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Oil cooling driving motor and assembling method thereof
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A driving motor and oil cooling technology, applied in the manufacture of motor generators, motors, electromechanical devices, etc., can solve the problems of high processing cost, stator and rotor contact and spraying, complex structure, etc., and achieve the effect of improving heat exchange efficiency
Pending Publication Date: 2022-05-24
LEADRIVE TECH (SHANGHAI) CO LTD
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Abstract
Description
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Application Information
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Problems solved by technology
[0002]At present, during the actual operation of the motor, when the motor is at low speed and high torque, the stator and rotor of the motor will emit a lot of heat, and the heat dissipation method of the motor is mostly in the motor A spiral water flow channel is set inside the casing, and the cooling effect of the motor is achieved through the circulation of water in the casing. This cooling method has the disadvantage that the motor stator winding (coil) and the rotor cannot be directly cooled, and the main heat source of the motor is Less effective cooling, so the thermal load on the motor is limited, which in turn leads to a limited motor volume
And some water-cooled motors are designed with inner and outer water jackets, but because the cooling water is conductive, it cannot contact and spray with the stator and rotor, so the inner water jacket is a closed design
[0003] In order to improve the cooling efficiency of the motor in the prior art, an oil-cooled cooling method has appeared. Since the cooling oil is not conductive, it can be directly connected to the motor. The heating source is in contact, and the heating sources of the motor are effectively cooled. Under the same performance requirements, the oil-cooled motor has higher heat load than the traditional water-cooled motor, the motor volume can be reduced, and the power density can be further improved. The cooling oil can be lubricated and cooled at the same time. Motor bearings, and thus the life of the motor is also improved, but the structure of the oil circuit is complex and the processing technology is cumbersome. The structure of the oil circuit mostly uses screw fastening, welding and other processing techniques, and the structure of each component is complex and the processing cost is high.
Method used
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Embodiment 1
[0043] Example 1, see attached Figure 1-5 , There are several axial partition bars 4 between the two oil rings, and a cooling oil circuit 1 is formed between the two partition bars 4; Baffled cooling channels are formed along the outer surface of the motor body 12 .
[0044] In this embodiment, a connecting oil passage 3 communicates with the oil injection area, and is used for conducting cooling oil to the oil injection area. In other embodiments, a plurality of connecting oil passages 3 can also be arranged to communicate with the oil injection area.
[0045] Preferably, in this embodiment, the partition bar 4 is also provided with a circumferential first reinforcing rib 7, and there is a gap between the first reinforcing rib 7 and the motor body 12, and the gap is used to conduct the cooling oil passage 1, The cooling oil passage 1 is prevented from being blocked by the first reinforcing rib 7 .
Embodiment 2
[0046] Example 2, see attached Image 6 , a circumferential helical partition bar 4 is arranged between the two oil rings to form a circumferential helicalcooling channel on the outer surface of the motor body 12 .
[0047] Preferably, in this embodiment, there is also an axial second reinforcing rib between the two oil rings, the second reinforcing rib is connected with the partition bar 4, and there is a gap between the second reinforcing rib and the motor body 12, and the In order to conduct the cooling oil passage 1 to prevent the cooling oil passage 1 from being blocked by the second reinforcing ribs.
Embodiment 3
[0048] Example 3, see attached Figure 7 , There is a circumferential reserved channel between the two oil rings, a number of axial partition bars 4 are respectively arranged between the reserved channel and the two oil rings, and a cooling oil circuit 1 is formed between the two partition bars 4, and the cooling oil It flows to the cooling oil circuit 1 on both sides through the reserved channel at the same time, and flows to the oil rings on both sides through the connecting oil channel 3 respectively, thereby forming a parallel cooling oil circuit 1 with the reserved channel as the center. Usually, the number of reserved channels is one, but it can also be set to multiple to speed up the diversion speed.
[0049] Preferably, blocking strips are provided on both sides of the reserved channel to isolate the reserved channel from the cooling oil circuit 1, so that the cooling oil liquid fills the reserved channel first. The blocking strip is provided with an opening, the cool...
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Abstract
The invention provides an oil cooling driving motor which comprises a shell and a motor body arranged in the shell, an inner oil sleeve is arranged outside the motor body in a sleeving mode, the inner oil sleeve comprises oil rings arranged at the two ends of the motor body and a cooling part arranged between the two oil rings, the oil rings comprise the first oil ring and the second oil ring, and the cooling part is arranged between the first oil ring and the second oil ring. The first oil ring and the cooling part are integrated, and the second oil ring and the cooling part are assembly parts; the inner oil sleeve is made of a plastic material; the cooling part is provided with a hollow cooling oil path; an oil spraying area is arranged on the oil ring; the oil injection area is communicated with the cooling oil way through a connecting oil way; cooling oil flows in the axial direction or the circumferential direction of the outer surface of the motor body on the cooling oil way so as to be used for cooling the motor body, enters the oil spraying area through the connecting oil way and is sprayed to the two ends of the motor body through the oil spraying holes.
Description
technical field [0001] The invention relates to the technical field of drive motors, in particular to an oil-cooled drive motor and an assembling method thereof. Background technique [0002] At present, during the actual operation of the motor, when the motor is at low speed and high torque, the stator and rotor of the motor will emit a lot of heat. Circulating flow, thereby realizing the cooling effect of the motor. In this cooling method, the stator winding (coil) and rotor of the motor cannot be directly cooled, and the main heat source of the motor cannot be effectively cooled, so the thermal load of the motor is limited, which leads to The size of the motor is limited. And some water-cooled motors are designed with inner and outer water jackets, but because the cooling water conducts electricity, it cannot contact and spray with the stator and rotor, so the inner water jacket is a closed design. [0003] In the prior art, in order to improve the cooling efficiency of...
Claims
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Application Information
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