Bearing ring oiling station is used in bearing production
Technical Field
The utility model relates to the technical field of bearing production and processing, in particular to a bearing ring oiling device for bearing production.
Background
The bearing is a part for fixing and reducing the friction coefficient of load in the mechanical transmission process, is a part for taking weight in modern mechanical equipment, and the bearing ring after coming out of a heat treatment production line also needs manual oiling and rust prevention by personnel.
For example, in the chinese patent of publication No. CN211613122U, an oiling device for a bearing ring is disclosed, in the above prior art, although the oil collecting tank and the filter screen can filter and recover the used oil for the next use, the inner and outer oil nozzles of the oil injection port help the oiling process to uniformly oil, increasing the working efficiency, but some processing factories which are not fully automated are all operated by manual cooperation with a machine, when the bearing ring is completely oiled, workers are required to take the bearing ring off the machine, although the bearing ring is generally operated by wearing gloves, the gloves are damaged for a long time, and the machine is also easy to get up with the oil, when the skin of a person contacts the oil for a long time, the skin is damaged and aged fast, even allergic reaction is generated, so it is necessary to design a bearing ring oiling device for bearing production, which can automatically feed and discharge.
Disclosure of utility model
The utility model provides a bearing ring oiling device for bearing production, which aims to solve the technical problem that excessive skin can be contacted with rust-proof oil in the process of manually oiling a bearing ring and feeding and discharging.
The bearing ring oiling device for bearing production comprises a bearing box, wherein a plurality of oiling assemblies for oiling the bearing rings are arranged on two sides of the bearing box, oiling assemblies for adding rust-proof oil to the oiling assemblies are arranged on one side of each oiling assembly, a driving assembly for driving adjacent oiling assemblies to carry out oiling is arranged on one side of one oiling assembly, and feeding and discharging assemblies for feeding and discharging the bearing rings are arranged on the other two sides of the bearing box.
Through above-mentioned technical scheme, when carrying out the race ring fat liquoring, use last unloading subassembly to carry out material loading and unloading operation with the race ring, the race ring can be before the unloading with fat liquoring subassembly contact fat liquoring.
As a further improvement of the scheme, the two sides of the bearing box are fixedly provided with the oiling boxes, and the oiling assembly comprises a rotating shaft rotatably arranged in the oiling boxes and oiling rollers fixedly sleeved on the oiling boxes.
Through the technical scheme, the bearing ring is contacted with the oiling roller, so that rust preventive oil can be smeared on the bearing ring.
As a further improvement of the scheme, one side of each of the two oiling boxes is provided with a plurality of first oiling ports matched with the oiling roller, and two sides of each of the bearing boxes are provided with a plurality of second oiling ports matched with the first oiling ports.
Through the technical scheme, one side of the oiling roller can penetrate through the first oiling port and the second oiling port to be in contact with the surface of the bearing ring.
As a further improvement of the scheme, the oiling assembly comprises a first oiling pipe and a hairbrush, wherein the first oiling pipe is arranged on one side of an oiling roller and fixedly installed with an oiling box, the hairbrush is fixedly installed on one side of the first oiling pipe, one side of the hairbrush extends to the inside of the first oiling pipe, the other side of the hairbrush is attached to the circumferential surface of an adjacent oiling roller, one end of each first oiling pipe penetrates through the adjacent oiling box and extends to the outside of the adjacent oiling box, an oil tank is fixedly installed on one side of each oiling box, a second oiling pipe is fixedly communicated on one side of each oil tank, and each first oiling pipe is fixedly communicated with the adjacent second oiling pipe.
Through the technical scheme, the oiling roller can be contacted with the hairbrush when rotating, so that the hairbrush can smear rust-proof oil on the oiling roller.
As a further improvement of the scheme, one end of each rotating shaft penetrates through the adjacent oil coating box and extends to the outer side of the oil coating box, the driving assembly comprises a servo motor arranged on one side of one rotating shaft and a driving rod fixedly mounted on the output end of the servo motor, one end of the driving rod is fixedly mounted with one end of the adjacent rotating shaft, each rotating shaft is fixedly sleeved with a driving gear, a plurality of driving gears are sleeved with synchronous belts for synchronously driving the driving gears, one side of each oil coating box is rotatably provided with a rotating column, each rotating column is sleeved with a rubber extrusion ring, and the outer surface of each rubber extrusion ring is in extrusion fit with the outer surface of the synchronous belt.
Through above-mentioned technical scheme, servo motor starts and will let the actuating lever drive adjacent axis of rotation and rotate, and cooperation drive gear and hold-in range let all axis of rotation rotate to let all oiling roller rotate and carry out the oiling operation to the bearing ring.
As a further improvement of the scheme, the top and the bottom of the bearing box are provided with through holes, the feeding and discharging assembly comprises a feeding plate fixedly installed at the top of the bearing box and provided with a feeding hole, a discharging plate fixedly installed at the bottom of the bearing box and provided with a discharging hole and a driving cylinder fixedly installed at the bottom of one of the oil coating boxes, and a stop block is fixedly installed at the pushing end of the driving cylinder.
Through above-mentioned technical scheme, loading board and unloading board are responsible for the last unloading of race ring, and drive cylinder cooperation dog can let the race ring stay in the bearing box inside and be oiled.
Compared with the prior art, the utility model has the beneficial effects that:
According to the utility model, the oiling assembly, the driving assembly and the feeding and discharging assembly are arranged, when the bearing rings are oiled, the feeding and discharging assembly is used for automatically feeding and discharging the plurality of bearing rings, the bearing rings are contacted with the plurality of oiling assemblies before being oiled, so that the surfaces are oiled, the driving assembly can rotate all the oiling assemblies, the oiling of the bearing rings is more uniform, the oiling assembly can add rust-proof oil to the oiling assemblies, the oiling failure of the bearing rings is avoided, the manual oiling operation of the bearing rings is not required, the long-time contact of skin with the rust-proof oil is avoided, and most links of the oiling of the bearing rings are changed into automatic operation, so that the oiling efficiency is improved.
Drawings
FIG. 1 is a schematic view of the internal structure of a bearing cartridge and an oiling cartridge of the present utility model;
FIG. 2 is a schematic view of a three-dimensional structure of the present utility model;
FIG. 3 is a schematic view of a structure of the present utility model with a driving assembly;
fig. 4 is an enlarged view of the structure of the portion a of fig. 3 according to the present utility model.
Main symbol description:
1. The device comprises a bearing box, 201, a rotating shaft, 202, an oiling roller, 301, a first oiling pipe, 302, a hairbrush, 401, a servo motor, 402, a driving rod, 501, a feeding plate, 502, a blanking plate, 503, a driving cylinder, 6, an oiling box, 7, an oil tank, 8, a second oiling pipe, 9, a driving gear, 10, a synchronous belt, 11, a rotating column, 12, a rubber extrusion ring and 13, and a stop block.
Detailed Description
The present utility model will be further described with reference to the accompanying drawings and detailed description, wherein it is to be understood that, on the premise of no conflict, the following embodiments or technical features may be arbitrarily combined to form new embodiments.
Please combine fig. 1-4, a bearing ring oiling device for bearing production of this embodiment, including bearing box 1, the both sides of bearing box 1 all are equipped with a plurality of oiling subassembly that carry out the fat liquoring for the bearing ring, and one side of every oiling subassembly all is equipped with the oiling subassembly that adds rust inhibitor oil for oiling subassembly, and one side of one of them oiling subassembly is equipped with the drive assembly that the adjacent oiling subassembly of drive was scribbled, and the other both sides of bearing box 1 are equipped with the last unloading subassembly that goes up the unloading with the bearing ring.
Referring to fig. 1 and 2, the two sides of the bearing box 1 are fixedly provided with oil coating boxes 6, the oil coating assembly comprises a rotating shaft 201 rotatably installed inside the oil coating boxes 6 and an oil coating roller 202 fixedly sleeved on the oil coating boxes 6, one side of each of the two oil coating boxes 6 is provided with a plurality of first oil coating ports matched with the oil coating roller 202, two sides of the bearing box 1 are provided with a plurality of second oil coating ports matched with the first oil coating ports, and rust-proof oil is smeared on the bearing ring by contacting the bearing ring with the oil coating roller 202.
Referring to fig. 1 and 3, the oiling assembly includes a first oiling tube 301 disposed at one side of the oiling roller 202 and fixedly installed with the oiling box 6, and a brush 302 fixedly installed at one side of the first oiling tube 301, one side of the brush 302 extends to the inside of the first oiling tube 301, the other side of the brush 302 is attached to the circumferential surface of the adjacent oiling roller 202, one end of each first oiling tube 301 penetrates through the adjacent oiling box 6 and extends to the outside thereof, an oil tank 7 is fixedly installed at one side of each oiling box 6, a second oiling tube 8 is fixedly communicated at one side of each oil tank 7, each first oiling tube 301 is fixedly communicated with the adjacent second oiling tube 8, and when the oiling roller 202 rotates, the brush 302 contacts with the brush 302 to enable the brush 302 to smear rust preventive oil on the oiling roller 202.
Referring to fig. 1, 3 and 4, one end of each rotating shaft 201 penetrates through the adjacent oiling box 6 and extends to the outer side of the adjacent oiling box, the driving assembly comprises a servo motor 401 arranged on one side of one rotating shaft 201 and a driving rod 402 fixedly mounted on the output end of the servo motor 401, one end of the driving rod 402 is fixedly mounted with one end of the adjacent rotating shaft 201, each rotating shaft 201 is fixedly sleeved with a driving gear 9, a synchronous belt 10 for synchronously transmitting the plurality of driving gears 9 is sleeved on the plurality of driving gears 9, a rotating column 11 is rotatably mounted on one side of each oiling box 6, a rubber extrusion ring 12 is sleeved on each rotating column 11, the outer surface of each rubber extrusion ring 12 is in extrusion fit with the outer surface of the synchronous belt 10, the driving rod 402 can drive the adjacent rotating shaft 201 to rotate when started by the servo motor 401, all the rotating shafts 201 are rotated by being matched with the driving gears 9 and the synchronous belt 10, and all the oiling rollers 202 are rotated to perform oiling operation on the bearing rings.
Referring to fig. 1 and 2, the top and bottom of the bearing box 1 are provided with through holes, the loading and unloading assembly comprises a loading plate 501 fixedly installed at the top of the bearing box 1 and provided with a loading hole, an unloading plate 502 fixedly installed at the bottom of the bearing box 1 and provided with a unloading hole, and a driving cylinder 503 fixedly installed at the bottom of one of the oil coating boxes 6, and a stop block 13 is fixedly installed at the pushing end of the driving cylinder 503.
The implementation principle of the bearing ring oiling device for bearing production in the embodiment of the application is as follows: when a large number of bearing rings need to be oiled, the driving rod 402 of the servo motor 401 is started to drive the adjacent rotating shafts 201 to rotate, the driving gears 9 on the rotating shafts 201 can enable the synchronous belt 10 to move, so that all the driving gears 9 rotate, the contact area between the driving gears 9 and the synchronous belt 10 is small, at the moment, the rubber extrusion ring 12 can extrude one side of the synchronous belt 10, friction between the synchronous belt 10 and the driving gears 9 is increased, the driving gears 9 can conveniently rotate, tooth grooves are formed in the existing synchronous belt 10, the driving gears 9 can be easily driven after the existing synchronous belt 10 is meshed with the driving gears 9, all the driving gears 9 rotate to enable all the rotating shafts 201 to drive the oiling rollers 202 to rotate, the rotation of the oiling rollers 202 can be contacted with the hairbrushes 302, the brush 302 is used for smearing the rust-preventive oil on the oiling roller 202, the top of the oil tank 7 is provided with a small hole, so that the rust-preventive oil consumption in the first oiling pipe 301 can not be supplemented, the small hole is formed, the air in the first oiling pipe 301 floats upwards and is discharged from the small hole, the rust-preventive oil in the first oiling pipe 301 is supplemented, the bearing rings are all placed in the feeding plate 501, the bearing rings enter the bearing box 1, the bearing rings move and are contacted with the rotating oiling roller 202 to carry out oiling, the driving cylinder 503 can push the roller stop 13 to stop a discharge hole, when the bearing rings are oiled, the stop 13 is removed to enable the adjacent bearing rings to fall, the discharge hole is stopped after the bearing rings fall, the time of blanking operation after the stop 13 is removed can be calculated in advance, the pushing time of the driving cylinder 503 is adjusted, so that each time the driving cylinder 503 moves away from the stop block 13, only one bearing ring can be used for discharging, uneven oiling of the bearing rings caused by one time discharging of a plurality of bearing rings is avoided, the bearing rings are not extruded together by two bearing rings when the device is used, and the whole width of the device is slightly larger than the height of the bearing rings.
The above embodiments are only preferred embodiments of the present utility model, and the scope of the present utility model is not limited thereto, but any insubstantial changes and substitutions made by those skilled in the art on the basis of the present utility model are intended to be within the scope of the present utility model as claimed.