CN215854292U - Incoming material preprocessing device - Google Patents

Abstract

The embodiment of the utility model discloses a supplied material preprocessing device, which comprises a rack, wherein a rolling shaft, an installation shaft, a pressing piece, a transmission piece and a rolling piece are arranged on the rack: the roller and the conveying piece tension incoming materials, and the conveying piece conveys the incoming materials; the pressing piece is arranged between the rolling shaft and the transmission piece; the mounting shaft is positioned above the pressing piece and used for mounting a reinforcing material; the pressing piece is used for pressing and attaching the reinforcing material to the side edge of the incoming material; the rolling piece is positioned below the pressing piece and used for rolling an original carrier of incoming materials. According to the incoming material pretreatment device provided by the embodiment of the utility model, the reinforcing material on the mounting shaft is pressed and attached to the side edge of the incoming material through the pressing piece, the reinforcing material can reinforce the structure of the incoming material, the stress capacity of the incoming material is improved, and the incoming material is not easy to break due to traction force such as transportation and the like in subsequent processing even if the original carrier is removed.

Description

Incoming material preprocessing device

Technical Field

The utility model relates to the technical field of incoming material pretreatment, in particular to an incoming material pretreatment device.

Background

In the current industrial automation production, various film materials are usually carried by carriers before use, for example, a transparent plastic film is used as a carrier, so that the film materials can play a role of protecting the film materials and are convenient to transport.

Some membrane materials are brittle, and are easy to break after the carrier is removed in the processing process, so that the subsequent processing problem is difficult to solve. Taking a graphite film forming coiled material as an example: the supplied graphite film is a film-covered coil material, and the surface of the coil material is covered with a layer of transparent plastic film. The graphite film needs to be punched, cleaned, dedusted, cut and the like during processing, but before punching, the coated film needs to be peeled off. When a transparent plastic film is arranged, the traction force applied to the transmission processing of the coiled graphite film is mainly acted on the transparent plastic film. When the transparent plastic film is peeled off, the graphite film is required to be pulled to be transmitted, and the pulling force mainly acts on the graphite film. The graphite film is brittle and easy to break, which affects the subsequent processing. Similarly, other membrane materials also suffer from this problem.

SUMMERY OF THE UTILITY MODEL

The embodiment of the utility model aims to provide an incoming material pretreatment device, which is used for pretreating a membrane material and preventing the membrane material from breaking after a carrier is removed.

The embodiment of the utility model discloses a supplied material preprocessing device which comprises a rack, wherein a rolling shaft, an installation shaft, a pressing piece, a transmission piece and a rolling piece are arranged on the rack; the roller and the conveying piece tension incoming materials, and the conveying piece conveys the incoming materials; the pressing piece is arranged between the rolling shaft and the transmission piece; the mounting shaft is positioned above the pressing piece and used for mounting a reinforcing material; the pressing piece is used for pressing and attaching the reinforcing material to the side edge of the incoming material; the rolling piece is positioned below the pressing piece and used for rolling an original carrier of incoming materials.

Optionally, the pressing part is used for pressing and attaching the reinforcing material to two side edges of the incoming material.

Optionally, the pressing member is provided with a rotatable first roller, and the first roller is used for pressing and attaching the reinforcing material to the side edge of the incoming material.

Optionally, an orthographic projection of the mounting shaft on the incoming material is located between the pressing part and the roller.

Optionally, the incoming material preprocessing device further comprises a tensioning member, wherein the tensioning member is arranged between the roller and the pressing member and used for pressing against the surface of the incoming material to tension the incoming material.

Optionally, the tensioning piece is provided with a second roller capable of rotating, and the second roller is used for abutting against the surface of the supplied material to tension the supplied material.

Optionally, the incoming material preprocessing device further comprises an auxiliary stripping piece, and the auxiliary stripping piece is arranged between the roller and the transmission piece and is located below the pressing piece; the auxiliary stripping piece is used for receiving the raw carrier at the stripping position of the raw carrier of the incoming material so as to assist the rolling piece in rolling the raw carrier of the incoming material.

Optionally, the auxiliary stripping element comprises a first carrying surface and a second carrying surface, the first carrying surface is located above the second carrying surface, and an included angle between the first carrying surface and the second carrying surface is an acute angle.

Optionally, a surface of a joint of the first carrying surface and the second carrying surface is a circular arc surface.

Optionally, the part of the auxiliary stripping element for bearing the original carrier is located behind the pressing element.

According to the incoming material pretreatment device provided by the embodiment of the utility model, the reinforcing material on the mounting shaft is pressed and attached to the side edge of the incoming material through the pressing piece, the reinforcing material can reinforce the structure of the incoming material, the stress capacity of the incoming material is improved, and the incoming material is not easy to break due to traction force such as transportation and the like in subsequent processing even if the original carrier is removed.

Drawings

The accompanying drawings, which are included to provide a further understanding of the embodiments of the utility model and are incorporated in and constitute a part of this specification, illustrate embodiments of the utility model and together with the description serve to explain the principles of the utility model. It is obvious that the drawings in the following description are only some embodiments of the utility model, and that for a person skilled in the art, other drawings can be derived from them without inventive effort. In the drawings:

FIG. 1 is a schematic view of an incoming material pretreatment apparatus according to an embodiment of the present invention;

FIG. 2 is a schematic view of an auxiliary stripper according to an embodiment of the utility model;

fig. 3 is a partially enlarged view of a portion a in fig. 2.

Wherein, 1, a roller; 2. installing a shaft; 3. a pressing member; 31. a first roller; 4. a transport member; 5. rolling up the piece; 6. a tensioning member; 61. a second roller; 7. an auxiliary stripping member; 71. a first carrying surface; 72. a second carrying surface; 8. feeding; 81. a protocarrier; 9. a reinforcing material.

Detailed Description

It is to be understood that the terminology, the specific structural and functional details disclosed herein are for the purpose of describing particular embodiments only, and are representative, but that the present invention may be embodied in many alternate forms and should not be construed as limited to only the embodiments set forth herein.

Embodiments of the utility model are described in detail below with reference to the figures and alternative embodiments.

As shown in fig. 1, as an embodiment of the present invention, an incoming material preprocessing device is disclosed, which includes a frame, and a roller 1, a mounting shaft 2, a pressing member 3, a transmission member 4, and a winding member 5 are disposed on the frame. The roller 1 and the conveying piece 4 tension the incoming material 8, and the conveying piece 4 conveys the incoming material 8; the pressing part 3 is arranged between the roller 1 and the transmission part 4; the mounting shaft 2 is positioned above the pressing piece 3 and is used for mounting a reinforcing material 9; the pressing piece 3 is used for pressing and attaching the reinforcing material 9 to the side edge of the incoming material 8; the roll-up member 5 is located below the pressing member 3 and used for rolling up the original carrier 81 of the incoming material 8.

According to the incoming material 8 pretreatment device provided by the embodiment of the utility model, the reinforcing material 9 on the mounting shaft 2 is pressed and attached to the side edge of the incoming material 8 through the pressing piece 3, the reinforcing material 9 can reinforce the structure of the incoming material 8, the stress capacity of the incoming material 8 is improved, and even if the original carrier 81 is removed, the incoming material 8 is not easy to break due to traction force such as transportation and the like in subsequent processing. Meanwhile, the adhesive tape is attached to the side edge of the incoming material 8 without affecting the normal use of the incoming material 8.

The incoming material 8 may be a graphite film or other raw material. In order to facilitate understanding of the technical scheme of the embodiment of the utility model, taking a graphite film as an example, the thickness of the graphite film is about 0.04mm, a layer of transparent plastic film with the thickness of about 0.08-0.1mm is coated on the surface of the graphite film, and the graphite film needs to be perforated. The perforated area is, for example, a rectangular area of 215x185mm, the aperture of the holes in the area is 0.1mm, and the spacing between the holes is 0.2 mm. But the transparent plastic film must be peeled off before perforation. When the transparent plastic film is provided, the coiled material is subjected to transmission processing, the pulling force is mainly applied to the transparent plastic film, and after the transparent plastic film is peeled, the graphite film is pulled to be transmitted forwards.

Tests show that the limit value of the tensile force which can be born by a certain graphite film after peeling off the transparent plastic film is 20N. After punching, the limit value of the tensile force which can be born by the punching machine is 6N. Because the production line is longer, the graphite film needs to be stripped, laminated, punched, cleaned, dedusted, cut and the like in the whole production process, and the process flow is complex. Therefore, during the transmission process, the transparent plastic coating is peeled off, and the graphite film is easy to break. The production process of the graphite film must be continuous, and the broken graphite film causes great loss and waste. Through the incoming material 8 pretreatment device provided by the embodiment of the utility model, the reinforcing materials 9 can be adhered to the two sides of the graphite film, and the reinforcing materials 9 bear stress in the processing processes of transmission and the like, so that the graphite film is prevented from being broken.

Illustratively, the material of the reinforcing material 9 may be an adhesive tape or the like. The original carrier 81 of the incoming material 8 may be a transparent plastic film as described above, but also other materials are possible. The manner in which the roller 1 and the transfer element 4 tension the incoming material 8 may be set according to the specific configuration of the incoming material 8. For example, as shown in fig. 1, where the incoming material 8 is in the form of a roll, the roller 1 may be used to mount the incoming material 8 in the form of a roll. I.e. the incoming web material 8 is directly inserted on the roller 1, and the incoming web material 8 is pulled and tensioned by the pulling of the conveyor 4. The conveying member 4 continuously pulls the incoming material 8, and the pressing member 3 presses and attaches the reinforcing material 9 to the side edge of the incoming material 8 in the moving process of the incoming material 8. At the same time, the roll receiver 5 rolls up the rolled original carrier 81.

The incoming material 8 may also be in the form of a sheet, a strip, etc. For example, when the incoming material 8 is in the form of a sheet or a strip, the roller 1 presses against the surface of the incoming material 8, and cooperates with the conveyor 4 to tension the incoming material 8, facilitating the attachment of the reinforcing material 9 and the removal of the original carrier 81. That is, the incoming 8 preprocessing device according to the embodiment of the present invention can be applied to both the roll incoming 8 as shown in fig. 1 and the sheet incoming 8, the strip incoming 8, and the like.

The transmission member 4 can be driven to rotate by a driving device such as a motor. The conveying member 4 may be, for example, two conveying rollers disposed opposite to each other up and down, and the supplied material 8 is sandwiched therebetween, and at least one of the conveying rollers is driven to rotate by a driving device such as a motor to convey the supplied material 8. The roll-up member 5 can also be driven by a driving device such as a motor to rotate so as to roll up the original carrier 81 of the incoming material 8.

The press part 3 may be attached with the reinforcing material 9 on one side of the incoming material 8, or may be attached with the reinforcing material 9 on both sides of the incoming material 8. Specifically, the pressing member 3 is used for pressing and attaching the reinforcing material 9 to both side edges of the incoming material 8. In the scheme, the reinforcing materials 9 are attached to the two sides of the incoming material 8 of the pressing piece 3, and the incoming material 8 is reinforced after the original carrier 81 is removed, so that the structure is not easy to break. As shown in fig. 1, in order to attach the reinforcing material 9 to both sides of the incoming material 8, the length of the collated element is greater than the width of the incoming material 8.

Further, the pressing member 3 is provided with a rotatable first roller 311, and the first roller 311 is used for pressing and attaching the reinforcing material 9 to the side edge of the incoming material 8. In this scheme, in the in-process that supplied material 8 removed, first roller bearing 311 can rotate thereupon, reduces the effort and the frictional force of holding member 3 to supplied material 8, and supplied material 8 is difficult to the fracture. Of course, in other embodiments, the first roller 311 may not be disposed on the pressing member 3.

Further, as shown in fig. 1, an orthographic projection of the mounting shaft 2 on the incoming material 8 is located between the pressing member 3 and the roller 1, that is, the mounting shaft 2 is located at the front upper part of the pressing member 3. Thus, the included angle between the reinforcing material 9 not attached to the side of the incoming material 8 and the reinforcing material 9 attached to the side of the incoming material 8 is obtuse, so that the pressing member 3 can be more smoothly attached to the side of the incoming material 8 more easily. If the mounting shaft 2 is disposed at the rear upper portion of the pressing member 3, the included angle between the reinforcing material 9 not attached to the side of the incoming material 8 and the reinforcing material 9 already attached to the side of the incoming material 8 is acute, and it is difficult for the pressing member 3 to smoothly and easily attach the reinforcing material 9 to the side of the incoming material 8.

Further, the incoming material 8 preprocessing device further comprises a tensioning member 6, wherein the tensioning member 6 is arranged between the roller 1 and the pressing member 3 and used for pressing against the surface of the incoming material 8 to tension the incoming material 8. In this embodiment, the incoming material 8 is further tensioned by the pressing of the tensioning member 6 between the attachment of the reinforcing material 9. The supplied material 8 is more tense, and the attaching effect of the reinforcing material 9 is better. More specifically, the tensioning member 6 is provided with a rotatable second roller 611, and the second roller 611 is used for pressing against the surface of the incoming material 8 to tension the incoming material 8. In this scheme, at the in-process that supplied material 8 removed, second roller bearing 611 can rotate thereupon, reduces the effort and the frictional force of tensioning piece 6 to supplied material 8, and supplied material 8 is difficult to the fracture. Of course, in other embodiments, the tensioning member 6 may not be provided with the second roller 611.

As shown in fig. 2, the incoming material 8 preprocessing device further comprises an auxiliary stripping member 7, wherein the auxiliary stripping member 7 is arranged between the roller 1 and the transmission member 4 and is positioned below the pressing member 3; the auxiliary peeling member 7 is configured to receive the original carrier 81 at a peeling position of the original carrier 81 of the incoming web 8, so as to assist the roll receiver 5 in rolling up the original carrier 81 of the incoming web 8. In the scheme, as shown in fig. 2 and 3, the auxiliary stripping piece 7 is arranged to provide a stripping fulcrum for the original carrier 81 of the incoming material 8 collected by the rolling member 5, so that the rolling member 5 can conveniently roll down the original material. Meanwhile, the auxiliary peeling member 7 can fix the peeling position of the original carrier 81 of the supplied material 8, and even if the winding speed of the receiver 5 is faster than the transport speed of the supplied material 8, the peeling position is not easily changed.

More specifically, the auxiliary peeling element 7 comprises a first carrying surface 71 and a second carrying surface 72, the first carrying surface 71 is located above the second carrying surface 72, and an included angle between the first carrying surface 71 and the second carrying surface 72 is an acute angle. In the scheme, the joint of the first carrying surface 71 and the second carrying surface 72 is an acute angle, and a peeling fulcrum is formed at the joint, so that the rolling member 5 can conveniently roll the raw material, and the peeling position is not easy to change.

More specifically, as shown in fig. 3, the surface of the joint of the first carrying surface 71 and the second carrying surface 72 is a circular arc surface, which can prevent the original carrier 81 of the incoming material 8 from being cut off at the joint of the first carrying surface 71 and the second carrying surface 72.

More specifically, as shown in fig. 2, the position where the auxiliary peeling member 7 receives the original carrier 81 is located behind the pressing member 3. In this embodiment, the position where the auxiliary peeling member 7 receives the original carrier 81 is located behind the pressing member 3, that is, the peeling position of the original carrier 81 is located behind the position where the reinforcing material 9 is attached. The incoming material 8 can be attached with the reinforcing material 9 before the original carrier 81 is removed, so that the incoming material 8 can be prevented from being broken by force due to the early removal of the original carrier 81. It should be noted that the rear part is defined by the moving direction of the incoming material 8, that is, when the incoming material 8 moves, the part first passes through the pressing member 3 and then passes through the auxiliary peeling member 7 to receive the original carrier 81.

The foregoing is a more detailed description of the utility model in connection with specific alternative embodiments, and the practice of the utility model should not be construed as limited to those descriptions. For those skilled in the art to which the utility model pertains, several simple deductions or substitutions can be made without departing from the spirit of the utility model, and all shall be considered as belonging to the protection scope of the utility model.

Claims (10)

1. The incoming material pretreatment device is characterized by comprising a rack, wherein a rolling shaft, a mounting shaft, a pressing part, a transmission part and a rolling part are arranged on the rack;

the roller and the conveying piece tension incoming materials, and the conveying piece conveys the incoming materials; the pressing piece is arranged between the rolling shaft and the transmission piece; the mounting shaft is positioned above the pressing piece and used for mounting a reinforcing material; the pressing piece is used for pressing and attaching the reinforcing material to the side edge of the incoming material; the rolling piece is positioned below the pressing piece and used for rolling an original carrier of incoming materials.

2. The incoming material pretreatment device according to claim 1, wherein said pressing member is adapted to press and attach said reinforcing material to both sides of the incoming material.

3. The incoming material pretreatment device according to claim 1, wherein said pressing member is provided with a first rotatable roller for pressing said reinforcing material against the side edge of the incoming material.

4. The incoming material pretreatment device according to claim 1, wherein an orthographic projection of said mounting shaft on the incoming material is located between said pressing member and said roller.

5. The incoming material pretreatment device according to any one of claims 1 to 4, further comprising a tensioning member disposed between said roller and said pressing member for pressing against the incoming material surface to tension the incoming material.

6. The incoming material pretreatment device according to claim 5, wherein said tensioning member is provided with a second rotatable roller for pressing against the incoming material surface to tension the incoming material.

7. The incoming material pretreatment device according to any one of claims 1 to 4, further comprising an auxiliary peeling member disposed between said roller and said conveying member and below said pressing member; the auxiliary stripping piece is used for receiving the raw carrier at the stripping position of the raw carrier of the incoming material so as to assist the rolling piece in rolling the raw carrier of the incoming material.

8. The incoming material pretreatment device of claim 7, wherein the auxiliary stripping element comprises a first section and a second section, the first section being positioned above the second section, and an included angle between the first section and the second section being an acute angle.

9. The incoming material pretreatment device of claim 8, wherein a surface at a junction of the first section and the second section is a circular arc surface.

10. The incoming material pretreatment device according to claim 7, wherein a portion of said auxiliary peeling member receiving the original carrier is located rearward of said pressing member.

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