A welt assembly

By designing an edge-fitting assembly that includes a pressing mechanism, the filter element surface is made flat using pressure strips and cylinders, solving the bonding problem caused by uneven filter element surfaces and improving edge-fitting stability and space utilization.

CN224465301UActive Publication Date: 2026-07-07GUANGZHOU TONGYUE AUTOMATION EQUIP CO LTD

Patent Information

Authority / Receiving Office
CN · China
Patent Type
Utility models(China)
Current Assignee / Owner
GUANGZHOU TONGYUE AUTOMATION EQUIP CO LTD
Filing Date
2025-08-12
Publication Date
2026-07-07

AI Technical Summary

Technical Problem

During the edge-fitting process, the uneven surface of the filter element results in poor adhesion between the edge strip and the filter element edge. Furthermore, the existing pressing mechanism occupies too much space, affecting production efficiency.

Method used

Design an edge-fitting component including a pressing mechanism. The surface of the filter element body is flattened by a first plate and a first driving mechanism. Vertical movement and pressing are performed by a pressure strip and a first cylinder. Combined with a guide component, stability is ensured and space occupancy is reduced.

Benefits of technology

It improves the stability and efficiency of the filter element edge bonding process, avoids the impact of surface curvature or angle on the edge strip bonding effect, and reduces the space occupied by the pressing mechanism.

✦ Generated by Eureka AI based on patent content.

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    Figure CN224465301U_ABST
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Abstract

The utility model discloses a kind of edge bonding assemblies, including first plate body, and the pressing mechanism that can be pressed to the filter core body end face and make filter core body surface flat is connected with first plate body.The upper surface of filter core body placed on mould is pressed by the setting pressing mechanism, so that the upper end surface of filter core body is flat, facilitate subsequent edge bonding operation, avoid the influence of the fitting effect of straight line type batten due to the existence of certain camber or certain angle of filter core body surface, improve the stability of filter core body edge bonding process.
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Description

Technical Field

[0001] This utility model belongs to the field of filter element production technology, and specifically relates to an edge-fitting component. Background Technology

[0002] In the prior art, the filter element includes a filter element body and edge strips attached to the filter element body. During the process of attaching the edge strips to the filter element, because the filter element is lightweight and easily deformed, it needs to be placed on a mold for edge attaching. However, due to the lack of surface flatness when the filter element is placed on the mold, there is a problem that the straight edge strips and the filter element edges with a certain angle or curvature have poor adhesion during the edge attaching process. Furthermore, if a corresponding pressing mechanism is set above the filter element body in the edge attaching machine to flatten the filter element surface, it will result in a large space being occupied above the filter element, making it impossible to add other auxiliary production mechanisms. To solve at least one of the above technical problems, it is necessary to develop an edge attaching component. Utility Model Content

[0003] The purpose of this utility model is to provide an edge-fitting component to solve the above-mentioned technical problems. The component is equipped with a pressing mechanism to press the upper surface of the filter element body placed on the mold, thereby making the upper surface of the filter element body flat, which facilitates the subsequent edge-fitting operation. This avoids the effect of the straight edge strip being affected by the certain curvature or included angle of the filter element body surface, and improves the stability of the filter element body edge-fitting process.

[0004] To achieve the above-mentioned objectives, the technical solution adopted by this utility model is as follows:

[0005] An edge-fitting assembly includes a first plate and a pressing mechanism connected to the first plate and capable of pressing the end face of a filter element body to flatten the surface of the filter element body. The pressing mechanism presses down on the upper surface of the filter element body placed on a mold, thereby flattening the upper surface of the filter element body, facilitating subsequent edge-fitting operations, and preventing the adhesion of straight edge strips from being affected by a certain curvature or angle on the surface of the filter element body, thus improving the stability of the edge-fitting process.

[0006] Preferably, the pressing mechanism includes a pressing strip and a first driving mechanism connected to the first plate and driving the pressing strip to move vertically. The first driving mechanism drives the pressing strip to move vertically toward the end face of the filter element body, so that the pressing strip moves a certain distance and then abuts against the end face of the filter element body, thereby making the surface of the filter element body in the mold flat, which facilitates the subsequent flat bonding of the edge strip.

[0007] Preferably, the pressure strip and the first driving mechanism are both located on the same side of the first plate. Having both the pressure strip and the first driving mechanism on the same side allows the pressure strip to move vertically along one side of the first plate, thereby pressing against the surface of the filter element body.

[0008] Preferably, the pressure strip and the first driving mechanism are respectively disposed on different sides of the first plate.

[0009] Preferably, the first driving mechanism includes one or more first cylinders connected to the first plate, and the movable end of the first cylinder is connected to the pressure strip. The movable end of the first cylinder faces vertically downward; by extending or retracting the movable end of the first cylinder, the relative position of the pressure strip is adjusted, thereby pressing the surface of the filter element body to make the surface of the filter element body flat, or returning it to its original position after pressing. This adjustment method is simple, highly stable, and facilitates rapid adjustment of the state of the filter element surface.

[0010] Preferably, the first driving mechanism further includes a first guiding component to guide the movement of the pressure strip. The first guiding component facilitates the guidance of the pressure strip under the drive of the first cylinder, improving the stability of the pressure strip during movement and maintaining the flatness of the end face of the pressure strip facing the filter element body, thereby improving the flatness of the end face of the filter element body.

[0011] Preferably, the first guide assembly includes a first slide rail connected to the pressure strip and a first slider connected to the first plate and movably connected to the first slide rail;

[0012] The extension direction of the first slide rail is parallel to the movement direction of the movable end of the first cylinder. The cooperation between the first slide rail and the first slider guides the vertical movement of the pressure strip, thereby improving the stability of the pressure strip during movement and maintaining the flatness of the end face of the pressure strip facing the filter element body, thus improving the flatness of the filter element body end face.

[0013] Preferably, both the first cylinder and the first slider are connected to the side of the first plate away from the pressure strip via a first connecting block; the cross-sectional shape of the first connecting block is "L". The first connecting block extends from one side and the top of the first plate to the other side of the first plate, providing a connection position for the first slider and the first cylinder without affecting the operation of other components.

[0014] Preferably, the edge-attaching assembly further includes a clamping mechanism for clamping the edge strip;

[0015] The clamping mechanism includes a clamping plate assembly and a flange assembly;

[0016] The flange assembly includes a flange strip disposed on one side of the first plate and a second drive mechanism for driving the flange strip to move vertically.

[0017] The clamping plate assembly includes clamping plates and a third driving mechanism that drives the clamping plates to move vertically to cooperate with the edge strip clamping. A third driving mechanism and a second driving mechanism are provided to adjust the relative distance between the clamping plates and the edge strip in the vertical direction. Initially, the edge strip and the clamping plates have a certain gap in the vertical direction. The edge strip moves vertically under the drive of the second driving mechanism, and the clamping plates move vertically under the drive of the third driving mechanism, controlling the distance between the edge strip and the clamping plates to complete the edge strip clamping operation. When it is necessary to perform an edge-flanging operation on the attached edge strip, the finished product in this case is that the edge strip is continuously attached to the side and top surface of the filter element body, forming a "「" shaped attachment state, i.e., the edge strip portion in the initial state. The edge strip is attached to the side of the filter element body. After the edge strip is attached to the side of the filter element body, there is still some allowance at its upper end that can be attached to the upper surface of the filter element body. After the edge attaching component clamps the edge strip and attaches it to the side of the filter element body, the edge attaching component moves back a certain distance relative to the filter element body, and the second drive mechanism drives the edge strip to descend a certain distance, so that it is flush with or slightly higher than the upper surface of the filter element body. The edge attaching component continues to move toward the filter element body to perform the attachment action, and the edge strip moves toward the edge strip, so that the upper end of the edge strip is attached to the upper plane of the filter element body, thereby completing the edge strip flanging operation.

[0018] Preferably, the flange strip and clamping plate are both located on the same side of the first plate; the second drive mechanism and the third drive mechanism are both located on the other side of the first plate. The flange strip, clamping plate, and pressure strip are all located on the same side of the first plate; this allows the main components for the bonding operation, flange operation, and pressing operation to be located on one side of the first plate, facilitating corresponding operations, while the transmission components are located on the other side of the first plate, thus not occupying operating space and avoiding interference with the bonding, flange, and pressing operations.

[0019] Preferably, the second driving mechanism includes a first motor connected to the first plate, a first transmission block threadedly connected to the movable end of the first motor, and a second guide assembly guiding the movement of the flange strip. The first transmission block is connected to the flange strip. Along the vertical projection direction, the projection of the first transmission block intersects with the projection of the first plate, and the movement of the first transmission block does not interfere with the first plate. Both the first motor and the second guide assembly are vertically positioned, and under the transmission of the first motor and the first transmission block, the flange strip can move vertically to complete the corresponding operation.

[0020] Preferably, the second guide assembly includes a second slider connected to the flange strip and a second slide rail movably connected to the second slider and connected to the clamping plate. It also includes a fourth slider connected to the first plate, the fourth slider being movably connected to the second slide rail, wherein the second slider and the fourth slider are arranged vertically on the same straight line; the second slide rail connected to the clamping plate provides guidance during the movement of the clamping plate, giving the clamping plate multiple guiding positions. Two second guide assemblies are provided, arranged in groups on both sides of the first motor in the horizontal direction. The second slide rail extends vertically along the first plate. The flange strip moves vertically under the guidance of the second slider and the second slide rail, thereby improving the stability during the clamping and flange operation, and thus improving the bonding quality of the flange strip.

[0021] Preferably, the third driving mechanism includes a second motor connected to the first plate, a second transmission block threadedly connected to the movable end of the second motor, and a third guide assembly guiding the movement of the clamping plate. The second transmission block is connected to the clamping plate. Along the vertical projection direction, the projection of the clamping plate intersects with the projection of the first plate, and the clamping plate does not interfere with the first plate during its movement. The second motor and the third guide assembly are both vertically positioned. Under the transmission of the second motor and the second transmission block, the clamping plate can move vertically, thereby completing the corresponding operation.

[0022] Preferably, the third guide assembly includes a third slider connected to the first plate and a third slide rail movably connected to the third slider and connected to the clamping plate. The third slide rail extends vertically along the first plate. The clamping plate moves vertically under the guidance of the third slider and the third slide rail, thereby improving stability during the clamping process of the edge strip and thus improving the bonding quality of the edge strip.

[0023] This application has achieved beneficial technical effects:

[0024] This utility model features a pressing mechanism that presses down the upper surface of the filter element body placed on the mold, thereby making the upper surface of the filter element body flat. This facilitates subsequent edge bonding operations and avoids affecting the bonding effect of straight edge strips due to a certain curvature or angle on the surface of the filter element body, thus improving the stability of the edge bonding process of the filter element body. Attached Figure Description

[0025] Figure 1 The image shown is one of the structural schematic diagrams of the edge-attaching component;

[0026] Figure 2 The second schematic diagram of the edge-attaching component is shown.

[0027] Figure 3 The third schematic diagram of the edge-attaching component is shown.

[0028] Figure 4 The fourth diagram shows the structure of the edge-attaching component.

[0029] Figure Labels

[0030] 1-First plate; 2-Pressing mechanism; 21-Pressure strip; 22-First cylinder; 23-First guide assembly; 231-First slide rail; 232-First slider; 24-First connecting block; 3-Side strip; 4-Clamping plate assembly; 5-Flanging assembly; 51-Flanging strip; 41-Clamping plate; 52-First motor; 53-First transmission block; 54-Second slider; 55-Second slide rail; 42-Second motor; 43-Second transmission block; 44-Third slider; 45-Third slide rail. Detailed Implementation

[0031] To more clearly illustrate the technical solutions in the embodiments of this utility model or the prior art, the specific implementation methods of this utility model will be described below with reference to the accompanying drawings. Obviously, the drawings described below are merely some embodiments of this utility model. For those skilled in the art, other drawings and other implementation methods can be obtained based on these drawings without any creative effort.

[0032] The technical solution of this utility model will be described in detail below with specific embodiments.

[0033] Example 1

[0034] Reference Figures 1 to 4 As shown, an edge-fitting assembly includes a first plate 1 and a pressing mechanism 2 connected to the first plate 1, which presses the end face of the filter element body to flatten the surface of the filter element body. The pressing mechanism 2 presses down on the upper surface of the filter element body placed on the mold, thus flattening the upper surface of the filter element body, facilitating subsequent edge-fitting operations, and preventing the straight edge strips from being affected by a certain curvature or angle on the surface of the filter element body, thereby improving the stability of the edge-fitting process. Furthermore, the pressing mechanism, located on the edge-fitting assembly, effectively reduces the space occupied above the filter element by the edge-fitting machine. After the edge strip is fitted, the edge-fitting assembly returns to its original position, further reducing the occupied space, thus providing more space above the filter element for installing other production-related mechanisms.

[0035] The pressing mechanism 2 includes a pressing strip 21 and a first driving mechanism connected to the first plate 1 and driving the pressing strip 21 to move vertically. The vertical direction of the first plate during the edge strip bonding process is defined as the vertical direction. The first driving mechanism drives the pressing strip 21 to move vertically towards the end face of the filter element body, so that the pressing strip 21 moves a certain distance and then contacts the end face of the filter element body, thereby making the surface of the filter element body in the mold flat, facilitating subsequent flat bonding of the edge strip. Furthermore, the pressing strip being positioned on the first plate effectively reduces the space occupied above the filter element by the edge bonding machine. The edge bonding assembly returns to its original position, further reducing the occupied space, thus providing more space above the filter element for installing other production-related mechanisms.

[0036] The pressure strip 21 and the first driving mechanism are both located on the same side of the first plate 1. The fact that the pressure strip 21 and the first driving mechanism are both located on the same side allows the pressure strip 21 to move vertically on one side of the first plate 1, thereby completing the contact and pressing of the filter element body surface.

[0037] The first driving mechanism includes one or more first cylinders 22 connected to the first plate 1, and the movable end of the first cylinder 22 is connected to the pressure bar 21. The movable end of the first cylinder 22 faces vertically downward; the plurality of first cylinders 22 are arranged parallel to each other;

[0038] The relative position of the pressure strip 21 is adjusted by extending or retracting the movable end of the first cylinder 22, thereby pressing the surface of the filter element body to make the surface flat, or returning it to its original position after pressing. This adjustment method is simple, stable, and facilitates rapid adjustment of the filter element surface. In an alternative drive scheme, the first cylinder 22 can be replaced by a motor that drives the pressure strip 21 to move vertically via a threaded drive.

[0039] The first driving mechanism further includes a first guide component 23 for guiding the movement of the pressure strip 21. The first guide component 23 facilitates the guidance of the pressure strip 21 under the drive of the first cylinder 22, improves the stability of the pressure strip 21 during movement, and maintains the flatness of the end face of the pressure strip 21 facing the filter element body, thereby improving the flatness of the end face of the filter element body.

[0040] The first guide assembly 23 includes a first slide rail 231 connected to the pressure strip 21 and a first slider 232 connected to the first plate 1 and movably connected to the first slide rail 231;

[0041] The extension direction of the first slide rail 231 is parallel to the movement direction of the movable end of the first cylinder 22. The cooperation between the first slide rail 231 and the first slider 232 provides guidance, and the pressure strip 21 moves vertically, thereby improving the stability of the pressure strip 21 during movement and maintaining the flatness of the end face of the pressure strip 21 facing the filter element body, thus improving the flatness of the end face of the filter element body.

[0042] Both the first cylinder 22 and the first slider 232 are connected to the side of the first plate 1 away from the pressure strip 21 via the first connecting block 24; the cross-sectional shape of the first connecting block 24 is "L". The first connecting block 24 extends from one side and the top of the first plate 1 to the other side of the first plate 1, providing a connection position for the first slider 232 and the first cylinder 22 without affecting the operation of other components.

[0043] The edge-attaching assembly also includes a clamping mechanism for clamping the edge strip 3;

[0044] The clamping mechanism includes a clamping plate assembly 4 and a flange assembly 5;

[0045] The flange assembly 5 includes a flange strip 51 disposed on one side of the first plate 1 and a second drive mechanism for driving the flange strip 51 to move vertically.

[0046] The clamping plate assembly 4 includes a clamping plate 41 and a third driving mechanism that drives the clamping plate 41 to move vertically to cooperate with the flange strip 51 in clamping the edge strip 3. A third driving mechanism and a second driving mechanism are provided to adjust the relative distance between the clamping plate 41 and the flange strip 51 in the vertical direction. In the initial state, the flange strip 51 and the clamping plate 41 have a certain gap in the vertical direction. The flange strip 51 moves vertically under the drive of the second driving mechanism, and the clamping plate 41 moves vertically under the drive of the third driving mechanism, controlling the distance between the flange strip 51 and the clamping plate 41 to complete the operation of clamping the edge strip 3. When it is necessary to perform a flange operation on the attached edge strip 3, the finished product in this case is that the edge strip 3 is continuously attached to the side and upper surface of the filter element body, forming a "「" shaped attachment state, that is, the initial state of the edge strip 3. The edge strip 3 is attached to the side of the filter element body. After the edge strip 3 is attached to the side of the filter element body, there is still a margin at its upper end that can be attached to the upper surface of the filter element body. After the edge attaching component clamps the edge strip 3 and attaches the edge strip 3 to the side of the filter element body, the edge attaching component moves back a certain distance relative to the filter element body, and the second drive mechanism drives the flange strip 51 to descend a certain distance, so as to be flush with or slightly higher than the upper surface of the filter element body. The edge attaching component continues to move toward the filter element body, the first plate 1 performs an attachment action toward the edge strip 3, and the flange strip 51 moves toward the edge strip 3, thereby attaching the upper end of the edge strip 3 to the upper surface of the filter element body, thus completing the flange operation of the edge strip 3.

[0047] The flange strip 51 and clamping plate 41 are both located on the same side of the first plate 1; the second driving mechanism and the third driving mechanism are both located on the other side of the first plate 1. The flange strip 51, clamping plate 41, and pressure strip 21 are all located on the same side of the first plate 1; so that the main components of the bonding operation, flange operation, and pressing operation are all located on one side of the first plate 1, which facilitates the corresponding operations, while the transmission components are located on the other side of the first plate 1, which does not occupy the operating space and avoids interfering with the bonding operation, flange operation, and pressing operation process.

[0048] The second drive mechanism includes a first motor 52 connected to the first plate 1, a first transmission block 53 threadedly connected to the movable end of the first motor 52, and a second guide assembly guiding the movement of the flange strip 51. The first transmission block 53 is connected to the flange strip 51. Along the vertical projection direction, the projection of the first transmission block 53 intersects with the projection of the first plate 1, and the movement of the first transmission block 53 does not interfere with the first plate 1. Both the first motor 52 and the second guide assembly are vertically positioned. Under the transmission of the first motor 52 and the first transmission block 53, the flange strip 51 can move vertically, thereby completing the corresponding operation. In an alternative drive scheme, the second drive mechanism can be adjusted to a cylinder drive to move the flange strip.

[0049] The second guide assembly includes a second slider 54 connected to the flange strip 51 and a second slide rail 55 movably connected to the second slider 54 and connected to the clamping plate 41. It also includes a fourth slider 56 connected to the first plate 1, which is movably connected to the second slide rail 55. The second slider 54 and the fourth slider 55 are vertically aligned. The second slide rail 55, connected to the clamping plate 41, provides guidance during the movement of the clamping plate 41, allowing the clamping plate 41 to have multiple guiding positions. Two second guide assemblies are provided, arranged in groups on both sides of the first motor 52 in the horizontal direction. The second slide rail 55 extends vertically along the first plate 1. The flange strip 51 moves vertically under the guidance of the second slider 54 and the second slide rail 55, thereby improving the stability during the clamping and flange operation of the flange strip 3, and thus improving the bonding quality of the flange strip 3.

[0050] The third drive mechanism includes a second motor 42 connected to the first plate 1, a second transmission block 43 threadedly connected to the movable end of the second motor 42, and a third guide assembly guiding the movement of the clamping plate 41. The second transmission block 43 is connected to the clamping plate 41. Along the vertical projection direction, the projection of the clamping plate 41 intersects with the projection of the first plate 1, and the clamping plate 41 does not interfere with the first plate during its movement. The second motor and the third guide assembly are both vertically positioned. Under the transmission of the second motor and the second transmission block, the clamping plate can move vertically, thereby completing the corresponding operation. In an alternative drive scheme, the third drive mechanism can be adjusted to a cylinder drive to move the clamping plate 41.

[0051] The third guide assembly includes a third slider 44 connected to the first plate 1 and a third slide rail 45 movably connected to the third slider 44 and connected to the clamping plate 41. The third slide rail 45 extends vertically along the first plate 1. The clamping plate 41 moves vertically under the guidance of the third slider 45 and the third slide rail 44, thereby improving stability during the clamping of the edge strip 3 and thus improving the bonding quality of the edge strip.

[0052] The movable ends of the first motor 52 and the second motor 42 are arranged opposite to each other in the vertical direction.

[0053] Projected along the vertical direction of the first plate 1, the first plate 1, the flange strip 51, and the pressure strip 21 are arranged in sequence;

[0054] This technical solution also provides a flip panel assembly, which is equipped with the edge-fitting assembly as described above.

[0055] This technical solution also provides an edge-applying machine, which is equipped with the flip-plate assembly as described above.

[0056] The pressure strip 21 extends along the direction of the first plate 1. The cross-sectional shape of the pressure strip 21 is either circular or polygonal. The side of the pressure strip 21 that is vertically lower is a continuous straight line that can press the surface of the filter element.

[0057] Along the horizontal extension direction of the first plate 1, the two ends of the pressure strip 21 are flush with the two ends of the first plate 1.

[0058] The second motor 42 is the motor that drives the clamping plate 41. The second motor 54 drives the clamping plate to move up and down. When the width of the edge strip 3 is different, the second motor 42 automatically adjusts to the appropriate position to clamp the edge strip 3.

[0059] The first motor 54 drives the flange strip 51 to move downwards to make products with flanges. When the flange distance is different, the flange strip 51 automatically adjusts to the appropriate position as needed.

[0060] The two first cylinders 22 drive the pressure bar 21 to move up and down.

[0061] The flipping action sequence of the edge-fitting assembly is as follows: the edge-fitting assembly is horizontally placed by a cylinder or motor driven by the flipping assembly. The edge strip 3 is fed onto the first plate 1 by a glue roller. During the movement of the edge strip 3, the glue gun applies glue to the edge strip 3. After the length is appropriate, the cutter cuts the edge strip. At this time, the first motor 42 drives the clamping plate 41 to clamp the edge strip 3. The edge-fitting assembly flips the first plate 1 downward by 90 degrees driven by a cylinder or motor and moves towards the product, i.e., the filter element body. When it is about to move to the product position for edge-fitting, the first cylinder 22 drives the pressure strip 21 to move downward to press the product. The first plate 1 is then in place, so that the glued edge strip 3 is attached to the filter element body. After the attachment is completed, the edge-fitting assembly returns to its original position.

[0062] The setting of the pressure strip 21 ensures that the edge strip 3 and the filter element edge strip are parallel after the product is bonded. The pressure strip 21 is installed on the first plate 1, so that the space above the filter element body where the bonding machine places the product can be left empty, so that clamping plates or other devices can be installed. This avoids the problem in the prior art that the mechanism for pressing the filter element surface needs to be installed directly above the filter element body, thus occupying the space above the filter element body.

[0063] Example 2

[0064] This embodiment only describes the differences from the above embodiments; other technical features are the same. In this embodiment, the pressure strip and the first driving mechanism are respectively disposed on different sides of the first plate. This is sufficient to drive the pressure strip to move vertically.

[0065] The technical features of the above embodiments can be combined in any way. For the sake of brevity, not all possible combinations of the technical features in the above embodiments are described. However, as long as there is no contradiction in the combination of these technical features, they should be considered to be within the scope of this specification.

[0066] The embodiments described above are merely illustrative of several implementations of this utility model, and while the descriptions are relatively specific and detailed, they should not be construed as limiting the scope of the utility model patent. It should be noted that those skilled in the art can make various modifications and improvements without departing from the concept of this utility model, and these all fall within the protection scope of this utility model. Therefore, the protection scope of this utility model patent should be determined by the appended claims.

[0067] The embodiments of the edge-fitting component provided by this utility model have been described in detail above. Specific examples have been used to illustrate the principles and implementation methods of this utility model. The descriptions of the embodiments above are only for the purpose of helping to understand the core ideas of this utility model. It should be noted that for those skilled in the art, several improvements and modifications can be made to this utility model without departing from the principles of this utility model, and these improvements and modifications also fall within the protection scope of the claims of this utility model.

Claims

1. An edge-fitting component, characterized in that, It includes a first plate (1) and a pressing mechanism (2) connected to the first plate (1) and capable of pressing the end face of the filter element body to make the surface of the filter element body flat. The pressing mechanism (2) includes a pressing strip (21) and a first driving mechanism connected to the first plate (1) and driving the pressing strip (21) to move vertically.

2. The edge-fitting component according to claim 1, characterized in that, The pressure strip (21) and the first driving mechanism are both located on the same side of the first plate (1) or on different sides of the first plate (1).

3. The edge-fitting component according to claim 1, characterized in that, The first drive mechanism includes one or more first cylinders (22) connected to the first plate (1), and the movable end of the first cylinder (22) is connected to the pressure bar (21).

4. The edge-fitting component according to claim 3, characterized in that, The first drive mechanism further includes a first guide component (23) for guiding the movement of the pressure bar (21); The first guide assembly (23) includes a first slide rail (231) connected to the pressure strip (21) and a first slider (232) connected to the first plate (1) and movably connected to the first slide rail (231); The extension direction of the first slide rail (231) is parallel to the movement direction of the movable end of the first cylinder (22).

5. The edge-fitting component according to claim 4, characterized in that, The first cylinder (22) and the first slider (232) are both connected to the side of the first plate (1) away from the pressure strip (21) through the first connecting block (24); the cross-sectional shape of the first connecting block (24) is "L".

6. The edge-fitting component according to claim 1, characterized in that, The edge-attaching assembly also includes a clamping mechanism for clamping the edge strip (3); The clamping mechanism includes a clamping plate assembly (4) and a flange assembly (5); The flange assembly (5) includes a flange strip (51) disposed on one side of the first plate (1) and a second drive mechanism for driving the flange strip (51) to move vertically; The clamping plate assembly (4) includes a clamping plate (41) and a third driving mechanism that drives the clamping plate (41) to move vertically to cooperate with the flange strip (51) to clamp the edge strip (3).

7. The edge-fitting component according to claim 6, characterized in that, The second drive mechanism includes a first motor (52) connected to the first plate (1), a first transmission block (53) threadedly connected to the movable end of the first motor (52), and a second guide component that guides the movement of the flange strip (51). The first transmission block (53) is connected to the flange strip (51).

8. The edge-fitting component according to claim 7, characterized in that, The second guide assembly includes a second slider (54) connected to the flange strip (51) and a second slide rail (55) movably connected to the second slider (54) and connected to the clamping plate (41).

9. The edge-fitting component according to claim 6, characterized in that, The third drive mechanism includes a second motor (42) connected to the first plate (1), a second transmission block (43) threadedly connected to the movable end of the second motor (42), and a third guide assembly for guiding the movement of the clamping plate (41). The second transmission block (43) is connected to the clamping plate (41).

10. The edge-fitting component according to claim 9, characterized in that, The third guide assembly includes a third slider (44) connected to the first plate (1) and a third slide rail (45) movably connected to the third slider (44) and connected to the clamping plate (41).