CN112196900A - Bearing oil mist jet lubrication device - Google Patents

Abstract

The invention discloses a bearing oil mist jet lubrication device, which comprises support blocks, wherein upper bearing sleeves are arranged on the opposite side end surfaces of the upper sides of the support blocks on the left side and the right side in a fit manner, lower bearing sleeves are arranged on the opposite side end surfaces of the lower sides of the support blocks on the left side and the right side in a fit manner, the bearings are clamped by support plates on the left side and the right side, high-pressure gas is generated by extrusion, the high-pressure gas is jetted out when the gas pressure reaches a certain value, oil mist is generated by impacting lubricating oil, the oil mist lubricates the balls through a pipeline, the lubricating oil of the lubricating oil is recycled, filtered and reused, the bearings are well lubricated, the bearings are prevented from being worn, and cooling fan devices on the left side and the right side take away heat generated by friction of the balls, so that the bearings run.

Description

Bearing oil mist jet lubrication device

Technical Field

The invention relates to the field of bearings, in particular to a bearing oil mist jet lubricating device.

Background

When the bearing is in operation, can produce the friction between ball and the bearing housing, the lubricating grease that adds when the bearing installation can be polluted by dust and wear particles after operation one end time, it can make wearing and tearing increase to continue to use, it is more troublesome when adding lubricating grease, be difficult to add lubricating oil when equipment is inside a bit, friction can produce the heat between ball and the bearing housing, can make lubricating oil rotten and the lubricating property reduces, wearing and tearing increase, the unable control oil input of normal splash lubrication and oil drip lubrication, can cause lubricating oil to reveal and waste. The invention discloses a bearing oil mist injection lubricating device which can solve the problems.

Disclosure of Invention

In order to solve the problems, the bearing oil mist spraying and lubricating device comprises a supporting block, wherein an upper bearing sleeve is attached to one side end face opposite to the upper side of the supporting block on the left side and the right side, a lower bearing sleeve is attached to one side end face opposite to the lower side of the supporting block on the left side and the right side, a rotating shaft is fixedly arranged in the inner circular face of the lower bearing sleeve, the inner circular face of the supporting block is rotatably connected to the outer circular face of the rotating shaft, a rotating block cavity is arranged in the supporting block on the left side, a rotating block is rotatably connected between the upper wall and the lower wall of the rotating block cavity, a lifting groove with an opening far away from the shaft center is arranged on the outer circular face of the rotating block, a compression cavity is communicated with the left wall of the rotating block cavity, a compression plate is arranged between the front wall and the rear wall of the compression cavity in a vertical sliding connection manner, a, the lower wall of the compression cavity is communicated with an air inlet with a leftward opening, the upper wall of the compression cavity is communicated with an air jet pipe, the left wall of the air jet pipe is rotatably connected with a wind shield, a spring is fixedly arranged between the lower end surface of the wind shield and the left wall of the air jet pipe, the right end of the wind shield is provided with a clamping groove with a rightward opening, the right wall of the air jet pipe is right opposite to the right end of the wind shield and is provided with a clamping block cavity with a leftward opening, a clamping block with a left end capable of extending into the clamping groove is arranged between the upper wall and the lower wall of the clamping block cavity in a left-right sliding manner, the right end surface of the clamping block is fixedly provided with an upper moving block, the right wall of the clamping block cavity is communicated with a moving block cavity, the upper moving block is connected between the upper wall and the lower wall of the moving block, the left wall of the lower sliding block cavity is communicated with a communicating pipe, the left side of the communicating pipe is communicated with the right wall of the jet pipe, the right wall of the jet pipe is opposite to the communicating pipe, a balloon is fixedly arranged on the right side of the jet pipe, an oil tank is arranged on the right side of the jet pipe, an oil outlet is communicated between the jet pipe and the oil tank, the lower wall of the oil outlet is rotatably connected with a one-way valve, the left wall of the oil tank is communicated with an oil inlet with a left opening, the upper wall and the lower wall of the oil inlet are in threaded connection with each other and provided with an oil inlet seal, a filter plate is fixedly arranged between the left wall and the right wall of the oil tank, and the lower side of the rotating block cavity is provided with a rotating block which can.

Preferably, a pump is arranged on the upper side of the rotating block cavity, an oil return port is communicated with the left end of the pump, the left side of the oil return port extends downwards and is communicated to the upper wall of the oil tank, an oil return pipeline is communicated with the right end of the pump, a power shaft is arranged at the lower end of the pump in a power connection mode, and the lower end of the power shaft extends downwards and is fixedly connected to the upper end of the rotating block.

Preferably, including locating the bevel gear chamber of turning block chamber downside, bevel gear chamber upper wall rotates the connection and is equipped with bevel gear, go up the fixed rotation that is equipped with in bevel gear upper end and connect in the last power shaft of bevel gear chamber upper wall, go up power shaft upper end power connect in the turning block lower extreme, go up bevel gear left end meshing be equipped with rotate connect in the left bevel gear of bevel gear chamber left wall, the fixed left gear axle that is equipped with in left bevel gear left end, bevel gear chamber left side is equipped with left gear chamber, rotate between the left and right walls in left gear chamber and be equipped with left gear, left gear axle left end extend left and fixed connection in left gear right end axle center, the meshing of left gear lower extreme be equipped with fixed connection in the left ring gear on the excircle surface of axis of rotation.

Preferably, the end face of one side, opposite to the supporting block, of the left side and the right side is provided with a fan cavity with an opening facing one side of the upper bearing sleeve, the fan cavity is provided with a fan shaft which is connected in a rotating mode towards the wall face far away from one side, the outer circular face of the fan shaft is fixed and provided with fan blades which are distributed evenly, the fan cavity is arranged on the left side and the right side far away from one side and provided with a transmission belt cavity, the fan shaft extends to the transmission belt cavity and is fixedly provided with a fan belt wheel, the lower side of the fan belt wheel is provided with a lower belt wheel which is connected between the left wall and the right wall of the.

Preferably, a lower pulley shaft is fixedly arranged at one end, far away from the lower pulley, of the left side, a left end of the lower pulley shaft extends leftwards to a bevel gear cavity, a right bevel gear is fixedly arranged in the bevel gear cavity, the upper end of the right bevel gear is meshed with the right end of the upper bevel gear, a right gear cavity with a downward opening is arranged at the right side of the transmission belt cavity, a right gear is rotatably connected between the left wall and the right wall of the right gear cavity, the right end of the lower pulley shaft extends rightwards and is fixedly connected to the axle center of the left end of the right gear, and a right gear ring fixed on the outer circular surface of the rotating shaft is arranged at the lower end of.

Preferably, the left end face and the right end face of the upper bearing sleeve are provided with locking block cavities with openings far away from one side, the left end face and the right end face of the upper bearing sleeve are provided with locking blocks with openings far away from one side, the locking blocks are fixedly arranged at the opposite ends of the supporting blocks, the locking blocks are close to one ends and extend into the locking block cavities and are connected in a sliding mode, the upper ends of the locking blocks are provided with locking clamping grooves with upward openings, the upper walls of the locking block cavities are communicated with opening lifting clamping block cavities, the upper walls of the lifting clamping block cavities are connected in a sliding mode and are provided with lifting clamping blocks, the lower ends of the lifting clamping block cavities can extend downwards to lifting clamping blocks in the locking clamping grooves, the upper walls of the lifting clamping.

Preferably, the left end face and the right end face of the lower bearing sleeve are provided with annular fixed cavities with openings which are far away from one side, the left side and the right side are fixedly provided with lower fixed blocks on the opposite side walls of the lower sides of the supporting blocks, the lower fixed blocks are close to one ends and extend to the annular fixed cavities and are in sliding connection left and right, the left side is provided with a left oil inlet pipe which penetrates through the lower fixed blocks left and right, the left side of the left oil inlet pipe is communicated to the air jet pipe, the right walls of the annular fixed cavities are communicated and are evenly distributed and are provided with lower oil inlet pipes, and the right side of the left oil inlet pipe is.

Preferably, an upper oil return cavity with an opening towards the axis is formed in the inner annular surface of the upper bearing sleeve, an oil return ring pipe is arranged on one side, away from the axis, of the upper oil return cavity, an upper oil return opening is formed in the oil return ring pipe and the side wall, away from the axis, of the upper oil return cavity, an upper oil return opening is formed in the oil return ring pipe and is communicated with the left side of the upper oil return pipe, the left side of the upper oil return pipe is communicated with the right side of the oil return pipeline, a lower oil spraying cavity with an opening away from the axis is formed in the outer annular surface of the lower bearing sleeve, a lower oil inlet ring pipe is arranged on one side, close to the axis, of the lower oil spraying cavity, a lower oil inlet is formed in the oil inlet ring pipe and is communicated with the.

Preferably, the upper bearing sleeve inner ring surface and the lower bearing sleeve outer ring surface are respectively and fixedly provided with a bearing ring sleeve, the bearing ring sleeve penetrates from top to bottom and is provided with an oil through hole in average distribution, the upper side of the bearing ring sleeve is communicated with the oil through hole, the upper oil return hole and the lower side of the bearing ring sleeve are communicated with the oil through hole, the lower oil spray hole is formed in the upper side of the bearing ring sleeve, a round surface laminating ball in the bearing ring sleeve is far away from one end and the lower side of the rotating shaft, the round surface laminating ball in the bearing ring sleeve is close to one end of the rotating shaft, the upper side and the lower side of the rotating shaft are respectively communicated with the upper bearing sleeve, a fastening bolt which is symmetrical in left and right and is distributed in average is in threaded connection between the lower bearing sleeve, the upper side of the round surface in the bearing ring sleeve is.

The invention has the beneficial effects that: the bearing is clamped by the left and right supporting plates, high-pressure gas is generated by extrusion, the high-pressure gas is sprayed out when the gas pressure reaches a certain value, oil mist is generated by impacting lubricating oil, the oil mist lubricates the ball through the pipeline, the lubricating oil of the lubricating oil is recycled by recycling and filtering, the bearing is well lubricated and prevented from being worn, the cooling fan devices on the left and right sides take away heat generated by friction of the ball, the bearing is enabled to operate in a proper state, the wear of the bearing is reduced, the bearing is enabled to operate more stably, and the service life of the bearing is prolonged.

Drawings

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

The invention is further illustrated with reference to the following figures and examples.

FIG. 1 is a schematic view of the overall structure of the present invention;

FIG. 2 is a schematic view of the structure A-A of FIG. 1;

FIG. 3 is an enlarged schematic view of B of FIG. 1;

FIG. 4 is an enlarged schematic view of C in FIG. 1;

fig. 5 is an enlarged schematic view of D in fig. 1.

Detailed Description

The invention will now be described in detail with reference to fig. 1-5, wherein for ease of description the orientations described hereinafter are now defined as follows: the up, down, left, right, and front-back directions described below correspond to the up, down, left, right, and front-back directions in the projection relationship of fig. 1 itself.

The invention relates to a bearing oil mist spraying and lubricating device, which comprises a supporting block 11, wherein upper bearing sleeves 51 are arranged on the opposite side end surfaces of the upper sides of the supporting block 11 on the left side and the right side in a joint manner, lower bearing sleeves 90 are arranged on the opposite side end surfaces of the lower sides of the supporting block 11 on the left side and the right side in a joint manner, a rotating shaft 65 is fixedly arranged on the inner circular surface of each lower bearing sleeve 90, the inner circular surface of each supporting block 11 is rotatably connected with the outer circular surface of the rotating shaft 65, a rotating block cavity 37 is arranged in the supporting block 11 on the left side, a rotating block 33 is rotatably connected between the upper wall and the lower wall of the rotating block cavity 37, a lifting groove 38 with an opening far away from the shaft center is arranged on the outer circular surface of the rotating block 33, a compression cavity 19 is communicated with the left wall of the rotating block cavity 37, a compression plate 20 is arranged between the front wall and the, the lower wall of the compression cavity 19 is communicated with an air inlet 18 with a leftward opening, the upper wall of the compression cavity 19 is communicated with an air injection pipe 29, the left wall of the air injection pipe 29 is rotatably connected with a wind shield 66, a spring 69 is fixedly arranged between the lower end surface of the wind shield 66 and the left wall of the air injection pipe 29, the right end of the wind shield 66 is provided with a clamping groove 67 with a rightward opening, the right wall of the air injection pipe 29 is right opposite to the right end of the wind shield 66 and is provided with a clamping block cavity 72 with a leftward opening, a clamping block 71 with a left end capable of extending into the clamping groove 67 is arranged between the upper wall and the lower wall of the clamping block cavity 72 in a left-right sliding manner, the right end surface of the clamping block 71 is fixedly provided with an upper moving block 73, the right wall of the clamping block cavity 72 is communicated with a moving block cavity 74, the upper moving block 73 is connected between the upper wall and, a lower sliding block cavity 77 is communicated with the lower side of the left wall of the moving block cavity 74, a lower sliding block 76 with the right end fixedly connected with the left end surface of the connecting block 75 is arranged between the upper wall and the lower wall of the lower sliding block cavity 77 in a left-right sliding mode, a communicating pipe 70 is communicated with the left wall of the lower sliding block cavity 77, the left side of the communicating pipe 70 is communicated with the right wall of the gas injection pipe 29, the right wall of the gas ejector 29 is fixedly provided with a balloon 68 facing the communicating pipe 70, the right side of the gas ejector 29 is provided with an oil tank 22, an oil outlet 27 is communicated between the gas injection pipe 29 and the oil tank 22, a one-way valve 28 is rotatably connected with the lower wall of the oil outlet 27, an oil inlet 23 with a leftward opening is communicated with the left wall of the oil tank 22, an oil inlet seal 24 is arranged between the upper wall and the lower wall of the oil inlet 23 in a threaded connection manner, a filter plate 25 is fixedly arranged between the left wall and the right wall of the oil tank 22, and a 101 which can provide power for the rotation of the rotating block 33 is arranged at the lower side of the rotating block cavity 37.

Beneficially, a pump 30 is arranged on the upper side of the rotating block cavity 37, the left end of the pump 30 is communicated with an oil return port 26, the left side of the oil return port 26 extends downwards and is communicated with the upper wall of the oil tank 22, the right end of the pump 30 is communicated with an oil return pipeline 32, the lower end of the pump 30 is dynamically connected with a power shaft 31, and the lower end of the power shaft 31 extends downwards and is fixedly connected to the upper end of the rotating block 33.

Advantageously, said 101 comprises a bevel gear chamber 17 provided on the lower side of said turning block chamber 37, an upper bevel gear 34 is rotatably connected with the upper wall of the bevel gear cavity 17, an upper power shaft 47 rotatably connected with the upper wall of the bevel gear cavity 17 is fixedly arranged at the upper end of the upper bevel gear 34, the upper end of the upper power shaft 47 is connected with the lower end of the rotating block 33 in a power mode, the left end of the upper bevel gear 34 is meshed with a left bevel gear 16 which is connected with the left wall of the bevel gear cavity 17 in a rotating mode, a left gear shaft 15 is fixedly arranged at the left end of the left bevel gear 16, a left gear cavity 12 is arranged at the left side of the bevel gear cavity 17, a left gear 13 is rotatably connected between the left wall and the right wall of the left gear cavity 12, the left end of the left gear shaft 15 extends leftwards and is fixedly connected with the axle center of the right end of the left gear 13, the lower end of the left gear 13 is engaged with a left gear ring 14 fixedly connected to the outer circular surface of the rotating shaft 65.

Beneficially, the end face of one side of the supporting block 11 opposite to the left side and the right side is provided with a fan cavity 39 opening to one side of the upper bearing sleeve 51, the fan cavity 39 is provided with a fan shaft 42 rotatably connected to the wall surface far away from one side, the outer circular surface of the fan shaft 42 is provided with fan blades 40 fixedly and evenly distributed, the side of the left side and the right side of the fan cavity 39 far away from one side is provided with a transmission belt cavity 43, the fan shaft 42 extends into the transmission belt cavity 43 and is fixedly provided with a fan pulley 44, the lower side of the fan pulley 44 is provided with a lower pulley 46 rotatably connected between the left wall and the right wall of the transmission belt cavity 43, and a transmission belt 45 is wound between the fan pulley 44 and.

Beneficially, a lower pulley shaft 49 is fixedly arranged at the end of the lower pulley 46 far away from the left side and the right side, a right bevel gear 35 is fixedly arranged at the left end of the left lower pulley shaft 49 and extends leftwards into the bevel gear cavity 17, the upper end of the right bevel gear 35 is engaged with the right end of the upper bevel gear 34, a right gear cavity 48 with a downward opening is arranged at the right side of the right driving belt cavity 43, a right gear 36 is rotatably connected between the left wall and the right wall of the right gear cavity 48, the right end of the right lower pulley shaft 49 extends rightwards and is fixedly connected to the left end axis of the right gear 36, and a right gear ring 50 fixed on the outer circular surface of the rotating shaft 65 is arranged at the lower end of the right gear.

Beneficially, the left end face and the right end face of the upper bearing sleeve 51 are provided with a locking block cavity 91 with an opening facing away from one side, the opposite ends of the supporting blocks 11 on the left side and the right side are fixedly provided with locking blocks 82, one ends of the locking blocks 82 close to each other extend into the locking block cavity 91 and are in sliding connection left and right, the upper end of each locking block 82 is provided with a locking clamping groove 83 with an upward opening, the upper wall of the locking block cavity 91 is communicated with an opening lifting clamping block cavity 81, the upper wall of the lifting clamping block cavity 81 is provided with a lifting clamping block 80 with a lower end capable of extending downwards into the locking clamping groove 83, the upper wall of the lifting clamping block cavity 81 is communicated with a bolt cavity 79 with an opening facing away from one side, and the upper wall and the lower wall of the bolt cavity 79 are.

Beneficially, the left and right end faces of the lower bearing housing 90 are provided with annular fixed cavities 64 with openings facing away from each other, the opposite side walls of the lower sides of the left and right supporting blocks 11 are fixedly provided with lower fixed blocks 63, the ends of the lower fixed blocks 63 close to each other extend into the annular fixed cavities 64 to be close to each other and are connected in a sliding manner left and right, the left side of the lower fixed blocks 63 is provided with left oil inlet pipes 86 penetrating left and right, the left sides of the left oil inlet pipes 86 are communicated with the air injection pipe 29, the right walls of the annular fixed cavities 64 are communicated and evenly distributed with the lower oil inlet pipes 87, and the right sides of the left oil inlet pipes 86 are right opposite to the left sides of.

Beneficially, an upper oil return cavity 56 with an opening towards the axis is arranged on the inner circular ring surface of the upper bearing sleeve 51, an oil return annular pipe 54 is arranged on one side, away from the axis, of the upper oil return cavity 56, an upper oil return opening 55 is communicated and evenly distributed between the side walls, away from the axis, of the oil return annular pipe 54, an upper oil return pipe 53 with a leftward opening is communicated and arranged on the left wall of the oil return annular pipe 54, the left side of the upper oil return pipe 53 is communicated and arranged with the right side of the oil return pipeline 32, a lower oil injection cavity 59 with an opening away from the axis is arranged on the outer circular surface of the lower bearing sleeve 90, a lower oil inlet annular pipe 88 is arranged on one side, close to the axis, of the lower oil injection cavity 59, a lower oil inlet 89 is communicated and evenly distributed and arranged between the side walls, close to the axis, of the.

Advantageously, the inner annular surface of the upper bearing sleeve 51 and the outer annular surface of the lower bearing sleeve 90 are respectively fixedly provided with a bearing ring sleeve 57, the bearing ring sleeve 57 is provided with oil through holes 60 which penetrate through the upper part and the lower part and are evenly distributed, the oil through holes 60 on the upper side are communicated with the upper oil return cavity 56, the oil through holes 60 on the lower side are communicated with the lower oil spray cavity 59, the inner circular surface of the bearing ring sleeve 57 on the upper side is attached to one end of a ball far away from the rotating shaft 65, the outer circular surface of the bearing ring sleeve 57 on the lower side is attached to one end of the ball close to the rotating shaft 65, the fastening bolts 58 which are symmetrical left and right and evenly distributed are respectively connected between the bearing ring sleeve 57 on the upper side and the bearing ring sleeve 51 and between the bearing ring sleeve 57 on the lower side and the lower bearing sleeve, the lower end of the shielding plate 61 is slidably connected to the lower side of the bearing ring sleeve 57, and the shielding plate 61 penetrates left and right and is provided with air blowing ports 62 which are evenly distributed.

The use steps herein are described in detail below with reference to fig. 1-5: in an initial state, the inner circular surface of the lower bearing sleeve 90 is fixedly connected to the outer circular surface of the rotating shaft 65, the balls are arranged between the upper bearing sleeve 57 and the lower bearing sleeve 57, the left support block 11 and the right support block 11 are separated from the upper bearing sleeve 51 and the lower bearing sleeve 90 respectively, the balloon 68 is in a bulging state, the left end of the fixture block 71 extends into the fixture groove 67 to clamp the wind shield 66, and the spring 69 is in a normal state.

When the lifting fixture block 80 is driven to move downwards, the lower end of the lifting fixture block 80 moves downwards to the locking block cavity 83 to clamp the locking block 82, and the installation is completed, when the rotating shaft 65 rotates to drive the lower bearing sleeve 90 to rotate, the lower fixing block 63 slides between the upper and lower walls of the annular fixing cavity 64, and the left oil inlet pipe 86 is intermittently communicated with the lower oil inlet pipe 87, the rotating shaft 65 rotates to drive the left gear ring 14 to rotate, the left gear ring 14 rotates to drive the left gear 13 to rotate through the meshing of the gear and the gear, the left gear 13 rotates to drive the left gear shaft 15 to rotate, the left gear shaft 15 rotates to drive the left bevel gear 16 at the right end to rotate, the left bevel gear 16 rotates to drive the upper bevel gear 34 meshed at the upper end to rotate, the upper bevel gear 34 rotates to drive the upper power shaft 47 fixedly connected at the upper end to rotate, the upper power shaft 47 rotates to drive the rotating block 33 at the upper end to rotate, the rotating block 33 rotates to drive the sliding block 21 to move in the lifting groove 38 and then move up and down, the sliding block 21 moves up and down to drive the compression plate 20 to move up and down, when the compression plate 20 moves up, air at the upper side is compressed, air pressure at the upper side of the inner compression plate 20 on the compression chamber 19 is increased, the air in the balloon, then the lower sliding block 76 is pushed to move rightwards, the lower sliding block 76 moves rightwards, the upper moving block 73 is driven to move rightwards through the connecting block 75, the upper moving block 73 moves rightwards, the fixture block 71 moves rightwards, after the fixture block 71 moves rightwards, the wind shield 66 rotates anticlockwise under gas pressure, high-pressure gas in the compression cavity 19 is sprayed upwards, when the compression plate 20 moves downwards, suction is generated in the gas spraying pipe 29, lubricating oil in the oil tank 22 is sucked into the gas spraying pipe 29 through the oil outlet 27, when compressed gas is released next time, the compressed gas drives the lubricating oil to be sprayed into the gas spraying pipe 29, the lubricating oil flows into the left oil inlet pipe 86, flows into the lower oil inlet ring pipe 88 through the left oil inlet pipe 86 and the lower oil inlet pipe 87, enters the lower oil injection cavity 59 through the lower oil inlet 89, is sprayed onto the balls through the oil port 60 for lubrication, the lubricating oil flows into the upper oil return cavity 56 through the upper oil port 60 under the action of, the rotation block 33 rotates to drive the power shaft 31 fixedly connected with the upper end to rotate, the power shaft 31 rotates to drive the pump 30 at the upper end to start through power connection, the power shaft 31 starts to generate suction force, the lubricating oil in the upper oil return cavity 56 flows into the oil return ring pipe 54 through the upper oil return opening 55 under the action of the suction force and the centrifugal force, the lubricating oil is sucked into the pump 30 through the upper oil return pipe 53 and the oil return pipeline 32 and flows downwards into the oil tank 22 through the oil return opening 26, the filter plate 25 in the oil tank 22 is lubricated again after being filtered, the upper bevel gear 34 rotates to drive the right bevel gear 35 to rotate through gear engagement, the right bevel gear 35 rotates to drive the left lower belt wheel shaft 49 to rotate, and further drives the left lower belt wheel 46 to rotate, the left lower belt wheel 46 rotates to drive the left fan belt wheel 44 to rotate through the left transmission belt 45, and further drives the left fan shaft 42 to, the axis of rotation 65 rotates and drives right ring gear 50 and rotate, right ring gear 50 rotates and drives right gear 36 through gear ring gear meshing and rotates, right gear 36 rotates and drives under the right side band pulley shaft 49 and rotates, and then drive under the right side band pulley 46 and rotate, band pulley 46 rotates and drives right side fan band pulley 44 through drive belt 45 and rotate under the right side, and then drive fan shaft 42 and rotate, right side fan shaft 42 rotates and drives the outer disc on fixed flabellum 40 and rotate, left and right sides flabellum 40 rotates and produces the subtend wind-force, the wind-force of production blows on the ball through left and right sides mouth of blowing 62 and cools off.

The invention has the beneficial effects that: the bearing is clamped by the left and right supporting plates, high-pressure gas is generated by extrusion, the high-pressure gas is sprayed out when the gas pressure reaches a certain value, oil mist is generated by impacting lubricating oil, the oil mist lubricates the ball through the pipeline, the lubricating oil of the lubricating oil is recycled by recycling and filtering, the bearing is well lubricated and prevented from being worn, the cooling fan devices on the left and right sides take away heat generated by friction of the ball, the bearing is enabled to operate in a proper state, the wear of the bearing is reduced, the bearing is enabled to operate more stably, and the service life of the bearing is prolonged.

The above embodiments are merely illustrative of the technical ideas and features of the present invention, and the purpose thereof is to enable those skilled in the art to understand the contents of the present invention and implement the present invention, and not to limit the protection scope of the present invention. All equivalent changes and modifications made according to the spirit of the present invention should be covered within the protection scope of the present invention.

Claims (9)

1. The utility model provides a bearing oil mist sprays lubricating arrangement, includes the supporting shoe, its characterized in that: an upper bearing sleeve is attached to one side end face opposite to the upper side of the supporting block on the left side and the right side, a lower bearing sleeve is attached to one side end face opposite to the lower side of the supporting block on the left side and the right side, a rotating shaft is fixedly arranged on the inner circular face of the lower bearing sleeve, the inner circular face of the supporting block is rotatably connected to the outer circular face of the rotating shaft, a rotating block cavity is arranged in the supporting block on the left side, a rotating block is rotatably connected between the upper wall and the lower wall of the rotating block cavity, a lifting groove with an opening far away from the shaft center is formed in the outer circular face of the rotating block, a compression cavity is communicated with the left wall of the rotating block cavity, a compression plate is arranged between the front wall and the rear wall of the compression cavity in a vertical sliding connection manner, a sliding block is fixedly arranged at the right end of the compression plate, the air injection pipe is characterized in that a wind shield is rotatably connected to the left wall of the air injection pipe, a spring is fixedly arranged between the lower end surface of the wind shield and the left wall of the air injection pipe, a clamping groove with a rightward opening is formed in the right end of the wind shield, a clamping block cavity with a leftward opening is formed in the right wall of the air injection pipe, a clamping block with a left end capable of extending into the clamping groove is arranged between the upper wall and the lower wall of the clamping block cavity in a left-right sliding mode, an upper moving block is fixedly arranged on the right end surface of the clamping block, a moving block cavity is communicated with the right wall of the clamping block cavity and is provided with a moving block cavity, the upper moving block is connected between the upper wall and the lower wall of the moving block cavity in a left-right sliding mode, a connecting block is fixedly arranged on the lower end surface of the upper moving block cavity, and a lower moving block with a, the left wall of the lower sliding block cavity is communicated with a communicating pipe, the left side of the communicating pipe is communicated with the right wall of the jet pipe, the right wall of the jet pipe is opposite to the communicating pipe, a balloon is fixedly arranged on the communicating pipe, an oil tank is arranged on the right side of the jet pipe, an oil outlet is communicated between the jet pipe and the oil tank, a check valve is arranged on the lower wall of the oil outlet in a rotating connection mode, an oil inlet with an opening towards the left is arranged on the left wall of the oil tank in a communicating mode, an oil inlet seal is arranged between the upper wall and the lower wall of the oil inlet in a threaded connection mode, a filter plate is fixedly arranged between the.

2. The bearing oil mist jet lubrication device according to claim 1, wherein: the oil tank is characterized in that a pump is arranged on the upper side of the rotating block cavity, an oil return port is formed in the left end of the pump in a communicating mode, the left side of the oil return port extends downwards and is communicated to the upper wall of the oil tank, an oil return pipeline is formed in the right end of the pump in a communicating mode, a power shaft is arranged at the lower end of the pump in a power connection mode, and the lower end of the power shaft extends downwards and is fixedly connected to the upper.

3. The bearing oil mist jet lubrication device according to claim 1, wherein: including locating the bevel gear chamber of turning block chamber downside, bevel gear chamber upper wall rotates being connected and is equipped with bevel gear, go up the fixed rotation that is equipped with in bevel gear upper end connect in the last power shaft of bevel gear chamber upper wall, go up power shaft upper end power connect in the turning block lower extreme, go up bevel gear left end meshing be equipped with rotate connect in the left bevel gear of bevel gear chamber left wall, the fixed left gear axle that is equipped with in left side bevel gear left end, bevel gear chamber left side is equipped with left gear chamber, rotate between the left side right wall in left side gear chamber and be equipped with left gear of connecting, left side gear axle left end extend left and fixed connection in left gear right-hand member axle center, the meshing of left side gear lower extreme be equipped with fixed connection in the left ring gear on the excircle face of axis of rotation.

4. The bearing oil mist jet lubrication device according to claim 1, wherein: the fan shaft extends to a fan belt wheel fixedly arranged in the transmission belt cavity, the lower side of the fan belt wheel is provided with a lower belt wheel rotatably connected between the left wall and the right wall of the transmission belt cavity, and a transmission belt is wound between the fan belt wheel and the lower belt wheel.

5. The bearing oil mist jet lubrication device according to claim 4, wherein: the left and right sides lower band pulley keeps away from one end fixed and is equipped with lower band pulley axle mutually, and the left side lower band pulley axle left end extend to left the bevel gear intracavity is fixed and is equipped with right bevel gear, right bevel gear upper end with go up bevel gear right-hand member and mesh, the right side the drive belt chamber right side is equipped with the downward right gear chamber of opening, rotate between the wall about the right gear chamber and be equipped with right gear, the right side lower band pulley axle right-hand member extend right and fixed connection in right gear left end axle center, the meshing of right gear lower extreme is equipped with and is fixed in right ring gear on the excircle face of axis of rotation.

6. The bearing oil mist jet lubrication device according to claim 1, wherein: the end surface is equipped with the latch segment chamber that the opening kept away from one side mutually about the upper bearing housing, the left and right sides the relative one end of supporting shoe is fixed and is equipped with the latch segment, the latch segment is close to one end mutually and extends to latch segment intracavity and horizontal sliding connection, the latch segment upper end is equipped with the ascending locking draw-in groove of opening, latch segment chamber upper wall intercommunication is equipped with opening lift fixture block chamber, the lift fixture block chamber upper wall be equipped with the lower extreme of sliding connection from top to bottom can downwardly extending to the lift fixture block in the locking draw-in groove, lift fixture block chamber upper wall intercommunication is equipped with the opening to the bolt chamber of keeping away from one side, threaded connection's between the bolt chamber upper and lower wall is equipped with the locking bolt.

7. The bearing oil mist jet lubrication device according to claim 1, wherein: the left end face and the right end face of the lower bearing sleeve are provided with annular fixed cavities with openings which are far away from one side, the left side and the right side of the lower side of the supporting block are fixedly provided with lower fixed blocks on the opposite side walls, the lower fixed blocks are close to one ends and extend to the annular fixed cavities and are connected in a left-right sliding mode, the left side of each lower fixed block is provided with a left oil inlet pipe in a left-right penetrating mode, the left side of each left oil inlet pipe is communicated to the jet pipe, the right walls of the annular fixed cavities are communicated and are evenly distributed with the lower oil inlet pipes, and the right sides of the left oil.

8. The bearing oil mist jet lubrication device according to claim 1, wherein: the bearing sleeve is characterized in that an upper oil return cavity with an opening towards the axis is formed in the inner annular surface of the upper bearing sleeve, an oil return ring pipe is arranged on one side, away from the axis, of the upper oil return cavity, the oil return ring pipe and one side, away from the axis, of the upper oil return cavity are communicated and evenly distributed with upper oil return ports, an upper oil return pipe with a left opening is communicated and arranged on the left wall of the oil return ring pipe, the left side of the upper oil return pipe is communicated with the right side of the oil return pipeline, a lower oil spraying cavity with an opening away from the axis is formed in the outer annular surface of the lower bearing sleeve, a lower oil inlet ring pipe is arranged on one side, close to the axis, of the lower oil spraying cavity, a lower oil inlet is communicated and evenly distributed with.

9. The bearing oil mist jet lubrication device according to claim 1, wherein: go up the interior toroid of bearing bush with the outer toroid of bearing bush is fixed respectively and is equipped with bearing ring cover down, bearing ring cover is run through from top to bottom and evenly distributed is equipped with oil through hole, upside the oil through hole intercommunication go up back oil chamber, downside lead to oil hole intercommunication spout the oil pocket down, upside bearing ring cover inner toroid laminating ball is kept away from the one end of axis of rotation, downside the outer toroid laminating ball of bearing ring cover is close to the one end of axis of rotation, both sides from top to bottom bearing ring cover respectively with go up the bearing bush have bilateral symmetry and evenly distributed's fastening bolt down between the bearing bush, the upside the fixed shielding plate that is equipped with of toroid within the bearing ring cover, shielding plate lower extreme sliding connection is in the downside bearing ring cover, the shielding plate is run through and evenly distributed about and is equipped with the mouth of blowing.

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