阅读说明：本技术 玻璃覆膜用拉膜切割装置 (Film drawing and cutting device for glass film covering ) 是由 臧玉权 于 2019-09-26 设计创作，主要内容包括：本发明公开了一种玻璃覆膜用拉膜切割装置,包括机架,机架上设置有拉膜支架和切割支架；拉膜支架的一端设置有放膜支架,放膜支架上安装有放膜辊；所述拉膜支架上纵向排列有若干玻璃滚轴,且玻璃滚轴的两端分别设置有连接轴,连接轴通过轴承座安装在拉膜支架上；拉膜支架的下端纵向设置有两根导轨,两根导轨上共同安装有机械手移动装置,机械手移动装置上对称安装有左高度调节装置和右高度调节装置。本发明中的玻璃可以在一个工序上同时进行横向切割和纵向切割,一次输送,一次切割,可以对玻璃的横向边和纵向边进行切割,大大提高了切割效率,降低了工作的劳动强度,提高生产效率。(The invention discloses a film drawing and cutting device for glass film covering, which comprises a rack, wherein a film drawing bracket and a cutting bracket are arranged on the rack; one end of the film drawing support is provided with a film placing support, and a film placing roller is arranged on the film placing support; a plurality of glass rollers are longitudinally arranged on the film drawing support, connecting shafts are respectively arranged at two ends of each glass roller, and the connecting shafts are arranged on the film drawing support through bearing seats; two guide rails are longitudinally arranged at the lower end of the film drawing support, a manipulator moving device is jointly arranged on the two guide rails, and a left height adjusting device and a right height adjusting device are symmetrically arranged on the manipulator moving device. The glass can be transversely cut and longitudinally cut simultaneously in one process, and can be conveyed and cut at one time, so that the transverse edges and the longitudinal edges of the glass can be cut, the cutting efficiency is greatly improved, the labor intensity of work is reduced, and the production efficiency is improved.)

1. Glass tectorial membrane is with drawing membrane cutting device, its characterized in that: comprises a frame, wherein a film drawing bracket and a cutting bracket are arranged on the frame;

One end of the film drawing support is provided with a film placing support, and a film placing roller is arranged on the film placing support;

a plurality of glass rollers are longitudinally arranged on the film drawing support, connecting shafts are respectively arranged at two ends of each glass roller, and the connecting shafts are arranged on the film drawing support through bearing seats; the lower end of the film drawing support is longitudinally provided with two guide rails, the two guide rails are jointly provided with a manipulator moving device, the manipulator moving device is symmetrically provided with a left height adjusting device and a right height adjusting device, and a film drawing manipulator is arranged between the left height adjusting device and the right height adjusting device;

The cutting bracket is transversely installed on the film drawing bracket in a spanning manner; the cutting support is provided with an upper cross beam stretching over the film drawing support and a lower cross beam arranged below the film drawing support; the upper cross beam is provided with a transverse cutting device, and the lower cross beam is provided with a slidable longitudinal cutting device;

the mechanical arm moving device, the film pulling mechanical arm, the transverse cutting device and the longitudinal cutting device are connected with a PLC together; and a plurality of photoelectric switch sensors are installed on the film pulling support and the cutting support together, and all the photoelectric switch sensors are connected with the PLC together.

2. The glass adhesive film drawing and cutting device according to claim 1, wherein: the manipulator moving device comprises a left moving seat and a right moving seat which are clamped and connected to the guide rail in a sliding manner; a left vertical plate is mounted on the left moving seat, a left transverse plate is fixedly connected to the upper end of the left vertical plate, and the end of the inner side of the left transverse plate is connected with a left height adjusting device; a moving motor is fixedly connected to the right moving seat, a power output shaft of the moving motor is in transmission connection with a moving driving wheel, and the moving driving wheel is in contact with the guide rail; the right moving seat is provided with a right vertical plate, the upper end of the right vertical plate is fixedly connected with a right transverse plate, and the end part of the inner side of the right transverse plate is connected with a right height adjusting device.

3. The glass adhesive film drawing and cutting device according to claim 2, wherein: the left height adjusting device comprises a left adjusting plate arranged on the left transverse plate, a left support is arranged on the inner side surface of the left adjusting plate, a vertical left threaded rod is connected to the left support in a threaded manner, and a left handle is arranged at the upper end of the left threaded rod; the lower part of the left threaded rod is in threaded connection with a liftable left height adjusting seat, and the lower end of the left bracket is provided with a left limiting plate; the right height adjusting device comprises a right adjusting plate arranged on the right transverse plate, a right support is arranged on the inner side surface of the right adjusting plate, a vertical right threaded rod is connected with the right support in a threaded manner, and a right handle is arranged at the upper end of the right threaded rod; the lower part of the right threaded rod is in threaded connection with a right height adjusting seat capable of lifting, and the lower end of the right bracket is provided with a right limiting plate; a horizontal film pulling manipulator is fixedly connected between the left height adjusting seat and the right height adjusting seat.

4. The glass adhesive film drawing and cutting device according to claim 3, wherein: the transverse cutting device comprises a first transverse sliding seat arranged on the upper cross beam, a first transverse driving motor is arranged on the first transverse sliding seat, the first transverse driving motor is connected with a first transverse driving wheel through a power output shaft in a transmission way, the first transverse driving wheel is transmitted on the upper cross beam, and the first transverse driving wheel rotates to realize that the first transverse sliding seat moves on the upper cross beam; a first vertical plate is installed on one side of the first transverse sliding seat, a first vertical oil cylinder is installed on the first vertical plate, the lower end of a piston rod of the first vertical oil cylinder is fixedly connected with a first cutting seat, a first cutting motor is installed in the first cutting seat, and the first cutting motor is transversely arranged and is in transmission connection with a first cutting knife which is transversely installed.

5. The glass adhesive film drawing and cutting device according to claim 4, wherein: the longitudinal cutting device comprises a second transverse sliding seat arranged on the lower cross beam, a second transverse driving motor is arranged on the second transverse sliding seat, the second transverse driving motor is connected with a second transverse driving wheel through a power output shaft in a transmission way, the second transverse driving wheel is transmitted on the lower cross beam, and the second transverse driving wheel rotates to realize that the second transverse sliding seat moves on the lower cross beam; a second vertical plate is installed on one side of the second transverse sliding seat, a second cutting seat which is transversely arranged is fixedly connected to the upper end of the second vertical plate, a second cutting motor is installed in the second cutting seat, the second cutting motor is transversely arranged, and the second cutting motor is in transmission connection with a second cutting knife which is vertically installed; and the upper end of the second cutting seat is provided with a glue film guider.

6. the glass adhesive film drawing and cutting device according to claim 4, wherein: the glued membrane director is provided with the fixedly connected with guide holder including installing the deflector in second cutting seat upper end on the deflector, and the guide holder is connected with the movable rod through the pivot, and the end connection of movable rod has the guide roll, and is provided with the spring between the middle part of movable rod and the deflector.

Technical Field

The invention relates to the field of glass film covering processing equipment, in particular to a film drawing and cutting device for glass film covering.

Background

Glass, which is a traditional material, plays an increasingly important role with the development of modern technology. The glass is an important component in the field of inorganic non-metallic material science and engineering, is also the most important family in amorphous solids, and human beings research and innovate the traditional glass, invent a plurality of novel functional glass materials with properties and functions completely different from the traditional glass, and enable the glass to have special properties which are not possessed by the traditional glass. Glass science has become an emerging applied science.

The glass film is used as an important process in the glass production process, and the glass is coated with a special-purpose adhesive film, so that the glass has certain special purposes.

however, the existing film-drawing and cutting equipment in the glass film-coating process has some disadvantages, which are specifically shown in the following steps: the cutting of the glass film can only be transversely cut without the design of longitudinal cutting, so that the film needs to be cut twice, and the processing efficiency is greatly reduced.

Disclosure of Invention

Aiming at the defects in the prior art, the invention aims to provide the film drawing and cutting device for glass film coating, which is simple in structure and reasonable in design, can simultaneously perform transverse cutting and longitudinal cutting by means of the design of an upper cross beam and a lower cross beam, can cut the transverse edge and the longitudinal edge of glass by means of conveying, one-time conveying and one-time cutting of glass by means of a film placing support, greatly improves the cutting efficiency, reduces the labor intensity of work, improves the production efficiency, and is suitable for popularization.

in order to achieve the purpose, the invention provides the following technical scheme:

Glass tectorial membrane is with drawing membrane cutting device, its characterized in that: comprises a frame, wherein a film drawing bracket and a cutting bracket are arranged on the frame; one end of the film drawing support is provided with a film placing support, and a film placing roller is arranged on the film placing support; a plurality of glass rollers are longitudinally arranged on the film placing support, connecting shafts are respectively arranged at two ends of each glass roller, and the connecting shafts are arranged on the film placing support through bearing seats; the lower end of the film drawing support is longitudinally provided with two guide rails, the two guide rails are jointly provided with a manipulator moving device, the manipulator moving device is symmetrically provided with a left height adjusting device and a right height adjusting device, and a film drawing manipulator is arranged between the left height adjusting device and the right height adjusting device; the cutting bracket is transversely installed on the film drawing bracket in a spanning manner; the cutting support is provided with an upper cross beam stretching over the film drawing support and a lower cross beam arranged below the film drawing support; the upper cross beam is provided with a transverse cutting device, and the lower cross beam is provided with a slidable longitudinal cutting device; the mechanical arm moving device, the film pulling mechanical arm, the transverse cutting device and the longitudinal cutting device are connected with a PLC together; and a plurality of photoelectric switch sensors are installed on the film pulling support and the cutting support together, and all the photoelectric switch sensors are connected with the PLC together.

As an optimized technical scheme, the manipulator moving device comprises a left moving seat and a right moving seat which are connected on a guide rail in a sliding manner; a left vertical plate is mounted on the left moving seat, a left transverse plate is fixedly connected to the upper end of the left vertical plate, and the end of the inner side of the left transverse plate is connected with a left height adjusting device; a moving motor is fixedly connected to the right moving seat, a power output shaft of the moving motor is in transmission connection with a moving driving wheel, and the moving driving wheel is in contact with the guide rail; the right moving seat is provided with a right vertical plate, the upper end of the right vertical plate is fixedly connected with a right transverse plate, and the end part of the inner side of the right transverse plate is connected with a right height adjusting device.

As an optimized technical scheme, the left height adjusting device comprises a left adjusting plate arranged on a left transverse plate, a left bracket is arranged on the inner side surface of the left adjusting plate, a vertical left threaded rod is connected with the left bracket in a threaded manner, and a left handle is arranged at the upper end of the left threaded rod; the lower part of the left threaded rod is in threaded connection with a liftable left height adjusting seat, and the lower end of the left bracket is provided with a left limiting plate; the right height adjusting device comprises a right adjusting plate arranged on the right transverse plate, a right support is arranged on the inner side surface of the right adjusting plate, a vertical right threaded rod is connected with the right support in a threaded manner, and a right handle is arranged at the upper end of the right threaded rod; the lower part of the right threaded rod is in threaded connection with a right height adjusting seat capable of lifting, and the lower end of the right bracket is provided with a right limiting plate; a horizontal film pulling manipulator is fixedly connected between the left height adjusting seat and the right height adjusting seat.

As an optimized technical scheme, the transverse cutting device comprises a first transverse sliding seat mounted on the upper cross beam, a first transverse driving motor is mounted on the first transverse sliding seat, the first transverse driving motor is connected with a first transverse driving wheel through a power output shaft in a transmission manner, the first transverse driving wheel is transmitted on the upper cross beam, and the first transverse driving wheel rotates to realize that the first transverse sliding seat moves on the upper cross beam; a first vertical plate is installed on one side of the first transverse sliding seat, a first vertical air cylinder is installed on the first vertical plate, the lower end of a piston rod of the first vertical air cylinder is fixedly connected with a first cutting seat, a first cutting motor is installed in the first cutting seat, and the first cutting motor is transversely arranged and is in transmission connection with a first cutting knife which is transversely installed.

As an optimized technical scheme, the longitudinal cutting device comprises a second transverse sliding seat arranged on the lower cross beam, a second transverse driving motor is arranged on the second transverse sliding seat, the second transverse driving motor is connected with a second transverse driving wheel through a power output shaft in a transmission manner, the second transverse driving wheel is transmitted on the lower cross beam, and the second transverse driving wheel rotates to realize that the second transverse sliding seat moves on the lower cross beam; a second vertical plate is installed on one side of the second transverse sliding seat, a second cutting seat which is transversely arranged is fixedly connected to the upper end of the second vertical plate, a second cutting motor is installed in the second cutting seat, the second cutting motor is transversely arranged, and the second cutting motor is in transmission connection with a second cutting knife which is vertically installed; and the upper end of the second cutting seat is provided with a glue film guider.

As an optimized technical scheme, the glue film guider comprises a guide plate installed at the upper end of a second cutting seat, a fixedly connected guide seat is arranged on the guide plate, the guide seat is connected with a movable rod through a rotating shaft, the end part of the movable rod is connected with a guide roller, and a spring is arranged between the middle part of the movable rod and the guide plate.

Due to the adoption of the technical scheme, compared with the prior art, the invention has the beneficial effects that:

1. The glass can be transversely cut and longitudinally cut simultaneously in one process, and can be conveyed and cut at one time, so that the transverse edges and the longitudinal edges of the glass can be cut, the cutting efficiency is greatly improved, the labor intensity of work is reduced, and the production efficiency is improved.

2. The horizontal cutting and the longitudinal cutting can realize simultaneous cutting under the control of the PLC, control the cutting speed and the cutting distance, adapt to glass with different sizes and have good universality.

3. The film drawing support and the cutting support are provided with the two systems, so that the film drawing support and the cutting support are convenient to install, transport and disassemble and more convenient to maintain.

4. The glue film guider disclosed by the invention can ensure that the film is parallel and bubble-free, and has good film covering effect and reliable operation.

The invention is further illustrated with reference to the figures and examples.

Drawings

FIG. 1 is a schematic lateral structure of an embodiment of the present invention;

FIG. 2 is a schematic longitudinal structure of an embodiment of the present invention;

Fig. 3 is a schematic structural diagram of a film guide according to an embodiment of the present invention.

Detailed Description