CN112027500B

CN112027500B - A promote transition device for bearing production

Info

Publication number: CN112027500B
Application number: CN202010917476.7A
Authority: CN
Inventors: 蔡盼
Original assignee: Taizhou Long Da Science And Technology Ltd S
Current assignee: Taizhou Long Da Science And Technology Ltd S
Priority date: 2020-09-03
Filing date: 2020-09-03
Publication date: 2021-11-30
Anticipated expiration: 2040-09-03
Also published as: WO2022048146A1; CN112027500A

Abstract

The invention discloses a lifting transition device for bearing production, wherein a blanking device comprises a pair of L-shaped blanking supporting plates which are symmetrically arranged front and back; a horizontal conveyor belt which conveys the materials from right to left is arranged between the horizontal parts of the pair of blanking supporting plates; a rotary blanking block is rotatably arranged between the upper ends of the vertical parts of the blanking supporting plates; a blanking supporting seat is arranged on the right end surface of the rotary blanking block in a left-right moving manner; a cylindrical blanking inserted bar is formed in the center of the upper end face of the blanking supporting seat; the feeding device comprises a feeding supporting plate; the feeding support plate is vertically movably arranged at the right lower corners of the pair of vertical parts of the support frame; a movable supporting plate is arranged on the left end surface of the feeding supporting plate in a left-right moving manner; a semi-cylindrical plate-shaped feeding auxiliary plate matched with the upper and lower through holes of the limiting seat is formed on the left end face of the movable supporting plate; cylindrical feeding insertion rods are formed on the feeding auxiliary plate and the movable supporting plate.

Description

A promote transition device for bearing production

Technical Field

The invention relates to the technical field of bearing production, in particular to a lifting transition device for bearing production.

Background

The bearing is a light-weight component in modern mechanical equipment, and has the main function of supporting a mechanical rotator to reduce the mechanical load friction coefficient of the equipment in the transmission process. In the bearing production process, because the heights of the equipment in the front and rear processing procedures are possibly inconsistent, bearing parts are often required to be transported from a low rail to a high rail and then processed in the next step. At present, the bearing position lifting mode generally adopts artifical transport among the prior art, and this not only causes bearing machining inefficiency, has increased the production cycle of product moreover, has increaseed manufacturing cost. Therefore, it is desired to develop a hoisting machine for bearing production to solve the above problems.

Disclosure of Invention

The invention aims to provide a lifting transition device for bearing production, aiming at the technical problem that the existing bearing lifting mode is time-consuming and labor-consuming.

The technical scheme for solving the technical problems is as follows: a lifting transition device for bearing production comprises a supporting frame, a vertical conveying device, a discharging device and a feeding device; the supporting frame is a rectangular frame which penetrates through the left and the right; the vertical conveying device comprises a pair of conveying wheels which are distributed up and down; a pair of transmission wheels are rotatably arranged between the pair of vertical parts of the supporting frame; a conveying belt is arranged on the pair of conveying wheels; a plurality of limit seats which are uniformly distributed are fixed on the outer surface of the conveyor belt; a semi-cylindrical groove-shaped limiting slot is formed in the middle of the end face, far away from the conveying belt, of the limiting seat; the upper side wall and the lower side wall of the limiting slot are respectively provided with an upper through hole and a lower through hole which are in the shape of a semi-cylindrical groove and penetrate up and down; the limiting slot is collinear with the rotating central shafts of the pair of upper and lower through holes; the diameters of the upper and lower through holes are smaller than the diameter of the limiting slot; the blanking device comprises a pair of L-shaped blanking supporting plates which are symmetrically arranged in front and back; the pair of blanking supporting plates are synchronously and vertically arranged at the left ends of the pair of vertical parts of the supporting frame in a moving mode; a horizontal conveyor belt which conveys the materials from right to left is arranged between the horizontal parts of the pair of blanking supporting plates; a rotary blanking block is rotatably arranged between the upper ends of the vertical parts of the blanking supporting plates; a blanking supporting seat is arranged on the right end surface of the rotary blanking block in a left-right moving manner; a cylindrical blanking inserted bar is formed in the center of the upper end face of the blanking supporting seat; the feeding device comprises a feeding supporting plate; the feeding support plate is vertically movably arranged at the right lower corners of the pair of vertical parts of the support frame; a movable supporting plate is arranged on the left end surface of the feeding supporting plate in a left-right moving manner; a semi-cylindrical plate-shaped feeding auxiliary plate matched with the upper and lower through holes of the limiting seat is formed on the left end face of the movable supporting plate; cylindrical feeding inserted rods are formed on the feeding auxiliary plate and the movable supporting plate; the rotation central axes of the feeding inserted rod and the feeding auxiliary plate are collinear.

Preferably, left vertical moving grooves are formed in the left ends of the end surfaces, close to each other, of the pair of vertical parts of the support frame respectively; a left vertical driving threaded rod is pivoted between the upper side wall and the lower side wall of the left vertical moving groove; a left vertical driving motor is fixed on the lower side wall of the left vertical moving groove; the lower end of the left vertical driving threaded rod is fixedly connected with an output shaft of a left vertical driving motor; the end surfaces of the vertical parts of the pair of blanking supporting plates, which are far away from each other, are respectively provided with a left driving plate matched with the left vertical moving groove in a forming way; the left driving plate is screwed on the left vertical driving threaded rod on the corresponding side.

As the optimization of the technical scheme, a left-right direction blanking material receiving cylinder is fixed on the rotary blanking block; the unloading supporting seat is fixed on the piston rod of unloading material receiving cylinder.

Preferably, a turning motor is fixed at the upper end of the vertical part of the blanking supporting plate at the rear side; the rotating central shaft at the rear side of the rotating blanking block is fixedly connected with an output shaft of the turnover motor.

Preferably, right vertical moving grooves are formed in the right ends of the end faces, close to each other, of the pair of vertical parts of the supporting frame respectively; a right vertical driving threaded rod is pivoted between the upper side wall and the lower side wall of the right vertical moving groove; a right vertical driving motor is fixed on the lower side wall of the right vertical moving groove; the lower end of the right vertical driving threaded rod is fixedly connected with an output shaft of a right vertical driving motor; a right driving plate matched with the right vertical moving groove is formed on the left end face and the right end face of the feeding supporting plate respectively; the right driving plate is in threaded connection with the right vertical driving threaded rod on the corresponding side.

Preferably, the lower end face of the feeding support plate is fixed with a feeding cylinder arranged in the left-right direction; the movable supporting plate is L-shaped; the vertical part of the movable supporting plate is fixed at the left end of a piston rod of the feeding cylinder; a plurality of left and right guide rods which are uniformly distributed from front to back are formed on the right end surface of the movable supporting plate; a plurality of left and right guide grooves for left and right movement of the left and right guide rods are formed on the left end surface of the feeding support plate.

Preferably, the bottom of one of the upper and lower through holes of the limiting seat is provided with a photoelectric receiver; when the limiting seat is positioned at the right end, the photoelectric receiver is positioned at the bottom of the upper and lower through holes at the lower side; when the limiting seat is positioned at the left end, the photoelectric receiver is positioned at the top of the upper and lower through holes on the upper side; the left end of the feeding auxiliary plate is provided with a first photoelectric emitter matched with the photoelectric receiver; a second photoelectric emitter matched with the photoelectric receiver is formed at the upper end of the right end face of the blanking supporting seat; the first photoelectric emitter and the photoelectric receiver are matched to control the feeding supporting plate to lift; the second photoelectric emitter and the photoelectric receiver are matched to control the blanking supporting seat to move left and right.

The invention has the beneficial effects that: simple structure, go up the unloading convenience, the bearing promotes the convenience.

Drawings

Fig. 1 is a schematic structural view of a cross section of the present invention.

In the figure, 10, a support frame; 100. a left vertical moving trough; 101. a right vertical moving slot; 20. a vertical transport device; 21. a transfer wheel; 22. a conveyor belt; 23. a limiting seat; 230. limiting slots; 231. perforating the upper and lower parts; 24. a photoelectric receiver; 30. a blanking device; 31. a left vertical drive threaded rod; 32. blanking a supporting plate; 33. a horizontal conveyor belt; 34. rotating the blanking block; 35. a blanking material receiving cylinder; 36. a blanking supporting seat; 37. blanking inserted rods; 38. a second photoemitter; 50. a feeding device; 51. a right vertical drive threaded rod; 52. a feeding support plate; 53. a feeding cylinder; 54. moving the support plate; 541. a feeding auxiliary plate; 542. a left guide rod and a right guide rod; 55. a first photoemitter; 56. material loading inserted bar.

Detailed Description

As shown in fig. 1, a lifting transition device for bearing production comprises a support frame 10, a vertical conveying device 20, a blanking device 30 and a feeding device 50; the supporting frame 10 is a rectangular frame penetrating left and right; the vertical transfer device 20 comprises a pair of transfer wheels 21 distributed up and down; a pair of transfer wheels 21 are rotatably provided between the pair of vertical portions of the support frame 10; a conveyor belt 22 is arranged on the pair of conveyor wheels 21; a limiting seat 23 is fixed on the outer surface of the conveyor belt 22; a semi-cylindrical groove-shaped limiting slot 230 is formed in the middle of the end face of the limiting seat 23 far away from the conveyor belt 22; upper and lower through holes 231 of a semi-cylindrical groove shape penetrating up and down are respectively formed on the upper and lower side walls of the limiting slot 230; the rotation central axes of the limit slot 230 and the pair of upper and lower through holes 231 are collinear; the diameter of the upper and lower through holes 231 is smaller than that of the spacing slot 230; the blanking device 30 comprises a pair of L-shaped blanking supporting plates 32 which are symmetrically arranged in front and back; a pair of blanking support plates 32 are synchronously and vertically movably arranged at the left ends of the pair of vertical parts of the support frame 10; a horizontal conveyor belt 33 which conveys the materials from right to left is arranged between the horizontal parts of the pair of blanking support plates 32; a rotary blanking block 34 is rotatably arranged between the upper ends of the vertical parts of the pair of blanking support plates 32; a blanking supporting seat 36 is arranged on the right end surface of the rotary blanking block 34 and moves left and right; a cylindrical blanking insert rod 37 is formed in the center of the upper end face of the blanking support seat 36; the feeding device 50 comprises a feeding support plate 52; the feeding support plate 52 is vertically movably arranged at the right lower corners of the pair of vertical parts of the support frame 10; a movable supporting plate 54 is arranged on the left end surface of the feeding supporting plate 52 and moves left and right; a semi-cylindrical plate-shaped feeding auxiliary plate 541 matched with the upper and lower through holes 231 of the limiting seat 23 is formed on the left end surface of the movable supporting plate 54; a cylindrical feeding insertion rod 56 is formed on the feeding auxiliary plate 541 and the movable supporting plate 54; the rotation center axes of the feeding plunger 56 and the feeding auxiliary plate 541 are collinear.

As shown in fig. 1, left vertical moving grooves 100 are respectively formed at left ends of end surfaces of a pair of vertical portions of the support frame 10, which are close to each other; a left vertical driving threaded rod 31 is pivoted between the upper side wall and the lower side wall of the left vertical moving groove 100; a left vertical driving motor is fixed on the lower side wall of the left vertical moving groove 100; the lower end of the left vertical driving threaded rod 31 is fixedly connected with an output shaft of a left vertical driving motor; the end surfaces of the vertical parts of the pair of blanking supporting plates 32, which are far away from each other, are respectively formed with a left driving plate matched with the left vertical moving groove 100; the left drive plate is screwed on the left vertical drive threaded rod 31 of the corresponding side.

As shown in fig. 1, a left-right direction blanking material receiving cylinder 35 is fixed on the rotary blanking block 34; the blanking supporting seat 36 is fixed on the piston rod of the blanking receiving cylinder 35.

As shown in fig. 1, a turning motor is fixed at the upper end of the vertical part of the blanking support plate 32 at the rear side; the rotating central shaft at the rear side of the rotating blanking block 34 is fixedly connected with the output shaft of the turnover motor.

As shown in fig. 1, right vertical moving grooves 101 are respectively formed at the right ends of the end surfaces of the pair of vertical portions of the support frame 10, which are close to each other; a right vertical driving threaded rod 51 is pivoted between the upper side wall and the lower side wall of the right vertical moving groove 101; a right vertical driving motor is fixed on the lower side wall of the right vertical moving groove 101; the lower end of the right vertical driving threaded rod 51 is fixedly connected with an output shaft of a right vertical driving motor; a right driving plate matched with the right vertical moving groove 101 is formed on the left end face and the right end face of the feeding supporting plate 52 respectively; the right driving plate is screwed on the right vertical driving threaded rod 51 of the corresponding side.

As shown in fig. 1, a feeding cylinder 53 disposed in the left-right direction is fixed to the lower end surface of the feeding support plate 52; the movable support plate 54 is L-shaped; the vertical part of the movable support plate 54 is fixed at the left end of the piston rod of the feeding cylinder 53; a plurality of left and right guide rods 542 which are uniformly distributed from front to back are formed on the right end surface of the movable supporting plate 54; a plurality of left and right guide grooves 520 for left and right movement of the left and right guide rods 542 are formed on the left end surface of the loading support plate 52.

As shown in fig. 1, a photoelectric receiver 24 is disposed at the bottom of one of the upper and lower through holes 231 of the stopper seat 23; when the limiting seat 23 is at the right end, the photoelectric receiver 24 is located at the bottom of the upper and lower through holes 231 at the lower side; when the limiting seat 23 is at the left end, the photoelectric receiver 24 is located at the top of the upper and lower through holes 231 at the upper side; the left end of the loading auxiliary plate 541 is provided with a first photoelectric emitter 55 matched with the photoelectric receiver 24; a second photoelectric emitter 38 matched with the photoelectric receiver 24 is formed at the upper end of the right end face of the blanking support seat 36; the first photoelectric emitter 55 and the photoelectric receiver 24 are matched to control the feeding support plate 52 to lift; the second photoelectric emitter 38 and the photoelectric receiver 24 are matched to control the blanking support base 36 to move left and right.

The working principle of the lifting transition device for bearing production;

initial state: the feeding support plate 52 is at the lowest end, the moving support plate 54 is close to the feeding support plate 52, the blanking support seat 36 is close to the rotary blanking block 34 and the blanking support seat 36 is at the right side of the rotary blanking block 34; the conveyor belt 22 rotates counterclockwise;

when the automatic feeding device works, firstly, an operator sleeves a bearing on the feeding inserted rod 56, the nearest limiting seat 23 moves upwards along with the anticlockwise rotation of the conveyor belt 22, meanwhile, the feeding supporting plate 52 moves upwards synchronously with the limiting seat 23, in the process, the moving supporting plate 54 moves leftwards, so that the left end of the bearing is inserted into the limiting slot 230 of the limiting seat 23, then the feeding supporting plate 52 descends and returns, so that the bearing is separated from the feeding inserted rod 56, the bearing finishes feeding, then the limiting seat 23 rotates anticlockwise along with the conveyor belt 22, when the limiting seat 23 is positioned on the left side of the conveyor belt 22, the discharging supporting seat 36 moves rightwards, the discharging inserted rod 37 just faces a hole of the bearing on the limiting seat 23 and descends along with the limiting seat 23, the bearing is sleeved in the discharging inserted rod 37, then the discharging supporting seat 36 moves leftwards, so that the bearing is separated from the limiting seat 23, then the discharging block 34 rotates anticlockwise by 180 degrees, the blanking plug rod 37 is changed from vertical upward to vertical downward so that the bearing falls onto the horizontal conveyor belt 33 due to its own weight, thus completing the bearing lifting blanking, and finally the bearing is conveyed leftward along with the horizontal conveyor belt 33.

The above description is only a preferred embodiment of the present invention, and for those skilled in the art, there are variations on the embodiment and the application scope according to the idea of the present invention, and the content of the present description should not be construed as a limitation to the present invention.

Claims

1. A promote transition device for bearing production which characterized in that: comprises a supporting frame (10), a vertical conveying device (20), a blanking device (30) and a feeding device (50); the supporting frame (10) is a rectangular frame which penetrates through the left and the right; the vertical conveying device (20) comprises a pair of conveying wheels (21) which are distributed up and down; a pair of transfer wheels (21) rotatably disposed between the pair of vertical portions of the support frame (10); a conveyor belt (22) is arranged on the pair of conveying wheels (21); a plurality of limit seats (23) which are uniformly distributed are fixed on the outer surface of the conveyor belt (22); a semi-cylindrical groove-shaped limiting slot (230) is formed in the middle of the end face, far away from the conveyor belt (22), of the limiting seat (23); upper and lower through holes (231) which are in the shape of a semi-cylindrical groove and penetrate through up and down are respectively formed on the upper and lower side walls of the limiting slot (230); the limiting slot (230) is collinear with the rotation central axes of the pair of upper and lower through holes (231); the diameter of the upper and lower through holes (231) is smaller than that of the limiting slot (230); the blanking device (30) comprises a pair of L-shaped blanking supporting plates (32) which are symmetrically arranged in front and back; a pair of blanking support plates (32) are synchronously and vertically arranged at the left ends of a pair of vertical parts of the support frame (10); a horizontal conveyor belt (33) which is conveyed from right to left is arranged between the horizontal parts of the pair of blanking support plates (32); a rotary blanking block (34) is rotatably arranged between the upper ends of the vertical parts of the blanking support plates (32); a blanking supporting seat (36) is arranged on the right end surface of the rotary blanking block (34) in a left-right moving manner; a cylindrical blanking insert rod (37) is formed in the center of the upper end face of the blanking support seat (36); the feeding device (50) comprises a feeding support plate (52); the feeding support plate (52) is vertically arranged at the right lower corner of a pair of vertical parts of the support frame (10) in a moving way; a movable supporting plate (54) is arranged on the left end surface of the feeding supporting plate (52) in a left-right moving manner; a semi-cylindrical plate-shaped feeding auxiliary plate (541) matched with the upper and lower through holes (231) of the limiting seat (23) is formed on the left end surface of the movable supporting plate (54); a cylindrical feeding inserted bar (56) is formed on the feeding auxiliary plate (541) and the movable supporting plate (54); the rotation central axes of the feeding inserted rod (56) and the feeding auxiliary plate (541) are collinear.

2. A lifting transition device for bearing production in accordance with claim 1, wherein: left vertical moving grooves (100) are respectively formed at the left ends of the end surfaces, close to each other, of the pair of vertical parts of the supporting frame (10); a left vertical driving threaded rod (31) is pivoted between the upper side wall and the lower side wall of the left vertical moving groove (100); a left vertical driving motor is fixed on the lower side wall of the left vertical moving groove (100); the lower end of the left vertical driving threaded rod (31) is fixedly connected with an output shaft of a left vertical driving motor; the end surfaces of the vertical parts of the pair of blanking supporting plates (32) which are far away from each other are respectively provided with a left driving plate matched with the left vertical moving groove (100); the left driving plate is screwed on a left vertical driving threaded rod (31) on the corresponding side.

3. A lifting transition device for bearing production in accordance with claim 1, wherein: a left-right direction blanking material receiving cylinder (35) is fixed on the rotary blanking block (34); the blanking supporting seat (36) is fixed on a piston rod of the blanking receiving cylinder (35).

4. A lifting transition device for bearing production in accordance with claim 1, wherein: a turning motor is fixed at the upper end of the vertical part of the blanking support plate (32) at the rear side; the rotating central shaft at the rear side of the rotating blanking block (34) is fixedly connected with the output shaft of the turnover motor.

5. A lifting transition device for bearing production in accordance with claim 1, wherein: right vertical moving grooves (101) are respectively formed at the right ends of the end surfaces, close to each other, of the pair of vertical parts of the supporting frame (10); a right vertical driving threaded rod (51) is pivoted between the upper side wall and the lower side wall of the right vertical moving groove (101); a right vertical driving motor is fixed on the lower side wall of the right vertical moving groove (101); the lower end of the right vertical driving threaded rod (51) is fixedly connected with an output shaft of a right vertical driving motor; a right driving plate matched with the right vertical moving groove (101) is respectively formed on the left end surface and the right end surface of the feeding supporting plate (52); the right driving plate is screwed on the right vertical driving threaded rod (51) on the corresponding side.

6. A lifting transition device for bearing production in accordance with claim 1, wherein: a feeding cylinder (53) arranged in the left-right direction is fixed on the lower end surface of the feeding support plate (52); the movable support plate (54) is L-shaped; the vertical part of the movable supporting plate (54) is fixed at the left end of a piston rod of the feeding cylinder (53); a plurality of left and right guide rods (542) which are uniformly distributed from front to back are formed on the right end surface of the movable supporting plate (54); a plurality of left and right guide grooves (520) for left and right movement of the left and right guide rods (542) are formed on the left end surface of the feeding support plate (52).

7. A lifting transition device for bearing production in accordance with claim 1, wherein: the bottom of one of the upper and lower through holes (231) of the limiting seat (23) is provided with a photoelectric receiver (24); when the limiting seat (23) is positioned at the right end, the photoelectric receiver (24) is positioned at the bottom of the upper and lower through holes (231) on the lower side; when the limiting seat (23) is positioned at the left end, the photoelectric receiver (24) is positioned at the top of the upper and lower through holes (231) on the upper side; the left end of the feeding auxiliary plate (541) is provided with a first photoelectric emitter (55) matched with the photoelectric receiver (24); a second photoelectric emitter (38) matched with the photoelectric receiver (24) is formed at the upper end of the right end face of the blanking supporting seat (36); the first photoelectric emitter (55) and the photoelectric receiver (24) are matched to control the feeding support plate (52) to lift; the second photoelectric emitter (38) and the photoelectric receiver (24) are matched to control the blanking supporting seat (36) to move left and right.