CN210450060U - Bearing roller cleaning machine - Google Patents

Abstract

The utility model provides a bearing roller cleaning machine belongs to bearing roller and detects technical field. The cleaning device solves the problems that a bearing roller cleaning machine is poor in cleaning effect and easy to cause secondary damage. The utility model discloses a frame and set up conveyor and belt cleaning device in the frame, conveyor includes feeder hopper and first transport mechanism, the top in the frame is installed to the feeder hopper, the export slide slope of feeder hopper sets up the first transport mechanism of butt joint downwards, still be provided with the discharge gate in the frame, the discharge gate is connected to on the belt cleaning device, belt cleaning device is including wasing the oil groove and installing the second transport mechanism on wasing the oil groove, it is used for holding and retrieving the cleaning oil to wash the oil groove, second transport mechanism top still is provided with oil spout mechanism and the mechanism of blowing, oil spout mechanism sets up in second transport mechanism's interlude, the mechanism of blowing sets up in second transport mechanism. The utility model has the advantages of the structure is reliable, and the cleaning performance is good, avoids causing secondary damage to the roller.

Description

Bearing roller cleaning machine

Technical Field

The utility model relates to a bearing roller detects technical field, and specifically speaking relates to a bearing roller cleaning machine.

Background

The bearing is a key basic part in precision machinery and instrument equipment, is an important basis for developing high-tech equipment in the fields of precision machine tools, precision instruments, national defense and the like, and has a great influence on the overall performance of the equipment. The precision roller is a key component of the bearing, has vital influence on the working performance and service life of the bearing, is an important basis for developing high-tech equipment in the fields of precision machine tools, energy machinery (wind driven generators), precision instruments, national defense and the like, and plays an important role in the performance of functional parts due to the precision and consistency of the precision roller.

The bearing industry is taken as an important basic general component industry matched with the high-end precision equipment manufacturing industry in China, and gives full affirmation and attention on the national level, and the design of key basic components and general components required by important equipment is researched and developed in a definite manner in the national medium-long term scientific and technical development planning outline. The research and development for improving the autonomy rate of major equipment matched bearings in the key field and improving the reliability and precision stability of bearing parts are explicitly proposed in the 'twelve-five' planning of the bearing industry.

Need wash the step to the roller after bearing roller detects the completion, current belt cleaning device adopts the conveyer belt and the structure of the gyro wheel brush that evenly sets up side by side usually, the roller is constantly transported toward the gyro wheel brush by the conveyer belt, the gyro wheel brush rotates and washs the roller, use water jet equipment to spray water in the top simultaneously, the roller surface's dust can be washd off to this structure although, the roller surface is scrubbed constantly to the brush, long-time operation can leave impurity on the brush, cause secondary damage to the roller very easily.

SUMMERY OF THE UTILITY MODEL

The utility model aims at the above-mentioned problem that exists among the prior art, provide a cleaning performance is good, avoid the bearing roller cleaning machine to roller secondary damage.

In order to realize the purpose of the utility model, the utility model adopts the following technical scheme: the utility model provides a bearing roller cleaning machine, its characterized in that includes the frame and sets up conveyor and belt cleaning device in the frame, conveyor include feeder hopper and first transport mechanism, the feeder hopper install the top in the frame, the export slide slope of feeder hopper set up the first transport mechanism of butt joint downwards, the frame on still be provided with the discharge gate, the discharge gate be connected to belt cleaning device on, belt cleaning device including wash the oil groove and install the second transport mechanism on wasing the oil groove, the washing oil groove be used for holding and retrieving the cleaning oil, second transport mechanism top still be provided with oil spout mechanism and air blowing mechanism, oil spout mechanism set up in second transport mechanism's interlude, air blowing mechanism set up in second transport mechanism back half section.

The utility model discloses a theory of operation: the during operation, the bearing roller falls into in the feeder hopper from other equipment, the bearing roller constantly glides to first transport mechanism in from the export slide of feeder hopper, first transport mechanism constantly conveys the bearing roller the discharge gate in the frame, the roller falls into in the belt cleaning device from the discharge gate, the bearing roller constantly is sent into on second transport mechanism's the first half section, oil spout mechanism carries out oil spout cleaning to the roller in roller transportation process, the washing oil groove is used for holding and retrieving the washing oil, when the roller is located second transport mechanism back half section, the clearance of blowing is blown to the mechanism. By adopting the structure, the cleaning device is simple and reliable in structure, good in cleaning effect and high in cleaning efficiency, and avoids secondary damage to the roller.

In foretell bearing roller cleaning machine, first transport mechanism include two parallel arrangement's conveying roller, drive arrangement, slidable mounting seat and sliding guide, drive arrangement drive connect two conveying rollers, the both ends of two conveying rollers all install on slidable mounting seat, slidable mounting seat install on sliding guide's slider, two conveying rollers homoenergetic be reciprocating motion along sliding guide length direction, slidable mounting seat on still be equipped with fixed mounting hole, fixed mounting hole be used for fixed slidable mounting seat.

In the bearing roller cleaning machine, the sliding installation seat is further provided with the limiting supports, the limiting supports are provided with first inclined planes, the two limiting supports are respectively arranged above the two conveying rollers, and the two first inclined planes form a V-shaped notch.

In foretell bearing roller cleaning machine, first transport mechanism on still seted up adjusting screw and lock nut, the slidable mounting seat on seted up the regulation hole, the frame on be equipped with vertical installation piece, the installation piece on seted up with the endocentric through-hole of screw hole, adjusting screw pass through-hole and regulation hole, lock nut set up respectively in the both sides of installation piece, the left and right sides of slidable mounting seat, lock nut fixed the slidable mounting seat through locking.

In the above bearing roller cleaning machine, the driving device is connected to the two conveying rollers through the synchronous belt, and the synchronous belt enables the two conveying rollers to rotate in opposite directions.

In foretell bearing roller cleaning machine, the frame on still be provided with the setting device, the setting device include first driving motor, setting claw, first driving motor install in the frame, the setting claw include setting disc and a plurality of material column of dialling, the setting column around setting disc axle center evenly set up on the side of setting disc, the setting disc install on first driving motor's main shaft tip, the setting claw be located first transport mechanism top.

In the bearing roller cleaning machine, the rack is further provided with a detection mechanism, the detection mechanism comprises a switching support and a sensor, and the sensor is arranged above the first conveying mechanism through the switching support.

In foretell bearing roller cleaning machine, the export slide on still be provided with flange, triangle-shaped hang plate and baffle, the hang plate butt on V-arrangement breach, the flange set up in the edge of export slide, the flange be used for guiding the roller gliding, the baffle set up in export slide top, the flange make by transparent flexible material.

In a foretell bearing roller cleaning machine, the feeder hopper still be equipped with limit baffle, limit baffle bottom be equipped with the breach, breach intercommunication export slide, limit baffle set up in one side that the feeder hopper is close to export slide and divide the feeder hopper into the feeding region and pass through the region, pass through regional bottom and be equipped with on-off mechanism, on-off mechanism be used for controlling the switching of breach.

In foretell bearing roller cleaning machine, the on-off mechanism include second driving motor, eccentric wheel and switch dog, second driving motor install in the frame, the eccentric wheel install on second driving motor's main shaft, switch dog slidable mounting on the feeder hopper, switch dog and eccentric wheel tangent setting, the switch dog can be under the eccentric wheel drive along the feeder hopper direction of height reciprocating motion.

In the above bearing roller cleaning machine, the front half section of the second conveying mechanism is higher than the highest surface of the cleaning oil tank, and the rear half section of the second conveying mechanism is lower than the highest surface of the cleaning oil tank.

In a bearing roller cleaning machine of the aforesaid, the second transport mechanism include first conveyer belt, second conveyer belt, first conveyer belt and second conveyer belt set up on same straight line, first conveyer belt upper surface be higher than the highest face of washing oil groove, the second conveyer belt be less than the highest face of washing oil groove, first conveyer belt and second conveyer belt between still be provided with the slope slide plate, the slope slide plate be used for the roller to slide from first conveyer belt to the second conveyer belt, first conveyer belt and second conveyer belt direction of rotation the same.

In the bearing roller cleaning machine, the oil injection mechanism is arranged above the inclined sliding plate and comprises a plurality of uniformly arranged nozzles.

In the bearing roller cleaning machine, the cleaning oil groove is further provided with a mounting support, the mounting support comprises two mounting bars which are arranged in parallel, and the second conveying mechanism is mounted between the two mounting bars.

In the above-mentioned bearing roller cleaning machine, the mounting bar is made of aluminum.

In the bearing roller cleaning machine, the air blowing mechanism comprises a pneumatic motor, a speed reducer and an air blowing cover, the pneumatic motor is respectively connected with the speed reducer and the air blowing cover, and a plurality of air blowing holes which are uniformly formed are formed in the bottom surface of the air blowing cover.

In the above bearing roller cleaning machine, the second conveying mechanism further includes two third driving motors, and the two third driving motors are mounted on the side surface of the mounting bracket and are respectively in driving connection with the first conveying belt and the second conveying belt.

In the above bearing roller cleaning machine, the second inclined surface is provided at the bottom of the cleaning oil tank.

Compared with the prior art, the bearing roller cleaning machine adopting the technical scheme has the following beneficial effects: the utility model has the advantages of simple structure is reliable, and the cleaning performance is good, and the cleaning efficiency is high, has avoided the roller secondary damage moreover.

Drawings

Fig. 1 is a schematic front view of the present invention;

fig. 2 is an isometric schematic view of a conveyor according to the present invention;

fig. 3 is a schematic view of an exit chute of the conveyor of the present invention;

fig. 4 is a top view of the present invention;

fig. 5 is a schematic structural view of a first conveying mechanism of the present invention;

fig. 6 is a schematic cross-sectional view of a conveyor of the present invention;

fig. 7 is a schematic structural view of the switching mechanism of the present invention;

fig. 8 is a schematic view of the driving device of the present invention;

FIG. 9 is a schematic view of the cleaning device of the present invention;

fig. 10 is a schematic view of the mounting bracket structure of the present invention;

fig. 11 is a plan view of the cleaning device of the present invention.

In the figure, 1, a frame; 2. a feed hopper; 3. a first conveying mechanism; 4. a drive device; 5. an outlet chute; 6. a discharge port; 7. a conveying roller; 8. a sliding mounting seat; 9. a sliding guide rail; 10. a limiting bracket; 11. a first inclined surface; 12. a V-shaped notch; 13. fixing the mounting hole; 14. adjusting the screw rod; 15. locking the nut; 16. an adjustment hole; 17. mounting blocks; 18. a through hole; 19. a material poking device; 20. a first drive motor; 21. a material poking claw; 22. a material poking disc; 23. stirring the material column; 24. the presence or absence of a detection mechanism; 25. a transfer bracket; 26. presence or absence of a sensor; 27. blocking edges; 28. an inclined plate; 29. a baffle plate; 30. a limit baffle; 31. a notch; 32. a feed zone; 33. a passing region; 34. a switch mechanism; 35. a second drive motor; 36. an eccentric wheel; 37. a switch stop block; 38. a synchronous belt; 39. a second inclined surface; 40. cleaning an oil groove; 41. a second transport mechanism; 42. an oil injection mechanism; 43. a blowing mechanism; 44. a first conveyor belt; 45. a second conveyor belt; 46. a tilting slide plate; 47. a nozzle; 48. mounting a bracket; 49. mounting a bar; 50. a pneumatic motor; 51. a speed reducer; 52. a blowing hood; 53. a third drive motor; 54. a conveying device; 55. and (5) cleaning the device.

Detailed Description

The following are specific embodiments of the present invention and the accompanying drawings are used to further describe the technical solution of the present invention, but the present invention is not limited to these embodiments.

As shown in fig. 1-11, the bearing roller cleaning machine includes a frame 1, and a conveying device 54 and a cleaning device 55 disposed on the frame 1, the conveying device 54 includes a feed hopper 2 and a first conveying mechanism 3, the feed hopper 2 is mounted above the frame 1, an outlet chute 5 of the feed hopper 2 is obliquely and downwardly disposed to be butted with the first conveying mechanism 3, a discharge port 6 is further disposed on the frame 1, the discharge port 6 is connected to the cleaning device 55, the cleaning device 55 includes a cleaning oil tank 40 and a second conveying mechanism 41 mounted on the cleaning oil tank 40, the cleaning oil tank 40 is used for accommodating and recovering cleaning oil, an oil spraying mechanism 42 and an air blowing mechanism 43 are further disposed above the second conveying mechanism 41, the oil spraying mechanism 42 is disposed in a middle section of the second conveying mechanism 41, and the air blowing mechanism 43 is disposed in a rear half section of the second.

Further saying, first transport mechanism 3 includes two parallel arrangement's conveying roller 7, drive arrangement 4, sliding installation seat 8 and sliding guide 9, two conveying rollers 7 are connected in the drive of drive arrangement 4, the both ends of two conveying rollers 7 are all installed on sliding installation seat 8, sliding installation seat 8 is installed on sliding guide 9's slider, two conveying rollers 7 homoenergetic are reciprocating motion along sliding guide 9 length direction, still be equipped with fixed mounting hole 13 on sliding installation seat 8, fixed mounting hole 13 is used for fixed sliding installation seat 8. Adopt above-mentioned setting can conveniently adjust the distance between the conveying roller 7, be fit for the transportation of multiple bearing roller. The conveyor roller 7 surface material is preferably a flexible material to avoid secondary damage.

In a further detail, the sliding installation seat 8 is further provided with a limiting support 10, the limiting support 10 is provided with a first inclined surface 11, the two limiting supports 10 are respectively installed above the two conveying rollers 7, and the two first inclined surfaces 11 form a V-shaped gap 12. By adopting the structure, the roller of the bearing can better slide into the gap between the two conveying rollers 7 from the inclined V-shaped notch 12, and the two conveying rollers 7 rotate relatively to convey the roller to the discharge hole 6 continuously.

In further detail, an adjusting screw 14 and a locking nut 15 are further arranged on the first conveying mechanism 3, an adjusting hole 16 is formed in the sliding mounting seat 8, a vertical mounting block 17 is arranged on the rack 1, a through hole 18 concentric with the threaded hole is formed in the mounting block 17, the adjusting screw 14 penetrates through the through hole 18 and the adjusting hole 16, the locking nuts 15 are respectively arranged on two sides of the mounting block 17 and the left side and the right side of the sliding mounting seat 8, and the locking nut 15 fixes the sliding mounting seat 8 through locking. By adopting the structure, the distance between the two conveying rollers 7 can be conveniently finely adjusted, and the bearing roller can not fall off in the conveying process.

As shown in fig. 8, the drive device 4 is further configured to simultaneously connect the two conveyance rollers 7 via a timing belt 38, and the timing belt 38 allows the two conveyance rollers 7 to rotate in opposite directions. The structure is compact.

In further detail, a material shifting device 19 is further arranged on the rack 1, the material shifting device 19 comprises a first driving motor 20 and a material shifting claw 21, the first driving motor 20 is installed on the rack 1, the material shifting claw 21 comprises a material shifting disc 22 and a plurality of material shifting columns 23, the material shifting columns 23 are evenly arranged on the side face of the material shifting disc 22 around the axis of the material shifting disc 22, the material shifting disc 22 is installed on the end portion of a main shaft of the first driving motor 20, and the material shifting claw 21 is located above the first conveying mechanism 3. Adopt the setting of above-mentioned structure, can prevent that the roller from piling up between two conveying rollers 7, reduce the condition that the roller collision produced secondary damage, improve conveying efficiency simultaneously.

In more detail, the rack 1 is further provided with a presence/absence detection mechanism 24, the presence/absence detection mechanism 24 includes a transfer bracket 25 and a presence/absence sensor 26, and the presence/absence sensor 26 is mounted above the first conveying mechanism 3 through the transfer bracket 25. The presence or absence of the sensor 26 is a commercially available product and will not be described in detail here. This setting can be calculated the quantity of bearing roller, and whether the feeding is whether avoided the machine idle running to the induction bearing roller simultaneously.

In more detail, the outlet chute 5 is further provided with a rib 27, a triangular inclined plate 28 and a baffle 29, the inclined plate 28 abuts against the V-shaped notch 12, the rib 27 is arranged at the edge of the outlet chute 5, the rib 27 is used for guiding the roller to slide downwards, the baffle 29 is arranged above the outlet chute 5, and the rib 27 is made of a transparent flexible material. This setting can be with the roller leading-in to first transport mechanism 3 in better, and baffle 29 can prevent that the roller from falling out, can also conveniently observe.

In further detail, the feed hopper 2 is further provided with a limit baffle 30, the bottom of the limit baffle 30 is provided with a notch 31, the notch 31 is communicated with the outlet slideway 5, the limit baffle 30 is arranged on one side of the feed hopper 2 close to the outlet slideway 5 and divides the feed hopper 2 into a feeding area 32 and a passing area 33, the bottom of the passing area 33 is provided with a switch mechanism 34, and the switch mechanism 34 is used for controlling the opening and closing of the notch 31.

In more detail, the switch mechanism 34 includes a second driving motor 35, an eccentric wheel 36 and a switch block 37, the second driving motor 35 is installed on the frame 1, the eccentric wheel 36 is installed on a main shaft of the second driving motor 35, the switch block 37 is slidably installed on the feeding hopper 2, the switch block 37 is arranged in a tangent manner with the eccentric wheel 36, and the switch block 37 can reciprocate along the height direction of the feeding hopper 2 under the driving of the eccentric wheel 36. The roller falls into the feed area 32 and is controlled by a switch mechanism 34 as to whether the roller enters the exit chute 5.

In more detail, the first half section of the second conveying mechanism 41 is higher than the highest surface of the cleaning oil groove 40, and the second half section of the second conveying mechanism 41 is lower than the highest surface of the cleaning oil groove 40.

In further detail, the second conveying mechanism 41 includes a first conveyor belt 44 and a second conveyor belt 45, the first conveyor belt 44 and the second conveyor belt 45 are arranged on the same straight line, the upper surface of the first conveyor belt 44 is higher than the highest surface of the cleaning oil tank 40, the second conveyor belt 45 is lower than the highest surface of the cleaning oil tank 40, an inclined slide plate 46 is further arranged between the first conveyor belt 44 and the second conveyor belt 45, the inclined slide plate 46 is used for enabling the rollers to slide down from the first conveyor belt 44 to the second conveyor belt 45, and the rotating directions of the first conveyor belt 44 and the second conveyor belt 45 are the same. Adopt the input speed that above-mentioned setting can the independent control roller to carry out more abundant washing to the roller, the slope slide 46 can utilize gravity to make the roller automatic down slide to the second conveyer belt 45 on, the energy can be saved.

To further elaborate, the oil injection mechanism 42 is disposed above the inclined slide plate 46, and the oil injection mechanism 42 includes a plurality of nozzles 47 uniformly disposed.

In more detail, the oil cleaning tank 40 is further provided with a mounting bracket 48, the mounting bracket 48 includes two mounting bars 49 arranged in parallel, and the second transmission mechanism 41 is mounted between the two mounting bars 49. Simple structure is firm, simple to operate.

To put it further in detail, the mounting bar 49 is made of aluminum for reducing the machining cost and the design cost.

In more detail, the blowing mechanism 43 includes a pneumatic motor 50, a speed reducer 51 and a blowing cover 52, the pneumatic motor 50 is respectively connected to the speed reducer 51 and the blowing cover 52, and a plurality of uniformly arranged blowing holes are formed in the bottom surface of the blowing cover 52. The pneumatic motor 50 supplies air to the air blowing cover 52 at a reduced speed by the speed reducer 51, and the bearing roller is air-blown and cleaned by the air blowing cover 52. The blowing hood 52 can also be directly connected to the blowing equipment of the factory for blowing.

In more detail, the second conveying mechanism 41 further includes two third driving motors 53, and the two third driving motors 53 are mounted on the side surfaces of the mounting bracket 48 and are respectively in driving connection with the first conveying belt 44 and the second conveying belt 45. The running speeds of the first conveyor belt 44 and the second conveyor belt 45 can be independently controlled, so that a better cleaning effect is achieved.

More specifically, the bottom of the cleaning oil groove 40 is provided with a second inclined surface 39. The bottom of the wash oil sump 40 is preferably inclined upward from the first conveyor belt 44 to the second conveyor belt 45 to facilitate recovery of the wash oil.

The specific embodiments described herein are merely illustrative of the spirit of the invention. Various modifications, additions and substitutions for the specific embodiments described herein may be made by those skilled in the art without departing from the spirit of the invention or exceeding the scope of the invention as defined in the accompanying claims.

Although the machine frame 1, the feed hopper 2, the first conveying mechanism 3, the driving device 4, the outlet chute 5, the discharge port 6, the conveying roller 7, the sliding mounting seat 8, the sliding guide rail 9, the limit bracket 10, the first inclined surface 11, the V-shaped notch 12, the fixed mounting hole 13, the adjusting screw 14, the lock nut 15, the adjusting hole 16, the mounting block 17, the through hole 18, the material-shifting device 19, the first driving motor 20, the material-shifting claw 21, the material-shifting disk 22, the material-shifting column 23, the presence or absence detecting mechanism 24, the adapter bracket 25, the presence or absence sensor 26, the flange 27, the inclined plate 28, the baffle 29, the limit baffle 30, the notch 31, the feeding area 32, the passing area 33, the switching mechanism 34, the second driving motor 35, the eccentric wheel 36, the switching stop 37, the synchronous belt 38, the second inclined surface 39, the cleaning oil groove 40, the second conveying mechanism 41, the oil-spraying mechanism 42, the discharging, The terms of the air blowing mechanism 43, the first conveyor belt 44, the second conveyor belt 45, the inclined slide plate 46, the nozzle 47, the mounting bracket 48, the mounting strip 49, the air motor 50, the speed reducer 51, the air blowing cover 52, the third driving motor 53, the conveying device 54, the cleaning device 55, etc., do not exclude the possibility of using other terms. These terms are used merely to more conveniently describe and explain the nature of the present invention; they are to be construed in a manner that is inconsistent with the spirit of the invention.

Claims (10)

1. The bearing roller cleaning machine is characterized by comprising a rack (1), a conveying device (54) and a cleaning device (55) which are arranged on the rack (1), wherein the conveying device (54) comprises a feed hopper (2) and a first conveying mechanism (3), the feed hopper (2) is arranged above the rack (1), an outlet slide way (5) of the feed hopper (2) is obliquely and downwards provided with a butt joint first conveying mechanism (3), the rack (1) is also provided with a discharge hole (6), the discharge hole (6) is connected to the cleaning device (55), the cleaning device (55) comprises a cleaning oil groove (40) and a second conveying mechanism (41) arranged on the cleaning oil groove (40), the cleaning oil groove (40) is used for containing and recovering cleaning oil, and an oil spraying mechanism (42) and an air blowing mechanism (43) are further arranged above the second conveying mechanism (41), the oil injection mechanism (42) is arranged at the middle section of the second conveying mechanism (41), and the air blowing mechanism (43) is arranged at the rear half section of the second conveying mechanism (41).

2. A bearing roller cleaning machine according to claim 1, characterized in that the first conveying mechanism (3) comprises two conveying rollers (7) arranged in parallel, a driving device (4), a sliding installation seat (8) and a sliding guide rail (9), the driving device (4) is connected with the two conveying rollers (7) in a driving manner, two ends of the two conveying rollers (7) are installed on the sliding installation seat (8), the sliding installation seat (8) is installed on a sliding block of the sliding guide rail (9), the two conveying rollers (7) can reciprocate along the length direction of the sliding guide rail (9), the sliding installation seat (8) is further provided with a fixed installation hole (13), and the fixed installation hole (13) is used for fixing the sliding installation seat (8); the driving device (4) is simultaneously connected with the two conveying rollers (7) through a synchronous belt (38), and the synchronous belt (38) enables the two conveying rollers (7) to rotate in opposite directions.

3. A bearing roller cleaning machine according to claim 2, characterized in that the sliding installation seat (8) is further provided with a limit bracket (10), the limiting supports (10) are provided with first inclined planes (11), the two limiting supports (10) are respectively arranged above the two conveying rollers (7), the two first inclined planes (11) form V-shaped gaps (12), the outlet slideway (5) is also provided with a flange (27), a triangular inclined plate (28) and a baffle plate (29), the inclined plate (28) is abutted against the V-shaped notch (12), the flange (27) is arranged at the edge of the outlet slideway (5), the flange (27) is used for guiding the roller to slide downwards, the baffle (29) is arranged above the outlet slide way (5), and the flange (27) is made of transparent flexible materials.

4. The bearing roller cleaning machine according to claim 3, characterized in that the first conveying mechanism (3) is further provided with an adjusting screw (14) and a locking nut (15), the sliding installation seat (8) is provided with an adjusting hole (16), the frame (1) is provided with a vertical installation block (17), the installation block (17) is provided with a through hole (18) concentric with the threaded hole, the adjusting screw (14) penetrates through the through hole (18) and the adjusting hole (16), the locking nut (15) is respectively arranged on two sides of the installation block (17) and on the left side and the right side of the sliding installation seat (8), and the locking nut (15) fixes the sliding installation seat (8) through locking.

5. A bearing roller cleaning machine according to claim 1, characterized in that the frame (1) is further provided with a material shifting device (19), the material shifting device (19) comprises a first driving motor (20) and a material shifting claw (21), the first driving motor (20) is installed on the frame (1), the material shifting claw (21) comprises a material shifting disc (22) and a plurality of material shifting columns (23), the material shifting columns (23) are evenly arranged on the side surface of the material shifting disc (22) around the axis of the material shifting disc (22), the material shifting disc (22) is installed on the main shaft end part of the first driving motor (20), and the material shifting claw (21) is positioned above the first conveying mechanism (3).

6. A bearing roller cleaning machine according to claim 1, characterized in that feed hopper (2) still be equipped with limit baffle (30), limit baffle (30) bottom be equipped with breach (31), breach (31) communicate export slide (5), limit baffle (30) set up in feed hopper (2) be close to export slide (5) one side and divide feed hopper (2) into feeding region (32) and pass through region (33), pass through region (33) bottom be equipped with on-off mechanism (34), on-off mechanism (34) be used for controlling the switching of breach (31).

7. A bearing roller cleaning machine according to claim 6, characterized in that the switch mechanism (34) comprises a second driving motor (35), an eccentric wheel (36) and a switch block (37), the second driving motor (35) is installed on the frame (1), the eccentric wheel (36) is installed on the main shaft of the second driving motor (35), the switch block (37) is installed on the feed hopper (2) in a sliding manner, the switch block (37) is arranged in a tangential manner with the eccentric wheel (36), and the switch block (37) can reciprocate along the height direction of the feed hopper (2) under the driving of the eccentric wheel (36).

8. A bearing roller cleaning machine according to claim 1, characterized in that the second conveying mechanism (41) comprises a first conveying belt (44) and a second conveying belt (45), the first conveying belt (44) and the second conveying belt (45) are arranged on the same straight line, the upper surface of the first conveying belt (44) is higher than the highest surface of the cleaning oil groove (40), the second conveying belt (45) is lower than the highest surface of the cleaning oil groove (40), an inclined sliding plate (46) is further arranged between the first conveying belt (44) and the second conveying belt (45), the inclined sliding plate (46) is used for enabling the rollers to slide down from the first conveying belt (44) to the second conveying belt (45), the rotating directions of the first conveying belt (44) and the second conveying belt (45) are the same, and the oil spraying mechanism (42) is arranged above the inclined sliding plate (46), the oil injection mechanism (42) comprises a plurality of uniformly arranged nozzles (47).

9. A bearing roller cleaning machine according to claim 8, characterized in that the cleaning oil tank (40) is further provided with a mounting bracket (48), the mounting bracket (48) comprises two parallel mounting bars (49), the second conveying mechanism (41) is mounted between the two mounting bars (49), the second conveying mechanism (41) further comprises two third driving motors (53), and the two third driving motors (53) are mounted on the side surfaces of the mounting bracket (48) and are respectively in driving connection with the first conveyor belt (44) and the second conveyor belt (45).

10. The bearing roller cleaning machine according to claim 1, wherein the blowing mechanism (43) comprises a pneumatic motor (50), a speed reducer (51) and a blowing cover (52), the pneumatic motor (50) is respectively connected with the speed reducer (51) and the blowing cover (52), and a plurality of uniformly arranged blowing holes are formed in the bottom surface of the blowing cover (52); and a second inclined surface (39) is arranged at the bottom of the cleaning oil groove (40).

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