CN111252280A

CN111252280A - Tire tectorial membrane device on production line

Info

Publication number: CN111252280A
Application number: CN202010140069.XA
Authority: CN
Inventors: 李俊萍; 王静平
Original assignee: Anhui Polytechnic University
Current assignee: Anhui Polytechnic University
Priority date: 2020-03-03
Filing date: 2020-03-03
Publication date: 2020-06-09

Abstract

The invention discloses a tire film coating device on a production line, which comprises a rack, a first rotating shaft, a driving roller, a driven roller, a second rotating shaft, a third rotating shaft, a fourth rotating shaft, a fifth rotating shaft and a rotating frame, wherein the middle of the rack is provided with a first vertical frame and a second vertical frame, two ends of the rack are respectively provided with a first side frame and a second side frame, one side surface of each side frame is provided with a first motor, the lower end of the first vertical frame is provided with a second motor, one end of the rotating shaft is rotatably connected with the first side frame, the other end of the rotating shaft is rotatably connected with the second side frame, one end of the driving roller is rotatably connected with the first side frame, the other end of the driving roller is rotatably connected with the second side frame, one end of the driven roller is rotatably connected with the first side frame, the other end of the rotating shaft is rotatably connected with the lower end of the first vertical frame, the third rotating shaft is rotatably connected with the lower end of, degree of automation is high, compares traditional mode, and the liberation labour, and the tectorial membrane is even, and the parcel is more pleasing to the eye, conveniently stacks the transportation.

Description

Tire tectorial membrane device on production line

Technical Field

The invention belongs to the technical field of packaging equipment, and particularly relates to a tire film coating device on a production line.

Background

With the development of the automobile industry, automobiles gradually enter thousands of households, and great convenience is brought to production and life of people. The automation degree of the automobile assembly line is high, but the automation degree of the part production is uneven.

The tire is an essential part of an automobile, after burrs are removed in the production process of the automobile tire, the automobile tire needs to be packaged and coated by a film, the film is directly coated manually in the traditional mode, hands are required to continuously and alternately surround the tire, the labor intensity is high, and the appearance is influenced due to the uneven coated film.

The traditional mode also has the film of direct adoption and wraps whole tire, leads to the centre bore to be wrapped up, can not realize that a plurality of tires alternate and stack, scatters easily, influences the transportation.

Disclosure of Invention

The invention provides a tire laminating device on a production line, which realizes automatic laminating operation of tires, has high automation degree, liberates labor force compared with the traditional mode, has uniform laminating, is more attractive in wrapping and is convenient to stack and transport.

In order to achieve the purpose, the invention adopts the technical scheme that: a tire film coating device on a production line comprises a rack, a first rotating shaft, a first driving roller, a driven roller, a second rotating shaft, a third rotating shaft, a fourth rotating shaft, a fifth rotating shaft and a rotating frame, wherein the first vertical frame and the second vertical frame are arranged in the middle of the rack, the first side frame and the second side frame are arranged at two ends of the rack respectively, a first motor is arranged on one side surface of the first side frame, a first chain wheel is arranged on an output shaft of the first motor, a second motor is arranged at the lower end of the first vertical frame, a first belt wheel is arranged on an output shaft of the second motor, the first rotating shaft is provided with two rotating shafts, one end of each rotating shaft is rotatably connected with one side frame, the other end of each rotating shaft is rotatably connected with the second side frame, one end of each driving roller is rotatably connected with one side frame, the other end of each driven roller is rotatably connected with one side frame, the other end of each rotating, the rotating shaft IV is rotatably connected with the upper end of the vertical frame I, and the rotating shaft V is rotatably connected with the upper end of the vertical frame II;

the end part of the driving roller is provided with a second chain wheel, and the first chain wheel is connected with the second chain wheel through a chain;

the second rotating shaft is provided with a second belt wheel and a first double-groove belt wheel, and two end parts of the rotating shaft are provided with a first roller;

a double-groove belt wheel II is arranged on the rotating shaft III, and a roller II is arranged at the end part of the rotating shaft III;

a third belt wheel is arranged on the fourth rotating shaft, and a third roller is arranged at the four end parts of the rotating shaft;

a belt wheel IV is arranged on the rotating shaft V, and a roller IV is arranged at the end part of the rotating shaft V;

the first belt wheel is connected with the second belt wheel through a belt, the first double-groove belt wheel is connected with the second double-groove belt wheel through a belt, the first double-groove belt wheel is connected with the third belt wheel through a belt, the second double-groove belt wheel is connected with the fourth belt wheel through a belt, and the rotating frame is supported by the first roller, the second roller, the third roller and the fourth roller and is driven by the first roller, the second roller, the third roller and the fourth roller.

Preferably, the first rotating shaft is provided with two limiting rods, the limiting rods rotate coaxially with the first rotating shaft, and a wrench is fastened at one end of the first rotating shaft.

Preferably, the limiting rod is provided with a rotating sleeve.

Preferably, the outer walls of the driving roller and the driven roller are provided with rubber films.

Preferably, the rotating frame is provided with a notch, the side wall of the rotating frame is rotatably provided with a pin shaft, and the pin shaft is sleeved with a film coating roller.

The beneficial effect of adopting above technical scheme is:

1. this tire tectorial membrane device on production line, the tire after will picking the burr at first sheathes from the breach on the revolving rack for the tire is held by driving roll and driven roller, then manual inwards pushes away the spanner, and the gag lever post is rotatory to the top is being taken in to spanner drive pivot, makes the tire spacing by the gag lever post, then pastes the film tip on the tectorial membrane roller on the tire outer wall, then starter motor one and motor two simultaneously.

The first motor drives the first chain wheel to rotate clockwise, the first chain wheel drives the second chain wheel to rotate clockwise through the chain, the second chain wheel drives the driving roller to rotate clockwise, and as the outer walls of the driving roller and the driven roller are provided with rubber films, the rolling friction force generated by the driving roller on tire rubber drives the tire to rotate anticlockwise; meanwhile, the motor II drives the belt wheel I to rotate anticlockwise, the belt wheel I drives the belt wheel II to rotate anticlockwise through the belt, the belt wheel II drives the double-groove belt wheel I and the rollers to rotate anticlockwise simultaneously through the rotating shaft II, the double-groove belt wheel I drives the double-groove belt wheel II to rotate anticlockwise through the belt, the belt wheel II drives the belt wheel III to rotate anticlockwise through the rotating shaft III, the belt wheel III drives the rollers III to rotate anticlockwise through the rotating shaft IV, the double-groove belt wheel II drives the belt wheel IV to rotate anticlockwise through the belt, the belt wheel IV drives the rollers IV to rotate anticlockwise through the rotating shaft V, the belt wheel IV drives the rollers IV simultaneously, the rotating frame drives the film coating rollers to rotate around the tire, and the film is uniformly wound on the outer wall of the tire, so that the automatic film coating operation of the tire is realized, degree of automation is high, compares traditional mode, has liberated the labour, and the tectorial membrane is even, and the parcel is more pleasing to the eye.

2. After the technical scheme of the invention finishes the automatic film coating operation of the tire, the middle hole of the tire is not coated, so that the through columns of a plurality of tires can be conveniently stacked, and the transportation is convenient; two limiting rods are arranged on the first rotating shaft and coaxially rotate along with the first rotating shaft, a wrench is tightly arranged at one end of the first rotating shaft, the tire is guaranteed to be driven to rotate by a driving roller under a vertical state, and the uniformity of film covering is guaranteed; the limiting rod is provided with the rotating sleeve, so that the rotating resistance of the tire is reduced, and the reliability of driving the tire to rotate by the driving roller is ensured; rubber films are arranged on the outer walls of the driving roller and the driven roller, so that the condition that the film covering is uneven due to the slipping phenomenon between the tire and the driving roller is avoided; the rotary frame is provided with the notch, so that the tire feeding operation is facilitated; the rotating frame is provided with a pin shaft in a rotating mode on the side wall, and the film laminating roller is sleeved on the pin shaft, so that the film laminating operation is realized.

Drawings

FIG. 1 is a front view of a tire overlay apparatus on the production line;

FIG. 2 is a left side view of the tire overlay apparatus on the production line;

wherein:

1. a frame; 2. a first rotating shaft; 3. a drive roll; 4. a driven roller; 5. a second rotating shaft; 6. a rotating shaft III; 7. a rotating shaft IV; 8. a fifth rotating shaft; 9. rotating the frame;

10. a first vertical frame; 11. a second vertical frame; 12. a first side frame; 13. a second side frame; 14. a first motor; 14-1, a first chain wheel; 15. a second motor; 15-1, a first belt wheel;

20. a limiting rod; 20-1, rotating the sleeve; 21. a wrench;

30. a second chain wheel;

50. a second belt wheel; 51. a double-groove belt wheel I; 52. a first roller;

60. a double-groove belt wheel II; 61. a second roller;

70. a third belt wheel; 71. a third roller;

80. a belt wheel IV; 81. a fourth roller;

90. a notch; 91. a pin shaft; 91-1, film coating roller.

Detailed Description

The following detailed description of the embodiments of the present invention will be given with reference to the accompanying drawings for a purpose of helping those skilled in the art to more fully, accurately and deeply understand the concept and technical solution of the present invention and to facilitate its implementation.

As shown in fig. 1 to 2, the invention is a tire laminating device on a production line, which realizes the automatic laminating operation of tires, has high automation degree, liberates labor force compared with the traditional mode, has uniform laminating, more beautiful package and convenient stacking and transportation.

Specifically, as shown in fig. 1 to 2, the device comprises a frame 1, a first rotating shaft 2, a driving roller 3, a driven roller 4, a second rotating shaft 5, a third rotating shaft 6, a fourth rotating shaft 7, a fifth rotating shaft 8 and a rotating frame 9, wherein a first vertical frame 10 and a second vertical frame 11 are arranged in the middle of the frame 1, a first side frame 12 and a second side frame 13 are respectively arranged at two ends of the frame 1, a first motor 14 is arranged on the side surface of the first side frame 12, a first sprocket 14-1 is arranged on an output shaft of the first motor 14, a second motor 15 is arranged at the lower end of the first vertical frame 10, a first pulley 15-1 is arranged on an output shaft of the second motor 15, the first rotating shaft 2 is provided with two ends, one end of the first rotating shaft 2 is rotatably connected with the first side frame 12, the other end of the first rotating shaft is rotatably connected with the second side frame 13, one end of the driving roller 3 is, the other end of the rotating shaft II is rotatably connected with a second side frame 13, the rotating shaft II 5 is rotatably connected with the lower end of a first vertical frame 10, the rotating shaft III 6 is rotatably connected with the lower end of a second vertical frame 11, the rotating shaft IV 7 is rotatably connected with the upper end of the first vertical frame 10, and the rotating shaft V8 is rotatably connected with the upper end of the second vertical frame 11;

the end part of the driving roller 3 is provided with a second chain wheel 30, and the first chain wheel 14-1 is connected with the second chain wheel 30 through a chain;

a second belt wheel 50 and a first double-groove belt wheel 51 are arranged on the second rotating shaft 5, and a first roller 52 is arranged at the end part of the second rotating shaft 5;

a double-groove belt wheel II 60 is arranged on the rotating shaft III 6, and a roller II 61 is arranged at the end part of the rotating shaft III 6;

a belt wheel III 70 is arranged on the rotating shaft IV 7, and a roller III 71 is arranged at the end part of the rotating shaft IV 7;

a belt wheel IV 80 is arranged on the rotating shaft V8, and a roller IV 81 is arranged at the end part of the rotating shaft V8;

the first belt wheel 15-1 is connected with the second belt wheel 50 through a belt, the first double-groove belt wheel 51 is connected with the second double-groove belt wheel 60 through a belt, the first double-groove belt wheel 51 is connected with the third belt wheel 70 through a belt, the second double-groove belt wheel 60 is connected with the fourth belt wheel 80 through a belt, and the rotating frame 9 is supported by the first roller 52, the second roller 61, the third roller 71 and the fourth roller 81 and is driven by the first roller 52, the second roller 61, the third roller 71 and the fourth roller 81.

As shown in fig. 1 and 2, two limiting rods 20 are disposed on the first rotating shaft 2, the limiting rods 20 coaxially rotate with the first rotating shaft 2, and a wrench 21 is fastened to an end of the first rotating shaft 2.

As shown in fig. 1 and 2, a rotating sleeve 20-1 is provided on the limiting rod 20.

As shown in fig. 1 and 2, the outer walls of the driving roller 3 and the driven roller 4 are provided with rubber films.

As shown in fig. 1 and 2, a notch 90 is formed in the rotating frame 9, a pin 91 is rotatably disposed on the side wall of the rotating frame 9, and a laminating roller 91-1 is sleeved on the pin 91.

The following specific working modes are illustrated by specific examples:

example 1:

according to the tire laminating device on the production line, firstly, a tire subjected to burr removal is sleeved on a notch 90 on a rotating frame 9, so that the tire is supported by a driving roller 3 and a driven roller 4, then a wrench 21 is manually pushed inwards, the wrench 21 drives a first rotating shaft 2 to drive a limiting rod 20 to rotate to the uppermost end, so that the tire is limited by the limiting rod 20, then the end part of a film on a laminating roller 91-1 is pasted on the outer wall of the tire, and then a first motor 14 and a second motor 15 are started simultaneously.

The first motor 14 drives the first chain wheel 14-1 to rotate clockwise, the first chain wheel 14-1 drives the second chain wheel 30 to rotate clockwise through a chain, the second chain wheel 30 drives the driving roller 3 to rotate clockwise, and as the outer walls of the driving roller 3 and the driven roller 4 are provided with rubber films, the rolling friction force generated by the driving roller 3 on tire rubber drives the tire to rotate anticlockwise; meanwhile, the motor II 15 drives the belt wheel I15-1 to rotate anticlockwise, the belt wheel I15-1 drives the belt wheel II 50 to rotate anticlockwise through the belt, the belt wheel II 50 drives the double-groove belt wheel I51 and the roller I52 to rotate anticlockwise simultaneously through the rotating shaft II 5, the double-groove belt wheel I51 drives the double-groove belt wheel II 60 to rotate anticlockwise through the belt on one hand, the belt wheel III 70 drives the roller II 61 to rotate anticlockwise through the rotating shaft III 6 on the other hand, the belt wheel III 70 drives the roller III 71 to rotate anticlockwise through the rotating shaft IV 7 on the other hand, the double-groove belt wheel II 60 drives the belt wheel IV 80 to rotate anticlockwise through the belt V8, the belt wheel IV 80 drives the roller IV 81 to rotate anticlockwise through the rotating shaft V8, and the rotating frame 9 is driven to rotate clockwise under the rolling friction force of the roller I52, the roller II 61, the roller III 71 and the roller IV 81, revolving rack 9 takes tectorial membrane roller 91-1 to rotate round the tire, and even twines the film on the tire outer wall, has realized the automatic tectorial membrane operation of tire, and degree of automation is high, compares traditional mode, has liberated the labour, and the tectorial membrane is even, and the parcel is more pleasing to the eye.

Example 2:

on the basis of the embodiment 1, after the automatic film coating operation of the tire is completed, the middle hole of the tire is not coated, so that the through columns of a plurality of tires can be conveniently stacked, and the transportation is convenient; two limiting rods 20 are arranged on the first rotating shaft 2, the limiting rods 20 coaxially rotate along with the first rotating shaft 2, a wrench 21 is tightly arranged at the end part of the first rotating shaft 2, the tire is guaranteed to be driven to rotate by the driving roller 3 in a vertical state, and the uniformity of film covering is guaranteed; the limiting rod 20 is provided with a rotating sleeve, so that the rotation resistance of the tire is reduced, and the reliability of driving the tire to rotate by the driving roller 3 is ensured; rubber films are arranged on the outer walls of the driving roller 3 and the driven roller 4, so that the phenomenon that the film covering is uneven due to the slipping phenomenon between the tire and the driving roller 3 is avoided; the gap 90 is formed in the rotating frame 9, so that the tire feeding operation is facilitated; the side wall of the rotating frame 9 is rotatably provided with a pin shaft 91, and the pin shaft 91 is sleeved with a film laminating roller 91-1, so that the realization of film laminating operation is ensured.

The present invention has been described in connection with the accompanying drawings, and it is to be understood that the invention is not limited to the specific embodiments described above, but is intended to cover various insubstantial modifications of the invention based on the principles and technical solutions of the invention; the present invention is not limited to the above embodiments, and can be modified in various ways.

Claims

1. The utility model provides a tire tectorial membrane device on production line which characterized in that: the automatic feeding device comprises a rack (1), a first rotating shaft (2), a driving roller (3), a driven roller (4), a second rotating shaft (5), a third rotating shaft (6), a fourth rotating shaft (7), a fifth rotating shaft (8) and a rotating frame (9), wherein a first vertical frame (10) and a second vertical frame (11) are arranged in the middle of the rack (1), a first side frame (12) and a second side frame (13) are respectively arranged at two ends of the rack (1), a first motor (14) is arranged on the side surface of the first side frame (12), a first chain wheel (14-1) is arranged on an output shaft of the first motor (14), a second motor (15) is arranged at the lower end of the first vertical frame (10), a first belt wheel (15-1) is arranged on an output shaft of the second motor (15), the first rotating shaft (2) is provided with two rotating shafts, one end of the first rotating shaft (2) is rotatably connected with the first side frame (12), the other end of the first side, the other end of the driven roller is rotatably connected with the second side frame (13), one end of the driven roller (4) is rotatably connected with the first side frame (12), the other end of the driven roller is rotatably connected with the second side frame (13), the second rotating shaft (5) is rotatably connected with the lower end of the first vertical frame (10), the third rotating shaft (6) is rotatably connected with the lower end of the second vertical frame (11), the fourth rotating shaft (7) is rotatably connected with the upper end of the first vertical frame (10), and the fifth rotating shaft (8) is rotatably connected with the upper end of the second vertical frame (11);

a second chain wheel (30) is arranged at the end part of the driving roller (3), and the first chain wheel (14-1) is connected with the second chain wheel (30) through a chain;

a second belt wheel (50) and a first double-groove belt wheel (51) are arranged on the second rotating shaft (5), and a first roller (52) is arranged at the end part of the second rotating shaft (5);

a double-groove belt wheel II (60) is arranged on the rotating shaft III (6), and a roller II (61) is arranged at the end part of the rotating shaft III (6);

a belt wheel III (70) is arranged on the rotating shaft IV (7), and a roller III (71) is arranged at the end part of the rotating shaft IV (7);

a belt wheel IV (80) is arranged on the rotating shaft V (8), and a roller IV (81) is arranged at the end part of the rotating shaft V (8);

the belt wheel I (15-1) is connected with the belt wheel II (50) through a belt, the double-groove belt wheel I (51) is connected with the double-groove belt wheel II (60) through a belt, the double-groove belt wheel I (51) is connected with the belt wheel III (70) through a belt, the double-groove belt wheel II (60) is connected with the belt wheel IV (80) through a belt, and the rotating frame (9) is supported by the roller I (52), the roller II (61), the roller III (71) and the roller IV (81) and is driven by the roller I (52), the roller II (61), the roller III (71) and the roller IV (81).

2. A in-line tire build apparatus as in claim 1, wherein: two limiting rods (20) are arranged on the first rotating shaft (2), the limiting rods (20) rotate coaxially along with the first rotating shaft (2), and a wrench (21) is arranged at the end of the first rotating shaft (2) in a fastening mode.

3. A tire build-up apparatus in line as claimed in claim 2, wherein: the limiting rod (20) is provided with a rotating sleeve (20-1).

4. A in-line tire build apparatus as in claim 1, wherein: and rubber films are arranged on the outer walls of the driving roller (3) and the driven roller (4).

5. A in-line tire build apparatus as in claim 1, wherein: the film laminating machine is characterized in that a notch (90) is formed in the rotating frame (9), a pin shaft (91) is rotatably arranged on the side wall of the rotating frame (9), and a film laminating roller (91-1) is sleeved on the pin shaft (91).