Magnetic suspension bearing with squeeze film damper

文档序号:4778 发布日期:2021-09-17 浏览:65次 中文

1. The utility model provides a magnetic suspension bearing with squeeze film attenuator which characterized in that: the energy-saving device comprises a basic assembly, an energy consumption assembly, a heat dissipation assembly, an oil charging assembly and an oil charging assembly, wherein the basic assembly is positioned at the outermost side of the whole device and plays a role of supporting other components in the device;

the basic assembly comprises a bearing inner ring (101), a shaft hole (102) and a bearing outer ring (103), wherein the bearing inner ring (101) is positioned in the center of the device, the shaft hole (102) is formed in the center of the bearing inner ring (101), and the bearing outer ring (103) is sleeved on the outer side of the bearing inner ring (101);

the energy dissipation assembly comprises an oil film squeezing ring (201), an oil film squeezing groove (202) and a squeezing groove oil drilling hole (203), wherein the oil film squeezing ring (201) is fixedly installed on one side, close to the bearing outer ring (103), of the bearing inner ring (101), the oil film squeezing groove (202) is formed in one side, close to the bearing inner ring (101), of the bearing outer ring (103), the oil film squeezing ring (201) is embedded into the oil film squeezing groove (202), the squeezing groove oil drilling hole (203) is formed in the side wall of the bearing outer ring (103), and the squeezing groove oil drilling hole (203) is communicated with the oil film squeezing groove (202);

the oil charge subassembly is including filling oil groove (401), rubber gasbag (402), oil charge pipe (403), bearing inner race (101) one side is kept away from in oil film extrusion groove (202) is provided with oil charge groove (401), oil charge groove (401) are seted up inside bearing outer lane (103), oil charge groove (401) are close to oil film extrusion groove (202) one end fixed mounting has rubber gasbag (402), oil charge groove (401) one end fixed mounting has oil charge pipe (403), oil charge pipe (403) are kept away from oil charge groove (401) one end and are connected fixedly with oil film extrusion groove (202).

2. A magnetic suspension bearing with squeeze film damper according to claim 1, wherein: the oil inlet assembly comprises an oil filling groove oil filling hole (501), an air inlet slotted hole (502) and an oil-proof breathable film (503), the oil filling groove oil filling hole (501) is formed in the outer side wall of the bearing outer ring (103), the air inlet slotted hole (502) is formed in the bearing outer ring (103), one end of the air inlet slotted hole (502) is communicated with the oil film extrusion groove (202), and one end, far away from the oil film extrusion groove (202), of the air inlet slotted hole (502) is communicated with the inside of the rubber airbag (402).

Background

The bearing is mechanical transmission shaft's load-bearing device, utilize the inner and outer lane to realize alleviateing the frictional force that the transmission shaft received when supporting the transmission shaft, the antifriction effect of current bearing is not high enough, the bearing also can not obtain effective release at the high heat that high speed operation produced, the life of bearing has been reduced, oil film class bearing is difficult to avoid the phenomenon of the slow loss of oil mass in the use, if can not in time supply, can make the bearing can not reach effectual vibrational force absorption effect, this device can supply the bearing oil mass in real time, and curved heat radiation structure has been designed, so people need have the magnetic suspension bearing who extrudes the oil film attenuator to solve above-mentioned problem.

Disclosure of Invention

The invention aims to provide a magnetic suspension bearing with an extrusion oil film damper to solve the problems in the prior art.

In order to achieve the purpose, the invention provides the following technical scheme:

magnetic suspension bearing with squeeze film attenuator, including basic subassembly, power consumption subassembly, radiator unit, oil charge subassembly, oil feed subassembly, the basic subassembly is located the outside of whole set of device, plays the effect of other parts in the strutting arrangement, be provided with the power consumption subassembly in the basic subassembly, the power consumption subassembly plays the effect of absorbing the mechanical energy that external rotor vibration produced, basic subassembly edge is provided with radiator unit, radiator unit plays and carries out radiating effect to the power consumption subassembly, power consumption subassembly side is provided with the oil charge subassembly, the oil charge subassembly plays and stores and carries out the effect of filling oil to the power consumption subassembly, oil charge subassembly one side is provided with the oil feed subassembly, the oil feed subassembly plays the effect of controlling this device inside oil circuit.

The basic assembly comprises a bearing inner ring, a shaft hole and a bearing outer ring, the bearing inner ring is located in the center of the device, the shaft hole is formed in the center of the bearing inner ring, the bearing outer ring is installed on the outer side of the bearing inner ring in a sleeved mode, the bearing outer ring is fixedly connected with an external bearing fixing device, an external mechanical transmission shaft is fixedly connected with the device through the shaft hole, the bearing inner ring can rotate inside the bearing outer ring, the effect of the bearing is achieved, the bearing outer ring and the bearing inner ring are magnetized, the bearing outer ring inner ring is N-pole, the bearing inner ring outer ring is N-pole, and the suspension effect of the bearing inner ring can be achieved.

The energy dissipation assembly comprises an oil film squeezing ring, an oil film squeezing groove and a squeezing groove oil beating hole, wherein the oil film squeezing ring is fixedly installed on one side, close to the bearing outer ring, of the bearing inner ring, the oil film squeezing groove is formed in one side, close to the bearing inner ring, of the bearing outer ring, the oil film squeezing groove is embedded into the oil film squeezing groove, the squeezing groove oil beating hole is formed in the side wall of the bearing outer ring, the squeezing groove oil beating hole is communicated with the oil film squeezing groove, bearing lubricating oil is filled in the oil film squeezing groove, when the bearing inner ring rotates along with an external rotor, the external rotor can generate eccentricity under high-speed rotation, if the rotor is fixed by the bearing too firmly, the rotor is easy to bend and wear under the action of resistance in eccentric motion, in the device, the rotor drives the bearing inner ring to do eccentric rotation together, and the bearing lubricating oil in the squeezing groove can be squeezed by the eccentric rotation of the bearing inner ring, the extruded lubricating oil can move in the opposite direction of the eccentric direction of the rotor at the moment, along with the movement of the rotor, the lubricating oil in the oil film extrusion groove can always present fluidity, the lubricating oil can continuously flow in the large space direction to adapt to the extrusion of the rotor while supporting the inner ring of the bearing, the damping of the lubricating oil supports that the rotor obtains the fluid supporting force in a high-speed running state, the resistance is very small, the friction resistance of the bearing is reduced, the work done by the eccentric rotation vibration of the rotor can be absorbed by the lubricating oil, most of the work is converted into the heat of the lubricating oil, and the operation of the rotor is more stable.

The heat dissipation assembly comprises two heat dissipation annular grooves, two heat dissipation S-shaped pipes, an elastic fixing spring and a spring pipe, wherein the circumferential side wall of one side of the bearing outer ring, which is far away from the bearing inner ring, is provided with the heat dissipation S-shaped pipes, the side of each heat dissipation S-shaped pipe is fixedly provided with the elastic fixing spring, one end of the elastic fixing spring, which is far away from the heat dissipation S-shaped pipe, is fixedly connected with the side wall of the heat dissipation annular groove, the two ends of each heat dissipation S-shaped pipe are fixedly communicated with the spring pipe, the spring pipe penetrates through the bearing outer ring and is fixedly communicated with the oil film extrusion groove, the eccentric vibration of the rotor has directionality as the rotor rotates, when the bearing inner ring extrudes lubricating oil in the oil film extrusion groove along with the rotor, one part of the lubricating oil can be extruded into the spring pipe, the rotor vibrates endlessly, and the interior of the spring pipe can be extruded into the lubricating oil uninterruptedly, lubricating oil gets into heat dissipation S type pipe, finally return inside the oil film extrusion groove through the spring pipe of the other end, heat dissipation S type pipe is direct and outside air contact, lubricating oil when heat dissipation S type intraductal, can realize the radiating effect, and this device is in the use, even there is lubricating oil to carry out energy absorption, the bearing inner race still can produce slight vibration under the rotor action, and through the spring union coupling between heat dissipation S type pipe and the oil film extrusion groove, through the elastic fixation spring coupling between heat dissipation S type pipe and the heat dissipation annular groove lateral wall, make heat dissipation S type pipe can follow the vibration of bearing inner race, and because the quality is little, the vibration range can be greater than the bearing inner race, vibration makes air flow rate increase around the heat dissipation S type pipe, the radiating effect has been strengthened.

The oil filling assembly comprises an oil filling groove, a rubber air bag and an oil filling pipe, wherein the oil filling groove is arranged on one side, away from the bearing inner ring, of the oil film extrusion groove, the oil filling groove is formed in the inner portion of the bearing outer ring, the rubber air bag is fixedly arranged at one end, close to the oil film extrusion groove, of the oil filling groove, the oil filling pipe is fixedly arranged at one end of the oil filling groove, the end, away from the oil filling groove, of the oil filling pipe is fixedly connected with the oil film extrusion groove, the oil filling assembly comprises an oil filling groove oil filling hole, an air inlet groove hole and an oil-proof breathable film, the oil filling groove oil filling hole is formed in the outer side wall of the bearing outer ring, the air inlet groove hole is formed in the bearing outer ring, one end of the air inlet groove hole is communicated with the oil film extrusion groove, the end, away from the oil film extrusion groove, of the air inlet hole is communicated with the interior of the rubber air bag, the phenomenon that the oil film type bearing is slowly lost cannot be timely supplemented cannot be avoided in the use process, the bearing can not achieve the effective vibration force absorption effect, when the amount of lubricating oil in the oil film extrusion groove is slightly lost, air can be infiltrated into the oil film extrusion groove instead of the oil film extrusion groove, the vibration of the inner ring of the bearing drives the lubricating oil to flow, the lubricating oil drives the air doped inside to flow, when the air is extruded to the area of the air inlet groove, the air enters the rubber air bag through the oil-proof air-permeable film, the lubricating oil is blocked, the air enters the rubber air bag to enlarge the volume of the rubber air bag, the rubber air bag extrudes the lubricating oil stored in the oil filling groove, the lubricating oil in the rubber air bag flows into the oil film extrusion groove through the oil filling pipe, the real-time supplement of the oil amount in the oil film extrusion groove is realized, the oil film extrusion groove is always in a full oil state, the vibration force can be effectively absorbed, and the device can fill oil into the oil film extrusion groove through the oil filling hole of the extrusion groove, the oil is filled into the oil filling groove through the oil filling groove oil filling hole, when the oil is filled into the oil filling groove, the rubber air bag can penetrate through the oil-proof breathable film under the pressure of lubricating oil to enter the oil film extrusion groove, and finally the rubber air bag is extruded out of the device through a small gap between the oil film extrusion ring and the oil film extrusion groove.

The spring pipe is an inclined spring pipe, so that the spring pipe can meet the flowing direction of lubricating oil in the oil film extrusion groove conveniently, and the lubricating oil can enter the spring pipe conveniently.

The number of the heat dissipation S-shaped pipes is multiple, and the heat dissipation efficiency of the plurality of heat dissipation S-shaped pipes is higher.

The elastic fixing spring is a light spring, so that the effect that the heat dissipation S-shaped pipe is stably fixed by the elastic fixing spring is avoided, and the heat dissipation S-shaped pipe cannot shake to accelerate heat dissipation.

The heat dissipation S-shaped pipe is made of metal, metal rigidity is high, deformation of the heat dissipation S-shaped pipe can be avoided easily, and the service life of the device can be prolonged.

Compared with the prior art, the invention has the beneficial effects that:

the device magnetizes the inner ring and the outer ring of the bearing to realize the suspension effect, reduces the friction force and enables the transmission shaft to work more effectively;

the bearing inner ring extrudes bearing lubricating oil in the oil film extrusion groove along with the eccentric vibration of the rotor, the lubricating oil in the oil film extrusion groove can always present fluidity along with the movement of the rotor, the lubricating oil continuously flows in a large space direction to adapt to the extrusion of the rotor while supporting the bearing inner ring, the damping support of the lubricating oil enables the rotor to obtain fluid supporting force in a high-speed running state, the resistance is very small, the friction resistance of the bearing is reduced, the work done by the eccentric rotary vibration of the rotor can be absorbed by the lubricating oil, most of the work is converted into the heat of the lubricating oil, and the running stability of the rotor is better;

the device extrudes the lubricating oil into the heat dissipation S-shaped pipe by utilizing the change of pressure difference in the flowing process of the lubricating oil, so as to realize the heat dissipation effect on the lubricating oil in the heat dissipation S-shaped pipe, and the heat dissipation S-shaped pipe can vibrate along with the outer ring of the bearing, so that the heat dissipation effect is enhanced;

the oil film type bearing is difficult to avoid the phenomenon of slow loss of oil mass in the use, and this device utilizes the rubber air bag to produce the extrusion to the inside lubricating oil of storing of oil charge inslot, and the inside lubricating oil of rubber air bag can flow into the oil film extrusion inslot through the oil charge pipe, has realized the effect to the real-time replenishment of the inside oil mass of oil film extrusion inslot, makes the oil film extrusion inslot be in full oil state always, can effectively absorb the vibrational force.

Drawings

FIG. 1 is a schematic structural diagram of a magnetic suspension bearing with a squeeze film damper according to the present invention;

FIG. 2 is a schematic diagram of a side view of a magnetic suspension bearing with squeeze film damper according to the present invention;

FIG. 3 is a schematic sectional view of the heat dissipation S-shaped tube region of the magnetic suspension bearing with squeeze film damper according to the present invention;

FIG. 4 is a schematic sectional view of the air inlet slot area of the magnetic suspension bearing with squeeze film damper according to the present invention;

FIG. 5 is an enlarged view of the area A of the magnetic suspension bearing with squeeze film damper of the present invention;

FIG. 6 is an enlarged schematic view of the area B in FIG. 3 of the magnetic suspension bearing with squeeze film damper according to the present invention;

FIG. 7 is an enlarged view of the area C of the magnetic suspension bearing with squeeze film damper of the present invention;

FIG. 8 is a schematic diagram of a splicing structure of a bearing outer ring and a bearing inner ring sector magnet of the magnetic suspension bearing with the squeeze film damper.

Reference numbers in the figures: 101. a bearing inner race; 102. a shaft hole; 103. a bearing outer race; 201. an oil film extrusion ring; 202. an oil film extrusion groove; 203. an oil hole is drilled in the extrusion groove; 301. a heat dissipation annular groove; 302. a heat dissipation S-shaped pipe; 303. an elastic fixing spring; 304. a spring tube; 401. an oil filling groove; 402. a rubber air bag; 403. an oil-filled tube; 501. an oil filling groove oil hole; 502. an air inlet slot; 503. an oil-proof breathable film.

Detailed Description

The technical solutions in the embodiments of the present invention will be clearly and completely described below with reference to the drawings in the embodiments of the present invention, and it is obvious that the described embodiments are only a part of the embodiments of the present invention, and not all of the embodiments. All other embodiments, which can be derived by a person skilled in the art from the embodiments given herein without making any creative effort, shall fall within the protection scope of the present invention.

Example (b): as shown in fig. 1-7, the magnetic suspension bearing with the squeeze film damper comprises a base component, an energy dissipation component, a heat dissipation component, an oil charging component and an oil charging component, wherein the base component is located on the outermost side of the whole set of device and plays a role of other components in a supporting device, the energy dissipation component is arranged in the base component and plays a role of absorbing mechanical energy generated by vibration of an external rotor, the edge of the base component is provided with the heat dissipation component, the heat dissipation component plays a role of dissipating heat of the energy dissipation component, the oil charging component is arranged on the side of the energy dissipation component and plays a role of storing and supplementing oil to the energy dissipation component, the oil charging component is arranged on one side of the oil charging component, and the oil charging component plays a role of controlling an internal oil circuit of the device.

The basic assembly comprises a bearing inner ring 101, an axle hole 102 and a bearing outer ring 103, wherein the bearing inner ring 101 is positioned in the center of the device, the axle hole 102 is formed in the center of the bearing inner ring 101, the bearing outer ring 103 is sleeved outside the bearing inner ring 101, the bearing outer ring 103 is fixedly connected with an external bearing fixing device, an external mechanical transmission shaft is fixedly connected with the device through the axle hole 102, the bearing inner ring 101 can rotate inside the bearing outer ring 103 to realize the effect of the bearing, the bearing outer ring 103 and the bearing inner ring 101 are magnetized, the inner ring of the bearing outer ring 103 is an N pole, the outer ring of the bearing inner ring 101 is an N pole, the suspension effect of the bearing inner ring 101 can be realized, the bearing outer ring 103 is formed by mutually splicing and fixing a plurality of magnets with sector cross sections into an annular shape, the bearing inner ring 101 is formed by mutually splicing and fixing a plurality of magnets with sector cross sections into an annular shape, each sector magnet has an independent magnetic field, the magnetic pole orientation of the bearing outer ring 103 and the bearing inner ring 101 can be controlled, the sector magnetic sheet can be fixedly arranged in the bearing outer ring 103, and the sector magnetic sheet can be fixedly arranged on the outer ring of the bearing inner ring 101 to realize the effect that the opposite surfaces of the inner ring and the outer ring of the bearing have the same magnetic pole.

The energy dissipation assembly comprises an oil film squeezing ring 201, an oil film squeezing groove 202 and a squeezing groove oil beating hole 203, wherein the oil film squeezing ring 201 is fixedly installed on one side, close to the bearing outer ring 103, of the bearing inner ring 101, the bearing outer ring 103 is provided with the oil film squeezing groove 202, the oil film squeezing ring 201 is embedded into the oil film squeezing groove 202, the squeezing groove oil beating hole 203 is formed in the side wall of the bearing outer ring 103, the squeezing groove oil beating hole 203 is communicated with the oil film squeezing groove 202, bearing lubricating oil is filled in the oil film squeezing groove 202, when the bearing inner ring 101 rotates along with an external rotor, the external rotor can generate eccentricity under high-speed rotation, if the rotor is fixed by the bearing too firmly, the rotor is easily bent and abraded due to resistance, in the device, the rotor drives the bearing inner ring 101 to do eccentric rotation together, the bearing lubricating oil in the oil film squeezing groove 202 can be squeezed by the eccentric rotation of the bearing inner ring 101, the extruded lubricating oil can move in the opposite direction of the eccentric direction of the rotor at the moment, along with the movement of the rotor, the lubricating oil in the oil film extrusion groove 202 can always present fluidity, the lubricating oil can continuously flow in the large space direction to adapt to the extrusion of the rotor while supporting the inner ring 101 of the bearing, the damping support of the lubricating oil enables the rotor to obtain fluid supporting force in a high-speed running state, the resistance is small, the friction resistance of the bearing is reduced, the work done by the eccentric rotation vibration of the rotor can be absorbed by the lubricating oil, most of the work is converted into the heat of the lubricating oil, and the rotor has higher running stability.

The heat dissipation assembly comprises heat dissipation annular grooves 301, two heat dissipation S-shaped tubes 302, elastic fixing springs 303 and spring tubes 304, wherein the heat dissipation annular grooves 301 are formed in the circumferential side wall of one side, away from the bearing inner ring 101, of the bearing outer ring 103, the heat dissipation annular grooves 301 are two, the heat dissipation S-shaped tubes 302 are arranged in the heat dissipation annular grooves 301, the elastic fixing springs 303 are fixedly arranged on the side portions of the heat dissipation S-shaped tubes 302, one ends, away from the heat dissipation S-shaped tubes 302, of the elastic fixing springs 303 are fixedly connected with the side walls of the heat dissipation annular grooves 301, the spring tubes 304 are fixedly communicated with the two ends of the heat dissipation S-shaped tubes 302, the spring tubes 304 penetrate through the bearing outer ring 103 and are fixedly communicated with the oil film extrusion grooves 202, the eccentric vibration of the rotor has directionality due to the rotation of the rotor, when the bearing inner ring 101 extrudes the, lubricating oil is continuously squeezed into the spring tube 304, the lubricating oil enters the heat dissipation S-shaped tube 302 and finally returns to the inside of the oil film extrusion groove 202 through the spring tube 304 at the other end, the heat dissipation S-shaped tube 302 is directly contacted with the outside air, when the lubricating oil is in the heat dissipation S-shaped tube 302, the heat dissipation effect can be realized, and in the using process of the device, even if lubricating oil is used for energy absorption, the bearing outer ring 103 still generates slight vibration under the action of the rotor, the heat dissipation S-shaped pipe 302 is connected with the oil film pressing groove 202 through a spring pipe 304, the heat dissipation S-shaped pipe 302 is connected with the side wall of the heat dissipation annular groove 301 through an elastic fixing spring 303, so that the heat dissipation S-shaped pipe 302 can vibrate along with the bearing outer ring 103, and because the quality is little, vibration amplitude can be greater than bearing inner race 103, and vibration makes heat dissipation S type pipe 302 peripheral air velocity increase, has strengthened the radiating effect.

The oil filling assembly comprises an oil filling groove 401, a rubber air bag 402 and an oil filling pipe 403, wherein the oil filling groove 401 is arranged on one side of the oil film extrusion groove 202, which is far away from the bearing inner ring 101, the oil filling groove 401 is arranged inside the bearing outer ring 103, the rubber air bag 402 is fixedly arranged at one end of the oil filling groove 401, the oil filling pipe 403 is fixedly arranged at one end of the oil filling groove 401, which is far away from the oil filling groove 401, and is connected and fixed with the oil film extrusion groove 202, the oil filling assembly comprises an oil filling groove oil filling hole 501, an air inlet groove hole 502 and an oil-proof breathable film 503, the oil filling groove oil filling hole 501 is arranged on the outer side wall of the bearing outer ring 103, the air inlet groove hole 502 is arranged inside the bearing outer ring 103, one end of the air inlet groove hole 502 is communicated with the oil film extrusion groove 202, one end of the air inlet groove 502 is communicated with the inside of the rubber air bag 402, and the oil film type bearing is difficult to avoid the phenomenon of slow oil loss in the use process and cannot be supplemented in time, the bearing can not achieve the effective vibration force absorption effect, when the amount of the lubricating oil in the oil film extrusion groove 202 is slightly lost, air can be infiltrated into the oil film extrusion groove 202 instead, the bearing inner ring 101 vibrates to drive the lubricating oil to flow, the lubricating oil drives the internally doped air to flow, when the air is extruded to the area of the air inlet slotted hole 502, the air enters the rubber air bag 402 through the oil-proof air-permeable film 503, the lubricating oil is blocked, the air enters the rubber air bag 402 to expand the volume of the rubber air bag 402, the rubber air bag 402 extrudes the lubricating oil stored in the oil filling groove 401, the lubricating oil in the rubber air bag 402 flows into the oil film extrusion groove 202 through the oil filling pipe 403, the real-time oil amount supplement in the oil film extrusion groove 202 is realized, the oil film extrusion groove 202 is always in a full oil state, the vibration force can be effectively absorbed, the device can fill the oil into the oil film extrusion groove 202 through the oil filling hole 203 of the oil film extrusion groove, the oil is filled into the oil filling groove 401 through the oil filling groove oil filling hole 501, when the oil is filled into the oil filling groove 401, the rubber airbag 402 enters the oil film extrusion groove 202 through the oil-proof breathable film 503 under the pressure of lubricating oil, and is extruded out of the device through a small gap between the oil film extrusion ring 201 and the oil film extrusion groove 202.

The spring tube 304 is an inclined spring tube 304, so that the spring tube 304 can meet the flowing direction of the lubricating oil in the oil film squeezing groove 202, and the lubricating oil can enter the spring tube 304 conveniently.

There are several heat dissipation S-shaped pipes 302, and the heat dissipation efficiency of the plurality of heat dissipation S-shaped pipes 302 is higher.

The elastic fixing spring 303 is a light spring, so as to avoid the effect that the elastic fixing spring 303 stably fixes the heat dissipation S-shaped tube 302, and prevent the heat dissipation S-shaped tube 302 from shaking to accelerate heat dissipation.

The heat dissipation S-shaped pipe 302 is made of metal, and the metal has high rigidity, so that the heat dissipation S-shaped pipe 302 is prevented from being easily deformed, and the service life of the device is prolonged.

The working principle is as follows:

the bearing outer ring 103 is fixedly connected with an external bearing fixing device, an external mechanical transmission shaft is fixedly connected with the device through a shaft hole 102, the bearing inner ring 101 can rotate inside the bearing outer ring 103, the effect of the bearing is achieved, the bearing outer ring 103 and the bearing inner ring 101 are magnetized, the inner ring of the bearing outer ring 103 is an N pole, the outer ring of the bearing inner ring 101 is an N pole, and the suspension effect of the bearing inner ring 101 can be achieved;

the inside of the oil film extrusion groove 202 is filled with bearing lubricating oil, when the bearing inner ring 101 rotates along with an external rotor, the external rotor can generate eccentricity under high-speed rotation, if the rotor is fixed too firmly by a bearing, the rotor eccentric motion is easy to bend and wear the rotor due to resistance, in the device, the rotor drives the bearing inner ring 101 to do eccentric rotation motion together, the bearing lubricating oil in the oil film extrusion groove 202 can be extruded by the eccentric rotation of the bearing inner ring 101, the extruded lubricating oil can move to the opposite direction of the eccentric direction of the rotor at the moment, along with the movement of the rotor, the lubricating oil in the oil film extrusion groove 202 can always present fluidity, the bearing inner ring 101 is supported, and simultaneously, the lubricating oil ceaselessly flows to a large space direction to adapt to the extrusion of the rotor, the damping support of the lubricating oil enables the rotor to obtain fluid supporting force under the high-speed rotation state, and the resistance is very small, the friction resistance of the bearing is reduced, the work done by the eccentric rotation vibration of the rotor can be absorbed by lubricating oil, most of the work is converted into the heat of the lubricating oil, and the rotor has more stability in operation;

because the rotor rotates, the eccentric vibration of the rotor also has directionality, when the bearing inner ring 101 presses the lubricating oil in the oil film pressing groove 202 along with the rotor, a part of the lubricating oil can be pressed into the spring tube 304, the rotor vibrates continuously, the lubricating oil can be continuously pressed into the spring tube 304, the lubricating oil enters the heat dissipation S-shaped tube 302 and finally returns to the oil film pressing groove 202 through the spring tube 304 at the other end, the heat dissipation S-shaped tube 302 is directly contacted with the outside air, when the lubricating oil is in the heat dissipation S-shaped tube 302, the heat dissipation effect can be realized, in the using process of the device, even if the lubricating oil absorbs energy, the bearing outer ring 103 still generates slight vibration under the action of the rotor, the heat dissipation S-shaped tube 302 is connected with the oil film pressing groove 202 through the spring tube 304, and the heat dissipation S-shaped tube 302 is connected with the side wall of the heat dissipation annular groove 301 through the elastic fixing spring 303, the heat dissipation S-shaped pipe 302 can vibrate along with the bearing outer ring 103, and because the mass is small, the vibration amplitude is larger than that of the bearing outer ring 103, the vibration accelerates the air flow rate around the heat dissipation S-shaped pipe 302, and the heat dissipation effect is enhanced;

when the lubricating oil in the oil film extrusion groove 202 is slightly lost, air instead of the lubricating oil is infiltrated into the oil film extrusion groove 202, the inner ring 101 of the bearing vibrates to drive the lubricating oil to flow, the lubricating oil drives the internally doped air to flow, when the air is extruded to the area of the air inlet groove hole 502, the air enters the rubber air bag 402 through the oil-proof air-permeable film 503 and is blocked, the air enters the rubber air bag 402 to increase the volume of the rubber air bag 402, the rubber air bag 402 extrudes the lubricating oil stored in the oil filling groove 401, the lubricating oil in the rubber air bag 402 flows into the oil film extrusion groove 202 through the oil filling pipe 403, so that the oil in the oil film extrusion groove 202 is replenished in real time, and the oil film extrusion groove 202 is always in a full oil state, can effectively absorb vibrational force, this device accessible extrusion groove is beaten oilhole 203 and is filled oil in to oil film extrusion groove 202, beats oilhole 501 and fills oil in oil groove 401 through the oil filling groove, and when filling oil in oil groove 401, rubber airbag 402 can see through grease proofing ventilated membrane 503 and get into oil film extrusion groove 202 under lubricating oil pressure, and the small space is squeezed out this device between oil film extrusion ring 201 and oil film extrusion groove 202 finally.

It will be evident to those skilled in the art that the invention is not limited to the details of the foregoing illustrative embodiments, and that the present invention may be embodied in other specific forms without departing from the spirit or essential attributes thereof. The present embodiments are therefore to be considered in all respects as illustrative and not restrictive, the scope of the invention being indicated by the appended claims rather than by the foregoing description, and all changes which come within the meaning and range of equivalency of the claims are therefore intended to be embraced therein. Any reference sign in a claim should not be construed as limiting the claim concerned.

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