CN210029227U - Glass conveying system of vertical cleaning machine - Google Patents

Abstract

The utility model provides a glass conveying system of a vertical cleaning machine, which comprises a backboard which is obliquely arranged, wherein a plurality of rollers are arranged on the backboard, the rotating shafts of the rollers are all positioned in the same plane, and the rotating shafts are parallel; the lower part of the back plate is rotatably connected with a plurality of conveying shafts through bearings, the axes of the conveying shafts are vertical to the plane where the back plate is located, and the axes of the conveying shafts are located on the same plane; one end of each transmission shaft is fixed with a transmission roller, and the other end of each transmission shaft is fixed with a first belt wheel; a first toothed belt is arranged between every two adjacent first belt wheels and meshed with each other, a first motor is further arranged on the back plate and can drive the conveying roller to rotate, a plurality of hydraulic oil cylinders are fixed on the lower portion of the back plate, and the axes of the hydraulic oil cylinders are perpendicular to the plane where the back plate is located; the glass conveying system also comprises a gear box, and piston rods of all the hydraulic oil cylinders are fixed on the gear box. The utility model has the advantages of large glass traction force, capability of avoiding the occurrence of the stagnation phenomenon of the glass.

Description

Glass conveying system of vertical cleaning machine

Technical Field

The utility model belongs to glass production facility field, concretely relates to glass conveying system of vertical cleaning machine.

Background

Vacuum coating is a common method used in glass processing, particularly in glass coating processes, where atoms of a material are driven onto the surface of the glass by being extracted from a heat source in a vacuum chamber. The glass needs to be cleaned before film coating, and if the glass is not cleaned completely, the residual impurity particles on the surface of the glass can influence the subsequent film coating. The glass conveying system of the domestic and foreign vertical glass cleaning machine is easy to have the problem of insufficient conveying power during production, so that the glass is stagnated, and the glass is damaged due to mutual touch, thereby causing unnecessary loss. And when glass breakage appears, the staff has to let equipment stop and clear up damage glass and piece wherein, influences production efficiency.

SUMMERY OF THE UTILITY MODEL

The utility model aims at the above-mentioned problem that prior art exists, provide a glass conveying system of vertical cleaning machine, the utility model aims to solve the technical problem that carries out optimal design through the glass conveying system to vertical cleaning machine to increase its traction force to glass, avoid glass to appear stagnation phenomenon wherein.

The purpose of the utility model can be realized by the following technical proposal: the glass conveying system of the vertical cleaning machine is characterized by comprising a back plate which is obliquely arranged, wherein a plurality of rollers are arranged on the back plate, rotating shafts of the rollers are positioned in the same plane and are parallel; the lower part of the back plate is rotatably connected with a plurality of conveying shafts through bearings, the axis of each conveying shaft is vertical to the plane where the back plate is located, and the axis of each conveying shaft is located on the same plane; one end of each conveying shaft is fixed with a conveying roller, and the other end of each conveying shaft is fixed with a first belt wheel; a first toothed belt is arranged between every two adjacent first belt wheels and is in meshed connection with the first toothed belt, a first motor is further arranged on the back plate and can drive the conveying roller to rotate, a plurality of hydraulic oil cylinders are fixed on the lower portion of the back plate, and the axes of the hydraulic oil cylinders are perpendicular to the plane of the back plate; the glass conveying system also comprises a gear box, piston rods of the hydraulic oil cylinders are fixed on the gear box, the top end of the gear box is rotatably connected with a plurality of clamping shafts through bearings, the axis of each clamping shaft is parallel to the plane where the back plate is located, and the axis of each clamping shaft is located on the same plane; one end of each clamping shaft is fixedly provided with a clamping roller, and the other end of each clamping shaft is fixedly provided with a second belt wheel; and a second gear belt is arranged between every two adjacent second belt wheels and is in meshed connection with the second belt wheels, and a second motor is further arranged on the gear box and can drive the clamping roller to rotate.

This glass conveying system of vertical cleaning machine in the actual production process, at first the staff need adjust the clearance size between pinch roll and the gyro wheel according to glass's thickness, should adjust accessible hydraulic cylinder and realize: the synchronous extension of the piston rods of the hydraulic oil cylinders is controlled, so that the gear boxes can move in parallel, all the clamping rollers are driven to move in parallel, and finally the size of the gap between each clamping roller and the corresponding roller can be adjusted. After the adjustment is completed, the conveying system is started, the glass enters the conveying system at an inclined angle parallel to the back plate, then the glass rolls on the idler wheels and is clamped between the clamping rollers and the idler wheel fingers, and the second belt pulleys are meshed and connected with each other, so that all the clamping rollers synchronously rotate in the same direction under the driving of the second motor, and the clamping rollers generate a traction force on the glass at the face of the glass; meanwhile, all the conveying rollers synchronously rotate in the same direction under the driving of the first motor, and the glass is tightly attached to the conveying rollers under the action of gravity, so that the conveying rollers can generate a traction force on the lower side edge part of the glass; and the two tractions are in the same direction. The glass conveying system can simultaneously generate traction in the same direction on the face and the edge of the glass, so that compared with the glass conveying system of the existing vertical cleaning machine, the glass conveying system has larger traction force on the glass, and can effectively avoid the phenomenon that the glass is stagnated in the glass.

In the glass conveying system of the vertical cleaning machine, each of the pinch rollers has a roller corresponding to the position of the pinch roller, and the outer peripheral surface of each pinch roller is wrapped with a soft rubber layer.

When the gap between the clamping roller and the roller is adjusted, the gap is slightly smaller than the glass to be cleaned, and the peripheral surface of the clamping roller is wrapped with a soft layer which can increase the contact surface between the glass and the clamping roller and further increase the traction force of the clamping roller on the glass; each clamping roller is provided with a roller corresponding to the position of the clamping roller, so that the acting force of the clamping roller on the glass and the reacting force of the roller on the glass can be mutually offset, and the glass is prevented from being damaged in the conveying process.

In the glass conveying system of the vertical cleaning machine, a plurality of soft convex ribs are uniformly distributed on the outer peripheral surface of the conveying roller.

Set up soft protruding muscle on the outer peripheral face of transfer roller, not only can increase the frictional force between glass edge and the transfer roller, its edge that can effectively avoid glass is blocked by the transfer roller moreover and the conveying stagnation appears.

In the glass conveying system of the vertical cleaning machine, the conveying roller is in a cone shape, and the smaller end of the conveying roller is close to the back plate.

The glass is obliquely arranged, so under the action of gravity, an outward force is generated at the lower edge of the glass, the conveying roller is arranged into a cone with a small head facing inwards, an inward force can be generated at the edge of the glass, and the glass can be effectively prevented from sliding in the conveying process.

The utility model discloses the advantage:

1. the glass conveying system can simultaneously generate traction in the same direction on the surface part and the edge part of the glass, so that compared with the glass conveying system of the existing vertical cleaning machine, the glass conveying system has larger traction force on the glass, and can effectively avoid the phenomenon that the glass is stagnated in the glass conveying system.

2. In the glass conveying system, the peripheral surfaces of the clamping rollers are wrapped by soft layers, so that the contact surface between the glass and the clamping rollers is increased, and the traction force of the glass to the glass is further increased.

3. In the glass conveying system, each clamping roller is provided with a roller corresponding to the position of the clamping roller, so that the acting force of the clamping roller on the glass and the reaction force of the roller on the glass can be mutually offset, and the glass is prevented from being damaged in the conveying process.

3. In this glass conveying system, set up soft protruding muscle on the outer peripheral face of transfer roller, not only can increase the frictional force between glass edge and the transfer roller, its edge that can effectively avoid glass is blocked by the transfer roller moreover and the conveying stagnation appears.

4. In the glass conveying system, the conveying roller is arranged into a cone with the small head facing inwards, so that an inward force can be generated at the edge of the glass, and the glass can be effectively prevented from sliding in the conveying process.

Drawings

Fig. 1 is a schematic perspective view of a glass conveying system of the vertical cleaning machine.

FIG. 2 is a rear view of the glass conveying system of the vertical cleaning machine.

Fig. 3 is a sectional view taken along a-a in fig. 2.

In the figure, 1, a back plate; 2. a roller; 3. a rotating shaft; 4. a bearing; 5. a transfer shaft; 6. a conveying roller; 7. a first pulley; 8. a first toothed belt; 9. a first motor; 10. a hydraulic cylinder; 11. a gear case; 12. a clamping shaft; 13. a pinch roller; 14. a second pulley; 15. a second toothed belt; 16. a second motor; 17. soft convex ribs.

Detailed Description

The following are specific embodiments of the present invention and the accompanying drawings are used to further describe the technical solution of the present invention, but the present invention is not limited to these embodiments.

As shown in fig. 1, 2 and 3, a glass conveying system of a vertical cleaning machine comprises a back plate 1 which is obliquely arranged, wherein a plurality of rollers 2 are arranged on the back plate 1, rotating shafts 3 of the rollers 2 are all positioned in the same plane, and the rotating shafts 3 are parallel; the lower part of the back plate 1 is rotatably connected with a plurality of conveying shafts 5 through bearings 4, the axes of the conveying shafts 5 are vertical to the plane where the back plate 1 is located, and the axes of the conveying shafts 5 are located on the same plane; one end of each transmission shaft 5 is fixed with a transmission roller 6, and the other end of each transmission shaft 5 is fixed with a first belt pulley 7; a first toothed belt 8 is arranged between every two adjacent first belt wheels 7 and meshed with each other, a first motor 9 is further arranged on the back plate 1, the first motor 9 can drive the conveying roller 6 to rotate, a plurality of hydraulic oil cylinders 10 are fixed on the lower portion of the back plate 1, and the axes of the hydraulic oil cylinders 10 are perpendicular to the plane where the back plate 1 is located; the glass conveying system also comprises a gear box 11, piston rods of all hydraulic oil cylinders 10 are fixed on the gear box 11, the top end of the gear box 11 is rotatably connected with a plurality of clamping shafts 12 through bearings 4, the axial line of each clamping shaft 12 is parallel to the plane 1 where the back plate is located, and the axial line of each clamping shaft 12 is located on the same plane; one end of each clamping shaft 12 is fixed with a clamping roller 13, and the other end of each clamping shaft 12 is fixed with a second belt wheel 14; and a second toothed belt 15 is arranged between every two adjacent second belt wheels 14 and is in meshed connection, a second motor 16 is further arranged on the gear box 11, and the second motor 16 can drive the clamping roller 13 to rotate. This glass conveying system of vertical cleaning machine in actual production process, at first the staff need adjust the clearance size between pinch roll 13 and the gyro wheel 2 according to glass's thickness, should adjust accessible hydraulic cylinder 10 and realize: and the synchronous extension and retraction of piston rods of the hydraulic oil cylinders 10 are controlled, so that the gear boxes 11 realize parallel movement, all the clamping rollers 13 are driven to move in parallel, and finally, the adjustment of the size of a gap between each clamping roller 13 and the corresponding roller 2 is realized. After the adjustment is completed, the conveying system is started, the glass enters the conveying system at an inclined angle parallel to the back plate 1, then the glass rolls on the roller 2 and is clamped between the clamping rollers 13 and the roller 2, and the second toothed belts 15 are arranged between every two adjacent second belt wheels 14 and meshed and connected, so that all the clamping rollers 13 synchronously rotate in the same direction under the driving of the second motor 16, and the clamping rollers 13 generate a traction force on the glass at the surface of the glass; meanwhile, all the conveying rollers 6 synchronously rotate in the same direction under the driving of the first motor 9, and the glass is tightly attached to the conveying rollers 6 under the action of gravity, so that the conveying rollers can generate a traction force on the lower side edge part of the glass; and the two tractions are in the same direction. The glass conveying system can simultaneously generate traction in the same direction on the face and the edge of the glass, so that compared with the glass conveying system of the existing vertical cleaning machine, the glass conveying system has larger traction force on the glass, and can effectively avoid the phenomenon that the glass is stagnated in the glass.

Each clamping roller 13 is provided with a roller 2 corresponding to the position of the roller, and the peripheral surface of each clamping roller 13 is wrapped with a soft rubber layer. When the gap between the clamping roller 13 and the roller 2 is adjusted, the gap is slightly smaller than the glass to be cleaned, and the peripheral surface of the clamping roller 13 is wrapped with a soft layer which can increase the contact surface between the glass and the clamping roller 13 and further increase the traction force of the glass; and each clamping roller 13 is provided with a roller 2 corresponding to the position of the roller, so that the acting force of the clamping roller 13 on the glass and the reaction force of the roller 2 on the glass can be mutually offset, and the glass is prevented from being damaged in the conveying process.

A plurality of soft convex ribs 17 are uniformly distributed on the peripheral surface of the conveying roller 6; set up soft protruding rib 17 on the outer peripheral face of transfer roller 6, not only can increase the frictional force between glass edge and the transfer roller 6, its corner that can effectively avoid glass moreover is blocked by transfer roller 6 and the conveying stagnation appears.

The conveying roller 6 is in a cone shape, and the smaller end of the conveying roller 6 is close to the back plate 1; the glass is obliquely placed, so that an outward force is generated on the lower edge of the glass under the action of gravity, the conveying roller 6 is arranged into a cone with an inward small end, an inward force can be generated on the edge of the glass, and the glass can be effectively prevented from sliding in the conveying process.

The specific embodiments described herein are merely illustrative of the spirit of the invention. Various modifications, additions and substitutions for the specific embodiments described herein may be made by those skilled in the art without departing from the spirit of the invention or exceeding the scope of the invention as defined in the accompanying claims.

Claims (4)

1. The glass conveying system of the vertical cleaning machine is characterized by comprising a back plate (1) which is obliquely arranged, wherein a plurality of rollers (2) are arranged on the back plate (1), rotating shafts (3) of the rollers (2) are positioned in the same plane, and the rotating shafts (3) are parallel; the lower part of the back plate (1) is rotatably connected with a plurality of conveying shafts (5) through bearings (4), the axis of each conveying shaft (5) is vertical to the plane of the back plate (1), and the axes of the conveying shafts (5) are positioned on the same plane; a conveying roller (6) is fixed at one end of each conveying shaft (5), and a first belt wheel (7) is fixed at the other end of each conveying shaft (5); a first toothed belt (8) is arranged between every two adjacent first belt wheels (7) and is in meshed connection with the first toothed belts, a first motor (9) is further arranged on the back plate (1), the first motor (9) can drive the conveying roller (6) to rotate, a plurality of hydraulic oil cylinders (10) are fixed on the lower portion of the back plate (1), and the axes of the hydraulic oil cylinders (10) are perpendicular to the plane of the back plate (1); the glass conveying system further comprises a gear box (11), piston rods of the hydraulic oil cylinders (10) are fixed on the gear box (11), the top end of the gear box (11) is rotatably connected with a plurality of clamping shafts (12) through a bearing (4), the axis of each clamping shaft (12) is parallel to the plane where the back plate (1) is located, and the axis of each clamping shaft (12) is located on the same plane; one end of each clamping shaft (12) is fixed with a clamping roller (13), and the other end of each clamping shaft (12) is fixed with a second belt wheel (14); and a second toothed belt (15) is arranged between every two adjacent second belt wheels (14) and is in meshed connection with each other, a second motor (16) is further arranged on the gear box (11), and the second motor (16) can drive the clamping roller (13) to rotate.

2. The glass conveying system of a vertical cleaning machine as claimed in claim 1, characterized in that each of the pinch rollers (13) has a roller (2) corresponding to its position, and the outer peripheral surface of each pinch roller (13) is covered with a soft rubber layer.

3. The glass conveying system of the vertical cleaning machine as claimed in claim 1, characterized in that a plurality of soft ribs (17) are uniformly distributed on the outer peripheral surface of the conveying roller (6).

4. The glass conveying system of a vertical cleaning machine according to claim 1, characterized in that the conveying roller (6) is conical and the smaller end of the conveying roller (6) is close to the back plate (1).

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