CN110668077B

CN110668077B - Lifting device is carried in bearing production

Info

Publication number: CN110668077B
Application number: CN201910969376.6A
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: 2019-10-12
Filing date: 2019-10-12
Publication date: 2020-10-20
Anticipated expiration: 2039-10-12
Also published as: CN110668077A

Abstract

The invention discloses a bearing production conveying and lifting device, wherein a mounting unit comprises a connecting seat; the connecting seat is fixed on the outer surface of the synchronous belt, and a cuboid-shaped placing plate is formed on the end surface, far away from the synchronous belt, of the connecting seat; a semi-cylindrical groove-shaped limiting slot is formed in the end face, far away from the synchronous belt, of the placing plate; the limiting slot is arranged along the side wall in the conveying direction of the synchronous belt in a penetrating manner; the end surface of one side of the placing plate along the conveying direction of the synchronous belt is vertically and elastically provided with a limiting pressing plate; an avoidance groove in the shape of a semi-cylindrical groove is formed in the end face, far away from the synchronous belt, of the limiting pressing plate, and the avoidance groove is axially arranged in a penetrating mode; the limiting slot and the avoiding slot are coaxially arranged; the transfer device is arranged at the upper left corner of the conveying cavity and close to the discharge hole; the transfer device comprises a transfer supporting seat which is horizontally and rotatably arranged; the lower part of the transmission supporting seat is vertically provided with a cylindrical transmission inserted bar in a swinging mode. The invention can improve the conveying and lifting efficiency of the bearing and can not fall off accidentally during the conveying process.

Description

Lifting device is carried in bearing production

Technical Field

The invention relates to the technical field of bearing production, in particular to a conveying and lifting 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 conveying and lifting device for bearing production, aiming at the technical problem of low lifting efficiency of the existing bearing.

The technical scheme for solving the technical problems is as follows: a bearing production conveying and lifting device comprises a cuboid lifting box, a lifting mechanism and a lifting mechanism, wherein a rectangular groove-shaped conveying cavity is formed inside the cuboid lifting box; a discharge hole is formed at the upper end of the left side wall of the conveying cavity, and a feed hole is formed at the lower part of the right side wall; a conveying device is arranged in the conveying cavity; the conveying device comprises a lifting device and a transfer device; the lifting device comprises four conveying belt wheels positioned at four corners of the same rectangle; the four conveying belt wheels are connected through a synchronous belt, and the upper part of the synchronous belt is horizontally arranged; the synchronous belt is conveyed anticlockwise; a plurality of uniformly distributed placing units are vertically arranged on the outer surface of the synchronous belt; the mounting unit comprises a connecting seat; the connecting seat is fixed on the outer surface of the synchronous belt, and a cuboid-shaped placing plate is formed on the end surface, far away from the synchronous belt, of the connecting seat; a semi-cylindrical groove-shaped limiting slot is formed in the end face, far away from the synchronous belt, of the placing plate; the diameter of the limiting slot is the same as the outer diameter of the bearing; the limiting slot is arranged along the side wall in the conveying direction of the synchronous belt in a penetrating manner; the end surface of one side of the placing plate along the conveying direction of the synchronous belt is vertically and elastically provided with a limiting pressing plate; an avoidance groove in the shape of a semi-cylindrical groove is formed in the end face, far away from the synchronous belt, of the limiting pressing plate, and the avoidance groove is axially arranged in a penetrating mode; the limiting slot and the avoiding slot are coaxially arranged; the transfer device is arranged at the upper left corner of the conveying cavity and close to the discharge hole; the transfer device comprises a transfer supporting seat which is horizontally and rotatably arranged; the lower part of the transmission supporting seat is vertically provided with a cylindrical transmission inserted bar in a swinging way; when the transmission inserted bar is horizontally arranged, the transmission inserted bar is positioned in the upper part of the cylinder where the avoidance groove of the limiting pressure plate of the mounting unit with the upper side moving horizontally is positioned.

Preferably, an upper supporting plate is formed at the upper part of the left end face of the lifting box; the upper supporting plate is provided with a placing box.

Preferably, a plurality of evenly distributed guide insertion rods are vertically formed on the end face, close to the placing plate, of the limiting pressure plate; the guide inserted bar vertically penetrates through the placing plate and a spring placing plate is fixed at one end far away from the limiting pressure plate; one end of the guide inserted bar, which is far away from the limiting pressure plate, is sleeved with a pressure spring; one end of the pressure spring is fixed on the corresponding side end face of the setting plate, and the other end is fixed on the spring setting plate.

Preferably, a rotary motor is fixed at the left end of the upper side wall of the conveying cavity; the transmission supporting seat is fixed at the lower end of an output shaft of the rotating motor.

Preferably, the lower part of the transmission supporting seat is formed with a swing avoiding groove; a swing support plate is formed in the middle of the side wall of the swing avoidance groove; the left part of the transfer inserted bar is formed with a spherical connecting part; the connecting part is connected with the swing supporting plate in a spherical manner; a swing driving cylinder is hinged on the upper end surface of the transmission supporting seat; the end part of a piston rod of the swing driving cylinder is hinged on the upper side of the left end cylindrical surface of the transmission inserted bar.

Preferably, the cylindrical surface of the transfer plunger is smooth.

The invention has the beneficial effects that: the conveying and lifting efficiency of the bearing is improved, and the bearing cannot fall down accidentally in the conveying process.

Drawings

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

FIG. 2 is a cross-sectional view of the transfer support 25 of FIG. 1;

fig. 3 is a schematic top view of the mounting unit 23 according to the present invention;

fig. 4 is a schematic structural view of a cross section of the mounting unit 23 of fig. 1 according to the present invention.

In the figure, 10, the lift box; 100. a delivery lumen; 101. a discharge port; 102. a feed inlet; 11. an upper support plate; 12. placing a box; 20. a conveying device; 21. a conveyor belt pulley; 22. a synchronous belt; 23. a mounting unit; 231. a connecting seat; 232. placing a plate; 2320. limiting slots; 233. a limiting pressure plate; 2330. an avoidance groove; 2331. a guide insertion rod; 2332. a spring mounting plate; 234. a pressure spring; 24. a rotating electric machine; 25. a transfer support seat; 250. swinging the avoidance groove; 251. swinging the support plate; 252. a transfer plunger; 2521. a connecting portion; 253. the swing drives the cylinder.

Detailed Description

As shown in fig. 1 to 4, a bearing production conveying and lifting device comprises a rectangular parallelepiped lifting box 10 in which a conveying cavity 100 in the shape of a rectangular groove is formed; a discharge hole 101 is formed at the upper end of the left side wall of the conveying cavity 100, and a feed hole 102 is formed at the lower part of the right side wall; the conveying device 20 is arranged in the conveying cavity 100; the conveying device 20 comprises a lifting device and a transfer device; the lifting device comprises four conveying belt wheels 21 positioned at four corners of the same rectangle; the four conveying pulleys 21 are connected through a synchronous belt 22, and the upper part of the synchronous belt 22 is horizontally arranged; the synchronous belt 22 is conveyed anticlockwise; a plurality of uniformly distributed mounting units 23 are vertically arranged on the outer surface of the synchronous belt 22; the seating unit 23 includes a connection seat 231; the connecting seat 231 is fixed on the outer surface of the synchronous belt 22 and a rectangular block-shaped placing plate 232 is formed on the end surface far away from the synchronous belt 22; a semi-cylindrical groove-shaped limiting slot 2320 is formed in the end face, away from the synchronous belt 22, of the mounting plate 232; the diameter of the limiting slot 2320 is the same as the outer diameter of the bearing; the limiting slot 2320 is arranged along the side wall in the conveying direction of the synchronous belt 22 in a penetrating manner; the placing plate 232 is vertically and elastically provided with a limiting pressing plate 233 along the end surface of one side of the conveying direction of the synchronous belt 22; an avoiding groove 2330 in the shape of a semi-cylindrical groove is formed in the end face, away from the synchronous belt 22, of the limiting pressing plate 233 and penetrates axially; the limiting slot 2320 and the avoiding slot 2330 are coaxially arranged; the transfer device is arranged at the upper left corner of the conveying cavity 100 and close to the discharge hole 101; the transmission device comprises a transmission supporting seat 25 which is horizontally and rotatably arranged; a cylindrical transfer inserted rod 252 is vertically arranged at the lower part of the transfer support seat 25 in a swinging manner; when the transfer plunger 252 is horizontally disposed, the transfer plunger 252 is positioned in the upper portion of the column in which the escape groove 2330 of the limit pressing plate 233 of the seating unit 23, the upper side of which horizontally moves, is positioned.

As shown in fig. 1, an upper support plate 11 is formed on the upper portion of the left end surface of the lifting box 10; the upper supporting plate 11 is provided with a placing box 12.

As shown in fig. 1, 3 and 4, a plurality of evenly distributed guide insert rods 2331 are vertically formed on the end surface of the limit pressure plate 233 close to the placing plate 232; the guide insert rod 2331 vertically passes through the setting plate 232 and is fixed with a spring setting plate 2332 at one end far away from the limit pressing plate 233; one end of the guide insert rod 2331, which is far away from the limiting pressure plate 233, is sleeved with a pressure spring 234; one end of the compression spring 234 is fixed to the corresponding side end face of the setting plate 232, and the other end is fixed to the spring setting plate 2332.

As shown in fig. 1, a rotary motor 24 is fixed to the left end of the upper side wall of the conveying chamber 100; the transmission support base 25 is fixed to the lower end of the output shaft of the rotating electric machine 24.

As shown in fig. 1 and 2, the swing avoiding groove 250 is formed at the lower portion of the transfer support 25; a swing support plate 251 is formed at the middle of the sidewall of the swing escape groove 250; a spherical connecting part 2521 is formed at the left part of the transmission plunger 252; the connecting portion 2521 is spherically connected to the swing support plate 251; a swing driving cylinder 253 is hinged on the upper end surface of the transmission supporting seat 25; the end of the piston rod of the swing driving cylinder 253 is hinged on the upper side of the left end cylindrical surface of the transfer inserted rod 252.

The cylindrical surface of the transfer plunger 252 is smoothly arranged.

The working principle of the bearing production conveying and lifting device is as follows;

the bearing is firstly put in from the feeding hole 102, is inserted into the limit slot 2320 and is clamped by the limit pressure plate 233 and the bottom surface of the limit slot 2320, so that the bearing is conveyed counterclockwise along with the timing belt 22, moves horizontally leftwards when the setting unit 23 is at the upper end, so that the transmission inserted rod 252 is horizontally inserted into the upper part of the inner hole of the bearing, then the transmission inserted rod 252 swings counterclockwise to change from the horizontal state to the state that the outer end is tilted upwards, so that the bearing is driven from the setting unit 23 by the transmission inserted rod 252, then enters the transmission supporting seat 25 to rotate horizontally 180 degrees, and finally the transmission inserted rod 252 swings to change from the state that the outer end is tilted upwards to the state that the outer end is tilted downwards, so that the bearing slides down into the placing box.

The above description is only a preferred embodiment of the present invention, and for those skilled in the art, the present invention should not be limited by the description herein, since various changes and modifications can be made in the details of the embodiment and the application range according to the spirit of the present invention.

Claims

1. A bearing production conveying lifting device comprises a cuboid lifting box (10) with a rectangular groove-shaped conveying cavity (100) formed inside; a discharge hole (101) is formed at the upper end of the left side wall of the conveying cavity (100), and a feed hole (102) is formed at the lower part of the right side wall; the method is characterized in that: a conveying device (20) is arranged in the conveying cavity (100); the conveying device (20) comprises a lifting device and a transfer device; the lifting device comprises four conveying belt wheels (21) positioned at four corners of the same rectangle; the four conveying belt wheels (21) are connected through a synchronous belt (22), and the upper part of the synchronous belt (22) is horizontally arranged; the synchronous belt (22) is conveyed anticlockwise; a plurality of uniformly distributed placing units (23) are vertically arranged on the outer surface of the synchronous belt (22); the mounting unit (23) includes a connection seat (231); the connecting seat (231) is fixed on the outer surface of the synchronous belt (22) and a rectangular block-shaped placing plate (232) is formed on the end surface far away from the synchronous belt (22); a semi-cylindrical groove-shaped limiting slot (2320) is formed in the end face, away from the synchronous belt (22), of the mounting plate (232); the diameter of the limiting slot (2320) is the same as the outer diameter of the bearing; the limiting slot (2320) is arranged along the side wall of the synchronous belt (22) in the conveying direction in a penetrating manner; the placing plate (232) is vertically and elastically provided with a limit pressing plate (233) along the end surface of one side of the conveying direction of the synchronous belt (22); a semi-cylindrical groove-shaped avoiding groove (2330) is formed in the end face, away from the synchronous belt (22), of the limiting pressing plate (233) and penetrates axially; the limiting slot (2320) and the avoiding slot (2330) are coaxially arranged; the transfer device is arranged at the upper left corner of the conveying cavity (100) and close to the discharge hole (101); the transmission device comprises a transmission supporting seat (25) which is horizontally and rotatably arranged; the lower part of the transmission supporting seat (25) is vertically provided with a cylindrical transmission inserted bar (252) in a swinging way; when the transmission insertion rod (252) is horizontally arranged, the transmission insertion rod (252) is positioned in the upper part of the cylinder where the avoidance groove (2330) of the limit pressure plate (233) of the installation unit (23) which horizontally moves at the upper side is positioned.

2. The bearing production conveying and lifting device according to claim 1, wherein: an upper supporting plate (11) is formed at the upper part of the left end surface of the lifting box (10); a placing box (12) is arranged on the upper supporting plate (11).

3. The bearing production conveying and lifting device according to claim 1, wherein: a plurality of evenly distributed guide insert rods (2331) are vertically formed on the end surface of the limiting pressure plate (233) close to the placing plate (232); the guide insert rod (2331) vertically penetrates through the arrangement plate (232) and a spring arrangement plate (2332) is fixed at one end far away from the limit pressure plate (233); one end of the guide insert rod (2331) far away from the limiting pressure plate (233) is sleeved with a pressure spring (234); one end of the pressure spring (234) is fixed on the corresponding side end face of the setting plate (232), and the other end is fixed on the spring setting plate (2332).

4. The bearing production conveying and lifting device according to claim 1, wherein: a rotary motor (24) is fixed at the left end of the upper side wall of the conveying cavity (100); the transmission support seat (25) is fixed at the lower end of the output shaft of the rotating motor (24).

5. The bearing production conveying and lifting device according to claim 1, wherein: a swing avoidance groove (250) is formed at the lower part of the transmission supporting seat (25); a swing support plate (251) is formed in the middle of the side wall of the swing avoidance groove (250); a spherical connecting part (2521) is formed at the left part of the transmission inserted bar (252); the connecting part (2521) is connected with the swing support plate (251) in a spherical manner; a swing driving cylinder (253) is hinged on the upper end surface of the transmission supporting seat (25); the end part of a piston rod of the swing driving cylinder (253) is hinged on the upper side of the cylindrical surface at the left end of the transfer inserted rod (252).

6. A bearing production conveying and lifting device according to any one of claims 1 to 5, characterized in that: the cylindrical surface of the transfer plunger (252) is smoothly arranged.