CN219336676U - Multistation bearing processingequipment - Google Patents

Abstract

The utility model discloses a multi-station bearing machining device, which relates to the technical field of bearing machining and comprises a bottom plate, wherein a servo motor is arranged in the middle of the upper end of the bottom plate, a turntable is arranged at the output end of the servo motor, notches are symmetrically arranged in the center of the side surface of the turntable, supporting plates are symmetrically arranged in front and back of the upper end edge of the bottom plate, a workbench is arranged at one end, far away from the servo motor, of each supporting plate, a semicircular groove which is mutually matched with the turntable is arranged on the upper surface of the workbench, a guide-in roller shaft is uniformly and rotatably connected between the supporting plates and at the left side of the servo motor, a guide-in conveyor belt is sleeved between the outer sides of the guide-in roller shafts, and a guide-out roller shaft is uniformly and rotatably connected at the right side of the servo motor.

Description

Multistation bearing processingequipment

Technical Field

The utility model relates to the technical field of bearing machining, in particular to a multi-station bearing machining device.

Background

The bearing sometimes needs to be rolled and detected in the processing process so as to test the bearing capacity of the bearing, the bearing rolling device can be used for detecting, the existing part rolling device adopts a turntable to drive the bearing to the position below the rolling head one by one, and a plurality of stations are nominally arranged on the turntable to accommodate the bearing, so that the bearing is rolled one by one, and the processing efficiency is required to be improved.

Disclosure of Invention

The utility model aims to provide a multi-station bearing processing device which is used for solving the problems in the background technology.

In order to achieve the above purpose, the present utility model provides the following technical solutions: the utility model provides a multistation bearing processingequipment, includes the bottom plate, the upper end middle part of bottom plate is equipped with servo motor, servo motor's output is equipped with the carousel, the side central symmetry of carousel has seted up the opening, the upper end edge fore-and-aft symmetry of bottom plate is equipped with the backup pad, the backup pad is kept away from servo motor's one end is equipped with the workstation, the upper surface of workstation seted up with the semicircle recess of carousel looks adaptation each other, between the backup pad and be in servo motor's left side evenly rotates and is connected with leading-in roller, the cover has leading-in conveyer belt between the outside of leading-in roller, between the backup pad and be in servo motor's right side evenly rotates and is connected with leading-out roller, the cover has leading-out conveyer belt between the outside of leading-out roller, the left and right sides the leading-in roller with the front end of leading-out roller all is equipped with first drive wheel, the upper end left and right sides symmetry of bottom plate is equipped with driving motor, the output of driving motor run through the backup pad and be equipped with the semicircle recess of mutual adaptation, between the backup pad and the backup pad just is in the left side opposite drive wheel evenly rotates and is equipped with leading-in roller, the hydraulic cylinder support frame, the left side that is equipped with the end, the pneumatic cylinder is equipped with the end on the end.

Preferably, the number of the openings is four.

Preferably, the upper surface of the supporting plate is flush with the bottom surface of the semicircular groove, the height of the guiding-in roller shaft is slightly higher than that of the guiding-out roller shaft, the upper surface of the guiding-in conveyor belt is slightly higher than that of the supporting plate, and the upper surface of the guiding-out conveyor belt is slightly lower than that of the supporting plate.

Preferably, a baffle is arranged at the upper end of the supporting plate and at the left side of the limiting bent rod.

Compared with the prior art, the utility model has the beneficial effects that: the bearing can be filled in the opening of the left side through leading-in conveyer belt, can discharge the bearing in the opening of the right side through leading-out conveyer belt to simplify feeding and discharging work, hold a plurality of bearings once through the opening on the carousel, when the carousel rotates the bearing backward, can once detect a plurality of bearings, fill the work of axle and discharge bearing and can go on in step when detecting, thereby improve the efficiency that the bearing rolls and detects processing.

Drawings

Fig. 1 is a schematic diagram of the overall structure of the present utility model.

Fig. 2 is a schematic view of a front view in cross section.

Fig. 3 is an enlarged view of a portion a in fig. 2.

Fig. 4 is a schematic top view of the present utility model.

In the figure: 1. a bottom plate; 2. a servo motor; 3. a turntable; 4. a notch; 5. a support plate; 6. a work table; 7. a guiding roll shaft; 8. leading in a conveyor belt; 9. a guiding-out roll shaft; 10. leading out a conveyor belt; 11. a first driving wheel; 12. a driving motor; 13. a second driving wheel; 14. a transmission belt; 15. limiting bent rods; 16. a support frame; 17. a hydraulic cylinder; 18. a pressing plate; 19. briquetting; 20. and a baffle.

Description of the embodiments

The following description of the embodiments of the present utility model will be made clearly and completely with reference to the accompanying drawings, in which it is apparent that the embodiments described are only some embodiments of the present utility model, but not all embodiments. All other embodiments, which can be made by those skilled in the art based on the embodiments of the utility model without making any inventive effort, are intended to be within the scope of the utility model.

Referring to fig. 1-4, the present utility model provides a technical solution: the utility model provides a multistation bearing processingequipment, including bottom plate 1, bottom plate 1 is left and right sides cuboid form towards, the upper end middle part of bottom plate 1 is equipped with servo motor 2, servo motor 2's output is equipped with carousel 3, carousel 3's side central symmetry has seted up opening 4, servo motor 2 is fixed in bottom plate 1's upper end, carousel 3 is fixed on servo motor 2's output, servo motor 2 is connected with outside power supply unit and control device, servo motor 2 can drive carousel 3 and rotate specific angle at every turn, opening 4 runs through carousel 3 from top to bottom, can hold a plurality of bearings in the opening 4, the thickness of carousel 3 is less than the thickness of bearing, the upper surface that makes the bearing can be higher than carousel 3 to other parts push down the bearing, the upper end edge front and back symmetry of bottom plate 1 is equipped with backup pad 5, the support plate 5 is far away from one end of the servo motor 2 and is provided with a workbench 6, the two support plates 5 are fixed on the bottom plate 1, the workbench 6 is fixed on the outer side of the support plate 5, the upper surface of the workbench 6 is provided with semicircular grooves mutually matched with the rotary table 3, the semicircular grooves are arranged on the upper surface of the workbench 6, as gaps are formed between the two worktables 6, the semicircular grooves are not strictly semicircular, the two semicircular grooves are spliced into a circular groove with a missing part in the middle, the rotary table 3 is embedded into the semicircular grooves, the upper surface of the rotary table 3 is flush with the upper surface of the workbench 6, an introducing roller shaft 7 is uniformly and rotatably connected between the support plates 5 and on the left side of the servo motor 2, an introducing conveyor belt 8 is sleeved between the outer sides of the introducing roller shafts 7, an introducing roller shaft 9 is uniformly and rotatably connected between the support plates 5 and on the right side of the servo motor 2, an outgoing conveyor belt 10 is sleeved between the outer sides of the outgoing roller shafts 9, round holes for accommodating the roller shafts are formed in the supporting plates 5, bearings can be arranged between the supporting plates 5 and the roller shafts to reduce friction, the incoming conveyor belt 8 is sleeved on all the incoming roller shafts 7, the outgoing conveyor belt 10 is sleeved on all the outgoing roller shafts 9, the upper surface of the conveyor belt is kept horizontal by supporting the roller shafts and tensioning the conveyor belt, the upper surface of the conveyor belt is slightly lower than the lower surface of the disc, the incoming conveyor belt 8 can guide the bearings into the left opening 4 of the disc, the outgoing conveyor belt 10 can guide the bearings out of the right opening 4, the front ends of the incoming roller shafts 7 and the outgoing roller shafts 9 on the left side and the right side are respectively provided with a first driving wheel 11, the left side and the right side of the upper end of the bottom plate 1 are symmetrically provided with driving motors 12, the output ends of the driving motors 12 penetrate through the supporting plates 5 and are provided with second driving wheels 13, a transmission belt 14 is sleeved between the first transmission wheel 11 and the second transmission wheel 13 which are opposite up and down, a driving motor 12 is fixed on the bottom plate 1, a round hole for the output end of the driving motor 12 to pass through is formed on the supporting plate 5 at the front side, the second transmission wheel 13 is fixed on the output end of the driving motor 12, the front ends of the leftmost leading-in roll shaft 7 and the rightmost leading-out roll shaft 9 extend outwards and are fixed with the first transmission wheel 11, the transmission belt 14 is sleeved between the upper and lower first transmission wheels 11 and the second transmission wheel 13, the driving motor 12 is connected with external power supply equipment and control equipment, the transmission driving motor 12 through the transmission wheel and the transmission belt 14 can drive the transmission belt to rotate clockwise, a limit bent rod 15 is arranged at the left side of the turntable 3 at the upper end of the supporting plate 5, one end of the limit bent rod 15 is downwards fixed on the supporting plate 5, the rest part of the limiting bent rods 15 is higher than the guiding-in conveyor belt 8, the distance between the two limiting bent rods 15 is about small, so that a bearing on the guiding-in conveyor belt 8 can move to a middle position, the bearing can move to the notch 4 of the rotary table 3, a support frame 16 is arranged at the upper end of the workbench 6 at the rear side, a hydraulic cylinder 17 is arranged at the upper end of the support frame 16, the output end of the hydraulic cylinder 17 penetrates through the support frame 16 and is provided with a pressing plate 18, a pressing block 19 is arranged at the lower end of the pressing plate 18, the support frame 16 is fixed on the workbench 6, the hydraulic cylinder 17 is fixed at the upper end of the support frame 16, a through hole for the output end of the hydraulic cylinder 17 to pass through is formed in the support frame 16, the pressing block 18 is fixed at the output end of the hydraulic cylinder 17, the pressing block 19 is equivalent to a rolling head fixed on the pressing plate 18, the hydraulic cylinder 17 is connected with external supply equipment and control equipment, and the pressing block 19 is driven to move up and down through the hydraulic cylinder 17 to conduct rolling test on the bearing.

Specifically, the number of the openings 4 is four, the four openings 4, the turntable 3 rotates 90 degrees each time, and when the pressing block 19 rolls the bearing, the lead-in conveyor belt 8 and the lead-out conveyor belt 10 on the left side and the right side can lead in and out the bearing simultaneously.

Specifically, the upper surface of the supporting plate 5 is flush with the bottom surface of the semicircular groove, the height of the guiding-in roller shaft 7 is slightly higher than that of the guiding-out roller shaft 9, the upper surface of the guiding-in conveyor belt 8 is slightly higher than that of the supporting plate 5, the upper surface of the guiding-out conveyor belt 10 is slightly lower than that of the supporting plate 5, a gap is formed between the lower surface of the disc and the bottom surface of the semicircular groove, the disc is supported and suspended on the upper side of the workbench 6 by the servo motor 2, and the guiding-in conveyor belt 8 is slightly higher and the guiding-out conveyor belt 10 is slightly lower so that the turntable 3 brings the bearing into and out of the semicircular groove of the workbench 6.

Specifically, a baffle 20 is disposed at the upper end of the supporting plate 5 and on the left side of the limiting bent rod 15, and the baffle 20 is fixed on the supporting plate 5 to avoid the bearing from falling out from two sides of the conveyor belt.

Working principle: the bearing to be detected and processed is conveyed rightward by the guide-in conveyor belt 8, the bearing is aligned with the left opening 4 through the limit bent rod 15 and then enters the left opening 4 of the turntable 3, when the left opening 4 is filled with the bearing, the turntable 3 is driven to rotate 90 degrees through the servo motor 2, the group of bearings are rotated to correspond to the pressing block 19 up and down backwards, the pressing block 19 is driven by the hydraulic cylinder 17 to move downwards to roll and detect the bearing, meanwhile, the bearing to be detected and processed can be refilled in the left opening 4, the turntable 3 is rotated by 90 degrees again, the turntable 3 moves the next group of bearings to the backward position to detect, meanwhile, the detected bearing in the right opening 4 is guided out of the conveyor belt 10 to be conveyed to the right to be discharged, and the left opening 4 is filled with the bearing again.

Although embodiments of the present utility model have been shown and described, it will be understood by those skilled in the art that various changes, modifications, substitutions and alterations can be made therein without departing from the principles and spirit of the utility model, the scope of which is defined in the appended claims and their equivalents.

Claims (4)

1. The utility model provides a multistation bearing processingequipment, includes bottom plate (1), its characterized in that: the utility model discloses a servo motor, including base plate (1), servo motor (2)'s upper end middle part is equipped with servo motor (2), servo motor (2)'s output is equipped with carousel (3), opening (4) have been seted up to side central symmetry of carousel (3), servo motor (1)'s upper end edge front and back symmetry is equipped with backup pad (5), backup pad (5) keep away from servo motor (2)'s one end is equipped with workstation (6), semicircular groove with servo motor (3) looks adaptation is seted up on workstation (6)'s upper surface, between backup pad (5) and in servo motor (2)'s left side evenly rotates and is connected with leading-in roller (7), the cover has leading-in conveyer belt (8) between the outside of leading-in roller (7), between backup pad (5) and be in servo motor (2)'s right side evenly rotates and is connected with leading-out conveyer belt (9), the cover has between the outside of leading-out roller (9) leading-in roller (7) with leading-out conveyer belt (9) front end (11), left and right side front end (12) of leading-out roller (9) are equipped with first motor (1) respectively, drive end (12) are all equipped with on the base plate (1), the upper end of the supporting plate (5) is provided with a limiting bent rod (15) at the left side of the rotary table (3), the upper end of the workbench (6) at the rear side is provided with a supporting frame (16), the upper end of the supporting frame (16) is provided with a hydraulic cylinder (17), the output end of the hydraulic cylinder (17) penetrates through the supporting frame (16) and is provided with a pressing plate (18), and the lower end of the pressing plate (18) is provided with a pressing block (19).

2. A multi-station bearing machining apparatus according to claim 1, wherein: the number of the notches (4) is four.

3. A multi-station bearing machining apparatus according to claim 1, wherein: the upper surface of backup pad (5) with the bottom surface parallel and level of semicircle recess, the height of leading-in roller (7) is slightly higher than the height of leading-out roller (9), the upper surface of leading-in conveyer belt (8) is slightly higher than the upper surface of backup pad (5), the upper surface of leading-out conveyer belt (10) is slightly lower than the upper surface of backup pad (5).

4. A multi-station bearing machining apparatus according to claim 1, wherein: the upper end of the supporting plate (5) is provided with a baffle plate (20) at the left side of the limiting bent rod (15).

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