Separating device for display panel interleaf paper

By designing a separation device for the display panel interlayer paper, sensors and driving components are used to automatically separate the display panel from the interlayer paper, solving the problem of paper being carried out when the display panel is removed, improving efficiency and reducing the risk of panel damage.

CN224466932UActive Publication Date: 2026-07-07LG DISPLAY HIGH-TECH (CHINA) CO LTD

Patent Information

Authority / Receiving Office
CN · China
Patent Type
Utility models(China)
Current Assignee / Owner
LG DISPLAY HIGH-TECH (CHINA) CO LTD
Filing Date
2025-08-13
Publication Date
2026-07-07

AI Technical Summary

Technical Problem

During the manufacturing process of display panels, the interlayer paper underneath is easily pulled out when the display panel is removed, which requires additional personnel to manually separate it, affecting efficiency.

Method used

A device for separating the interlayer paper of a display panel is designed. The device uses a sensor to sense the position of the display panel and a drive to drive a separator to abut against the surface of the interlayer paper, preventing the interlayer paper from moving with the panel and achieving automatic separation.

Benefits of technology

It achieves automatic separation of the display panel and the interlayer paper, avoiding manual intervention, improving efficiency and reducing the risk of display panel damage.

✦ Generated by Eureka AI based on patent content.

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Abstract

The utility model discloses a kind of separation devices of display panel interleaf, the separation device includes connecting structure and separation structure, connecting structure includes structure main body and connecting piece, connecting piece is located in structure main body, and connecting piece is used to make structure main body detachably connected in the opening of the storage box of display panel, separation structure includes separating piece, driving part and inductor, separating piece is connected in structure main body by driving part, separating piece has the separating end away from driving part, driving part can drive separating end to be close to the edge of opening or towards the center of opening movement, inductor is located in structure main body and is connected in driving part, inductor can sense display panel through preset area, the separating end of separating piece can be abutted on the surface of interleaf, block interleaf further with display panel movement, so that in the process of display panel continues to take out, interleaf can be separated from display panel.
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Description

Technical Field

[0001] This utility model relates to the field of display panel manufacturing technology, and in particular to a device for separating interlayer paper in display panels. Background Technology

[0002] During the display panel manufacturing process, storage boxes with an opening on one side are needed to store and transport the display panels. For example... Figure 1 and Figure 2 As shown, the storage box 300' typically contains multiple display panels 100', which are stacked on top of each other, and a buffer paper 200' is provided between any two adjacent display panels 100' to prevent them from bumping into each other.

[0003] When removing the display panel 100' from the opening 300a' inside the storage box 300', a vacuum suction head is usually used to suction the display panel 100' from the side of the display panel 100' near the opening 300a'. Then, the display panel 100' is lifted by the vacuum suction head manually or automatically to be removed from the opening 300a'.

[0004] However, during the process of removing the display panel 100' from the opening 300a', due to electrostatic adsorption, the partition paper 200' underneath the display panel 100' will be pulled out along with it. In related technologies, additional personnel are usually required to separate the partition paper 200' pulled out by the display panel 100' from the display panel 100' next to the storage box 300'. Utility Model Content

[0005] The purpose of this invention is to provide a device for separating the interlayer paper of a display panel, which can automatically separate the display panel from the interlayer paper.

[0006] To achieve this objective, the present invention adopts the following technical solution:

[0007] A device for separating interlayer paper between display panels is provided, comprising:

[0008] A connection structure, comprising a main body and a connector, wherein the connector is disposed on the main body and is used to detachably connect the main body to the opening of a storage box for the display panel; and,

[0009] A separation structure includes a separation component, a driving component, and a sensor. The separation component is connected to the main body of the structure via the driving component. The separation component has a separation end away from the driving component. The driving component can drive the separation end to move closer to the edge of the opening or toward the center of the opening. The sensor is disposed in the main body of the structure and is communicatively connected to the driving component. The sensor can sense the display panel passing through a preset area.

[0010] As a preferred embodiment of the separation device for display panel interlayer paper, the driving member is capable of driving the separating member to rotate relative to the main structure; or...

[0011] The driving component can drive the separating component to extend or retract relative to the main structure along its own extension direction.

[0012] As a preferred embodiment of the separation device for the interlayer paper of the display panel, the separating element is elastic, and / or the surface of the separating end is covered with an elastic buffer layer.

[0013] As a preferred embodiment of the separation device for the interlayer paper of the display panel, the separation member has a first section and a second section connected to each other, the first section has the separation end, the second section is connected to the driving member, and the elasticity of the first section is greater than that of the second section.

[0014] As a preferred embodiment of the separation device for the interlayer paper of the display panel, the separation member has a dimension d in a direction perpendicular to the extension direction of the separation member, the dimension d gradually decreasing from the end away from the separation end toward the separation end.

[0015] As a preferred embodiment of the separation device for display panel interlayer paper, the separation element is made of conductive material, and the separation device further includes a grounding element, one end of which is electrically connected to the separation element, and the other end of which is grounded.

[0016] As a preferred embodiment of the separation device for display panel interlayer paper, the main structure includes a first plate, a second plate, and a third plate connected in sequence. The first plate and the third plate are spaced apart and parallel to each other, forming an accommodating space between the first plate, the second plate, and the third plate. The connector is used to detachably lock the main structure to a portion of the storage box located within the accommodating space. The driving member and the sensor are both located on the first plate. The driving member can drive the separation end to move closer to the first plate along the relative direction between the first plate and the third plate, or to move the separation end away from the first plate and closer to the center of the opening. The preset area is located on the side of the first plate away from the third plate.

[0017] As a preferred embodiment of the separation device for the display panel interlayer, the connector includes a threaded fastener having opposing fastening ends and a toggle end. The threaded fastener is threadedly connected to a threaded hole on the third plate, such that the fastening end is located within the receiving space, and the toggle end is located on the side of the third plate opposite to the first plate. The fastening end and the first plate can be pressed against the two opposing sides of the storage box located within the receiving space.

[0018] As a preferred embodiment of the separation device for the interlayer paper of the display panel, the connector includes a clamping head and an elastic member. The clamping head is located within the receiving space, and the elastic member is connected between the clamping head and the third plate. The elastic member can apply an elastic force to the clamping head, causing the clamping head to tend to move towards the first plate. The clamping head and the first plate can be pressed against two opposite sides of the storage box located within the receiving space.

[0019] As a preferred embodiment of the separation device for the display panel interlayer, both the first plate and the third plate are rotatably provided with rollers, the rollers being located within the accommodating space. The rollers provided on the first plate can abut against the inner surface of the storage box, and the rollers provided on the third plate can abut against the outer peripheral surface of the storage box.

[0020] The advantages of this utility model compared to the prior art are:

[0021] The present invention relates to a device for separating the interlayer paper from a display panel. This device can be detachably connected to the opening of the display panel storage box via a connecting structure. During the process of removing the display panel from the opening, a sensor can detect when the display panel passes through a preset area. After the display panel passes through the preset area, a driving component drives the separating component to move relative to the main body of the structure toward the center of the opening. This allows the separating end of the separating component to abut against the surface of the interlayer paper, preventing the interlayer paper from moving further with the display panel. As the display panel continues to be removed, the interlayer paper can be separated from the display panel.

[0022] In addition, before the display panel passes through the preset area, the separation end can be brought close to the edge of the opening to avoid interference between the separation component and the display panel, which could cause damage to the display panel. Attached Figure Description

[0023] Figure 1 A schematic diagram of the structure of a storage box containing a display panel and partition paper, provided for the prior art.

[0024] Figure 2 A schematic diagram of the structure for retrieving the display panel from the self-contained box, provided for existing technology.

[0025] Figure 3 This is a schematic diagram of the structure of the separation device in the storage box according to an embodiment of the present invention.

[0026] Figure 4 This is a schematic diagram of the structure of a separation device in one state according to an embodiment of the present invention.

[0027] Figure 5 This is a schematic diagram of the structure of a separation device according to an embodiment of the present invention in another state.

[0028] Figure 6 This is a schematic diagram of another separation device according to an embodiment of the present invention.

[0029] Figure 7 This is a schematic diagram of the structure of another separation device according to an embodiment of the present invention in one state.

[0030] Figure 8 This is a schematic diagram of the structure of another separation device in another state according to an embodiment of the present invention.

[0031] Figures 1 to 2 middle:

[0032] 100', Display panel;

[0033] 200', interleaved paper;

[0034] 300', storage box; 300a', opening.

[0035] Figures 3 to 8 middle:

[0036] 100. Display panel;

[0037] 200. Interlocking paper;

[0038] 300, storage box; 300a, opening;

[0039] 400. Separation device;

[0040] 1. Connecting structure; 11. Main structure; 111. First plate; 112. Second plate; 113. Third plate; 113a. Threaded hole; 114. Roller; 11a. Accommodating space; 12. Connecting component; 121. Threaded fastener; 121a. Fastening end; 121b. Twist end; 122. Clamping head; 123. Elastic component;

[0041] 2. Separation structure; 21. Separation component; 210. Separation end; 211. First section; 212. Second section; 213. Elastic buffer layer; 22. Driving component; 23. Sensor; 24. Grounding component. Detailed Implementation

[0042] The advantages and features of this invention, as well as methods of implementing them, will become apparent from the following detailed description of the embodiments in conjunction with the accompanying drawings. However, this invention is not limited to the embodiments disclosed below, but can be implemented in various different forms. These embodiments are provided merely to complete the disclosure of this invention and to enable those skilled in the art to fully understand its scope, which is defined only by the scope of the claims. The same reference numerals denote the same constituent elements throughout the specification.

[0043] The present invention will now be described in detail with reference to the accompanying drawings.

[0044] like Figures 3 to 5 As shown, a separation device 400 for separating a display panel 100 from a paper 200 is provided, including a connecting structure 1 and a separation structure 2. The connecting structure 1 includes a main body 11 and a connector 12. The connector 12 is disposed on the main body 11 and is used to detachably connect the main body 11 to the opening 300a of the storage box 300 of the display panel 100. The separation structure 2 includes a separation member 21, a driving member 22, and a sensor 23. The separation member 21 is connected to the main body 11 via the driving member 22. The separation member 21 has a separation end 210 away from the driving member 22. The driving member 22 can drive the separation end 210 to move closer to the edge of the opening 300a or toward the center of the opening 300a. The sensor 23 is disposed on the main body 11 and communicatively connected to the driving member 22. The sensor 23 can sense the display panel 100 passing through a preset area. Figure 4 An exemplary structure of a separation device 400 is shown, in which the separating end 210 moves toward the center of the opening 300a to a position close to the center of the opening 300a. Figure 5 An exemplary structure of a separation device 400 is shown when the separation end 210 is close to the edge of the opening 300a.

[0045] The separation device 400 for the display panel 100 and the paper separator 200 of this utility model can be detachably connected to the opening 300a of the storage box 300 of the display panel 100 via the connector 12. During the process of removing the display panel 100 from the opening 300a, the sensor 23 can sense that the display panel 100 has passed through the preset area towards which the sensor 23 is facing. Thus, after the display panel 100 has passed through the preset area, the driving member 22 drives the separating member 21 to move relative to the main body 11 toward the center of the opening 300a, so that at least the separating end 210 of the separating member 21 can abut against the surface of the paper separator 200, preventing the paper separator 200 from moving further with the display panel 100. Thus, during the process of removing the display panel 100, the paper separator 200 can be separated from the display panel 100.

[0046] Furthermore, before the display panel 100 passes through the preset area, the problem of interference between the separating member 21 and the display panel 100, which could cause damage to the display panel 100, can be avoided by bringing the separating end 210 close to the edge of the opening 300a.

[0047] It should be noted that the "preset area" mentioned above specifically refers to the spatial area in which the sensor 23 can perform its sensing function.

[0048] In one optional embodiment, the driving member 22 can drive the separating member 21 to extend and retract relative to the structural body 11 along its own extending direction, so that the separating member 21 can retract into the structural body 11, bringing the separating end 210 close to the edge of the adjacent partial opening 300a, and can also cause the separating member 21 to extend out of the structural body 11 toward the center of the opening 300a, thereby moving the separating end 210 away from the edge and closer to the center of the opening 300a. In this case, the driving member 22 may include, but is not limited to, a linear motor or a lead screw motor. Figure 4 An exemplary embodiment of a separation device 400 structure is shown, in which the separating member 21 extends from the main body 11 toward the center of the opening 300a and is close to the center of the opening 300a. Figure 5 An exemplary structure of a separation device 400 is shown, in which the separating member 21 is retracted into the structural body 11 so that the separating end 210 is close to the edge of the opening 300a.

[0049] like Figure 3 , Figures 6 to 8 As shown, in another optional embodiment, the driving member 22 can drive the separating member 21 to rotate relative to the structural body 11. This allows the driving member 22 to rotate the separating member 21 relative to the structural body 11 until the separating member 21 as a whole is close to the edge of the adjacent partial opening 300a, thereby moving the separating end 210 away from the center of the opening 300a. Alternatively, the driving member 22 can be driven to rotate relative to the structural body 11 until the extending direction of the separating member 21 is approximately perpendicular to the edge of the adjacent partial opening 300a, thereby moving the separating end 210 away from the edge and pointing towards the center of the opening 300a. In this case, the driving member 22 may include, but is not limited to, a rotary motor or a swing motor. Figure 7 An exemplary embodiment is shown of a separation device 400 structure in which the extending direction of the separating member 21 is approximately perpendicular to the edge of the adjacent partial opening 300a, such that the separating end 210 is away from the edge and points towards the center of the opening 300a. Figure 8 An exemplary structure of a separation device 400 is shown, in which the separation member 21 is generally close to the edge of the adjacent partial opening 300a, thereby making the separation end 210 close to the edge of the opening 300a.

[0050] To prevent damage to the display panel 100 caused by the separation end 210 of the separating member 21 impacting the display panel 100 during its movement towards the center of the opening 300a, since the display panel 100 may not have completely passed through the preset area, in an optional embodiment, the separating member 21 may be elastic. This reduces the impact force exerted by the separating end 210 on the display panel 100 when it impacts, thereby lowering the possibility of damage to the display panel 100. For example, the separating member 21 may be, but is not limited to, a spring or spring sheet structure.

[0051] Please see again Figure 4 Optionally, the separating member 21 has a first segment 211 and a second segment 212 connected to each other. The first segment 211 has a separating end 210, and the second segment 212 is connected to the driving member 22. The elasticity of the first segment 211 is greater than that of the second segment 212, so that the elasticity of the first segment 211 is better. When the separating end 210 impacts the display panel 100, the impact force exerted by the separating end 210 on the display panel 100 is smaller, while the structural strength of the second segment 212 is better, so that it can better support the first segment 211 to move closer to the center of the opening 300a, and the separating end 210 can more effectively block the paper 200 from moving with the display panel 100.

[0052] For example, the elasticity of the first segment 211 can be made greater than that of the second segment 212 by making at least one of the materials, internal structures, structural shapes, etc. of the first segment 211 and the second segment 212 different.

[0053] Optionally, along a direction perpendicular to the extension direction of the separating member 21, the separating member 21 has a dimension d, which gradually decreases from the end away from the separating end 210 toward the separating end 210. This allows the elasticity of the separating member 21 to gradually increase from the end away from the separating end 210 toward the separating end 210, so that the separating member 21 can better support the moving of the separating end 210 to the center near the opening 300a. This also allows the separating end 210 to effectively block the paper 200 from moving with the display panel 100, while making the elasticity of the separating end 210 greater. This can significantly reduce the impact force exerted by the separating end 210 on the display panel 100 when it impacts the display panel 100.

[0054] In another alternative embodiment, the surface of the separating end 210 is covered with an elastic buffer layer 213, so that when the separating end 210 impacts the display panel 100, the elastic buffer layer 213 can form a buffer to reduce the impact force on the display panel 100, thereby reducing the possibility of damage to the display panel 100.

[0055] Preferably, while the separating member 21 is elastic, at least the surface of the separating end 210 is covered with an elastic buffer layer 213, thereby further reducing the impact force on the display panel 100 when the separating end 210 hits the display panel 100, so that the possibility of damage to the display panel 100 is lower.

[0056] Optionally, the separating member 21 is made of conductive material, and the separating device 400 also includes a grounding member 24. One end of the grounding member 24 is electrically connected to the separating member 21, and the other end of the grounding member 24 is grounded. Thus, when the separating member 21 contacts the paper 200, the static electricity on the paper 200 can be drawn out through the separating member 21 and the grounding member 24, making it easier for the paper 200 to detach from the display panel 100.

[0057] When the surface of the separating end 210 is covered with an elastic buffer layer 213 as described in the aforementioned technical solution, it is understood that when the part of the separating member 21 other than the separating end 210, which is not covered with the elastic buffer layer 213, comes into contact with the paper separator 200, the static electricity on the paper separator 200 can also be drawn out through the separating member 21 and the grounding member 24, thereby making it easier for the paper separator 200 to detach from the display panel 100.

[0058] Please see again Figures 3 to 5 Optionally, the main body 11 includes a first plate 111, a second plate 112, and a third plate 113 connected in sequence. The first plate 111 and the third plate 113 are spaced apart and parallel to each other, forming an accommodating space 11a between them. Thus, before connecting the main body 11 to the storage box 300 using the connector 12, the main body 11 can be positioned with the first plate 111 and the third plate 113 located on opposite sides of their own thickness along the edges of the opening 300a of the storage box 300. The first plate 111 is located inside the storage box 300, and the second plate 112 is positioned above the edge of the opening 300a of the storage box 300. This arrangement ensures that a portion of the structure at the edge of the opening 300a is within the receiving space 11a. Consequently, during the locking or unlocking process using the connector 12, there is no need to simultaneously address the issue of the main body 11 potentially detaching from the storage box 300, making the operation of connecting the main body 11 to the storage box 300 easier.

[0059] Furthermore, the connector 12 is used to detachably lock the main body 11 to the partial storage box 300 located in the accommodating space 11a. The drive member 22 and the sensor 23 are both located on the first plate 111. The drive member 22 can drive the separation end 210 to move closer to the first plate 111 along the relative direction between the first plate 111 and the third plate 113, or to position the separation end 210 on the side of the first plate 111 away from the third plate 113 and away from the first plate 111 (i.e., to position the separation end 210 away from the first plate 111). And close to the center of the opening 300a), the preset area is located on the side of the first plate 111 away from the third plate 113, so that the preset area is at least partially located inside the storage box 300. The sensor 23 can sense whether the display panel 100 passes through the preset area during the process of the display panel 100 being taken out from the opening 300a, and the drive member 22 can drive the separation end 210 to move to the side of the first plate 111 away from the third plate 113 and away from the first plate 111, so as to be able to abut against the paper 200.

[0060] In an optional embodiment, the connector 12 includes a threaded fastener 121 having a fastening end 121a and a toggle end 121b. The threaded fastener 121 is threadedly connected to a threaded hole 113a on the third plate 113, such that the fastening end 121a is located within the receiving space 11a, and the toggle end 121b is located on the side of the third plate 113 away from the first plate 111, thereby allowing the toggle end 121a to be rotated from the third plate 113 away from the first plate 111. 21b, so that the threaded fastener 121 moves relative to the third plate 113 in the opposite direction of the first plate 111 and the third plate 113, thereby bringing the fastening end 121a closer to or away from the first plate 111, so that the fastening end 121a and the first plate 111 can be pressed against the two opposite sides of the partial storage box 300 located in the receiving space 11a, or the fastening end 121a and the first plate 111 can be relaxed on the two opposite sides of the partial storage box 300 located in the receiving space 11a.

[0061] Please see again Figure 3 and Figure 6In another optional embodiment, the connector 12 includes a clamping head 122 and an elastic member 123. The clamping head 122 is located within the receiving space 11a. The elastic member 123 may include, but is not limited to, a spring or a leaf spring. The elastic member 123 is connected between the clamping head 122 and the third plate 113. The elastic member 123 can apply an elastic force to the clamping head 122, causing the clamping head 122 to tend to move towards the first plate 111, so that the clamping head 122 and the first plate 111 can be pressed against the two opposite sides of the storage box 300 located in the receiving space 11a. When it is necessary to release the clamping head 122 and the first plate 111 from the storage box 300, the clamping head 122 can be pressed towards the third plate 113 to further compress the elastic member 123, so that the clamping head 122 is disengaged from the surface of the storage box 300.

[0062] Optionally, both the first plate 111 and the third plate 113 are rotatably provided with rollers 114. The rollers 114 are partially located within the receiving space 11a. The rollers 114 on the first plate 111 can abut against the inner surface of the storage box 300, and the rollers 114 on the third plate 113 can abut against the outer peripheral surface of the storage box 300. When the main body 11 is placed in the storage box 300, on the one hand, the rollers 114 abut against the surface of the receiving space 11a, which can improve the stability of the relative posture between the main body 11 and the storage box 300. On the other hand, before the main body 11 is locked to the storage box 300 by the connector 12, the rollers 114 can be used to roll, which can reduce the difficulty of adjusting the relative position between the main body 11 and the storage box 300 when the storage box 300 is partially located within the receiving space 11a.

[0063] In particular, when multiple display panels 100 of different sizes are placed inside the storage box 300, the optimal blocking position of the separating end 210 to block the paper 200 is usually different. Therefore, this setting makes it easy to adjust the relative position of the main body 11 and the storage box 300 when the relative position of the separating end 210 and the storage box 300 needs to be adjusted.

[0064] Optionally, the sensor 23 may include, but is not limited to, a distance sensor or an image sensor, which can sense whether the display panel 100 has passed through the preset area by detecting the distance change of the nearest object in the preset area or by acquiring an image in the preset area.

[0065] Please see again Figures 3 to 5 When using the display panel separator provided by this utility model, the specific steps can be as follows:

[0066] First, at least one separation device 400 as described in the aforementioned technical solution is provided. The connection structure 1 of the separation device 400 is connected to the opening 300a of the storage box 300 of the display panel 100, and the separation end 210 of the separation member 21 is positioned close to the edge of the opening 300a, so that the preset area is at least partially located inside the storage box 300.

[0067] Then, lift the display panel 100 inside the storage box 300 that is closest to the opening 300a.

[0068] After the sensor 23 detects that the display panel 100 has passed through the preset area, the drive member 22 drives the separation member 21 to move relative to the main body 11, so that the separation end 210 moves toward the center of the opening 300a and abuts against the paper 200 connected to the display panel 100.

[0069] Because the liner 200 has a certain degree of flexibility, during the process of the liner 200 rising with the display panel 100, the edge of the liner 200 that is not in contact with the display panel 100 will droop under the action of gravity. Thus, after the sensor 23 senses that the display panel 100 has passed through the preset area, the driving member 22 drives the separating member 21 to move relative to the main body 11, so that the separating end 210 can move to a position below the display panel 100 and also abut against the drooping part of the liner 200.

[0070] Optionally, after the sensor 23 detects that the display panel 100 has passed through a preset area, it can first pause the movement of the display panel 100, and then the drive member 22 drives the separation member 21 to move relative to the main body 11, so that the separation end 210 moves toward the center of the opening 300a to abut against the paper 200 connected to the display panel 100, and then the display panel 100 continues to move.

[0071] This avoids the problem that the moving speed of the display panel 100 is too fast during the removal process, causing the paper separator 200 to move too fast along with the display panel 100, and the separating piece 21 and the paper separator 200 to miss each other.

[0072] Next, the separating end 210 can be kept in the current posture for a preset time. This allows the blocking effect of the separating end 210 on the paper divider 200 to continue for the preset time, so that the paper divider 200 can be separated from the display panel 100 more fully.

[0073] Finally, the drive member 22 drives the separating member 21 to move relative to the main body 11, so that it approaches the edge of the opening 300a. Thus, the aforementioned separating device 400 can be used to automatically separate the display panel 100 from the separator 200 during the removal of the display panel 100.

[0074] Optionally, the separated sheet 200 can then be removed by an operator or an automatic removal device to expose another display panel 100 underneath the sheet 200, allowing the operator or automatic removal device to continue removing the other display panel 100 underneath the sheet 200.

[0075] Although embodiments of the present invention have been described above with reference to the accompanying drawings, the present invention is not limited to the above embodiments, but can be made in various forms, and those skilled in the art will understand that the present invention can be implemented in other specific forms without changing the technical spirit or essential characteristics of the present invention. Therefore, it should be understood that the above embodiments are exemplary in all respects and not restrictive.

Claims

1. A device for separating interlayer paper between display panels, characterized in that, include: A connection structure, comprising a main body and a connector, wherein the connector is disposed on the main body and is used to detachably connect the main body to the opening of the storage box of the display panel; as well as, A separation structure includes a separation component, a driving component, and a sensor. The separation component is connected to the main body of the structure via the driving component. The separation component has a separation end away from the driving component. The driving component can drive the separation end to move closer to the edge of the opening or toward the center of the opening. The sensor is disposed in the main body of the structure and is communicatively connected to the driving component. The sensor can sense the display panel passing through a preset area.

2. The device for separating the interlayer paper between display panels according to claim 1, characterized in that, The driving component can drive the separating component to rotate relative to the main structure; or... The driving component can drive the separating component to extend or retract relative to the main structure along its own extension direction.

3. The device for separating the interlayer paper between display panels according to claim 1, characterized in that, The separating element is elastic, and / or the surface of the separating end is covered with an elastic buffer layer.

4. The device for separating the interlayer paper between display panels according to claim 1, characterized in that, The separating member has a first segment and a second segment connected to each other. The first segment has the separating end, and the second segment is connected to the driving member. The elasticity of the first segment is greater than that of the second segment.

5. The device for separating the interlayer paper between display panels according to claim 1, characterized in that, Along a direction perpendicular to the extension direction of the separator, the separator has a dimension d, which gradually decreases from the end away from the separator end toward the separator end.

6. The device for separating display panel interlayer paper according to any one of claims 1-5, characterized in that, The separating element is made of conductive material, and the separating device also includes a grounding element, one end of which is electrically connected to the separating element, and the other end of which is grounded.

7. The device for separating the interlayer paper of the display panel according to claim 1, characterized in that, The main structure includes a first plate, a second plate, and a third plate connected in sequence. The first plate and the third plate are spaced apart and parallel to each other, forming an accommodating space. The connector is used to detachably lock the main structure to a portion of the storage box located within the accommodating space. The driving component and the sensor are both located on the first plate. The driving component can drive the separating end to move closer to the first plate along the relative direction between the first plate and the third plate, or to move the separating end away from the first plate and closer to the center of the opening. The preset area is located on the side of the first plate away from the third plate.

8. The display panel separator according to claim 7, characterized in that, The connector includes a threaded fastener having a fastening end and a toggle end. The threaded fastener is threaded into a threaded hole on the third plate, such that the fastening end is located within the receiving space, and the toggle end is located on the side of the third plate opposite to the first plate. The fastening end and the first plate can be pressed against the two opposite sides of the storage box located within the receiving space.

9. The display panel separator according to claim 7, characterized in that, The connector includes a clamping head and an elastic element. The clamping head is located within the receiving space, and the elastic element is connected between the clamping head and the third plate. The elastic element can apply an elastic force to the clamping head, causing the clamping head to tend to move closer to the first plate. The clamping head and the first plate can be pressed against two opposite sides of the storage box located within the receiving space.

10. The display panel separator according to any one of claims 7-9, characterized in that, Both the first plate and the third plate are rotatably provided with rollers. The rollers are located within the accommodating space. The rollers on the first plate can abut against the inner surface of the storage box, and the rollers on the third plate can abut against the outer peripheral surface of the storage box.