CN105216423B

CN105216423B - Be applied to horizontal laminating machine of glass production and processing

Info

Publication number: CN105216423B
Application number: CN201510615196.XA
Authority: CN
Inventors: 应伟苹
Original assignee: Shengzhou Huanding Glass Technology Co ltd
Current assignee: Jiangsu Jingdun New Material Technology Co ltd
Priority date: 2015-09-23
Filing date: 2015-09-23
Publication date: 2020-05-01
Anticipated expiration: 2035-09-23
Also published as: CN105216423A

Abstract

The invention discloses a horizontal film laminating machine applied to glass production and processing, which comprises a rack and a glass conveying table, wherein the glass conveying table is positioned on the rack, a glass workpiece is arranged on the glass conveying table, a film laminating device, a laminating device and a film cutting device are sequentially arranged on the glass conveying table along the conveying direction of the glass workpiece, the film laminating device comprises an upper film laminating device and a lower film laminating device, the upper film laminating device is positioned above the glass conveying table, the lower film laminating device is positioned below the glass conveying table, the laminating device comprises an upper laminating device and a lower laminating device, the upper laminating device comprises an upper laminating frame and an upper laminating cover, the upper laminating frame and the upper laminating cover are positioned above the glass conveying table, the lower laminating device comprises a lower laminating frame and a lower laminating cover, and the lower laminating frame and the lower laminating cover are positioned below the glass conveying table. The film covering device covers the upper surface and the lower surface of the glass workpiece with films simultaneously through the upper film covering device and the lower film covering device, and all film covering work is finished at one time, so that the working efficiency of the machine is improved.

Description

Be applied to horizontal laminating machine of glass production and processing

Technical Field

The invention relates to a horizontal film laminating machine applied to glass production and processing.

Background

A glass panel film laminating machine is special equipment for attaching protective films to the upper and lower surfaces of a glass sheet. The glass panel laminating machine in the prior art adopts a guide roller conveying structure, but the input front end of a guide roller is a clamping device, so that the glass panel is easy to deviate, and the laminating is not accurate. The output end of the guide roller lacks of a leveling device, and the output after the film coating of the glass panel is easy to wrinkle instantly. When the glass panel with a small thickness and a large area is used, an ideal film laminating device capable of automatically laminating the film and automatically and neatly cutting the film along the glass edge does not exist, so that the glass panel laminating device has the following defects: (1) the film cutting machine is only suitable for cutting the glass with fixed length; (2) the film can not be cut along the glass edge in a flush manner; (3) certain film edges are left on the glass edges after film cutting, so that the required protection effect is difficult to achieve; (4) thin glass is easily broken when cutting films.

Disclosure of Invention

The invention aims to provide a horizontal film laminating machine applied to glass production and processing, which has the advantages of simple structure, scientific convenience, strong pertinence and high automation degree, can automatically finish film laminating and film cutting, effectively improves the working efficiency and well solves the film laminating problem of glass panels. The film covering device covers the upper surface and the lower surface of the glass workpiece with films simultaneously through the upper film covering device and the lower film covering device, and all film covering work is finished at one time, so that the working efficiency of the machine is improved. The pressing device simultaneously presses the upper surface and the lower surface of the glass workpiece through the upper pressing device and the lower pressing device, and all pressing works are completed at one time, so that the working efficiency of the machine is improved. The upper pressing device can freely slide on the upper pressing guide rail through the upper transmission screw rod, so that the upper pressing device is suitable for glass workpieces with different widths, and the pressing work on the upper pressing device is completed. The lower pressing device can freely slide on the lower pressing guide rail through the lower transmission screw rod, so that the lower pressing device is suitable for glass workpieces with different widths, and the lower pressing work of the lower pressing device is completed.

In order to solve the technical problems, the following technical scheme is adopted:

the utility model provides a be applied to horizontal laminating machine of glass production and processing, carry the platform including frame and glass, the glass is carried the platform and is located the frame, the glass is carried the bench and is equipped with the glass work piece, be equipped with the tectorial membrane device in proper order along the direction that the glass work piece carried at the glass is carried the bench, compression fittings and film cutting device, the tectorial membrane device includes tectorial membrane device and lower tectorial membrane device, it is located the top of glass transport platform to cover the membrane device, it includes upper film frame, upper film roller, upper wind-up roll, upper film roller and upper film guide roll to cover the membrane device, upper film roller, upper wind-up roll, upper film roller and upper film guide roll are all fixed mounting in upper film frame, it is equipped with the upper rubber film to put the film roller, the upper rubber film loops through upper film guide roll, upper film roller and upper wind-up roll, lower tectorial membrane device is located the below of glass transport platform, lower tectorial membrane device includes, The lower laminating roller, the lower winding roller, the lower laminating roller and the lower film guiding roller are fixedly arranged in a lower laminating frame, a lower adhesive film is arranged on the lower laminating roller, the lower adhesive film sequentially passes through the lower film guiding roller, the lower laminating roller and the lower winding roller, the laminating device comprises an upper laminating device and a lower laminating device, the upper laminating device comprises an upper laminating frame and an upper laminating cover, the upper laminating frame and the upper laminating cover are positioned above a glass conveying table, an upper laminating guide rail and an upper transmission screw rod are arranged in the upper laminating cover, the upper laminating guide rail and the upper transmission screw rod are fixedly arranged on the upper laminating frame, the lower laminating device comprises a lower laminating frame and a lower laminating cover, the lower laminating frame and the lower laminating cover are positioned below the glass conveying table, a lower laminating guide rail and a lower transmission screw rod are arranged in the lower laminating cover, the lower laminating guide rail and the lower transmission screw rod are fixedly arranged on the lower laminating frame, and the film cutting device comprises a film cutting frame, the film cutting frame is fixedly arranged on the frame. The film covering device covers the upper surface and the lower surface of the glass workpiece with films simultaneously through the upper film covering device and the lower film covering device, and all film covering work is finished at one time, so that the working efficiency of the machine is improved. The pressing device simultaneously presses the upper surface and the lower surface of the glass workpiece through the upper pressing device and the lower pressing device, and all pressing works are completed at one time, so that the working efficiency of the machine is improved. The upper pressing device can freely slide on the upper pressing guide rail through the upper transmission screw rod, so that the upper pressing device is suitable for glass workpieces with different widths, and the pressing work on the upper pressing device is completed. The lower pressing device can freely slide on the lower pressing guide rail through the lower transmission screw rod, so that the lower pressing device is suitable for glass workpieces with different widths, and the lower pressing work of the lower pressing device is completed.

Further, an upper pressing seat is arranged on the upper pressing guide rail, an upper pressing cylinder and an upper fixing support are arranged on the upper pressing seat, the upper fixing support is movably mounted on the upper pressing seat, the upper pressing cylinder is fixed on the side face of the upper pressing frame, the upper pressing cylinder is connected with an upper pressing lever, the other end of the upper pressing lever is connected with an upper pressing shaft, the upper pressing shaft is movably mounted in the upper fixing support, the upper pressing shaft is connected with an upper connecting rod, the other end of the upper connecting rod is connected with an upper sliding rod, and the other end of the upper sliding rod is connected with an upper pressing seat. When the upper surface of the glass workpiece needs to be pressed, the upper pressing cylinder is started to make telescopic linear motion, and the upper pressing lever is driven to pry the upper pressing shaft to rotate. And a lower through hole (not marked in the figure) which enables the upper connecting rod to do vertical linear motion is arranged on the upper fixing support, and finally, under the linkage action of the upper pressing shaft, the upper pressing seat is driven by the upper sliding rod to press and level the upper surface of the coated glass workpiece, so that the upper surface of the coated glass workpiece is smoother and leveled. The upper pressing shaft consists of a pressing shaft connecting block at the left end and a pressing shaft rotating rod (not marked in the figure) at the right end, and the upper pressing lever is connected through the pressing shaft rotating rod at the right end to connect the upper pressing shaft and the upper pressing lever together. The left end of the pressing shaft connecting block is internally provided with a pressing shaft connecting groove (not marked in the figure), the pressing shaft connecting groove is connected with the upper fixing support groove of the upper fixing support through a screw, so that the upper connecting rod can slide in a lower through hole (not marked in the figure) of the upper fixing support, and the structure has the advantages of stable transmission, convenience in maintenance, low price and small occupied space.

Further, a lower pressing seat is arranged on the lower pressing guide rail, a lower pressing cylinder and a lower fixing support are arranged on the lower pressing seat, the lower fixing support is movably mounted on the lower pressing seat, the lower pressing cylinder is fixed on the side face of the lower pressing frame, the lower pressing cylinder is connected with a lower pressing lever, the other end of the lower pressing lever is connected with a lower pressing shaft, the lower pressing shaft is movably mounted in the lower fixing support, the lower pressing shaft is connected with a lower connecting rod, the other end of the lower connecting rod is connected with a lower sliding rod, and the other end of the lower sliding rod is connected with a lower pressing seat. When the lower surface of the glass workpiece needs to be pressed, the lower pressing cylinder is started to make telescopic linear motion, and the lower pressing lever is driven to pry the lower pressing shaft to rotate. And an upper through hole (not marked in the figure) which enables the lower connecting rod to do vertical linear motion is arranged on the lower fixing support, and finally, the lower pressing seat is driven by the lower sliding rod to press and level the lower surface of the coated glass workpiece under the linkage action of the lower pressing shaft, so that the lower surface of the coated glass workpiece is smoother and leveled.

Further, the upper transmission screw rod is arranged between the upper press-fit guide rails, the lower transmission screw rod is arranged between the lower press-fit guide rails, the end portion of the upper transmission screw rod is provided with an upper synchronizing wheel, the end portion of the lower transmission screw rod is provided with a lower synchronizing wheel, a synchronous belt is arranged between the upper synchronizing wheel and the lower synchronizing wheel, the upper synchronizing wheel and the lower synchronizing wheel are connected through the synchronous belt for transmission, and the synchronous belt is connected with a driving motor. Through setting up hold-in range and driving motor, under the effect of last drive lead screw and lower drive lead screw, make compression fittings carry out pressfitting and the in-process of flattening to two upper and lower surfaces of glass work piece, can freely slide on last pressfitting guide rail and lower pressfitting guide rail respectively, help compresses tightly the seat and compresses tightly the seat pressfitting and the upper and lower surface of flattening glass work piece down on the seat.

Furthermore, the upper film-releasing roller is connected with an upper driven belt pulley, an upper transmission belt is sleeved on the upper driven belt pulley, the other end of the upper transmission belt is connected with an upper driving belt pulley, an upper transmission shaft is sleeved in the upper driving belt pulley, and the upper transmission shaft is connected with an upper transmission motor. Drive the transmission shaft through last drive motor and begin to rotate, under the effect of last drive belt, drive and put the membrane roller and begin to move on, put the last glued membrane of membrane roller like this, respectively through leading the membrane roller on with covering the membrane roller, begin the tectorial membrane to the upper surface of glass work piece.

Further, the lower film-placing roller is connected with a lower driven belt pulley, a lower transmission belt is sleeved on the lower driven belt pulley, the other end of the lower transmission belt is connected with a lower driving belt pulley, a lower transmission shaft is sleeved in the lower driving belt pulley, and the lower transmission shaft is connected with a lower transmission motor. Drive the underdrive axle through underdrive motor and begin to rotate, under the effect of underdrive belt, drive and transfer the motion of membrane roller, transfer the lower glued membrane of membrane roller like this, through leading membrane roller and lower tectorial membrane roller down respectively, begin the tectorial membrane to the lower surface of glass work piece.

Furthermore, an upper dust suction roller is arranged in front of the upper film coating roller, an upper cleaning roller is arranged above the upper dust suction roller, a lower dust suction roller is arranged in front of the lower film coating roller, and a lower cleaning roller is arranged below the lower dust suction roller. The upper dust suction roller is tightly attached to the upper cleaning roller, the lower dust suction roller is tightly attached to the lower cleaning roller, and cleaning paper is arranged on the upper cleaning roller and the lower cleaning roller. However, when the glass cleaning machine starts to work, the upper dust suction roller and the lower dust suction roller can stick dust on the upper surface and the lower surface of the glass workpiece and then carry away the dust through the upper cleaning roller and the lower cleaning roller.

Further, an upper leveling roller is arranged between the upper film coating roller and the upper winding roller, a lower leveling roller is arranged between the lower film coating roller and the lower winding roller, an upper leveling cylinder is arranged above the upper leveling roller, and a lower leveling cylinder is arranged below the lower leveling roller. Through last flattening cylinder and lower flattening cylinder, carry out the flattening to the glass work piece that just tectorial membrane is good, conveniently carry out pressing treatment to the film on next step.

Further, be equipped with on the film cutting frame and cut the membrane guide rail and cut the membrane slider, cut the membrane guide rail and cut the membrane slider phase-match, be equipped with on the membrane cutting slider and cut the membrane seat, be equipped with on the membrane cutting seat and cut the membrane sword. Through cutting the membrane guide rail, cut the membrane frame and can slide on cutting the membrane guide rail to drive and cut the membrane work of accomplishing of membrane sword.

Furthermore, a front photoelectric switch is arranged in front of the film covering device, a rear photoelectric switch is arranged behind the film cutting device, and the front photoelectric switch and the rear photoelectric switch are both movably fixed on the glass conveying table. The front photoelectric switch and the rear photoelectric switch can freely slide on the glass conveying table, and the distances between the front photoelectric switch and the rear photoelectric switch and the film laminating device and the distance between the front photoelectric switch and the rear photoelectric switch and the film cutting device are adjusted through different glass workpieces coated with films, so that the film laminating device and the film cutting device can conveniently perform film laminating and film cutting work.

Due to the adoption of the technical scheme, the method has the following beneficial effects:

the invention relates to a horizontal laminating machine applied to glass production and processing, which has the advantages of simple structure, scientific convenience, strong pertinence and high automation degree, can automatically finish laminating and film cutting, effectively improves the working efficiency and well solves the laminating problem of glass panels. The film covering device covers the upper surface and the lower surface of the glass workpiece with films simultaneously through the upper film covering device and the lower film covering device, and all film covering work is finished at one time, so that the working efficiency of the machine is improved. The pressing device simultaneously presses the upper surface and the lower surface of the glass workpiece through the upper pressing device and the lower pressing device, and all pressing works are completed at one time, so that the working efficiency of the machine is improved. The upper pressing device can freely slide on the upper pressing guide rail through the upper transmission screw rod, so that the upper pressing device is suitable for glass workpieces with different widths, and the pressing work on the upper pressing device is completed. The lower pressing device can freely slide on the lower pressing guide rail through the lower transmission screw rod, so that the lower pressing device is suitable for glass workpieces with different widths, and the lower pressing work of the lower pressing device is completed.

When the upper surface of the glass workpiece needs to be pressed, the upper pressing cylinder is started to make telescopic linear motion, and the upper pressing lever is driven to pry the upper pressing shaft to rotate. And a lower through hole (not marked in the figure) which enables the upper connecting rod to do vertical linear motion is arranged on the upper fixing support, and finally, under the linkage action of the upper pressing shaft, the upper pressing seat is driven by the upper sliding rod to press and level the upper surface of the coated glass workpiece, so that the upper surface of the coated glass workpiece is smoother and leveled. The upper pressing shaft consists of a pressing shaft connecting block at the left end and a pressing shaft rotating rod (not marked in the figure) at the right end, and the upper pressing lever is connected through the pressing shaft rotating rod at the right end to connect the upper pressing shaft and the upper pressing lever together. The left end of the pressing shaft connecting block is internally provided with a pressing shaft connecting groove (not marked in the figure), the pressing shaft connecting groove is connected with the upper fixing support groove of the upper fixing support through a screw, so that the upper connecting rod can slide in a lower through hole (not marked in the figure) of the upper fixing support, and the structure has the advantages of stable transmission, convenience in maintenance, low price and small occupied space. When the lower surface of the glass workpiece needs to be pressed, the lower pressing cylinder is started to make telescopic linear motion, and the lower pressing lever is driven to pry the lower pressing shaft to rotate. And an upper through hole (not marked in the figure) which enables the lower connecting rod to do vertical linear motion is arranged on the lower fixing support, and finally, the lower pressing seat is driven by the lower sliding rod to press and level the lower surface of the coated glass workpiece under the linkage action of the lower pressing shaft, so that the lower surface of the coated glass workpiece is smoother and leveled. Through setting up hold-in range and driving motor, under the effect of last drive lead screw and lower drive lead screw, make compression fittings carry out pressfitting and the in-process of flattening to two upper and lower surfaces of glass work piece, can freely slide on last pressfitting guide rail and lower pressfitting guide rail respectively, help compresses tightly the seat and compresses tightly the seat pressfitting and the upper and lower surface of flattening glass work piece down on the seat.

Drive the transmission shaft through last drive motor and begin to rotate, under the effect of last drive belt, drive and put the membrane roller and begin to move on, put the last glued membrane of membrane roller like this, respectively through leading the membrane roller on with covering the membrane roller, begin the tectorial membrane to the upper surface of glass work piece. Drive the underdrive axle through underdrive motor and begin to rotate, under the effect of underdrive belt, drive and transfer the motion of membrane roller, transfer the lower glued membrane of membrane roller like this, through leading membrane roller and lower tectorial membrane roller down respectively, begin the tectorial membrane to the lower surface of glass work piece. The upper dust suction roller is tightly attached to the upper cleaning roller, the lower dust suction roller is tightly attached to the lower cleaning roller, and cleaning paper is arranged on the upper cleaning roller and the lower cleaning roller. However, when the glass cleaning machine starts to work, the upper dust suction roller and the lower dust suction roller can stick dust on the upper surface and the lower surface of the glass workpiece and then carry away the dust through the upper cleaning roller and the lower cleaning roller.

Drawings

The invention will be further described with reference to the accompanying drawings in which:

FIG. 1 is a schematic structural diagram of a horizontal laminating machine applied to glass production and processing in the invention;

FIG. 2 is a schematic structural view of the pressing device with the upper pressing cover and the lower pressing cover removed according to the present invention;

FIG. 3 is a schematic view of the film covering device according to the present invention;

FIG. 4 is a schematic perspective view of the upper press-fitting device with the upper press-fitting cover removed according to the present invention;

FIG. 5 is an enlarged view of the structure at I in FIG. 4 according to the present invention;

FIG. 6 is a schematic structural view of a film cutting apparatus according to the present invention;

FIG. 7 is a schematic plan view of the upper bonding apparatus with the upper bonding cover removed according to the present invention;

fig. 8 is a schematic plan view of the lower bonding apparatus with the lower bonding cover removed.

Detailed Description

As shown in fig. 1 to 8, a horizontal laminating machine applied to glass production and processing comprises a frame 1 and a glass conveying table 2, wherein the glass conveying table 2 is positioned on the frame 1. The glass conveying table 2 is provided with a glass workpiece 3, and the glass conveying table 2 is provided with a film coating device 4, a pressing device 6 and a film cutting device 8 in sequence along the conveying direction of the glass workpiece 3. The film coating device 4 includes an upper film coating device located above the glass conveying table 2 and a lower film coating device located below the glass conveying table 2. The pressing device 6 comprises an upper pressing device and a lower pressing device, the upper pressing device comprises an upper pressing frame 61 and an upper pressing cover 64, the upper pressing frame 61 and the upper pressing cover 64 are located above the glass conveying table 2, an upper pressing guide rail 62 and an upper transmission screw 65 are arranged in the upper pressing cover 64, and the upper pressing guide rail 62 and the upper transmission screw 65 are fixedly installed on the upper pressing frame 61. The lower pressing device comprises a lower pressing frame 71 and a lower pressing cover 74, the lower pressing frame 71 and the lower pressing cover 74 are located below the glass conveying table 2, a lower pressing guide rail 72 and a lower transmission screw rod 75 are arranged in the lower pressing cover 74, and the lower pressing guide rail 72 and the lower transmission screw rod 75 are fixedly installed on the lower pressing frame 71. The film cutting device 8 comprises a film cutting frame 81, and the film cutting frame 81 is fixedly arranged on the frame 1. The film cutting frame 81 is provided with a film cutting guide rail 82 and a film cutting slide block 83, the film cutting guide rail 82 is matched with the film cutting slide block 83, the film cutting slide block 83 is provided with a film cutting seat 84, and the film cutting seat 84 is provided with a film cutting knife 85. Through the film cutting guide rail 82, the film cutting frame 81 can slide on the film cutting guide rail 82, so as to drive the film cutting knife 85 to complete the film cutting operation. The front part of the film covering device 4 is provided with a front photoelectric switch 9, the rear part of the film cutting device 8 is provided with a rear photoelectric switch 10, and the front photoelectric switch 9 and the rear photoelectric switch 10 are both movably fixed on the glass conveying table 2. The front photoelectric switch 9 and the rear photoelectric switch 10 can freely slide on the glass conveying table 2, and the distances between the front photoelectric switch 9 and the rear photoelectric switch 10 and the film laminating device 4 and the film cutting device 8 are adjusted through the glass workpieces 3 with different film laminating, so that the film laminating and film cutting work of the film laminating device 4 and the film cutting device 8 is facilitated. The film covering device 4 covers the upper surface and the lower surface of the glass workpiece 3 with films through the upper film covering device and the lower film covering device at the same time, and all film covering work is completed at one time, so that the working efficiency of the machine is improved. The pressing device 6 presses the upper surface and the lower surface of the glass workpiece 3 simultaneously through the upper pressing device and the lower pressing device, and all pressing works are completed at one time, so that the working efficiency of the machine is improved. The upper pressing device can freely slide on the upper pressing guide rail 62 through the upper transmission screw rod 65, so that the upper pressing device is suitable for glass workpieces 3 with different widths, and the pressing work on the upper pressing device is completed. The lower pressing device can freely slide on the lower pressing guide rail 72 through the lower transmission screw rod 75, so as to adapt to glass workpieces 3 with different widths and complete the lower pressing work.

The upper pressing guide rail 62 is provided with an upper pressing seat 63, the upper pressing seat 63 is provided with an upper pressing cylinder 69 and an upper fixing support 66, the upper fixing support 66 is movably mounted on the upper pressing seat 63, the upper pressing cylinder 69 is fixed on the side surface of the upper pressing frame 61, the upper pressing cylinder 69 is connected with an upper pressing lever 68, the other end of the upper pressing lever 68 is connected with an upper pressing shaft 67, the upper pressing shaft 67 is movably mounted in the upper fixing support 66, the upper pressing shaft 67 is connected with an upper connecting rod 21, the other end of the upper connecting rod 21 is connected with an upper sliding rod 22, and the other end of the upper sliding rod 22 is connected with an upper pressing seat 23. When the upper surface of the glass workpiece 3 needs to be pressed, the upper pressing cylinder 69 is started to make the upper pressing cylinder 69 do telescopic linear motion, and the upper pressing lever 68 is driven to pry the upper pressing shaft 67 to rotate. And a lower through hole (not marked in the figure) which enables the upper connecting rod 21 to do vertical linear motion is arranged on the upper fixing support 66, and finally, under the linkage action of the upper pressing shaft 67, the upper pressing seat 23 is driven by the upper sliding rod 22 to press and level the upper surface of the coated glass workpiece 3, so that the upper surface of the coated glass workpiece is smoother and leveled. The upper pressing shaft 67 is composed of a left-end pressing shaft connecting block and a right-end pressing shaft rotating rod (not shown), and the upper pressing lever 68 is connected through the right-end pressing shaft rotating rod to connect the upper pressing shaft 67 and the upper pressing lever 68 together. The left end of the pressing shaft connecting block is internally provided with a pressing shaft connecting groove (not marked in the figure), and the pressing shaft connecting groove is connected with the upper fixing support 66 groove of the upper fixing support 66 through a screw, so that the upper connecting rod 21 can slide in a lower through hole (not marked in the figure) of the upper fixing support 66, and the structure has the advantages of stable transmission, convenience in maintenance, low price and small occupied space. The lower pressing guide rail 72 is provided with a lower pressing seat 73, the lower pressing seat 73 is provided with a lower pressing cylinder 79 and a lower fixing support 76, the lower fixing support 76 is movably mounted on the lower pressing seat 73, the lower pressing cylinder 79 is fixed on the side surface of the lower pressing frame 71, the lower pressing cylinder 79 is connected with a lower pressing lever 78, the other end of the lower pressing lever 78 is connected with a lower pressing shaft 77, the lower pressing shaft 77 is movably mounted in the lower fixing support 76, the lower pressing shaft 77 is connected with a lower connecting rod 24, the other end of the lower connecting rod 24 is connected with a lower sliding rod 25, and the other end of the lower sliding rod 25 is connected with a lower pressing seat 26. When the lower surface of the glass workpiece 3 needs to be pressed, the lower pressing cylinder 79 is started, and the lower pressing cylinder 79 makes telescopic linear motion to drive the lower pressing lever 78 to pry the lower pressing shaft 77 to rotate. The lower fixing support 76 is provided with an upper through hole (not shown) which enables the lower connecting rod 24 to do vertical linear motion, and finally, under the linkage action of the lower pressing shaft 77, the lower sliding rod 25 drives the lower pressing seat 26 to press and level the lower surface of the coated glass workpiece 3, so that the lower surface is smoother and leveled. The upper transmission screw rod 65 is arranged between the upper pressing guide rails 62, the lower transmission screw rod 75 is arranged between the lower pressing guide rails 72, the end portion of the upper transmission screw rod 65 is provided with an upper synchronous wheel 27, the end portion of the lower transmission screw rod 75 is provided with a lower synchronous wheel 28, a synchronous belt 29 is arranged between the upper synchronous wheel 27 and the lower synchronous wheel 28, the upper synchronous wheel 27 and the lower synchronous wheel 28 are connected through the synchronous belt 29 for transmission, and the synchronous belt 29 is connected with a driving motor 30. By arranging the synchronous belt 29 and the driving motor 30, the pressing device 6 can freely slide on the upper pressing guide rail 62 and the lower pressing guide rail 72 respectively in the process of pressing and leveling the upper surface and the lower surface of the glass workpiece 3 under the action of the upper transmission screw 65 and the lower transmission screw 75, so as to help the upper pressing base 23 and the lower pressing base 26 to press and level the upper surface and the lower surface of the glass workpiece 3.

The film covering device comprises an upper film covering frame 41, an upper film placing roller 46, an upper winding roller 19, an upper film covering roller 49 and an upper film guiding roller 48, wherein the upper film placing roller 46, the upper winding roller 19, the upper film covering roller 49 and the upper film guiding roller 48 are fixedly installed in the upper film covering frame 41, an upper film covering film 47 is arranged on the upper film placing roller 46, and the upper film covering film 47 sequentially passes through the upper film guiding roller 48, the upper film covering roller 49 and the upper winding roller 19. Lower tectorial membrane device includes lower tectorial membrane frame 51, lower winding up roll 56, lower wind-up roll 20, lower tectorial membrane roller 59 and lower guide roll 58, and lower tectorial membrane roller 56, lower wind-up roll 20, lower tectorial membrane roller 59 and lower guide roll 58 are all fixed mounting in lower tectorial membrane frame 51, are equipped with down glued membrane 57 on the lower tectorial membrane roller 56, and lower glued membrane 57 loops through lower guide roll 58, lower tectorial membrane roller 59 and lower wind-up roll 20. The upper film releasing roller 46 is connected with an upper driven belt pulley 45, an upper transmission belt 44 is sleeved on the upper driven belt pulley 45, the other end of the upper transmission belt 44 is connected with an upper driving belt pulley 43, an upper transmission shaft 35 is sleeved in the upper driving belt pulley 43, and the upper transmission shaft 35 is connected with an upper transmission motor 42. The upper transmission motor 42 drives the upper transmission shaft 35 to start rotating, and the upper film laying roller 46 is driven to start moving under the action of the upper transmission belt 44, so that the upper adhesive film 47 of the upper film laying roller 46 starts to coat the upper surface of the glass workpiece 3 through the upper film guide roller 48 and the upper film coating roller 49 respectively. The film lowering roller 56 is connected with a lower driven belt pulley 55, a lower transmission belt 54 is sleeved on the lower driven belt pulley 55, the other end of the lower transmission belt 54 is connected with a lower driving belt pulley 53, a lower transmission shaft 36 is sleeved in the lower driving belt pulley 53, and the lower transmission shaft 36 is connected with a lower transmission motor 52. The lower transmission shaft 36 is driven by the lower transmission motor 52 to start rotating, the lower film-releasing roller 56 is driven to start moving under the action of the lower transmission belt 54, and the lower adhesive film 57 of the film-releasing roller 56 starts to be coated on the lower surface of the glass workpiece 3 through the lower film-guiding roller 58 and the lower film-coating roller 59 respectively. An upper dust suction roller 11 is arranged in front of the upper coating roller 49, an upper cleaning roller 12 is arranged above the upper dust suction roller 11, a lower dust suction roller 13 is arranged in front of the lower coating roller 59, and a lower cleaning roller 14 is arranged below the lower dust suction roller 13. The upper dust suction roller 11 is closely attached to the upper cleaning roller 12, the lower dust suction roller 13 is closely attached to the lower cleaning roller 14, and cleaning paper is arranged on the upper cleaning roller 12 and the lower cleaning roller 14. However, when the glass work 3 starts to work, the upper dust suction roller 11 and the lower dust suction roller 13 stick dust on the upper surface and the lower surface of the glass work 3, and then the dust is carried away by the upper cleaning roller 12 and the lower cleaning roller 14. An upper leveling roller 16 is arranged between the upper coating roller 49 and the upper wind-up roller 19, a lower leveling roller 18 is arranged between the lower coating roller 59 and the lower wind-up roller 20, an upper leveling cylinder 15 is arranged above the upper leveling roller 16, and a lower leveling cylinder 17 is arranged below the lower leveling roller 18. Through last flattening cylinder 15 and lower flattening cylinder 17, carry out the flattening to the glass work piece 3 that just has laminated film, conveniently carry out pressing treatment to the film on next step.

The invention relates to a working principle of a horizontal laminating machine applied to glass production and processing, which comprises the following steps: when the film covering operation is started, the distances between the front photoelectric switch 9 and the rear photoelectric switch 10 and the film covering device 4 and the film cutting device 8 are adjusted according to the size of the glass workpiece 3, so that the film covering operation and the film cutting operation of the film covering device 4 and the film cutting device 8 are facilitated. Then, the glass workpiece 3 is transported from the left side of the glass transport table 2 through the glass transport table 2, when the front end of the glass workpiece 3 passes through the front photoelectric switch 9, the film coating device 4 starts to work, and the upper film coating device and the lower film coating device are used for simultaneously performing film coating treatment on the upper surface and the lower surface of the glass workpiece 3 respectively, so that the film coating work is completed. And then, the coated glass workpiece 3 passes through the pressing device 6, and the pressing device 6 adjusts the relative positions of the upper pressing seat 23 and the lower pressing seat 26 and the glass workpiece 3 by controlling the upper pressing cylinder 69, the lower pressing cylinder 79 and the driving motor 30, so that the pressing operation is completed. Finally, when the front end of the glass workpiece 3 passes through the rear photoelectric switch 10, the film cutting device 8 starts to work, the film cutting frame 81 slides on the film cutting guide rail 82 to drive the film cutting knife 85 to complete the film cutting work, and the film-cut glass workpiece 3 is output from the right end of the glass conveying table 2, so that the whole film coating work is completed.

The above is only a specific embodiment of the present invention, but the technical features of the present invention are not limited thereto. Any simple changes, equivalent substitutions or modifications made on the basis of the present invention to solve the same technical problems and achieve the same technical effects are all covered in the protection scope of the present invention.

Claims

1. The utility model provides a be applied to horizontal laminating machine of glass production and processing, includes frame and glass and carries the platform, the glass carries the platform to be located in the frame, its characterized in that: the glass conveying table is provided with a glass workpiece, the glass conveying table is sequentially provided with a film coating device, a pressing device and a film cutting device along the conveying direction of the glass workpiece, the film coating device comprises an upper film coating device and a lower film coating device, the upper film coating device is located above the glass conveying table, the upper film coating device comprises an upper film coating frame, an upper film placing roller, an upper winding roller, an upper film coating roller and an upper film guiding roller, the upper film placing roller, the upper winding roller, the upper film coating roller and the upper film guiding roller are fixedly arranged in the upper film coating frame, an upper film coating is arranged on the upper film placing roller, the upper film coating sequentially passes through the upper film guiding roller, the upper film coating roller and the upper winding roller, the lower film coating device is located below the glass conveying table, and the lower film coating device comprises a lower film coating frame, a lower film placing roller and a lower winding roller, The lower laminating roller, the lower winding roller, the lower laminating roller and the lower film guiding roller are fixedly arranged in the lower laminating frame, a lower adhesive film is arranged on the lower laminating roller, the lower adhesive film sequentially passes through the lower film guiding roller, the lower laminating roller and the lower winding roller, the laminating device comprises an upper laminating device and a lower laminating device, the upper laminating device comprises an upper laminating frame and an upper laminating cover, the upper laminating frame and the upper laminating cover are positioned above the glass conveying table, an upper laminating guide rail and an upper transmission screw rod are arranged in the upper laminating cover, the upper laminating guide rail and the upper transmission screw rod are fixedly arranged on the upper laminating frame, the lower laminating device comprises a lower laminating frame and a lower laminating cover, the lower laminating frame and the lower laminating cover are positioned below the glass conveying table, and a lower laminating guide rail and a lower transmission screw rod are arranged in the lower laminating cover, the lower pressing guide rail and the lower transmission screw rod are fixedly arranged on the lower pressing frame, the film cutting device comprises a film cutting frame, the film cutting frame is fixedly arranged on the frame, the upper pressing guide rail is provided with an upper pressing seat, the upper pressing seat is provided with an upper pressing cylinder and an upper fixing support, the upper fixing support is movably arranged on the upper pressing seat, the upper pressing cylinder is fixed on the side surface of the upper pressing frame, the upper pressing cylinder is connected with an upper pressing lever, the other end of the upper pressing lever is connected with an upper pressing shaft, the upper pressing shaft is movably arranged in the upper fixing support, the upper pressing shaft is connected with an upper connecting rod, the other end of the upper connecting rod is connected with an upper sliding rod, the other end of the upper sliding rod is connected with an upper pressing seat, the lower pressing guide rail is provided with a lower pressing seat, and the lower pressing cylinder and the lower fixing support are arranged on the lower pressing seat, the lower fixing support is movably arranged on the lower pressing seat, the lower pressing cylinder is fixed on the side face of the lower pressing frame, the lower pressing cylinder is connected with a lower pressing lever, the other end of the lower pressing lever is connected with a lower pressing shaft, the lower pressing shaft is movably arranged in the lower fixing support, the lower pressing shaft is connected with a lower connecting rod, the other end of the lower connecting rod is connected with a lower sliding rod, and the other end of the lower sliding rod is connected with a lower pressing seat.

2. The horizontal laminating machine applied to glass production and processing according to claim 1, is characterized in that: the upper transmission screw rod is arranged between the upper press-fit guide rails, the lower transmission screw rod is arranged between the lower press-fit guide rails, an upper synchronizing wheel is arranged at the end part of the upper transmission screw rod, a lower synchronizing wheel is arranged at the end part of the lower transmission screw rod, a synchronous belt is arranged between the upper synchronizing wheel and the lower synchronizing wheel, the upper synchronizing wheel and the lower synchronizing wheel are connected through the synchronous belt for transmission, and the synchronous belt is connected with a driving motor.

3. The horizontal laminating machine applied to glass production and processing according to claim 1, is characterized in that: the upper film-releasing roller is connected with an upper driven belt pulley, an upper transmission belt is sleeved on the upper driven belt pulley, the other end of the upper transmission belt is connected with an upper driving belt pulley, an upper transmission shaft is sleeved in the upper driving belt pulley, and the upper transmission shaft is connected with an upper transmission motor.

4. The horizontal laminating machine applied to glass production and processing according to claim 1, is characterized in that: the film transfer roller is connected with a lower driven belt pulley, a lower transmission belt is sleeved on the lower driven belt pulley, the other end of the lower transmission belt is connected with a lower driving belt pulley, a lower transmission shaft is sleeved in the lower driving belt pulley, and the lower transmission shaft is connected with a lower transmission motor.

5. The horizontal laminating machine applied to glass production and processing according to claim 1, is characterized in that: an upper dust suction roller is arranged in front of the upper film coating roller, an upper cleaning roller is arranged above the upper dust suction roller, a lower dust suction roller is arranged in front of the lower film coating roller, and a lower cleaning roller is arranged below the lower dust suction roller.

6. The horizontal laminating machine applied to glass production and processing according to claim 1, is characterized in that: the upper film covering roller and the upper wind-up roller are provided with an upper leveling roller therebetween, the lower film covering roller and the lower wind-up roller are provided with a lower leveling roller therebetween, an upper leveling cylinder is arranged above the upper leveling roller, and a lower leveling cylinder is arranged below the lower leveling roller.

7. The horizontal laminating machine applied to glass production and processing according to claim 1, is characterized in that: the film cutting frame is provided with a film cutting guide rail and a film cutting slide block, the film cutting guide rail is matched with the film cutting slide block, the film cutting slide block is provided with a film cutting seat, and the film cutting seat is provided with a film cutting knife.

8. The horizontal laminating machine applied to glass production and processing according to claim 1, is characterized in that: the front part of the film covering device is provided with a front photoelectric switch, the rear part of the film cutting device is provided with a rear photoelectric switch, and the front photoelectric switch and the rear photoelectric switch are movably fixed on the glass conveying table.