CN220011475U - Feeding and separating equipment suitable for stacked films - Google Patents

Abstract

The utility model relates to feeding and separating equipment suitable for stacked films, which comprises an equipment base, wherein a jacking device is arranged on the equipment base, an operation platform is arranged on the jacking device, a discharging assembly is arranged on the operation platform, a material distributing device is arranged on the discharging assembly, a material taking device is arranged at the upper end of the discharging assembly on the operation platform, and an induction device is also arranged on the operation platform. Therefore, the jacking device is arranged, the heights of the front station and the rear station can be butted, and smooth material collection is facilitated. The independent discharging assembly is arranged, so that stacking and material preparation of films can be realized, and complicated single-sheet adding and using are avoided. By adopting the ion air knife as the material distributing device, the films in the stacking state can be separated in sequence, and unnecessary adhesion is avoided. And a sucker type material taking device is adopted to realize nondestructive adsorption material taking.

Description

Feeding and separating equipment suitable for stacked films

Technical Field

The utility model relates to a feeding device, in particular to a feeding separation device suitable for stacking films.

Background

For the existing integrated circuit processing, a plurality of films are often required to be adopted for film covering separation, so that materials can be stored and carried better. Currently, conventional films are stacked for use. During use, individual film take-off needs to be performed by means of a separating device.

However, the existing film pick-up devices continue to perform simple suction cup suction. During implementation, there are a number of adhesion defects easily present. Meanwhile, the arrangement of the lower substituted film is offset during the film taking out period, so that the next accurate taking is affected, and the coating use deviation is likely to occur.

In view of the above-mentioned drawbacks, the present inventors have actively studied and innovated to create a feeding and separating device suitable for stacking thin films, which has a more industrially useful value.

Disclosure of Invention

In order to solve the technical problems, the utility model aims to provide feeding and separating equipment suitable for stacking films.

The utility model relates to feeding and separating equipment suitable for stacked films, which comprises an equipment base, wherein: the equipment comprises a base, and is characterized in that a jacking device is arranged on the equipment base, an operation platform is arranged on the jacking device, a discharging assembly is arranged on the operation platform, a distributing device is arranged on the discharging assembly, a material taking device is arranged at the upper end of the discharging assembly, and an induction device is further arranged on the operation platform.

Further, the above-mentioned material loading splitter suitable for pile up film, wherein, jacking device is including the vertical guide support, be provided with linear electric motor in the vertical guide support, be provided with the installation piece on the linear electric motor, the installation piece links to each other with the operation platform.

Still further, the above-mentioned material loading splitter who is applicable to stacked film, wherein, the blowing subassembly is including the blowing base that links to each other with the operation platform, blowing base edge is provided with a plurality of gag levers post, the top of blowing frame is provided with the material opening, the position of extracting device is corresponding with the material opening.

Furthermore, the above-mentioned material loading splitter that is applicable to stacked film, wherein, feed divider is including the ion air knife that mirror image distributes in blowing subassembly both sides.

Still further, the above-mentioned material loading splitter who is applicable to stacking film, wherein, extracting device is including the lifting support, be provided with sucking disc subassembly on the lifting support, the working face of sucking disc subassembly is towards the blowing subassembly.

Furthermore, the above-mentioned feeding and separating device suitable for stacking films, wherein the sensing device is a sensor distributed on two sides of the discharging assembly in a mirror image manner.

Furthermore, the above-mentioned feeding and separating device for stacked films, wherein the sensor is a camera or the sensor is a grating.

Still further, the above-mentioned material loading splitter who is applicable to stacked film, wherein, the both sides of operating platform are provided with the extension board, induction system links to each other with the extension board.

By means of the scheme, the utility model has at least the following advantages:

1. the jacking device is arranged, so that the heights of the front station and the rear station can be butted, and smooth material collection is facilitated.

2. The independent discharging assembly is arranged, so that stacking and material preparation of films can be realized, and complicated single-sheet adding and using are avoided.

3. By adopting the ion air knife as the material distributing device, the films in the stacking state can be separated in sequence, and unnecessary adhesion is avoided.

4. And a sucker type material taking device is adopted to realize nondestructive adsorption material taking.

5. The whole structure is simple, the manufacture and the use are convenient, and the device can be adapted to the conventional film using equipment.

The foregoing description is only an overview of the present utility model, and is intended to provide a better understanding of the present utility model, as it is embodied in the following description, with reference to the preferred embodiments of the present utility model and the accompanying drawings.

Drawings

Fig. 1 is a schematic structural view of a feed separation device (horizontal lines are schematic views of gratings) suitable for stacking thin films.

The meaning of each reference numeral in the figures is as follows.

1. Jacking device for equipment base 2

3. Work platform 4 feed divider

5. Material taking device 6 induction device

7. Linear motor with vertical guide support 8

9. Limiting rod of discharging base 10

11. Film and method for producing the same

Detailed Description

The following describes in further detail the embodiments of the present utility model with reference to the drawings and examples. The following examples are illustrative of the utility model and are not intended to limit the scope of the utility model.

The feeding and separating device suitable for stacking films as shown in fig. 1 comprises a device base 1, which is distinctive in that: the equipment base 1 is provided with a jacking device 2. Meanwhile, an operation platform 3 is arranged on the jacking device 2, and a discharging assembly is arranged on the operation platform 3. In addition, in order to facilitate effective separation of the films, a material distributing device 4 is arranged on the material discharging component. During implementation, in order to be able to take materials in real time after the material separation is finished, the overall separation and material taking efficiency is improved, and a material taking device 5 can be arranged at the upper end of the material discharging component on the operation platform 3. Furthermore, in order to effectively sense the thickness of the current stack, so as to facilitate accurate separation and material taking and docking, an induction device 6 may be further disposed on the operation platform 3.

In connection with a preferred embodiment of the utility model, the jacking device 2 comprises a vertical guide bracket 7, a linear motor 8 is arranged in the vertical guide bracket 7, and a mounting block is arranged on the linear motor 8 and is connected with the working platform 3. Like this, on the reservation station of corresponding processing equipment was installed to equipment base 1, the realization is effectual perpendicular feed adjustment, can realize the best feed height according to the difference in height of preceding station from beginning to end, can satisfy convenient butt joint between each station, need not to adopt extra manipulator to carry the film transport of vertical direction.

Further, the discharging assembly comprises a discharging base 9 connected with the operation platform 3, a plurality of limiting rods 10 are arranged on the edge of the discharging base 9, and the stacked films are limited to avoid unnecessary transverse offset and sliding. Meanwhile, taking convenience of subsequent material taking into consideration, a material taking opening is formed in the top of the material discharging frame, and the position of the material taking device 5 corresponds to the material taking opening.

In view of practical implementation, the adopted material distributing device 4 comprises ion air knives which are distributed on two sides of the material discharging component in a mirror image mode. Thus, the top film 11 is smoothly separated from the films stacked below by the operation of the ion air knives. And no wrinkles or unnecessary adhesion occur during the separation process. Meanwhile, in order to realize smooth material taking butt joint after the film 11 is peeled off, the adopted material taking device 5 comprises a lifting bracket, a sucker assembly is arranged on the lifting bracket, and the working surface of the sucker assembly faces to the material discharging assembly. In this way, a non-destructive suction gripping of the film 11 can be achieved.

Still further, in order to implement sensing the position of the top film and the thickness of the stacked films, accurate adsorption material taking is convenient to achieve, and the films can be timely supplemented after being used up, the adopted sensing devices 6 are sensors distributed on two sides of the discharging assembly in a mirror image mode. In order to improve the sensing accuracy, the ion wind knife can be located in the sensing area of the sensor. During implementation, cameras may be employed to construct the sensor in order to achieve efficient image perception. Meanwhile, in view of implementation convenience, a grating can also be used to form the sensor. Furthermore, in order to provide a preferred sensing area, extension plates (not shown) may be provided on both sides of the work platform 3, to which the sensing device 6 is connected.

The working principle of the utility model is as follows: and after the sensor is started, corresponding induction is carried out. The jacking device 2 controls the operation platform 3 to a proper height, so that the material taking and butt joint can be conveniently carried out on the front working procedure and the back working procedure. After that, the material-separating device 4 starts to work, and the separation of the film 11 is realized. At the same time, the take-off device 5 starts to operate and adsorbs the separated film 11. The take-off device 5 may then transfer the film 11 to the device to be coated via a predetermined track or displacement apparatus. Alternatively, the relevant equipment for the subsequent processing step may directly transfer the separated film 11 to the transfer area. During this time, the sensing device 6 can perform sensing of the position and separation state of the film, and feed back to the background system.

As can be seen from the above text expressions and the accompanying drawings, the utility model has the following advantages:

1. the jacking device is arranged, so that the heights of the front station and the rear station can be butted, and smooth material collection is facilitated.

2. The independent discharging assembly is arranged, so that stacking and material preparation of films can be realized, and complicated single-sheet adding and using are avoided.

3. By adopting the ion air knife as the material distributing device, the films in the stacking state can be separated in sequence, and unnecessary adhesion is avoided.

4. And a sucker type material taking device is adopted to realize nondestructive adsorption material taking.

5. The whole structure is simple, the manufacture and the use are convenient, and the device can be adapted to the conventional film using equipment.

Furthermore, the description of the present utility model as to the orientation or positional relationship is based on the orientation or positional relationship shown in the drawings is for convenience of description and simplification of the description only, and is not intended to indicate or imply that the apparatus or configuration referred to must have a specific orientation or be operated in a specific orientation configuration, and thus should not be construed as limiting the present utility model.

The above description is only of the preferred embodiments of the present utility model and is not intended to limit the present utility model, and it should be noted that it is possible for those skilled in the art to make several improvements and modifications without departing from the technical principle of the present utility model, and these improvements and modifications should also be regarded as the protection scope of the present utility model.

Claims (8)

1. Feeding splitter suitable for pile up film, including equipment base, its characterized in that: the equipment comprises a base, and is characterized in that a jacking device is arranged on the equipment base, an operation platform is arranged on the jacking device, a discharging assembly is arranged on the operation platform, a distributing device is arranged on the discharging assembly, a material taking device is arranged at the upper end of the discharging assembly, and an induction device is further arranged on the operation platform.

2. The feed separation apparatus for stacked thin films as claimed in claim 1, wherein: the jacking device comprises a vertical guide support, a linear motor is arranged in the vertical guide support, and a mounting block is arranged on the linear motor and is connected with the operation platform.

3. The feed separation apparatus for stacked thin films as claimed in claim 1, wherein: the feeding assembly comprises a feeding base connected with the operation platform, a plurality of limiting rods are arranged at the edge of the feeding base, a material taking opening is formed in the top of the feeding base, and the position of the material taking device corresponds to the material taking opening.

4. The feed separation apparatus for stacked thin films as claimed in claim 1, wherein: the material distributing device comprises ion air knives which are distributed on two sides of the material discharging component in a mirror image mode.

5. The feed separation apparatus for stacked thin films as claimed in claim 1, wherein: the material taking device comprises a lifting support, a sucker assembly is arranged on the lifting support, and the working face of the sucker assembly faces towards the material discharging assembly.

6. The feed separation apparatus for stacked thin films as claimed in claim 1, wherein: the sensing devices are sensors which are distributed on two sides of the discharging assembly in a mirror image mode.

7. The feed separation apparatus for stacked thin films as claimed in claim 6, wherein: the sensor is a camera, or alternatively, the sensor is a grating.

8. The feed separation apparatus for stacked thin films as claimed in claim 1, wherein: extension plates are arranged on two sides of the operation platform, and the sensing device is connected with the extension plates.