CN215391445U - Glass cleaning machine - Google Patents

Abstract

The application discloses a glass cleaning machine, which belongs to the technical field of machinery, and the technical scheme of the glass cleaning machine comprises a rack, wherein a material placing device, a turnover device and a cleaning device are sequentially arranged on the rack along the conveying direction of glass, the material placing device is used for conveying the glass to the turnover device, and the operation is completed after the cleaning device is used for simultaneously cleaning two surfaces of the glass; turning device is including roll-over table, upset driving piece, first transmission subassembly and a plurality of side running roller, the upset driving piece drives the roll-over table and overturns, one side that the roll-over table is close to the blowing device is run through and has been seted up the transfer tank, and is a plurality of the side running roller is located the diapire of roll-over table, first transmission subassembly is located the transfer tank and is close to on the lateral wall of blowing device, and this application has and can erects horizontal glass to carry out abluent effect simultaneously to glass two-sided.

Description

Glass cleaning machine

Technical Field

The utility model belongs to the technical field of machinery, and particularly relates to a glass cleaning machine.

Background

The glass cleaning machine is a special device for cleaning and drying the surface of glass in the pre-procedures of deep processing technologies such as glass making, vacuum coating, tempering, hot bending, hollow glass sheet combination and the like.

At present, a glass cleaning machine generally comprises a frame, and a conveying device and a cleaning device are arranged on the frame.

However, in the prior art, similar to the above-mentioned glass cleaning machine, the cleaning device is located above the conveying device, only one side of the glass is cleaned relatively cleanly in the cleaning process, and in order to ensure the cleaning strength of the glass, the glass needs to be manually turned over and then cleaned, which is troublesome.

SUMMERY OF THE UTILITY MODEL

Aiming at the defects in the prior art, the utility model aims to provide a glass cleaning machine which has the advantage that horizontal glass can be erected, so that double surfaces of the glass can be cleaned simultaneously.

In order to achieve the purpose, the utility model provides the following technical scheme: a glass cleaning machine comprises a rack, wherein a material placing device, a turnover device and a cleaning device are sequentially arranged on the rack along the conveying direction of glass, the material placing device is used for conveying the glass to the turnover device, and the operation is completed after the glass passes through the cleaning device which simultaneously cleans two surfaces of the glass; the turnover device comprises a turnover table, a turnover driving piece, a first conveying assembly and side rollers, wherein the turnover driving piece drives the turnover table to turn over, one side of the turnover table, which is close to the material placing device, is penetrated through and provided with a conveying groove, the side rollers are positioned on the bottom wall of the turnover table, and the first conveying assembly is positioned in the conveying groove and is close to the side wall of the material placing device.

Through adopting above-mentioned technical scheme, place glass on the blowing device flatly, and after conveying glass to turning device on through the blowing device, through the setting of the first conveying subassembly in the turning device, can be with the glass conveying of formula of keeping flat in the conveyer trough, when whole glass is arranged in the conveyer trough, order about the roll-over table through the upset driving piece and change to the state of erectting by keeping flat, glass slides downwards to the side running roller on the inslot thereupon, after the roll-over table accomplishes the upset, glass is become vertical by the formula of keeping flat, later through the combined action of side running roller and first conveying subassembly, convey glass to belt cleaning device in by the conveyer trough, wash simultaneously to glass both sides through belt cleaning device, accomplish the washing operation to glass, this equipment is automatic to overturn the back glass and wash glass's both sides simultaneously, make cleaning efficiency faster.

The utility model is further configured to: first conveying subassembly includes a plurality of first conveying running rollers and first driving piece, and is a plurality of first conveying running roller parallel bit is on the conveying trough is close to the inside wall of blowing device, first driving piece orders about first conveying running roller function and is located the lateral wall of roll-over table, and is a plurality of the week side wall of first conveying running roller all is provided with the cotton flannel, the cotton flannel meets with glass.

By adopting the technical scheme, when the glass is conveyed into the conveying groove, the first conveying roller can continuously convey the glass to move forwards; in the process of overturning the overturning platform, friction force between the flannelette and the glass can be increased, and then the glass is prevented from falling rapidly, so that the glass collides with the side roller.

The utility model is further configured to: and an infrared inductor is arranged in the conveying groove and close to the material placing device, and the infrared inductor is electrically connected with the overturning driving piece.

Through adopting above-mentioned technical scheme, when glass is completely by the conveying in the transfer tank, infrared inductor is to upset driving piece transmission signal of telecommunication to make the upset driving piece order about the roll-over table and carry out upset work.

The utility model is further configured to: and the peripheral side walls of the side rollers are provided with buffer parts which are connected with the side walls of the glass.

Through adopting above-mentioned technical scheme, when glass was conveyed into the transfer chute, roll-over table upset in-process glass slided to side roller direction by the action of gravity, through the setting of bolster, impact force when can reducing glass and slide downwards takes place to damage when preventing glass and side roller contact.

The utility model is further configured to: the blowing device includes blowing platform, a plurality of second conveying running roller and second driving piece, a plurality of second conveying running roller of second driving piece control rotates, and is a plurality of second conveying running roller is located the upper surface of blowing platform and is linked together with first transmission assembly.

Through adopting above-mentioned technical scheme, place the blowing bench with glass after, order about second conveying running roller operation through starting the second driving piece to make glass remove towards the roll-over table direction.

The utility model is further configured to: the cleaning device comprises a cleaning table, wherein a third conveying component, a plurality of brushes, a flusher and a dryer are sequentially arranged on the cleaning table along the conveying direction of the glass, a cleaning groove communicated with the conveying groove is formed in the cleaning table, the third conveying component is located on the bottom wall of the cleaning groove and is a plurality of brushes, the flusher and the dryer are located on the two opposite side walls of the cleaning groove according to the moving direction of the glass.

Through adopting above-mentioned technical scheme, glass continues to remove to belt cleaning device on being conveyed to third transfer module by the side roller, through belt cleaning device's setting, lies in brush, flusher and the drying apparatus on the wall of washing tank both sides, can carry out the cleaning operation simultaneously to the two-sided of glass that stands.

The utility model is further configured to: the third conveying assembly is provided with a groove along the peripheral side wall, and the side wall of the groove is provided with an elastic block.

By adopting the technical scheme, when the glass is conveyed into the cleaning tank from the conveying tank, the bottom side of the glass can be clamped into the groove, and the vertical state of the glass can be stabilized by the arrangement of the groove; through the setting of elastic block, can reduce glass and the inside wall of recess and bump, and then the condition that damages glass appears.

The utility model is further configured to: and a guide angle is arranged on one side of the elastic block, which is flush with the peripheral side wall of the third conveying assembly.

Through adopting above-mentioned technical scheme, the setting of lead angle can make things convenient for in the glass card goes into the recess.

In summary, the utility model has the following advantages:

1. by arranging the turnover device, when the whole glass is placed in the conveying groove, the turnover table is driven to change from a flat state to a vertical state by the turnover driving piece, the glass slides downwards in the groove to the side roller, and after the turnover table is turned over, the glass is changed from a flat state to a vertical state, so that the glass is automatically turned over;

2. by arranging the buffer piece, when the glass is conveyed into the conveying groove, the glass slides towards the side roller wheel under the action of gravity in the overturning process of the overturning platform, so that the impact force generated when the glass slides downwards can be reduced, and the glass is prevented from being damaged when being contacted with the side roller wheel;

3. through setting up infrared inductor, when glass is conveyed into the transfer tank completely, infrared inductor is to upset driving piece transmission signal of telecommunication to make the upset driving piece order about the roll-over table and carry out upset work.

Drawings

FIG. 1 is a schematic view of the overall structure of the present embodiment;

FIG. 2 is a schematic view showing the overall structure of another operating state of the present embodiment;

FIG. 3 is a schematic structural diagram of the turning device of the present embodiment;

FIG. 4 is a schematic structural view of the discharging device in the present embodiment;

FIG. 5 is a schematic sectional view showing the structure of the cleaning apparatus of the present embodiment;

fig. 6 is a schematic structural diagram of a third conveying assembly in the present embodiment.

Description of reference numerals: 1. a frame; 2. a discharging device; 201. a discharge table; 202. a second transfer roller; 203. a second driving member; 3. a turning device; 301. a turning table; 302. turning over the driving piece; 303. a first transfer assembly; 3031. a first transfer roller; 3032. a first driving member; 304. a side roller; 4. a cleaning device; 401. a cleaning table; 402. a cleaning tank; 5. a transfer slot; 6. a turning shaft; 7. a buffer member; 8. flannelette; 9. an infrared sensor; 10. an elastic cloth; 11. a third transfer assembly; 12. a brush; 13. a flusher; 14. a dryer; 15. a groove; 16. an elastic block; 17. and (6) guiding the angle.

Detailed Description

The present invention will be described in further detail with reference to the accompanying drawings.

A glass cleaning machine comprises a frame 1, wherein a feeding device 2, a turnover device 3 and a cleaning device 4 are sequentially arranged on the frame 1 along the conveying direction of glass, as shown in figure 1. The emptying device 2 is used for conveying glass to the turnover device 3, the turnover device 3 is used for changing the glass from a flat type to a vertical type, and the cleaning device 4 is used for cleaning two sides of the vertical type glass simultaneously.

In one embodiment, referring to fig. 3, the turnover device 3 includes a turnover table 301, a turnover driving member 302, a first conveying assembly 303 and a side roller 304, the turnover driving member 302 drives the turnover table 301 to turn over, a conveying groove 5 is formed through one side of the turnover table 301 close to the material placing device 2, the side roller 304 is located on the bottom wall of the turnover table 301, and the first conveying assembly 303 is located in the conveying groove 5 and close to the side wall of the material placing device 2. In this embodiment, the turning shaft 6 of the turning table 301 is located at the lower surface of the turning table 301 and at the middle position, and the turning driving member 302 is a motor.

When glass kept flat to blowing device 2 on, blowing device 2 conveying glass to conveyer trough 5 in, through the upset of roll-over table 301 for glass becomes vertical by the formula of keeping flat, later washs glass's two sides simultaneously through belt cleaning device 4, thereby remedies the original formula of keeping flat glass and need just can improve the defect of clean dynamics after the artifical upset, and this equipment can become vertical with the automatic upset of glass, and then the convenience is to glass's washing.

In addition to the above embodiment, the peripheral side walls of the side rollers 304 are provided with the buffer members 7, and the buffer members 7 are in contact with the glass side walls. In this embodiment, the side roller 304 has no driving member, and when the glass is driven by the forward movement of the first conveying assembly 303, the side roller 304 rotates.

After the glass is conveyed into the conveying groove 5, the glass slides towards the side roller 304 under the action of gravity in the overturning process of the overturning platform 301, and the buffer member 7 is abutted to the glass sliding downwards, so that the impact force generated when the glass slides downwards can be reduced, and the glass is prevented from being damaged when being contacted with the side roller 304.

It should be mentioned that the first transmission assembly 303 includes a plurality of first transmission rollers 3031 and a first driving member 3032, the plurality of first transmission rollers 3031 are located on the inner side wall of the transmission groove 5 close to the discharging device 2 in parallel, the first driving member 3032 drives the first transmission rollers 3031 to operate and is located on the outer side wall of the turnover table 301, the outer side walls of the plurality of first transmission rollers 3031 are wrapped with the flannelette 8, and the flannelette 8 is in contact with the glass. In this embodiment, the first driving member 3032 is a motor, the number of the first transmission rollers 3031 is the same as that of the side rollers 304, the height of the first transmission rollers 3031 in the transmission groove 5 is the same as that of the emptying device 2, gears are fixedly mounted at both ends of each first transmission roller 3031, each gear is connected through a chain, the gears at the same side are connected through a chain, the chains at both ends are controlled by the motor, and the chains rotate while the chains rotate, so that the first transmission rollers 3031 rotate.

The first conveying roller 3031 can continue to convey the glass forward as the glass is conveyed into the conveying trough 5. The flannelette 8 coated on the peripheral side wall of the first conveying roller 3031 can increase the friction force between the flannelette 8 and the glass, so that the continuity of the glass conveying can be ensured in the conveying process, and in the process of overturning of the overturning platform 301, the flannelette 8 can prevent the glass from rapidly sliding downwards to collide with the side roller 304, so that the glass can slowly fall to contact with the buffer 7 on the side roller 304, and then the first conveying roller 3031 continues to drive the glass to move forwards, so that the side roller 304 is driven to rotate.

It should be noted that an infrared sensor 9 is installed in the conveying trough 5 and near the discharging device, and the infrared sensor 9 is electrically connected with the turnover driving element 302.

After the whole glass passes through the infrared sensor 9, the infrared sensor 9 transmits an electric signal to the turnover driving member 302, and the turnover driving member 302 starts to be started after receiving the electric signal, so that the turnover driving member 302 drives the turnover table 301 to perform turnover work.

In order to prevent the glass from colliding with one side wall of the conveying groove 5 opposite to the conveying assembly after the overturning platform 301 overturns, the elastic cloth 10 is adhered to one side wall of the conveying groove 5 corresponding to the conveying assembly, and the elastic cloth 10 does not contact the conveyed glass when the overturning platform 301 does not overturn, so that the friction force is prevented from being increased, and the conveying speed of the glass is prevented from being influenced. After the inversion table 301 is inverted, if the glass is inclined, the glass abuts against the elastic cloth 10, thereby preventing the glass from being damaged by collision with the side wall.

In one embodiment, referring to fig. 4, the discharging device 2 includes a discharging table 201, a plurality of second conveying rollers 202 and a second driving member 203, the second driving member 203 controls the plurality of second conveying rollers 202 to rotate, and the plurality of second conveying rollers 202 are located on the upper surface of the discharging table 201 and are communicated with the first conveying assembly 303. The second conveying driving piece is a motor in the embodiment, gears are fixedly mounted at two ends of the second conveying rollers 202, the gears at the same side are connected through chains, the chains at the two ends are controlled by the motor, and the chains rotate to drive the second conveying rollers 202 to rotate.

After the glass is placed on the discharging table 201, that is, on the plurality of second conveying rollers 202, the glass can be conveyed into the conveying groove 5 by the rotation of the second conveying rollers 202.

In one embodiment, referring to fig. 5, the washing device 4 includes a washing table 401, a third conveying assembly 11, a plurality of brushes 12, a flusher 13 and a dryer 14 are sequentially installed on the washing table 401 along the conveying direction of the glass, a washing tank 402 communicated with the conveying tank 5 is disposed on the washing table 401, the third conveying assembly 11 is located on the bottom wall of the washing tank 402, and the brushes 12, the flusher 13 and the dryer 14 are located on two opposite side walls of the washing tank 402 along the moving direction of the glass. In this embodiment, the structure and the operation principle of the third conveying assembly 11 are the same as those of the first conveying assembly 303, the flushing devices 13 of the brushes 12 in the cleaning tank 402 are arranged on the opposite side walls in rows, and the two are designed in a staggered manner, and a pipeline for extruding a cleaning agent is arranged in the first row of brushes 12, so that the cleaning force on the glass can be increased.

After the glass is conveyed into the cleaning tank 402, the third conveying assembly 11 makes the glass continue to move forward, and the two sides of the glass are cleaned simultaneously by the brushes 12, the flusher 13 and the dryer 14 at the two opposite sides in the cleaning tank 402, so that the cleaning effect on the glass is improved.

Referring to fig. 6, the third conveying assembly 11 is provided with a groove 15 along the peripheral side wall, and the side wall of the groove 15 is provided with an elastic block 16. In this embodiment, the width of the slot opening of the groove 15 is smaller than the distance between the two rows of brushes 12, and the elastic block 16 is rubber covering the inner side wall of the groove 15.

When the glass is conveyed from the conveying trough 5 into the cleaning trough 402, the bottom side of the glass can be caught in the groove 15, so that the standing state of the glass can be stabilized. The elastic block 16 can reduce the loss generated when the glass collides with the inner wall of the groove 15, and can increase the friction force of the contact surfaces of the elastic block 16 and the three side walls of the glass, thereby further stabilizing the vertical state of the glass.

It is worth mentioning that a chamfer 17 is provided on one side of the elastic block 16 that is flush with the peripheral sidewall of the third transferring assembly 11. The lead angle 17 can facilitate the contact of the elastic block 16 with the glass clamping groove 15.

The working process and the beneficial effects of the utility model are as follows: after glass is horizontally placed on the discharging device 2, the glass is moved towards the cleaning device 4 through the second conveying roller 202, the first conveying assembly 303 and the second conveying assembly in the turnover device 3 act together to convey the horizontally-placed glass into the conveying groove 5, when the whole glass is placed in the conveying groove 5, the infrared sensor 9 transmits an electric signal to the turnover driving piece 302, the turnover driving piece 302 further drives the turnover platform 301 to perform a turnover process from horizontal to vertical, then the glass slides downwards in the groove to the side roller 304 to be contacted with the buffer 7, after the turnover platform 301 finishes turnover, the glass is changed from horizontal to vertical, then the glass is conveyed from the conveying groove 5 into the cleaning device 4 through the combined action of the side roller 304 and the first conveying assembly 303, the third conveying assembly 11 continuously conveys the glass forwards, and the two sides of the glass are cleaned simultaneously through the cleaning device 4, accomplish the washing operation to glass, this equipment is automatic to wash glass's two sides simultaneously after overturning glass for clean efficiency is faster.

The above description is only for the purpose of illustrating the preferred embodiments of the present invention and is not to be construed as limiting the utility model, and any modifications, equivalents, improvements and the like made within the design concept of the present invention should be included in the scope of the present invention.

Claims (8)

1. The utility model provides a glass cleaning machine which characterized in that: the glass cleaning machine comprises a rack (1), wherein a material placing device (2), a turnover device (3) and a cleaning device (4) are sequentially arranged on the rack (1) along the conveying direction of glass, the material placing device (2) is used for conveying the glass to the turnover device (3), and the operation is completed after the glass passes through the cleaning device (4) which is used for cleaning two surfaces of the glass simultaneously; turning device (3) including roll-over table (301), upset driving piece (302), first transmission subassembly (303) and a plurality of side running roller (304), upset driving piece (302) drive roll-over table (301) and overturn, one side that roll-over table (301) is close to blowing device (2) is run through and has been seted up transfer tank (5), and is a plurality of side running roller (304) are located the diapire of roll-over table (301), first transmission subassembly (303) are located transfer tank (5) and are close to on the lateral wall of blowing device (2).

2. The glass cleaning machine of claim 1, wherein: the first conveying assembly (303) comprises a plurality of first conveying rollers (3031) and a first driving piece (3032), the plurality of first conveying rollers (3031) are parallelly arranged on the inner side wall, close to the discharging device (2), of the conveying groove (5), the first driving piece (3032) drives the first conveying rollers (3031) to operate and is arranged on the outer side wall of the overturning platform (301), flannelette (8) is arranged on the peripheral side wall of each of the plurality of first conveying rollers (3031), and the flannelette (8) is connected with glass.

3. The glass cleaning machine of claim 1, wherein: an infrared inductor (9) is arranged in the conveying groove (5) and at a position close to the discharging device (2), and the infrared inductor (9) is electrically connected with the overturning driving piece (302).

4. The glass cleaning machine of claim 1, wherein: a plurality of all be provided with bolster (7) on the week lateral wall of side running roller (304), bolster (7) meet with the glass lateral wall.

5. The glass cleaning machine of claim 1, wherein: blowing device (2) are including blowing platform (201), a plurality of second conveying roller (202) and second driving piece (203), a plurality of second conveying roller (202) of second driving piece (203) control rotate, and are a plurality of second conveying roller (202) are located the upper surface of blowing platform (201) and are linked together with first transmission assembly (303).

6. The glass cleaning machine of claim 1, wherein: cleaning device (4) are including wash platform (401), wash platform (401) have set gradually third conveying assembly (11), a plurality of brush (12), flusher (13) and drying apparatus (14) along glass's direction of transfer, wash platform (401) are last to set up washing tank (402) that are linked together with transfer tank (5), third conveying assembly (11) are located the diapire of washing tank (402), and are a plurality of brush (12), flusher (13) and drying apparatus (14) are located the relative both sides wall of washing tank (402) according to glass moving direction.

7. The glass cleaning machine according to claim 6, wherein: a groove (15) is formed in the third conveying assembly (11) along the peripheral side wall, and an elastic block (16) is arranged on the side wall of the groove (15).

8. The glass cleaning machine according to claim 7, wherein: and a guide angle (17) is arranged on one side of the elastic block (16) which is flush with the peripheral side wall of the third conveying assembly (11).

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