CN111864990A - Motor and centrifugal air compressor with dual cooling effect - Google Patents

Abstract

The invention provides a motor with double cooling effects and a centrifugal air compressor. The motor comprises a shell, a stator and a rotor, wherein the stator is arranged inside the shell, a rotor cavity is formed in the stator, the rotor is rotatably arranged inside the rotor cavity, and a gap is formed between the rotor and the stator. According to the motor with double cooling effects and the centrifugal air compressor, the water circulation pipeline is arranged between the stator and the shell and is spirally arranged, so that the effective cooling of the water circulation pipeline on the stator is increased, the air-cooled gas is introduced into the rotor cavity through the air flow channel, the axial flow channel is arranged to have a certain inclination angle, 360-degree annular air blowing cooling is realized, meanwhile, the air flow direction of the axial flow channel is the same as the rotation direction of the rotor, a certain driving force can be generated on the rotor by the air flow, and the working power consumption is reduced.

Description

Motor and centrifugal air compressor with dual cooling effect

Technical Field

The invention relates to the technical field of driving equipment, in particular to a motor with double cooling effects and a centrifugal air compressor.

Background

The existing air compressor adopts water cooling or water cooling and air cooling at the same time, and for the air compressor using water cooling, the cooling mode is only to arrange a cooling pipeline on the outer surface of the motor, only the stator can be cooled, and neither the rotor nor a stator coil is cooled; the double cooling mode is adopted, the water cooling mode is also adopted, the water cooling mode is arranged on the outer surface of the motor, the air cooling mode enters the motor through a pipeline arranged on the shell to be cooled, the cooling effect of the two cooling methods can enable the motor to be partially cooled unevenly, and the local uncooled high-temperature area is formed. For a compressor with tens of thousands of rotating speeds, a rotor is influenced by frequency conversion harmonic waves, a large amount of heat can be generated during working, the temperature of the magnetic steel position of the rotor is quite high, and the demagnetization is caused when the temperature exceeds the tolerance temperature of the magnetic steel.

Disclosure of Invention

In order to solve the technical problem of poor cooling effect of the motor in the prior art, the motor with double cooling effects and the centrifugal air compressor are provided, wherein the motor is positioned between the stator and the shell through water cooling, and the air cooling airflow is introduced into the rotor cavity to be cooled so as to improve the cooling effect.

The utility model provides a motor, includes casing, stator and rotor, the stator set up in inside the casing, be provided with the rotor chamber on the stator, the rotor is rotatable set up in rotor intracavity portion, just the rotor with be provided with the clearance between the stator, be provided with the water circulation pipeline on the casing, just be provided with air intake and air outlet on the casing, the air intake the clearance with the air outlet communicates in proper order and constitutes gas flow path.

The shell is of a cylindrical structure, and the water circulation pipeline is spirally wound on the shell along the axis of the cylindrical structure.

The water circulation pipeline is arranged between the shell and the stator.

The motor further comprises a cooling barrel which is of a cylindrical structure, the cooling barrel is sleeved between the stator and the inner surface of the shell, and the water circulation pipeline is arranged between the shell and the cooling barrel.

The motor further comprises a sealing ring, and the two end parts of the cooling barrel are respectively provided with one sealing ring.

The cooling barrel is in interference fit with the stator.

The end part of the rotor is arranged on the shell through a support, an airflow channel is arranged on the support, the first end of the airflow channel is communicated with the air inlet or the air outlet, and the second end of the airflow channel is communicated with the gap.

The support has the orientation the terminal surface of rotor with terminal surface looks vertically week side, the airflow channel is L shape, the first end of airflow channel set up in week side is last, the second end set up in on the terminal surface.

The airflow channel comprises a radial channel and an axial channel which are sequentially communicated, the radial channel is far away from one end of the axial channel to form the first end, the axial channel is far away from one end of the radial channel to form the second end, and the axis of the axial channel and the axis of the rotor have included angles.

The inclination direction of the included angle is the same as the rotation direction of the rotor.

The angle of the included angle ranges from 20 ° to 70 °.

The bearing is provided with an annular groove surrounding the axis of the rotor, a first opening is arranged on the peripheral side surface of the annular groove, a second opening is arranged on the end surface of the gap facing the annular groove, the first opening is communicated with the air inlet or the air outlet, the second opening is communicated with the gap, and the first opening, the annular groove and the second opening form the airflow channel.

The first openings correspond to the air inlets one by one, or the first openings correspond to the air outlets one by one.

The section of the annular groove is trapezoidal, the first opening is arranged on the inclined edge of the trapezoid, and the second opening is arranged on the upper bottom of the trapezoid or the lower bottom of the trapezoid.

The number of the airflow channels is multiple, and the number of the airflow channels is in direct proportion to the diameter of the motor.

All the airflow channels are uniformly distributed on the support in an annular shape by taking the axis of the rotor as a central line.

The support comprises a left support and a right support, the airflow channel comprises a first airflow channel and a second airflow channel, the first airflow channel is arranged on the left support, one end of the first airflow channel is communicated with the air inlet, the other end of the first airflow channel is communicated with the gap, the second airflow channel is arranged on the right support, one end of the second airflow channel is communicated with the air outlet, and the other end of the second airflow channel is communicated with the gap; or the support includes left support and right support, the airflow channel includes first airflow channel and second airflow channel, first airflow channel set up in on the support of the right side, just first airflow channel's one end with the air intake intercommunication, the other end with the clearance intercommunication, second airflow channel set up in on the support of the left side, just second airflow channel's one end with the air outlet intercommunication, the other end with the clearance intercommunication.

A centrifugal air compressor comprises the motor.

According to the motor with double cooling effects and the centrifugal air compressor, the water circulation pipeline is arranged between the stator and the shell and is spirally arranged, so that the effective cooling of the water circulation pipeline on the stator is increased, the air-cooled gas is introduced into the rotor cavity through the air flow channel, the axial flow channel is arranged to have a certain inclination angle, 360-degree annular air blowing cooling is realized, meanwhile, the air flow direction of the axial flow channel is the same as the rotation direction of the rotor, a certain driving force can be generated on the rotor by the air flow, and the working power consumption is reduced.

Drawings

Fig. 1 is a cross-sectional view of a motor and a centrifugal air compressor according to an embodiment of the present invention;

fig. 2 is a schematic structural diagram of a support and a rotor of an embodiment of the motor and the centrifugal air compressor with dual cooling effects provided by the invention;

in the figure:

1. a housing; 2. a stator; 3. a rotor; 4. a gap; 5. a water circulation pipeline; 6. an air inlet; 7. an air outlet; 8. a cooling barrel; 9. an axial flow passage; 10. and (4) a support.

Detailed Description

In order to make the objects, technical solutions and advantages of the present invention more apparent, the present invention will be described in further detail with reference to the accompanying drawings and embodiments. It should be understood that the specific embodiments described herein are merely illustrative of the invention and are not intended to limit the invention.

As shown in fig. 1 and fig. 2, the motor comprises a housing 1, a stator 2 and a rotor 3, wherein the stator 2 is arranged inside the housing 1, a rotor cavity is arranged on the stator 2, the rotor 3 is rotatably arranged inside the rotor cavity, a gap 4 is arranged between the rotor 3 and the stator 2, a water circulation pipeline 5 is arranged on the housing 1, an air inlet 6 and an air outlet 7 are arranged on the housing 1, the air inlet 6, the gap 4 and the air outlet 7 are sequentially communicated to form a gas flow passage, a water cooling system and an air cooling system are simultaneously arranged inside the housing 1, the water cooling system is used for cooling the housing 1 and the heat of the stator 2, meanwhile, the gas in the gas flow passage enters the inside of the rotor cavity, the solenoid and the axial air supply effect of the stator 2 are realized, the stator 2 and the rotor 3 of the motor are fully cooled, and the gas flow enters the rotor cavity through the air inlet, and the air flows through the rotor 3 and the stator 2 through the gap 4 and is finally discharged from the air outlet 7, so that the cooling of the interior of the rotor 3 and the interior of the stator 2 is completed, and the problem of uneven heat dissipation in water cooling or the combination of the water cooling and the air cooling in the prior art is solved.

The shell 1 is of a cylindrical structure, the water circulation pipeline 5 is spirally wound on the shell 1 along the axis of the cylindrical structure, and the path of the water circulation pipeline 5 passing through the inner surface of the shell 1 is increased as much as possible, so that the cooling effect of the water circulation pipeline 5 is increased.

The water circulation pipeline 5 is arranged between the shell 1 and the stator 2, the problem that the water circulation pipeline 5 can only be arranged outside the shell 1 in the prior art is solved, the heat transfer path between the water circulation pipeline 5 and the stator 2 is reduced as much as possible, and therefore the cooling effect of the water circulation pipeline 5 is improved.

Because the motor need carry out water repellent, prevent in the water circulating line 5 cooling water seepage or contact stator 2 and take place electrically conductive phenomenon, the motor still includes cooling barrel 8, cooling barrel 8 becomes the cylindrical structure, just 8 covers of cooling barrel are located stator 2 with between the internal surface of casing 1, just the water circulating line 5 set up in casing 1 with between the cooling barrel 8, utilize cooling barrel 8 to realize the sealed isolation between water circulating line 5 and the stator 2, cooling barrel 8 can also realize the cooling with the heat transfer of stator 2 to in the water circulating line 5 simultaneously.

The motor further comprises a sealing ring, two end parts of the cooling barrel 8 are respectively provided with one sealing ring, sealing between the cooling barrel 8 and the shell 1 is realized by utilizing the sealing rings, and even if the water circulation pipeline 5 has the leakage problem, cooling water can be stored between the cooling barrel 8 and the shell 1 and cannot flow to the inside of the stator 2 or the rotor 3.

The cooling barrel 8 is in interference fit with the stator 2, so that the stator 2 is effectively fixed, and heat at the position of the stator 2 can be reliably transferred.

The end of the rotor 3 is arranged on the shell 1 through a support 10, the support 10 is provided with a bearing, the rotor 3 is arranged on the bearing, the support 10 is provided with an airflow channel, the first end of the airflow channel is communicated with the air inlet 6 or the air outlet 7, the second end of the airflow channel is communicated with the gap 4, and therefore cooling air is introduced into or discharged from a rotor cavity, particularly, a sealing ring is arranged between the support 10 and the shell 1 for sealing.

The support 10 has the terminal surface towards the rotor 3 and the side of week that is mutually perpendicular with the terminal surface, the air current runner is L shape, the first end of air current runner set up in on the side of week, the second end set up in on the terminal surface, thereby make the air current can directly blow to stator 2 solenoid and rotor 3 and clearance 4 department when getting into the rotor chamber, thereby realize the effectual cooling to stator 2, rotor 3 of cooling wind, the air current gets into one by air intake 6 the air current runner of support 10, then flows into the rotor intracavity and cools off, and under the extrusion of the air current pressure of air intake 6 department, is forced to pass through clearance 4 and reaches the other end of rotor 3, and on another support 10 the collection effect of air current runner flows to air outlet 7 department, discharges the motor and accomplishes the cooling.

As shown in fig. 2, the airflow channel includes a radial channel and an axial channel 9 which are sequentially communicated, the radial channel is far away from one end of the axial channel 9 to form the first end, the axial channel 9 is far away from one end of the radial channel to form the second end, and an included angle is formed between an axis of the axial channel 9 and an axis of the rotor 3, the included angle is an acute angle, that is, an air outlet direction of the axial channel 9 is not directly towards the rotor cavity, but is blown towards the rotor cavity to form a certain inclined angle, so that the airflow of the air outlet of the axial channel has a certain circumferential speed and an axial speed, which can ensure the cooling of the enameled wire on the stator 2 and the cooling of the surface of the rotor 3, and can ensure the resistance of the rotor 3 to be reduced during operation, thereby being beneficial to indirectly reducing the heat generated by the motor and enabling the airflow to rotate and, then, the cooling effect is increased by cooling the surface of the rotor 3 by flowing the cooling air into the gap 4 at 360 °, wherein a thin line in fig. 2 indicates an oblique direction of the axial flow passage 9, and a thick line indicates a rotation direction of the rotor 3.

In order to ensure that the cooling wind entering the support 10 can better enter the inside of the rotor cavity, an O-ring seal is required to be added between the end part of the support 10 and the shell 1 to ensure that the wind quantity is sufficient and not leaked.

The incline direction of contained angle with rotor 3's direction of rotation is the same, utilizes airflow channel's air-out to provide certain thrust to rotor 3's rotation, can guarantee the cooling on the cooling of enameled wire and rotor 3 surface, can guarantee again that rotor 3 reduces at the resistance that the during operation was overcome, is favorable to indirectly reducing the motor and generates heat.

The angle of the angle ranges from 20 ° to 70 °, preferably 45 °.

Be provided with on the support 10 and encircle the ring channel of the axis of rotor, be provided with first opening on the week side of ring channel, just the ring channel orientation be provided with the second opening on the terminal surface of clearance, first opening with air intake 6 or air outlet 7 intercommunication, the second opening with clearance 4 intercommunication, just first opening the ring channel with the second opening constitutes airflow channel, also utilize the ring channel to mix in introducing the ring channel with the air inlet of all air intakes 6 through first opening, then by the second opening discharges to make the air current that gets into rotor intracavity portion even, increase the even degree of heat dissipation and the radiating effect of rotor and stator.

When the airflow channel is used for introducing gas into the motor, the first opening corresponds to the air inlet 6 one to one and is used for cooling the gas after passing through the air inlet 6, the first opening, the annular groove and the second opening in sequence, and when the airflow channel is used for leading the gas out of the motor, the first opening corresponds to the air outlet 7 one to one and the gas is discharged out of the motor after passing through the second opening, the annular groove, the first opening and the air outlet 7 in sequence.

The cross section of the annular groove is trapezoidal, the first opening is arranged on the inclined side of the trapezoid, the second opening is arranged on the upper bottom of the trapezoid or the lower bottom of the trapezoid, the position of the second opening is determined according to the direction of the trapezoid facing the rotor cavity, when the upper bottom of the trapezoid points to the gap, the second opening is arranged on the upper bottom, and when the lower bottom of the trapezoid points to the gap, the second opening is arranged on the lower bottom.

The quantity of airflow runner is a plurality of, just the quantity of airflow runner with the diameter of motor is directly proportional, and the diameter of motor is the bigger, and the quantity of airflow runner is more, and the ratio of motor diameter and the quantity of airflow runner should be chosen between 15-22, perhaps the quantity of second opening with the diameter of motor is directly proportional, and when the diameter of motor is bigger, the quantity of the second opening that communicates with the clearance is more to guarantee the radiating effect of motor.

All the airflow channels are uniformly distributed on the support 10 in an annular shape by taking the axis of the rotor 3 as a central line, that is, the radial channels are annular, all the axial channels 9 are communicated with the annular radial channels, and all the axial channels 9 are distributed in a circular shape by taking the rotating shaft of the rotor 3 as an axis, so that the air outlet end of the axial channel 9 is ensured to exist at each position of the rotor cavity, and the stator 2 and the rotor 3 are ensured to be uniformly cooled.

The support 10 comprises a left support and a right support, the airflow channel comprises a first airflow channel and a second airflow channel, the first airflow channel is arranged on the left support, one end of the first airflow channel is communicated with the air inlet 6, the other end of the first airflow channel is communicated with the gap 4, the second airflow channel is arranged on the right support, one end of the second airflow channel is communicated with the air outlet 7, and the other end is communicated with the gap 4, namely, cooling air enters the first airflow channel from the left support and flows into the rotor cavity for cooling under the action of all axial channels 9 on the left support, then the air flows pass through the other end of the gap 4 flow channel rotor 3, is collected under the action of an axial flow channel 9 on the right support, then flows into a second airflow channel, and is finally discharged from the air outlet 7 to finish the air cooling process.

As another embodiment, the support 10 includes a left support and a right support, the airflow passage includes a first airflow passage and a second airflow passage, the first airflow passage is disposed on the right support, one end of the first airflow channel is communicated with the air inlet 6, the other end of the first airflow channel is communicated with the gap 4, the second airflow channel is arranged on the left support, one end of the second airflow channel is communicated with the air outlet 7, the other end of the second airflow channel is communicated with the gap 4, namely, cooling air enters the first airflow channel from the right support and flows into the rotor cavity for cooling under the action of all axial channels 9 on the right support, then the air flows pass through the other end of the gap 4 flow channel rotor 3, is collected under the action of the axial flow channel 9 on the left support, then flows into the second airflow channel, and is finally discharged from the air outlet 7 to finish the air cooling process.

A centrifugal air compressor comprises the motor.

The above-mentioned embodiments only express several embodiments of the present invention, and the description thereof is more specific and detailed, but not construed as limiting the scope of the present invention. It should be noted that, for a person skilled in the art, several variations and modifications can be made without departing from the inventive concept, which falls within the scope of the present invention. Therefore, the protection scope of the present patent shall be subject to the appended claims.

Claims (18)

1. The utility model provides a motor, includes casing (1), stator (2) and rotor (3), stator (2) set up in inside casing (1), be provided with the rotor chamber on stator (2), rotor (3) rotatable set up in inside the rotor chamber, just rotor (3) with be provided with clearance (4), its characterized in that between stator (2): the gas flow path is characterized in that a water circulation pipeline (5) is arranged on the shell (1), an air inlet (6) and an air outlet (7) are arranged on the shell (1), and the air inlet (6), the gap (4) and the air outlet (7) are sequentially communicated to form a gas flow path.

2. The electric machine of claim 1, wherein: the shell (1) is of a cylindrical structure, and the water circulation pipeline (5) is spirally wound on the shell (1) along the axis of the cylindrical structure.

3. The electric machine of claim 2, wherein: the water circulation pipeline (5) is arranged between the shell (1) and the stator (2).

4. The electric machine of claim 3, wherein: the motor further comprises a cooling barrel (8), the cooling barrel (8) is of a cylindrical structure, the cooling barrel (8) is sleeved between the stator (2) and the inner surface of the shell (1), and the water circulation pipeline (5) is arranged between the shell (1) and the cooling barrel (8).

5. The electric machine of claim 4, wherein: the motor further comprises a sealing ring, and the two end parts of the cooling barrel (8) are respectively provided with one sealing ring.

6. The electric machine of claim 4, wherein: the cooling barrel (8) is in interference fit with the stator (2).

7. The electric machine of claim 1, wherein: the end part of the rotor (3) is arranged on the shell (1) through a support (10), an airflow channel is arranged on the support (10), the first end of the airflow channel is communicated with the air inlet (6) or the air outlet (7), and the second end of the airflow channel is communicated with the gap (4).

8. The electric machine of claim 7, wherein: the support (10) has the orientation the terminal surface of rotor (3) and with terminal surface looks vertically week side, the first end of airflow channel set up in on the week side, the second end set up in on the terminal surface.

9. The electric machine of claim 8, wherein: airflow channel is including the radial runner and the axial runner (9) that communicate in proper order, radial runner is kept away from the one end of axial runner (9) constitutes first end, axial runner (9) are kept away from the one end of radial runner constitutes the second end, just the axis of axial runner (9) with the axis of rotor (3) has the contained angle.

10. The electric machine of claim 9, wherein: the inclination direction of the included angle is the same as the rotation direction of the rotor (3).

11. The electric machine of claim 9, wherein: the angle of the included angle ranges from 20 ° to 70 °.

12. The electric machine of claim 7, wherein: the bearing (10) is provided with an annular groove surrounding the axis of the rotor, a first opening is arranged on the peripheral side face of the annular groove, the annular groove faces the end face of the gap, a second opening is arranged on the end face of the gap, the first opening is communicated with the air inlet (6) or the air outlet (7), the second opening is communicated with the gap (4), and the first opening, the annular groove and the second opening form the airflow channel.

13. The electric machine of claim 12, wherein: the first openings correspond to the air inlets (6) one by one, or the first openings correspond to the air outlets (7) one by one.

14. The electric machine of claim 12, wherein: the section of the annular groove is trapezoidal, the first opening is arranged on the inclined edge of the trapezoid, and the second opening is arranged on the upper bottom of the trapezoid or the lower bottom of the trapezoid.

15. The electric machine of claim 7, wherein: the number of the airflow channels is multiple, and the number of the airflow channels is in direct proportion to the diameter of the motor.

16. The electric machine of claim 15, wherein: all the airflow channels are uniformly distributed on the support (10) in an annular shape by taking the axis of the rotor (3) as a central line.

17. The electric machine of claim 7, wherein: the support (10) comprises a left support and a right support, the airflow channel comprises a first airflow channel and a second airflow channel, the first airflow channel is arranged on the left support, one end of the first airflow channel is communicated with the air inlet (6), the other end of the first airflow channel is communicated with the gap (4), the second airflow channel is arranged on the right support, one end of the second airflow channel is communicated with the air outlet (7), and the other end of the second airflow channel is communicated with the gap (4); or the support (10) comprises a left support and a right support, the airflow channel comprises a first airflow channel and a second airflow channel, the first airflow channel is arranged on the right support, one end of the first airflow channel is communicated with the air inlet (6), the other end of the first airflow channel is communicated with the gap (4), the second airflow channel is arranged on the left support, one end of the second airflow channel is communicated with the air outlet (7), and the other end of the second airflow channel is communicated with the gap (4).

18. The utility model provides a centrifugal air compressor machine which characterized in that: comprising an electrical machine according to any of claims 1 to 17.

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