Carton processing creasing apparatus
By combining the base, positioning components, and creasing plate, the problem of insufficient positioning of the target workpiece in cardboard box processing is solved, and a more stable creasing effect is achieved.
Patent Information
- Authority / Receiving Office
- CN · China
- Patent Type
- Utility models(China)
- Current Assignee / Owner
- SHENZHEN YONGSHUN PAPER PACKAGE CO LTD
- Filing Date
- 2025-06-17
- Publication Date
- 2026-07-03
AI Technical Summary
In existing cardboard box folding devices, insufficient positioning of the target workpiece during the folding process leads to displacement, affecting the folding effect.
A cardboard box crease processing device including a base, positioning components and a crease plate is used. The fixed part of the target workpiece is fixed by the first positioning component and positioned in the positioning channel of the second positioning component. The crease of the movable part is achieved by the rotation of the crease plate.
It improves the stability and accuracy of the target workpiece during the crease process, reduces the risk of deviation, and enhances the crease effect.
Smart Images

Figure CN224447041U_ABST
Abstract
Description
Technical Field
[0001] This utility model relates to the field of paper box crease technology, and in particular to a paper box processing crease device. Background Technology
[0002] Cardboard boxes are a common form of packaging, widely used in food, pharmaceuticals, daily necessities, and electronics. Their main functions are to protect goods, facilitate transportation and sales, and enhance the added value of products. Cardboard boxes are packaging structures made by folding cardboard, and often use highly integrated cardboard sheets for production.
[0003] Currently, semi-finished products are typically folded to create creases for the next stage of assembly production. However, during the crease process, there is a problem of insufficient positioning of the target workpiece, causing the target workpiece to shift and affecting the crease effect. Utility Model Content
[0004] The main purpose of this invention is to propose a folding device for paper box processing, which aims to solve the technical problem that the target workpiece is prone to displacement during folding.
[0005] To achieve the above objectives, this utility model proposes a folding device for paper box processing. The folding device is used to fold a target workpiece, the target workpiece having an integral fixed part and a movable part. The folding device includes:
[0006] Base;
[0007] The positioning assembly includes a first positioning component and a second positioning component, which are separately configured. The first positioning component is used to fix the fixing part. One end of the second positioning component is connected to the base, and the other end extends away from the base to form a positioning channel. The positioning channel cooperates with the first positioning component to achieve positioning of the fixing part.
[0008] An indentation plate is connected to the end of the second positioning part away from the base and has a pressing surface that is not parallel to the positioning channel. The pressing surface abuts against the movable part, so that the movable part moves toward the positioning channel as the indentation plate rotates, so that the movable part bends relative to the fixed part to form a crease.
[0009] In one embodiment, the base has a cavity inside and an opening on one side. The second positioning component includes an adjusting member disposed in the cavity and an extension member movably connected to the adjusting member. One end of the extension member passes through the opening and is connected to the indentation plate. The adjusting member and the extension member are drivenly connected to drive the extension member to expand or contract.
[0010] In one embodiment, the adjusting member includes a support rod, one end of which is rotatably connected to the inner wall of the cavity, and the other end passes through the base and is fixedly connected to a handle. The extension member is fixedly connected to the outer peripheral surface of the support rod.
[0011] In one embodiment, a plurality of limiting holes are provided at intervals along the circumferential direction of the support rod. The paper box processing crease device also includes a limiting member that is movably connected to the base. One end of the limiting member can extend into the limiting hole to restrict the rotation of the support rod, or disengage from the limiting hole to allow the support rod to rotate.
[0012] In one embodiment, the first positioning component includes:
[0013] At least two first fixing plates are provided at intervals along the length of the positioning channel;
[0014] A second fixing plate is provided corresponding to each of the first fixing plates. The second fixing plate is movably connected to the first fixing plate, and the second fixing plate and the first fixing plate move towards each other to clamp the target workpiece; and
[0015] The connection structure includes a first connecting portion disposed at one end of the second fixing plate and a second connecting portion disposed at the other end of the second fixing plate. The first connecting portion and the second connecting portion cooperate to achieve fixation between two adjacent second fixing plates.
[0016] In one embodiment, the first positioning component further includes a magnetic structure disposed on the first fixing plate for adsorbing the second fixing plate.
[0017] In one embodiment, the first fixing plate is provided with mounting holes, and the magnetic attraction structure includes a magnet disposed inside the mounting holes. Multiple magnets are arranged in an array on the first fixing plate.
[0018] In one embodiment, the side of the first fixing plate facing the second fixing plate is provided with an anti-slip layer; and / or,
[0019] The second fixing plate has an anti-slip layer on the side facing the first fixing plate.
[0020] In one embodiment, the cardboard box crease processing device further includes positioning components disposed on the first fixed plate, and at least two positioning components are provided at intervals along the length direction of the first fixed plate.
[0021] In one embodiment, the positioning component includes:
[0022] A slide rail is disposed on the first fixed plate and extends along the width direction of the first fixed plate;
[0023] A positioning housing is slidably connected to the slide rail, and the positioning housing has an internal cavity and an output port on one side;
[0024] An elastic element is disposed within the positioning housing, and
[0025] A positioning block is movably disposed within the cavity of the positioning housing and connected to the elastic element. The second fixing plate abuts against the positioning block to make the positioning block move toward the cavity, or the second fixing plate separates from the positioning block to make the positioning block move away from the cavity under the elastic force of the elastic element.
[0026] In the technical solution provided by this utility model, the base provides a stable support platform for installing and fixing other components. The first positioning component secures the fixed part of the target workpiece, ensuring its stability and precise positioning during bending and reducing workpiece displacement. The fixed first positioning component is placed within the positioning channel of the second positioning component, which abuts against one side of the first positioning component, preventing movement of the other side under force. The indentation plate rotates under external force when the target workpiece is positioned, causing the movable part of the workpiece to flip relative to the fixed part, thus completing the crease. This embodiment of the utility model, through primary positioning by the first positioning component and secondary positioning by the second positioning component, effectively positions the target workpiece, reducing the risk of workpiece displacement during crease formation and resulting in poor crease quality. Attached Figure Description
[0027] To more clearly illustrate the technical solutions in the embodiments of this utility model or the prior art, the drawings used in the description of the embodiments or the prior art will be briefly introduced below. Obviously, the drawings described below are only some embodiments of this utility model. For those skilled in the art, other drawings can be obtained based on the structures shown in these drawings without creative effort.
[0028] Figure 1 A schematic diagram of an embodiment of the cardboard box crease-reducing device provided by this utility model;
[0029] Figure 2 A schematic diagram of the structure of an embodiment of the first positioning component provided by this utility model;
[0030] Figure 3 A schematic diagram of the structure of an embodiment of the adjusting member provided by this utility model;
[0031] Figure 4A schematic diagram of an embodiment of the positioning component provided by this utility model.
[0032] Explanation of icon numbers:
[0033] 10. Base; 20. First positioning component; 21. First fixing plate; 22. Second fixing plate; 23. First connecting part; 24. Second connecting part; 25. Magnetic suction structure; 30. Second positioning component; 31. Adjusting component; 311. Support rod; 312. Limiting hole; 32. Extension component; 33. Limiting component; 40. Indentation plate; 50. Positioning assembly; 51. Slide rail; 52. Positioning housing; 53. Positioning block.
[0034] The realization of the purpose, functional features and advantages of this utility model will be further explained in conjunction with the embodiments and with reference to the accompanying drawings. Detailed Implementation
[0035] The technical solutions of the present utility model will be clearly and completely described below with reference to the accompanying drawings of the embodiments. Obviously, the described embodiments are only one part of the embodiments of the present utility model, and not all of the embodiments. Based on the embodiments of the present utility model, all other embodiments obtained by those of ordinary skill in the art without creative effort are within the protection scope of the present utility model.
[0036] It should be noted that if the embodiments of this utility model involve directional indicators (such as up, down, left, right, front, back, etc.), the directional indicators are only used to explain the relative positional relationship and movement of the components in a specific posture. If the specific posture changes, the directional indicators will also change accordingly.
[0037] Furthermore, if the embodiments of this utility model involve descriptions such as "first" or "second," these descriptions are for descriptive purposes only and should not be construed as indicating or implying their relative importance or implicitly specifying the number of technical features indicated. Therefore, a feature defined with "first" or "second" may explicitly or implicitly include at least one of those features. Additionally, the use of "and / or" or "and / or" throughout the text includes three parallel solutions. For example, "A and / or B" includes solution A, solution B, or a solution where both A and B are satisfied simultaneously. Furthermore, the technical solutions of the various embodiments can be combined with each other, but this must be based on the ability of those skilled in the art to implement them. When the combination of technical solutions is contradictory or impossible to implement, it should be considered that such a combination of technical solutions does not exist and is not within the scope of protection claimed by this utility model.
[0038] For packaging boxes, during the production process, considering the requirements of the manufacturing process, it is necessary to bend the semi-finished products to create creases for the next stage of assembly. Manual creases result in unsatisfactory crease quality, while existing cardboard box crease devices often fail to properly position the target workpiece during the crease process, causing the workpiece to shift and affecting the crease finish.
[0039] In view of this, the present invention provides a paper box processing crease device, which fixes the fixed part of the target workpiece by setting a first positioning component, places the fixed first positioning component in the positioning channel of the second positioning component, and then rotates the crease plate to make the movable part of the target workpiece move toward the positioning channel, thereby realizing the crease of the target workpiece.
[0040] To better understand the above technical solution, the following detailed explanation is provided in conjunction with the accompanying drawings.
[0041] like Figure 1 , Figure 2 , Figure 3 As shown, this utility model provides a paper box processing folding device, which is used to fold a target workpiece. The target workpiece has an integral fixed part and a movable part. The paper box processing folding device includes:
[0042] Base 10;
[0043] Positioning assembly 50 includes a first positioning component 20 and a second positioning component 30, which are separately disposed. The first positioning component 20 is used to fix the fixing part. One end of the second positioning component 30 is connected to the base 10, and the other end extends in a direction away from the base 10 to form a positioning channel. The positioning channel cooperates with the first positioning component 20 to achieve positioning of the fixing part.
[0044] The indentation plate 40 is connected to the end of the second positioning part away from the base 10, and has a pressing surface that is not parallel to the positioning channel. The pressing surface abuts against the movable part, so that the movable part moves toward the positioning channel as the indentation plate 40 rotates, so that the movable part bends relative to the fixed part to form a crease.
[0045] In this embodiment, the base 10 provides a stable support platform for installing and fixing other components. The first positioning component 20 secures the fixed part of the target workpiece, ensuring its stability and precise positioning during bending and reducing workpiece displacement. The fixed first positioning component 20 is placed within the positioning channel of the second positioning component 30, which abuts against one side of the first positioning component 20, preventing movement of the other side under force. The indentation plate 40 rotates under external force when the target workpiece is positioned, causing the movable part of the workpiece to flip relative to the fixed part, thus completing the crease. This embodiment of the invention, through primary positioning and fixing by the first positioning component 20 and secondary positioning and fixing by the second positioning component 30, effectively positions the target workpiece, reducing the problem of workpiece displacement during crease formation and resulting in poor crease quality.
[0046] Specifically, the cardboard box crease device includes a base 10, a positioning component 50, and a crease plate 40.
[0047] The base 10 is typically made of high-strength materials and has sufficient load-bearing capacity and stability.
[0048] The positioning component 50 is used to achieve precise positioning of the target workpiece. It is understood that the first positioning component 20 is used to position and fix the fixed part of the target workpiece, reducing the possibility of wrinkles forming on the target workpiece during the indentation process. The second positioning component 30 is used to position and fix the first positioning component 20, reducing the possibility of movement of the first positioning component 20. In this embodiment, the first positioning component 20 can be two clamping plates with identical structures, and the second positioning component 30 can be a connecting plate connecting the indentation plate 40 and the base 10. The positioning channel is a channel formed between the indentation plate 40 and the side wall of the base 10, and the width of the positioning channel is the same as the width of the two clamping plates. A portion of the target workpiece is placed between the two clamping plates, and then the two clamping plates are placed in the positioning channel. At this time, rotating the indentation plate 40 can rotate another portion of the target workpiece located outside the two clamping plates, thereby causing a crease to form on the target workpiece relative to the two clamping plates. It should be noted that the fixed part and the movable part of the target workpiece are the two sides of the position where a crease needs to be formed on the target workpiece, so as to fix and bend the target workpiece.
[0049] Furthermore, refer to Figure 1 , Figure 3In one embodiment of the present invention, the base 10 has a cavity inside and an opening on one side. The second positioning component 30 includes an adjusting component 31 disposed in the cavity and an extension component 32 movably connected to the adjusting component 31. One end of the extension component passes through the opening and is connected to the indentation plate 40. The adjusting component 31 and the extension component 32 are drivenly connected to drive the extension component 32 to expand or contract.
[0050] In this embodiment, the second positioning component 30 may further include an adjusting member 31 and an extending member 32. The extending member may be a connecting belt. In this embodiment, the adjusting member 31 can be connected to the connecting belt via mechanical transmission such as threads or gears to achieve precise control of the connecting belt. Thus, the width of the positioning channel or the slack of the connecting belt can be adjusted according to the width of the first positioning part. It is understood that when the adjusting member 31 rotates, it can drive the connecting belt to retract into the cavity of the base 10, tightening the connecting belt and reducing the width of the positioning channel; when the adjusting member 31 rotates, it can drive the connecting belt to extend outside the cavity of the base 10, loosening the connecting belt and increasing the width of the positioning channel. It should be noted that the material of the extending member 32 is a flexible material, which can provide a certain rotation space when the indentation plate 40 rotates.
[0051] Furthermore, refer to Figure 1 , Figure 3 In one embodiment of the present invention, the adjusting member 31 includes a support rod 311, one end of which is rotatably connected to the inner wall of the cavity, and the other end is inserted through the base 10 and fixedly connected to a handle. The extension member is fixedly connected to the outer peripheral surface of the support rod 311.
[0052] In the technical solution adopted in this embodiment, the adjusting member 31 can be a support rod 311. The extension member is wound around the outer peripheral surface of the support rod 311. By rotating the support rod 311, the slack of the extension member and the width of the positioning channel can be adjusted.
[0053] Furthermore, refer to Figure 1 , Figure 3 In one embodiment of the present invention, a plurality of limiting holes 312 are provided at intervals along the circumferential direction of the support rod 311. The paper box processing folding device also includes a limiting member 33, which is movably connected to the base 10. One end of the limiting member 33 can extend into the limiting hole 312 to restrict the rotation of the support rod 311, or disengage from the limiting hole 312 to allow the support rod 311 to rotate.
[0054] In this embodiment, the cardboard box crease device further includes a limiting member 33. In this embodiment, the limiting member 33 can be a bolt or a threaded rod, threadedly connected to the base 10. One end of the bolt or threaded rod located within the cavity of the base 10 is movably connected to the limiting hole 312. When it is necessary to position the support rod 311, the bolt or threaded rod is rotated, causing it to move closer to the support rod 311 until it is pressed against the limiting hole 312, thereby fixing the support rod 311. When it is necessary to rotate the support rod 311, the bolt or threaded rod is rotated in the opposite direction, causing it to move away from the support rod 311 until it separates from the limiting hole 312, thereby allowing the support rod 311 to rotate. The limiting member 33 can also be a limiting rod and a spring, with the spring force enabling the connection and separation of the limiting rod and the limiting hole 312.
[0055] Furthermore, refer to Figure 1 , Figure 2 In one embodiment of this utility model, the first positioning component 20 includes:
[0056] The first fixing plate 21 is provided at least two at intervals along the length of the positioning channel;
[0057] A second fixing plate 22 is provided corresponding to each first fixing plate 21. The second fixing plate 22 is movably connected to the first fixing plate 21, and the second fixing plate 22 and the first fixing plate 21 move toward each other to clamp the target workpiece.
[0058] The connection structure includes a first connecting part 23 disposed at one end of the second fixing plate 22 and a second connecting part 24 disposed at the other end of the second fixing plate 22. The first connecting part 23 and the second connecting part 24 cooperate to achieve fixation between two adjacent second fixing plates 22.
[0059] In the technical solution adopted in this embodiment, the first positioning component 20 may further include a first fixing plate 21, a second fixing plate 22, and a connecting structure. The first fixing plate 21 provides stable support and a positioning base, and the second fixing plate 22 cooperates with the first fixing plate 21 to fix the target workpiece by clamping force, ensuring its stability during the folding process. In this embodiment, through the provided connecting structure, multiple second fixing plates 22 can be connected together, thereby allowing the number of second fixing plates 22 to be selected according to the length of the target workpiece, and also enabling multiple stations to perform folding processing simultaneously. The first connecting part 23 can be detachably connected to the second connecting part 24, such as by snap-fit or bolt-fit. The first connecting part 23 and the second connecting part 24 can be the aforementioned magnets or snap fasteners, and are not limited here.
[0060] Furthermore, refer to Figure 2In one embodiment of the present invention, the first positioning component 20 further includes a magnetic attraction structure 25 disposed on the first fixing plate 21 for attracting the second fixing plate 22.
[0061] In this embodiment, the first positioning component 20 may further include a magnetic structure 25, which is fixedly connected to the first fixing plate 21. The magnetic structure 25 uses its adsorption force to connect and fix the first fixing plate 21 and the second fixing plate 22, thereby positioning and fixing the target workpiece between the first fixing plate 21 and the second fixing plate 22. It is understood that the magnetic structure 25 with adsorption force is provided on the first fixing plate 21. Through the adsorption force of the magnetic structure 25, the first fixing plate 21 and the second fixing plate 22 can be connected, achieving rapid clamping and fixing of the target workpiece. In this embodiment, the magnetic structure 25 can be a magnetic strip, which can be disposed between the first fixing plate 21 and the second fixing plate 22. When the first fixing plate 21 and the second fixing plate 22 are in contact, the magnetic strip's adsorption force fixes the first fixing plate 21 and the second fixing plate 22 together. The magnetic structure 25 can be one or more, and this is not limited. It should be noted that the material of the second fixing plate 22 can be magnetic material, or a magnetic suction component corresponding to the magnetic suction structure 25 can be set on the second fixing plate 22.
[0062] Furthermore, refer to Figure 2 In one embodiment of the present invention, the first fixing plate 21 is provided with mounting holes, and the magnetic attraction structure 25 includes a magnet, which is disposed inside the mounting hole. Multiple magnets are arranged in an array on the first fixing plate 21.
[0063] In this embodiment, the magnetic structure 25 can also be a magnet, which can be fixed in the mounting hole of the first fixing plate 21 with adhesive. It is understood that when installing the magnet, the side of the magnet outside the mounting hole is on the same horizontal plane as the side of the first fixing plate 21 facing the second fixing plate 22. This allows the magnet to magnetically attract the second fixing plate 22 when the second fixing plate 22 is attached to the surface of the first fixing plate 21, thus fixing the first fixing plate 21 and the second fixing plate 22 together and providing a more stable positioning for the target workpiece. Specifically, when clamping the target workpiece, the components of the target workpiece are placed on the surface of the first fixing plate 21, and then the second fixing plate 22 is rotated so that it abuts against the other side of the target workpiece. During this process, the magnet will attract the magnetic components of the second fixing plate 22, thereby strengthening the fixation of the target workpiece.
[0064] Furthermore, in one embodiment of this utility model, the side of the first fixing plate 21 facing the second fixing plate 22 is provided with an anti-slip layer; and / or,
[0065] The second fixing plate 22 has an anti-slip layer on the side facing the first fixing plate 21.
[0066] In the technical solution adopted in this embodiment, the anti-slip layer can reduce the risk of the target workpiece sliding under force during the process. The protective layer can be made of rubber, which can effectively increase the friction of the contact surface, reduce the sliding of the target workpiece, and also reduce damage to the surface of the target workpiece.
[0067] Furthermore, refer to Figure 2 , Figure 4 In one embodiment of the present invention, the paper box processing crease device further includes a positioning component 50, which is disposed on the first fixing plate 21. At least two positioning components 50 are provided at intervals along the length direction of the first fixing plate 21.
[0068] In this embodiment, the positioning component 50 allows adjustment of the size of the fixing portion of the target workpiece based on the width of the desired crease location on the surface of the target workpiece. The positioning component 50 can be a positioning pin, movably connected to the first fixing plate 21. During clamping, the positioning pin is adjusted to a preset position, and then one side of the target workpiece abuts against the positioning pin, thereby positioning the desired crease location at the edge of the first fixing plate 21 to complete the crease treatment. Two or more positioning pins can be used; this is not limited here.
[0069] Furthermore, refer to Figure 4 In one embodiment of this utility model, the positioning component 50 includes:
[0070] The slide rail 51 is disposed on the first fixed plate 21 and extends along the width direction of the first fixed plate 21;
[0071] The positioning housing 52 is slidably connected to the slide rail 51. The positioning housing 52 has a cavity inside and an output port on one side.
[0072] An elastic element is disposed within the positioning housing 52, and
[0073] The positioning block 53 is movably disposed in the cavity of the positioning housing 52 and connected to the elastic element. The second fixing plate 22 abuts against the positioning block 53 so that the positioning block 53 moves toward the cavity, or the second fixing plate 22 separates from the positioning block 53 so that the positioning block 53 moves away from the cavity under the elastic force of the elastic element.
[0074] In this embodiment, the positioning component 50 may further include a slide rail 51, a positioning housing 52, an elastic element, and a positioning block 53. In this embodiment, the positioning housing 52 can slide along the width direction of the first fixing plate 21 via the slide rail 51, thereby positioning the target workpiece at a suitable crease position. It is understood that when the target workpiece is placed, the positioning block 53 can extend out of the cavity under the elastic force of the elastic element, thereby limiting one side of the target workpiece; when the second fixing plate 22 rotates to abut against the first fixing plate 21, the positioning block 53 can be pressed into the cavity of the positioning housing 52, thereby reducing the impact on the positioning and fixing of the target workpiece. It should be noted that the output port of the positioning housing 52 is on the same horizontal plane as the surface of the first fixing plate 21, and the second positioning block 53 can be positioned above the surface of the first fixing plate 21 under the elastic force of the elastic element.
[0075] The above description is merely an exemplary embodiment of the present utility model and does not limit the scope of protection of the present utility model. Any equivalent structural transformations made based on the technical concept of the present utility model and the contents of the present utility model specification and drawings, or direct / indirect applications in other related technical fields, are included within the scope of protection of the present utility model.
Claims
1. A carton processing creasing apparatus, characterized by, The paper box processing folding device is used to fold a target workpiece, the target workpiece having an integral fixed part and a movable part, and the paper box processing folding device includes: Base; The positioning assembly includes a first positioning component and a second positioning component, which are separately configured. The first positioning component is used to fix the fixing part. One end of the second positioning component is connected to the base, and the other end extends away from the base to form a positioning channel. The positioning channel cooperates with the first positioning component to achieve positioning of the fixing part. An indentation plate is connected to the end of the second positioning part away from the base and has a pressing surface that is not parallel to the positioning channel. The pressing surface abuts against the movable part, so that the movable part moves toward the positioning channel as the indentation plate rotates, so that the movable part bends relative to the fixed part to form a crease.
2. The carton processing creasing apparatus of claim 1 wherein, The base has a cavity inside and an opening on one side. The second positioning component includes an adjusting member disposed in the cavity and an extension member movably connected to the adjusting member. One end of the extension member passes through the opening and is connected to the indentation plate. The adjusting member and the extension member are driven to drive the extension member to expand or contract.
3. The carton processing creasing apparatus of claim 2 wherein, The adjusting component includes a support rod, one end of which is rotatably connected to the inner wall of the cavity, and the other end of which passes through the base and is fixedly connected to a handle. The extension component is fixedly connected to the outer peripheral surface of the support rod.
4. The carton processing creasing apparatus of claim 3 wherein, Multiple limiting holes are provided at intervals along the circumferential direction of the support rod. The paper box processing folding device also includes a limiting member that is movably connected to the base. One end of the limiting member can extend into the limiting hole to restrict the rotation of the support rod, or disengage from the limiting hole to allow the support rod to rotate.
5. The carton processing creasing apparatus of claim 1 wherein, The first positioning component includes: At least two first fixing plates are provided at intervals along the length of the positioning channel; A second fixing plate is provided corresponding to each of the first fixing plates. The second fixing plate is movably connected to the first fixing plate, and the second fixing plate and the first fixing plate move towards each other to clamp the target workpiece; and The connection structure includes a first connecting portion disposed at one end of the second fixing plate and a second connecting portion disposed at the other end of the second fixing plate. The first connecting portion and the second connecting portion cooperate to achieve fixation between two adjacent second fixing plates.
6. The carton processing creasing apparatus of claim 5 wherein, The first positioning component also includes a magnetic structure disposed on the first fixing plate for adsorbing the second fixing plate.
7. The carton processing creasing apparatus of claim 6 wherein, The first fixing plate is provided with mounting holes, and the magnetic attraction structure includes a magnet, which is disposed inside the mounting hole. Multiple magnets are arranged in the first fixing plate array.
8. The carton processing creasing apparatus of claim 5 wherein, The first fixing plate has an anti-slip layer on the side facing the second fixing plate; and / or, The second fixing plate has an anti-slip layer on the side facing the first fixing plate.
9. The carton processing creasing apparatus of claim 5 wherein, The paper box processing crease device also includes positioning components disposed on the first fixed plate, and at least two positioning components are provided at intervals along the length direction of the first fixed plate.
10. The carton processing creasing apparatus of claim 9 wherein, The positioning component includes: A slide rail is disposed on the first fixed plate and extends along the width direction of the first fixed plate; A positioning housing is slidably connected to the slide rail, and the positioning housing has an internal cavity and an output port on one side; An elastic element is disposed within the positioning housing, and A positioning block is movably disposed within the cavity of the positioning housing and connected to the elastic element. The second fixing plate abuts against the positioning block to make the positioning block move toward the cavity, or the second fixing plate separates from the positioning block to make the positioning block move away from the cavity under the elastic force of the elastic element.