CN215243559U - Glass laminating device - Google Patents

Abstract

The utility model relates to a glass laminating device, which comprises a support table, a workbench, a gluing mechanism, a gluing brush and a laminating mechanism which can be used for adsorbing glass, wherein the workbench is movably arranged on the support table along the horizontal direction and has a gluing position and a laminating position which have different positions relative to the support table; when the workbench is positioned at the gluing position, the gluing mechanism can be used for driving the gluing brush to abut against the upper surface of the glass positioned on the workbench and can drive the gluing brush to move along the horizontal direction so as to coat a glue layer on the upper surface of the glass; when the workstation is in the laminating position, laminating mechanism can drive the glass that adsorbs on it and set up the glass motion of the upper surface coating glue film on the workstation towards to make these two glass pass through the glue film and laminate each other. The glass laminating device can reduce the waste of glue materials in the bonding process between the glasses, and the glue is uniformly coated; in addition, the manual use cost can be reduced, and the gluing efficiency is high.

Description

Glass laminating device

Technical Field

The present disclosure relates to the field of glass manufacturing technologies, and in particular, to a glass lamination device.

Background

The flat panel display device mostly adopts glass as its protective cover plate material, but with the rapid development of flexible display technology, collapsible screen receives market favor, and traditional cover plate glass can not use because of can not folding.

The first generation of folding screens used transparent polyimide (CPI) as a protective cover material, which could be bent, but had the disadvantages of low hardness, easy scratching, poor hand feel, etc.

Later research has found that glass, although a brittle material, has bendability when the thickness of the glass is less than 0.1mm, and the thinner the thickness of the glass, the better the bending performance, so that glass with the thickness of less than 0.1mm is generally made into ultrathin flexible glass.

The ultrathin flexible glass has good transparency, heat resistance stability and high hardness, so that the ultrathin flexible glass is a cover plate material which is used for replacing the traditional polyimide and becomes a priority for the folding screen.

Currently, glass suppliers have been able to produce ultra-thin flexible glass of 0.025mm with bend radii of up to a minimum of 1.5 mm. In production, because the thickness of the ultrathin flexible glass is small, and the strength and the rigidity of the glass are low, when the glass is cut by adopting the traditional cutting process, fragments can appear, and the glass is difficult to cut into required sizes.

The method commonly adopted at present is to stack a plurality of ultrathin glass sheets together, coat photosensitive glue (UV) among the ultrathin glass sheets for fixing, and then attach 0.5mm glass on both sides of the stacked ultrathin glass sheets to improve the strength of the whole plate. And after the lamination, the whole body is cut, and the ultrathin glass is not easy to break due to the protection of the thick glass on the two sides. The existing laminating mostly adopts manual gluing, and then two pieces of glass are placed between two rollers for extrusion, so that the glass is tightly laminated together. The manual gluing mode cannot accurately control the gluing amount, the gluing is often excessive, and the glue material is easy to overflow during rolling, so that the waste of the glue material is caused; secondly, the glass is often required to be turned over in a roller extrusion mode, so that the problem of glass breakage is easily caused; moreover, bubbles are easily generated when the manual gluing mode is adopted, so that the problems that the glass is not tightly attached, the attaching quality is poor, and the glass is still easily broken when being cut are caused; in addition, the manual gluing mode has high labor cost and low gluing efficiency.

SUMMERY OF THE UTILITY MODEL

The glass laminating device can reduce waste of glue materials in the bonding process between glass and can uniformly glue; in addition, the manual use cost can be reduced, and the gluing efficiency is high.

In order to achieve the above object, the present disclosure provides a glass laminating apparatus, which includes a support table, a workbench, a glue applying mechanism, a glue applying brush, and a bonding mechanism capable of adsorbing glass, wherein the workbench is movably disposed on the support table in a horizontal direction and has a glue applying position and a bonding position which are different in position with respect to the support table; when the workbench is located at the gluing position, the gluing mechanism can be used for driving the gluing brush to abut against the upper surface of the glass on the workbench and driving the gluing brush to move along the horizontal direction so as to coat a glue layer on the upper surface of the glass; when the workbench is located at the bonding position, the bonding mechanism can drive the glass adsorbed on the bonding mechanism to move towards the glass coated with the adhesive layer on the upper surface of the workbench, so that the two pieces of glass are bonded with each other through the adhesive layer.

Optionally, the glue coating mechanism comprises a first bracket, a first driving part and a second driving part; the second driving part is connected with the gluing brush and can drive the gluing brush to move along the horizontal direction, and the first driving part is connected with the first bracket and can drive the second driving part and the gluing brush to move along the vertical direction, or; the second driving part is connected with the gluing brush and can drive the gluing brush to move in the vertical direction, and the first driving part is connected with the first support and can drive the second driving part and the gluing brush to move in the horizontal direction.

Optionally, laminating mechanism includes second support, first rigging board and sets up in the third drive division of this second support, first rigging board can be used for adsorbing and releasing glass the workstation is in during the laminating position, first rigging board is located the top of workstation, the third drive division can drive first rigging board downstream, so that adsorb in glass on the first rigging board with the glass of the upper surface coating glue film on the workstation laminates mutually.

Optionally, the attaching mechanism further includes a third support, a fourth driving portion, and a vacuum source, the fourth driving portion is disposed on the third support and is used for driving the second support to move in the up-down direction, the second support is configured as a vacuum cover with an open lower end and vacuum holes, the vacuum cover can move downward under the driving of the fourth driving portion, so that the lower end edge of the vacuum cover is attached to the upper surface of the workbench in the attaching position to form a vacuum cavity, the vacuum source is communicated with the vacuum cavity through the vacuum holes, and the glass coated with the adhesive layer on the upper surface of the workbench is disposed in the vacuum cavity; the third driving part can drive the first attaching plate to move downwards in the vacuum cavity, so that the glass adsorbed on the first attaching plate is attached to the glass coated with the glue layer on the upper surface of the workbench.

Optionally, the glass laminating device further includes a first guide member guiding the first attaching plate to move in the up-down direction, the first guide member includes a first guide shaft extending in the up-down direction and connected to the first attaching plate, a first guide hole is provided on the second support, and the first guide shaft penetrates through the first guide hole along with the first attaching plate movably in the up-down direction.

Optionally, the attaching mechanism further includes two connecting plates extending in the horizontal direction, the third support includes two mounting columns respectively disposed on two sides of the workbench in the width direction, and the connecting plates are movably disposed on the mounting columns in the up-down direction; and each mounting column is provided with a fourth driving part constructed as a telescopic cylinder, the cylinder body of each telescopic cylinder is fixedly connected with the mounting column, and the telescopic rod of each telescopic cylinder extends along the vertical direction and is connected with the second support through the connecting plate.

Optionally, the attaching mechanism further includes a second guiding member for guiding the connecting plate to move in the up-down direction, the second guiding member includes a second guiding shaft fixedly disposed on the mounting post and extending in the up-down direction, and the connecting plate is movably sleeved on the second guiding shaft in the up-down direction through a second guiding hole on the connecting plate.

Optionally, the workstation includes the workstation body and sets up the second rigging board in this workstation body top, the second rigging board can be used for adsorbing and releasing the glass of placing on it.

Optionally, the second attachment panel is configured as a vacuum cup.

Optionally, the glass laminating device further includes a curing unit, the workbench further includes a curing position opposite to the support platform, and when the workbench is located at the curing position, the curing unit is configured to cure the adhesive layer between two glasses attached to each other.

In the above technical solution, first, in order to attach the glass, the work table has a glue application position and an attachment position which are different with respect to the support table position. When the workbench is located at the gluing position, the gluing mechanism can drive the gluing brush to abut against the upper surface of the glass on the workbench and can drive the gluing brush to move along the horizontal direction so as to coat the upper surface of the glass with a glue layer. The gluing mechanism drives the gluing brush to move so as to realize the mode of coating the glass with the glue layer, and has the advantages of the following aspects: firstly, the problem of excessive manual gluing can be effectively avoided, and the waste of a glue layer is avoided; compared with a manual gluing mode, the gluing mode is realized by driving the gluing brush to move through the gluing mechanism, so that uniform gluing is realized, bubbles are not easily generated, the gluing tightness of glass is ensured, and the gluing quality is improved; thirdly, manual gluing is replaced, the manual use cost is reduced, and the gluing efficiency can be submitted.

Glass on the workstation accomplishes the back at the rubber coating position rubber coating, and the workstation removes to the laminating position for a supporting bench, and when the workstation was in the laminating position, laminating mechanism can drive the glass orientation that adsorbs on it and set up on the workstation and the upper surface coating has the glass motion of glue film to make two glass laminate each other. After the laminating is finished, the driving mechanism drives the two pieces of glass mutually laminated to move towards the direction far away from the workbench, when the laminating of the glass is needed to be continuously carried out, the glass is continuously placed on the workbench and is sequentially subjected to gluing at the gluing position so as to be laminated at the laminating position, and the detailed working process is omitted from the disclosure. Through setting up this laminating mechanism, when carrying out the laminating between the glass, only need the drive adsorb in the glass motion of the glass upper surface coating glue film on this laminating mechanism on the workstation can realize the laminating between the glass, need not to overturn glass, avoid glass to appear broken risk in the upset in-process.

Additional features and advantages of the disclosure will be set forth in the detailed description which follows.

Drawings

The accompanying drawings, which are included to provide a further understanding of the disclosure and are incorporated in and constitute a part of this specification, illustrate embodiments of the disclosure and together with the description serve to explain the disclosure without limiting the disclosure. In the drawings:

FIG. 1 is a schematic structural view of a laminating mechanism of a glass laminating apparatus according to an embodiment of the present disclosure, and further illustrates a table in a laminating position;

FIG. 2 is a schematic view of a glue application mechanism, a glue application brush, and a work table of a glass laminating apparatus according to an embodiment of the present disclosure, with the work table in a glue application position;

fig. 3 is a schematic structural view of a curing unit and a work table of the glass laminating apparatus according to the embodiment of the present disclosure, and the work table is in a curing position.

Description of the reference numerals

1 working table 11 working table body

12 second attachment panel 120 second attachment panel body

121 second pad

2 gluing mechanism 3 gluing brush

4 second support of laminating mechanism 41

411 vacuum hole 42 first attaching plate

420 first attaching plate body 421 first backing plate

43 third driving part 44 third support

441 mounting post 45 fourth drive

451 cylinder 452 telescopic rod

46 first guide 47 connecting plate

48 second guide 5 curing unit

Detailed Description

The following detailed description of specific embodiments of the present disclosure is provided in connection with the accompanying drawings. It should be understood that the detailed description and specific examples, while indicating the present disclosure, are given by way of illustration and explanation only, not limitation.

In the present disclosure, unless otherwise specified, the use of the directional terms such as "upper and lower" means that the glass laminating apparatus is defined as being upper and lower in the normal use state; use of directional words such as "inner and outer" refers to the inner and outer of a particular structural profile; in addition, terms such as "first, second, and third" are used merely to distinguish one element from another, and are not sequential or significant.

As shown in fig. 1 to 3, the present disclosure provides a glass laminating apparatus including a support table (not shown), a table 1, a glue applying mechanism 2, a glue applying brush 3, and a bonding mechanism 4 capable of adsorbing glass. The table 1 is movably disposed on the support table in the horizontal direction, and has a gluing position and a bonding position different from each other with respect to the support table. When the workbench 1 is in the gluing position, the gluing mechanism 2 can be used for driving the gluing brush 3 to abut against the upper surface of the glass on the workbench 1 and driving the gluing brush 3 to move in the horizontal direction so as to coat a glue layer on the upper surface of the glass. When the workbench 1 is in the attaching position, the attaching mechanism 4 can drive the glass adsorbed on the attaching mechanism to move towards the glass with the glue layer coated on the upper surface of the workbench 1, so that the two pieces of glass are attached to each other through the glue layer.

It should be noted that, for the glass adsorbed on the attaching mechanism 4, the specific adsorption process is as follows: first, the glass is placed on the table 1, then the table 1 is moved to the bonding position, then the bonding mechanism 4 is moved toward the direction close to the table 1 to adsorb the glass, and when the adsorption is completed, the bonding mechanism is moved toward the direction away from the table 1.

In the above-described embodiment, first, in order to attach glass, the table 1 has a glue application position and an attachment position that are different from each other with respect to the support table. When the workbench 1 is in the gluing position, the gluing mechanism 2 can drive the gluing brush 3 to abut against the upper surface of the glass on the workbench 1, and can drive the gluing brush 3 to move along the horizontal direction so as to coat an adhesive layer on the upper surface of the glass. The gluing mechanism 2 drives the gluing brush 3 to move so as to realize the mode of coating the glass with a glue layer, and the gluing mechanism has the advantages of the following aspects: firstly, the problem of excessive manual gluing can be effectively avoided, and the waste of a glue layer is avoided; compared with the manual gluing mode, the gluing mode is realized by driving the gluing brush 3 to move through the gluing mechanism 2, so that the gluing is uniform, bubbles are not easy to generate, the gluing tightness of the glass is ensured, and the gluing quality is improved; thirdly, manual gluing is replaced, the manual use cost is reduced, and the gluing efficiency can be submitted.

Glass on workstation 1 is after the rubber coating position rubber coating is accomplished, and workstation 1 moves to the laminating position for a supporting bench, and when workstation 1 was in the laminating position, laminating mechanism 4 can drive the glass orientation that adsorbs on it and set up on workstation 1 and the upper surface coating has the glass motion of glue film to make two glass laminate each other. After the laminating is accomplished, this two glass that laminate each other of actuating mechanism 4 drive moves towards the direction of keeping away from workstation 1, and when needs continued the laminating of glass, continue to place glass in workstation 1 and carry out the rubber coating in the rubber coating position in proper order and then laminate in the laminating position, and this disclosure of specific working process is not repeated herein. Through setting up this laminating mechanism 4, when carrying out the laminating between the glass, only need the drive adsorb can realize the laminating between the glass towards the glass motion of the upper surface coating glue film on the workstation 1 on this laminating mechanism 4, need not to overturn glass, avoid glass to appear broken risk in the upset in-process.

This application can be applied to ultra-thin flexible glass's laminating when specifically using, improves ultra-thin flexible glass's laminating quality, avoids the condition that the piece appears in the cutting process.

In one embodiment, referring to fig. 2, the glue applying mechanism 2 includes a first bracket (not shown), a first driving unit (not shown), and a second driving unit (not shown); the second driving part is connected with the gluing brush 3 and can drive the gluing brush 3 to move along the horizontal direction, and the first driving part is connected with the first bracket and can drive the second driving part and the gluing brush 3 to move along the up-and-down direction.

In the process of gluing the glass on the workbench 1, firstly, the first driving part arranged on the first support drives the second driving part and the gluing brush 3 to move downwards towards the direction close to the workbench 1 until the gluing brush 3 is attached to the upper surface of the glass on the workbench 1, and the attaching degree can be set by self according to the gluing thickness, which is not limited by the disclosure; secondly, the second driving part drives the gluing brush 3 to move along the horizontal direction, so that the gluing of the upper surface of the glass on the workbench 1 is realized. The gluing mechanism 2 is simple in structure and compact in design.

In other embodiments, the second driving portion is connected to the glue spreading brush 3 and can drive the glue spreading brush 3 to move in the vertical direction, the first driving portion is connected to the first bracket and can drive the second driving portion and the glue spreading brush 3 to move in the horizontal direction, and the process of spreading the glue on the glass on the workbench 1 is not repeated in this disclosure.

Alternatively, the first and second driving portions may be each configured as a stepping linear motor (not shown), but the present disclosure is not limited to a specific type of the first and second driving portions, and may be configured as a stepping cylinder or the like.

Alternatively, the first bracket may be configured in any shape and configuration, as the present disclosure is not limited thereto.

Referring to fig. 1, the bonding mechanism 4 includes a second holder 41, a first bonding plate 42, and a third driving portion 43 provided on the second holder 41, and the first bonding plate 42 can be used to suck and release glass. When the workbench is located at the attaching position, the first attaching plate 42 is located above the workbench 1, and the third driving portion 43 can drive the first attaching plate 42 to move downward, so that the glass adsorbed on the first attaching plate 42 is attached to the glass coated with the adhesive layer on the upper surface of the workbench 1. The attaching mechanism 4 is simple in structure and reasonable in arrangement.

Alternatively, the first attaching plate 42 may be configured as a vacuum suction plate for sucking and releasing the glass. However, the present disclosure does not limit the specific type of the first attachment plate 42, and the glass can be effectively adsorbed and released.

The second bracket 41 may be configured in any suitable shape and configuration, as the present disclosure is not limited thereto.

The third driving portion 43 may be configured to have any suitable driving structure, and the first bonding plate 42 may be driven in the vertical direction, which is not limited in the present disclosure.

In one embodiment, referring to fig. 1, the attaching mechanism 4 may further include a third support 44, a fourth driving portion 45, and a vacuum source (not shown), the fourth driving portion 45 is disposed on the third support 44 and is used for driving the second support 41 to move up and down, the second support 41 is configured as a vacuum cover with a lower end open and provided with a vacuum hole 411, the vacuum cover can move down under the driving of the fourth driving portion 45, so that the lower end edge of the vacuum cover is closely attached to the upper surface of the worktable 1 to form a vacuum chamber, the vacuum source is communicated with the vacuum chamber through the vacuum hole 411, and the glass coated with the glue layer on the upper surface of the worktable 1 is disposed in the vacuum chamber; the third driving part 43 can drive the first attaching plate 42 to move downward in the vacuum chamber, so that the glass adsorbed on the first attaching plate 42 is attached to the glass coated with the adhesive layer on the upper surface of the worktable 1.

In this embodiment, first, the second bracket 41 is configured as a vacuum cover having an open lower end and provided with a vacuum hole 411, when the workbench 1 is at the attaching position, the lower end edge of the vacuum cover can be closely attached to the upper surface of the workbench 1 to form a vacuum chamber, and the glass coated with the adhesive layer on the upper surface of the workbench 1 is disposed in the vacuum chamber, and the vacuum source is communicated with the vacuum chamber through the vacuum hole 411 to evacuate the vacuum chamber, and after the evacuation is completed, the third driving part 43 drives the first attaching plate 42 to move downward in the vacuum chamber, so that the glass adsorbed on the first attaching plate 42 and the glass coated with the adhesive layer on the upper surface of the workbench 1 are attached to each other, thereby completing the attachment between the two pieces of glass.

Set up this second support 41 into the structural style of vacuum hood and can laminate with the workstation 1 that is in the laminating position to form the vacuum cavity, the in-process of the glass laminating of glass and the upper surface coating glue film on the workstation 1 on first rigging board 42, owing to accomplish in the vacuum cavity of evacuation, can reduce the production of laminating in-process bubble effectively in the glue film, improve the quality of laminating.

The third bracket 44 may be configured in any suitable shape and configuration, as the present disclosure is not limited thereto.

The fourth driving portion 45 may be configured in any suitable driving structure, which is not limited in this disclosure.

Optionally, referring to fig. 1, the glass laminating apparatus further includes a first guide member 46 guiding the first attaching plate 42 to move in the up-down direction, the first guide member 46 includes a first guide shaft extending in the up-down direction and connected to the first attaching plate 42, and the second bracket 41 is provided with a first guide hole, and the first guide shaft penetrates through the first guide hole along with the first attaching plate 42 and moves in the up-down direction. Through setting up the removal that this first guiding piece 46 can be effectively first rigging board 42 along the up-down direction, improve along the stability of up-down direction removal, avoid this first rigging board 42 to take place to rock along the up-down direction removal in-process, and the quality of laminating between the glass on the glass that the influence adsorbs on it and workstation 1.

The first guide member 46 may be configured as any suitable guide structure capable of guiding the first attachment plate 42 to move in the vertical direction, for example, the first guide member 46 may also be configured as a guide rail or a guide groove, which is not limited in the present disclosure.

Referring to fig. 1, the attaching mechanism 4 further includes two connecting plates 47 extending in the horizontal direction, the third bracket 44 includes two mounting columns 441 respectively disposed on both sides of the width direction of the worktable 1, and the connecting plates 47 are movably disposed on the mounting columns 441 in the up-down direction; each mounting post 441 is provided with a fourth driving part 45 configured as a telescopic cylinder, a cylinder body 451 of the telescopic cylinder is fixedly connected with the mounting post 441, and a telescopic rod 452 of the telescopic cylinder extends in the up-down direction and is connected with the second bracket 41 through a connecting plate 47.

In this embodiment, by providing the third brackets 44 as two mounting posts 441 on both sides in the width direction of the table 1, the second bracket 41 can be positioned above the table 1 while facilitating the arrangement of the second bracket 41.

Specifically, the fourth driving part 45 is configured as a telescopic cylinder, a cylinder body of the telescopic cylinder is fixedly connected with the mounting post 441, and a telescopic rod 452 of the telescopic cylinder extends in the up-down direction and is connected with the second bracket 41 through a connecting plate 47. In the process that the telescopic rod 452 of the telescopic cylinder extends upwards, the connecting plate 47 connected with the telescopic rod 452 drives the second support 41 to move upwards, that is, the first attaching plate 42 connected to the second support 41 is driven to move upwards, that is, the glass adsorbed on the first attaching plate 42 is driven to move upwards; in the process that the telescopic rod 452 of the telescopic cylinder retracts downwards, the connecting plate 47 connected to the telescopic rod 452 drives the second support 41 to move downwards, that is, the first attaching plate 42 connected to the second support 41 is driven to move downwards, that is, the glass electrically adsorbed on the first attaching plate 42 moves downwards.

Optionally, referring to fig. 1, the attaching mechanism 4 further includes a second guiding member 48 for guiding the connecting plate 47 to move in the up-down direction, the second guiding member 48 includes a second guiding shaft fixedly disposed on the mounting post 441 and extending in the up-down direction, and the connecting plate 47 is movably sleeved on the second guiding shaft in the up-down direction through a second guiding hole on the connecting plate. The second guide 48 can improve the stability of the movement of the connecting plate 47 in the vertical direction, that is, the stability of the movement of the second bracket 41 connected to the connecting plate 47 in the vertical direction.

The second guide 48 may be configured to be any suitable structure capable of guiding the connecting plate 47 to move in the up-down direction, for example, may be configured to be a guide rail or a guide groove, which is not limited in the present disclosure.

Optionally, the workbench 1 comprises a workbench body 11 and a second attaching plate 12 arranged above the workbench body 11, the second attaching plate 12 can be used for adsorbing and releasing glass placed on the second attaching plate, when the glass is placed on the second attaching plate 12, the second attaching plate 12 can adsorb the glass, the placing stability of the glass is improved, and the glass is prevented from moving in the moving process of the workbench 1.

For example, the second attachment panel 12 may be configured as a vacuum chuck, but the present disclosure is not limited to a specific structure type of the attachment panel 12, and the glass placed thereon can be adsorbed and released.

In addition, the second attachment plate 12 includes a second attachment plate body 120 and a second pad 121 disposed above the second attachment plate body 120, the second pad 121 is used for supporting glass, and the size of the second pad 121 matches with the size of the glass; the second pad 121 may be made of a flexible material to prevent abrasion to the glass, and when the second bracket 41 configured as the vacuum cover is attached to the upper surface of the worktable 1, that is, the lower edge of the vacuum cover is attached to the upper surface of the second attachment plate body 120 to form a vacuum chamber, the second pad 121 is located in the vacuum chamber. In order to improve the sealing performance of the vacuum cover between the lower end edge and the upper surface of the second attaching plate body 120, an O-shaped sealing ring can be arranged between the lower end edge of the vacuum cover and the second attaching plate body 120, so that air leakage caused by gaps is avoided.

Correspondingly, the first attaching plate 42 may include a first attaching plate body 420 and a first pad 421 disposed on the first attaching plate body 420, where the first pad 421 is used for contacting with glass, and a size of the first pad 421 is matched with a size of the glass; the first pad 421 can be made of flexible material to avoid abrasion to the glass.

As shown in fig. 3, the glass laminating apparatus further includes a curing unit 5, the table 1 further includes a curing position with respect to the support table, and when the table 1 is at the curing position, the curing unit 5 is configured to cure the adhesive layer between the two glasses bonded to each other, thereby improving the stability of the adhesion between the two glasses. For example, the adhesive layer may be configured as an ultraviolet light curing adhesive, and the curing unit 5 may be configured as an ultraviolet lamp, and the ultraviolet lamp is configured to irradiate the ultraviolet light curing adhesive to cure the ultraviolet light curing adhesive, so as to improve the stability of the connection between the glasses.

Specifically, when the workbench 1 is at the attaching position, after the attachment of the glass on the first attaching plate 42 and the adhesive layer coated on the upper surface of the workbench 1 is completed, the first attaching plate 42 releases the glass attached thereon, that is, the two pieces of glass attached to each other are placed on the workbench 1; then, the workbench 1 moves to a curing position relative to the support table, after the curing position is cured by the curing unit 5, the workbench 1 moves to a bonding position, and the first bonding plate 42 moves downward to adsorb the two glasses; then, if the glass needs to be bonded and attached continuously, the glass to be bonded is placed on the workbench 1, the workbench 1 moves to the gluing position and is glued, and after the gluing is finished; the workbench 1 moves to the attaching position, the first attaching plate 42 moves downwards to enable two pieces of glass which are attached to be attached to the glass, after three pieces of glass are attached to the glass, the first attaching plate 42 releases the glass, the workbench 1 drives the three pieces of glass which are attached to be attached to the curing position to complete curing, the workbench 1 is cured and returns to the attaching position, the first attaching plate 42 adsorbs the three pieces of glass, the operation is circulated in sequence, and the attachment of the multiple pieces of glass is achieved.

The preferred embodiments of the present disclosure are described in detail with reference to the accompanying drawings, however, the present disclosure is not limited to the specific details of the above embodiments, and various simple modifications may be made to the technical solution of the present disclosure within the technical idea of the present disclosure, and these simple modifications all belong to the protection scope of the present disclosure.

It should be noted that, in the foregoing embodiments, various features described in the above embodiments may be combined in any suitable manner, and in order to avoid unnecessary repetition, various combinations that are possible in the present disclosure are not described again.

In addition, any combination of various embodiments of the present disclosure may be made, and the same should be considered as the disclosure of the present disclosure, as long as it does not depart from the spirit of the present disclosure.

Claims (10)

1. The glass laminating device is characterized by comprising a supporting table, a workbench (1), a gluing mechanism (2), a gluing brush (3) and a gluing mechanism (4) capable of adsorbing glass, wherein the workbench (1) is movably arranged on the supporting table along the horizontal direction and has a gluing position and a gluing position which are different in position relative to the supporting table;

when the workbench (1) is in the gluing position, the gluing mechanism (2) can be used for driving the gluing brush (3) to abut against the upper surface of the glass on the workbench (1) and driving the gluing brush (3) to move along the horizontal direction so as to coat a glue layer on the upper surface of the glass;

workstation (1) is in when laminating the position, laminating mechanism (4) can drive adsorb glass orientation on it set up in the upper surface coating on workstation (1) the glass motion of glue film to make two glass pass through the glue film is laminated each other.

2. The glass laminating device according to claim 1, wherein the glue mechanism (2) comprises a first support, a first drive and a second drive;

the second driving part is connected with the gluing brush (3) and can drive the gluing brush (3) to move along the horizontal direction, and the first driving part is connected with the first bracket and can drive the second driving part and the gluing brush (3) to move along the vertical direction, or;

the second driving part is connected with the gluing brush (3) and can drive the gluing brush (3) to move in the vertical direction, and the first driving part is connected with the first support and can drive the second driving part and the gluing brush (3) to move in the horizontal direction.

3. The glass laminating device according to claim 1, wherein the attaching mechanism (4) comprises a second support (41), a first attaching plate (42) and a third driving portion (43) arranged on the second support (41), the first attaching plate (42) can be used for adsorbing and releasing glass, when the workbench is in the attaching position, the first attaching plate (42) is located above the workbench (1), and the third driving portion (43) can drive the first attaching plate (42) to move downwards, so that the glass adsorbed on the first attaching plate (42) is attached to the glass coated with the adhesive layer on the upper surface of the workbench (1).

4. The glass laminating apparatus according to claim 3, wherein the attaching mechanism (4) further includes a third support (44), a fourth driving portion (45), and a vacuum source, the fourth driving portion (45) being provided to the third support (44) and configured to drive the second support (41) to move in an up-down direction,

the second support (41) is configured as a vacuum cover with an open lower end and provided with a vacuum hole (411), the vacuum cover can move downwards under the driving of the fourth driving part (45) to enable the edge of the lower end of the vacuum cover to be attached to the upper surface of the workbench (1) in the attaching position to form a vacuum cavity, the vacuum source is communicated with the vacuum cavity through the vacuum hole (411), and glass coated with a glue layer on the upper surface of the workbench (1) is arranged in the vacuum cavity;

the third driving part (43) can drive the first attaching plate (42) to move downwards in the vacuum cavity.

5. The glass laminating device according to claim 3 or 4, further comprising a first guide member (46) guiding the first abutting plate (42) to move in the up-down direction, wherein the first guide member (46) comprises a first guide shaft extending in the up-down direction and connected to the first abutting plate (42), and wherein the second bracket (41) is provided with a first guide hole through which the first guide shaft passes movably in the up-down direction with the first abutting plate (42).

6. The glass laminating apparatus according to claim 4, wherein the attaching mechanism (4) further includes two connecting plates (47) extending in the horizontal direction, the third bracket (44) includes two mounting columns (441) respectively provided on both sides in the width direction of the work table (1), and the connecting plates (47) are movably provided to the mounting columns (441) in the up-down direction;

each mounting column (441) is provided with a fourth driving part (45) which is constructed as a telescopic cylinder, a cylinder body (451) of the telescopic cylinder is fixedly connected with the mounting column (441), and a telescopic rod (452) of the telescopic cylinder extends along the vertical direction and is connected with the second bracket (41) through the connecting plate (47).

7. The glass laminating apparatus according to claim 6, wherein the attaching mechanism (4) further includes a second guide member (48) for guiding the connecting plate (47) to move in the up-down direction, the second guide member (48) includes a second guide shaft fixedly provided to the mounting post (441) and extending in the up-down direction, and the connecting plate (47) is movably fitted to the second guide shaft in the up-down direction through a second guide hole formed therein.

8. Glass laminating device according to any one of claims 1-4, characterised in that the work table (1) comprises a work table body (11) and a second abutment plate (12) arranged above the work table body (11), the second abutment plate (12) being able to be used for sucking and releasing glass placed thereon.

9. The glass laminating apparatus according to claim 8, wherein the second attachment panel (12) is configured as a vacuum cup.

10. The glass laminating device according to any one of claims 1-4, further comprising a curing unit (5), wherein the work table (1) further comprises a curing position with respect to the support table, and wherein the curing unit (5) is adapted to cure the glue line between two glasses attached to each other when the work table (1) is in the curing position.

Images