that the coolant liquid cooling frame 1 internals produced of circulation among the cooling runner 102. The cooling mode of liquid cooling is adopted, and compared with the existing cooling mode of air cooling and natural cooling, the power density of the motor can be further improved, and the performance and the efficiency of the motor are improved. Moreover, the requirement that a permanent magnet synchronous motor can be selected when a user selects a high-power double-shaft extension motor, the cooling mode is liquid cooling, and the overall structure of the motor is more compact and concise.
Optionally, the cooling flow channel 102 is arranged in a labyrinth manner inside the housing 1, one end of the cooling flow channel 102 is connected to the cooling liquid inlet 101, and the other end of the cooling flow channel 102 is connected to the cooling liquid outlet 103, so that heat of the motor is taken away by the flow of the cooling liquid in the cooling flow channel 102. In other embodiments, there may be a plurality of cooling channels 102, and each cooling channel 102 has a matching cooling fluid inlet 101 and cooling fluid outlet 103 for introducing cooling fluid into each cooling channel 102. Further, alternatively, a plurality of cooling runners 102 may be arranged in parallel and parallel to the center axis of the housing 1.
Optionally, a front bearing 11 is disposed between the front end cover 5 and the rotor shaft 4, and a rear bearing 12 is disposed between the rear end cover 6 and the rotor shaft 4 to support the rotor shaft 4. Further, one side of the front bearing 11 is provided with a bearing inner cover 14, the bearing inner cover 14 is positioned between the rotor core 3 and the bearing, and the bearing inner cover 14 is in bolt connection with the front end cover 5; the other side of the front bearing 11 is provided with a bearing fixing sleeve 13, the bearing fixing sleeve 13 is coaxially arranged with the front end cover 5, the diameter of the bearing fixing sleeve 13 is smaller than that of the front end cover 5, and the bearing fixing sleeve 13 is fixed with the front end cover 5.
Preferably, the liquid cooling double-shaft extension permanent magnet synchronous servo motor further comprises an outlet box 10, the outlet box 10 is fixed on the upper surface of the rear end cover 6 and located above the base 1, the rear end cover 6 is provided with an outlet hole 631, a wiring board is arranged inside the outlet box 10, and a three-phase power line with a winding stator core 2 passes through the outlet hole 631 to enter the outlet box 10 and be connected with the wiring board. The three-phase power line of the winding stator core 2 is led out through the wire outlet hole 631 of the rear end cover 6, so that the wire outlet hole 631 can be prevented from being processed on the machine base 1, the construction procedures can be reduced, and the construction cost can be saved. Furthermore, the outlet box 10 is connected with the surface of the rear end cover 6 by using screws, and a gap is formed between the bottom of the outlet box 10 and the upper surface of the base 1. Further, a transition pad is disposed at the bottom of the outlet box 10 to ensure that the outlet box 10 is installed firmly.
In this embodiment, one side of the rear end cover 6 is recessed to form the accommodating cavity for accommodating the encoder 7, so as to shorten the overall length of the motor, and make the structure more compact. Wherein, the sinking direction is from the rear end cover 6 to the front end cover 5.
As shown in fig. 5 to 7, in this embodiment, the rear end cover 6 includes a first annular plate 61, a second annular plate 62, and a transition plate 63, where the first annular plate 61 and the second annular plate 62 are disposed at an interval, an outer diameter of the first annular plate 61 is smaller than an inner diameter of the second annular plate 62, one side of the transition plate 63 is connected to an outer edge of the first annular plate 61, and another side of the transition plate 63 is connected to an inner edge of the second annular plate 62, so that the rear end cover 6 is in a horn shape. Specifically, the transition plate 63 is a cylindrical structure with openings at two ends, and the opening at one end is larger than the opening at the other end, wherein the larger opening end is butted with the inner edge of the second annular plate 62, and the smaller opening end is butted with the outer edge of the first annular plate 61.
Further, a plurality of outlet holes 631 are provided on the transition plate 63, and the plurality of outlet holes 631 are uniformly arranged along the circumferential direction. As shown in fig. 5 and fig. 7, the outlet holes 631 are elongated, in this embodiment, four outlet holes 631 are provided along the circumference, in other embodiments, the outlet holes 631 may also be provided in other numbers, for example, three or five, and the specific number is determined according to the size of the outlet holes 631 and the size of the transition plate 63.
As shown in fig. 5, the second circular plate 62 is provided with a wire outlet channel 621, an axis of the wire outlet channel 621 is perpendicular to a central axis of the second circular plate 62 to communicate with the wire outlet box 10 on the machine base 1, and a three-phase power line outlet of the stator core 2 with winding is led out to the wire outlet box 10 through the wire outlet hole 631 on the transition plate 63 and the wire outlet channel 621.
Further, preferably, an annular wall 64 extends axially from one side of the first annular plate 61, and the annular wall 64 forms a bearing mounting groove for mounting the rear bearing 12. The rear bearing 12 is installed in a bearing installation groove formed by the annular wall 64, so that the deflection of a rotor core of the motor can be reduced, the overall length of the motor is further shortened, and the motor is compact in structure. The annular wall 64 extends in the same direction as the recess of the rear cover 6, and both extend in the direction of the front cover 5. The inner diameter of the annular wall 64 is larger than the inner diameter of the first annular plate 61, and the outer diameter of the annular wall 64 is smaller than the outer diameter of the first annular plate 61. The inner diameter of the annular wall 64 matches the outer diameter of the rear bearing 12.
Optionally, the liquid-cooled double-shaft extension permanent magnet synchronous servo motor further comprises a rear cover plate 8, and the rear cover plate 8 is connected with the rear end cover 6, so that the motor can be sealed, and the appearance of the motor is simple and attractive; and, the rear cover plate 8 is provided with a through hole through which the rotor shaft 4 protrudes, so that the end of the rotor shaft 4 protrudes out of the motor. Further, preferably, a clamping groove is formed in the second circular plate 62, and the rear cover plate 8 is clamped on the second circular plate 62. The rear cover plate 8 is circular, and the diameter of the rear cover plate 8 is larger than the inner diameter of the second circular plate 62 and smaller than the outer diameter of the second circular plate 62. The rear cover plate 8 and the second annular plate 62 may be connected by bolts.
Optionally, the liquid cooling biaxial tension permanent magnet synchronous servo motor further comprises a bottom plate 9, the bottom plate 9 is arranged below the base 1, the front end cover 5 and the rear end cover 6 are connected with the bottom plate 9, preferably through bolts, so that the liquid cooling biaxial tension permanent magnet synchronous servo motor is convenient to install and detach. Further, a plurality of bolt holes are formed in the bottom plate 9, so that bolts can pass through the bolt holes to fix the bottom plate 9, and thus the motor is fixed.
Optionally, the surface of the machine base 1 is further provided with a lifting ring 15 so as to facilitate lifting the motor by using a lifting tool. Only two lifting rings 15 are shown in fig. 1, but in other embodiments, a plurality of lifting rings 15 may be provided.
To sum up, the embodiment of the utility model provides a liquid cooling double-shaft extension permanent magnet synchronous servo motor, it is provided with cooling runner 102 in frame 1, utilizes the heat that the coolant liquid cooling frame 1 internals of circulation produced in cooling runner 102. And compared with the existing cooling modes of air cooling and natural cooling, the cooling mode of liquid cooling is adopted, so that the power density of the motor can be further improved, and the performance and the efficiency of the motor are improved. Moreover, the requirement that a permanent magnet synchronous motor can be selected when a user selects a high-power double-shaft extension motor, the cooling mode is liquid cooling, and the overall structure of the motor is more compact and concise.
And, the utility model discloses in, there is winding stator core 2's three-phase power line to be qualified for the next round of competitions and can follow rear end cap 6 and draw forth, satisfies user's wiring demand, and need not to process motor frame wire hole, practices thrift the cost to make compact structure.
And, the utility model discloses in, rear end housing 6 is provided with and holds the chamber to hold encoder 7, shorten the whole length of motor, and, through annular wall 64 installation rear bearing 12 that extends in rear end housing 6, reduce the degree of disturbance unshakable in one's determination of electric motor rotor, and further shorten the whole length of motor, make motor compact structure.
The foregoing is only a preferred embodiment of the present invention, and it should be noted that, for those skilled in the art, a plurality of modifications and replacements can be made without departing from the technical principle of the present invention, and these modifications and replacements should also be regarded as the protection scope of the present invention.
Claims (10)
1. The utility model provides a liquid cooling biaxial extension permanent magnetism synchronous servo motor which characterized in that includes:
the motor comprises a base, a stator core with a winding, a rotor core, a rotor shaft, a front end cover, a rear end cover and an encoder, wherein one end of the base is connected with the front end cover, the other end of the base is connected with the rear end cover, and the base, the front end cover and the rear end cover form an accommodating space; the wound stator core, the rotor core and the rotor shaft are all arranged in the accommodating space, the rotor core is arranged on the rotor shaft, the wound stator core is arranged on the outer peripheral side of the rotor core, one end of the rotor shaft extends out of the front end cover, and the other end of the rotor shaft extends out of the rear end cover; the rear end cover is provided with a containing cavity, and the encoder is arranged in the containing cavity; the engine base is provided with a cooling liquid inlet, a cooling flow channel and a cooling liquid outlet, cooling liquid enters the cooling flow channel through the cooling liquid inlet, and flows out of the cooling flow channel through the cooling liquid outlet so as to take heat generated in the accommodating space out.
2. The liquid-cooled biaxial tension permanent magnet synchronous servo motor as claimed in claim 1, wherein said cooling flow passage is arranged in a labyrinth manner inside said housing.
3. The liquid-cooled biaxial tension permanent magnet synchronous servo motor according to claim 1, further comprising an outlet box, wherein the outlet box is arranged on the upper surface of the rear end cover, the rear end cover is provided with an outlet hole, and the three-phase power line of the stator core with the winding enters the outlet box through the outlet hole.
4. The liquid-cooled biaxial tension permanent magnet synchronous servo motor of claim 1, wherein one side of the rear end cap is recessed to form the receiving cavity.
5. The liquid-cooled biaxial tension permanent magnet synchronous servo motor of claim 4, wherein the rear end cover comprises a first circular ring plate, a second circular ring plate and a transition plate, the first circular ring plate and the second circular ring plate are arranged at an interval relatively, the outer diameter of the first circular ring plate is smaller than the inner diameter of the second circular ring plate, one side of the transition plate is connected with the outer edge of the first circular ring plate, and the other side of the transition plate is connected with the inner edge of the second circular ring plate.
6. The liquid-cooled biaxial tension permanent magnet synchronous servo motor of claim 5, wherein one side of the first annular plate extends axially with an annular wall, and the annular wall forms a bearing mounting groove.
7. The liquid-cooled twin-shaft-extension permanent magnet synchronous servo motor of claim 1, wherein a front bearing is arranged between the front end cover and the rotor shaft, and a rear bearing is arranged between the rear end cover and the rotor shaft.
8. The liquid-cooled biaxial tension permanent magnet synchronous servo motor of claim 1, wherein the front end cap is bolted to the base and the rear end cap is bolted to the base.
9. The liquid-cooled biaxial tension permanent magnet synchronous servo motor of claim 1, further comprising a back cover plate, wherein the back cover plate is connected with the back end cover, and the back cover plate is provided with a through hole for the rotor shaft to extend out.
10. The liquid-cooled biaxial tension permanent magnet synchronous servo motor of claim 1, further comprising a bottom plate disposed below the base, wherein the base, the front end cap and the rear end cap are connected to the bottom plate.
Priority Applications (1)
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CN202122799289.6U CN217159438U (en) | 2021-11-15 | 2021-11-15 | Liquid cooling double-shaft extension permanent magnet synchronous servo motor |
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CN202122799289.6U CN217159438U (en) | 2021-11-15 | 2021-11-15 | Liquid cooling double-shaft extension permanent magnet synchronous servo motor |
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CN217159438U true CN217159438U (en) | 2022-08-09 |
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CN202122799289.6U Active CN217159438U (en) | 2021-11-15 | 2021-11-15 | Liquid cooling double-shaft extension permanent magnet synchronous servo motor |
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2021
- 2021-11-15 CN CN202122799289.6U patent/CN217159438U/en active Active
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