A cutting device and method for gypsum board edge banding tape

By designing a cutting device with a transfer, cutting, and dust removal mechanism, the problem of existing gypsum board edge banding cutting devices being unable to cut simultaneously and filter dust efficiently has been solved, achieving efficient cutting and dust treatment, and improving the practicality and processing efficiency of the device.

CN122353692APending Publication Date: 2026-07-10ANHUI HUANGHUA NEW BUILDING MATERIALS CO LTD

Patent Information

Authority / Receiving Office
CN · China
Patent Type
Applications(China)
Current Assignee / Owner
ANHUI HUANGHUA NEW BUILDING MATERIALS CO LTD
Filing Date
2026-04-22
Publication Date
2026-07-10

AI Technical Summary

Technical Problem

Existing cutting devices for gypsum board edge banding cannot simultaneously cut both ends of different lengths according to processing requirements, and cannot efficiently filter cutting dust.

Method used

A cutting device comprising a transfer mechanism, a cutting mechanism, and a dust removal mechanism is designed. The transfer mechanism drives the cutting and dust removal mechanisms to move and adjust, the cutting mechanism realizes the lifting and rotation of the cutting disc, and the dust removal mechanism filters dust through a filter plate, thus achieving synchronous cutting and efficient dust filtration.

Benefits of technology

It improves the practicality and processing efficiency of the cutting device, reduces costs, decreases the frequency of cleaning and replacing filter plates, and improves processing efficiency.

✦ Generated by Eureka AI based on patent content.

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Abstract

This invention discloses a cutting device and method for gypsum board edge banding, relating to the field of gypsum board edge banding technology. The invention includes a mounting bracket, with a cooperating transfer mechanism on its inner side. The transfer mechanism includes a transfer bracket, and a cooperating cutting mechanism on the transfer bracket. The cutting mechanism includes a lifting bracket, a mounting cover, a mounting tube, and a cutting disc. The lifting bracket is equipped with a cooperating dust removal mechanism, which includes a dust collection box, a serpentine inner plate, a first filter plate, a second filter plate, and a sealing slide plate. Through the use of the transfer mechanism, the transfer bracket can be moved and adjusted along the mounting bracket, thereby enabling the cutting mechanism and dust removal mechanism to move and adjust accordingly. This allows for the sequential cutting of the edge banding on both sides of the gypsum board without the need for additional cutting and dust removal mechanisms, effectively reducing costs.
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Description

Technical Field

[0001] This invention relates to the field of gypsum board edge banding technology, specifically to a cutting device and method for gypsum board edge banding tape. Background Technology

[0002] Gypsum board is a material made primarily from building gypsum. It is a lightweight, high-strength, thin, easy-to-process building material with good sound insulation, heat insulation, and fire resistance properties. During the processing of gypsum board, edge sealing is required, and after edge sealing, the edge sealing tape needs to be cut using a cutting device.

[0003] However, most existing cutting devices for gypsum board edge banding cannot simultaneously cut both ends of gypsum board edge banding of different lengths according to processing requirements, and most cannot effectively filter cutting dust, resulting in low practicality and processing efficiency of the devices.

[0004] To address the aforementioned problems, this application proposes a cutting device and method for gypsum board edge banding to solve these problems. Summary of the Invention

[0005] To address the problems that existing cutting devices for gypsum board edge banding often fail to simultaneously cut both ends of gypsum board edge banding of different lengths according to processing requirements and often fail to efficiently filter cutting dust, the present invention aims to provide a cutting device and method for gypsum board edge banding.

[0006] To solve the above-mentioned technical problems, the present invention adopts the following technical solution: a cutting device for gypsum board edge banding, including a mounting bracket, a transfer mechanism for cooperation is provided on the inner side of the mounting bracket, and the transfer mechanism includes a transfer bracket, a cutting mechanism for cooperation is provided on the transfer bracket, and the cutting mechanism includes a lifting bracket, a mounting cover, a mounting tube and a cutting disc, and a dust removal mechanism for cooperation is provided on the lifting bracket, and the dust removal mechanism includes a dust collection box, a serpentine inner plate, a first filter plate, a second filter plate and a sealing slide plate; The conveying mechanism allows the conveying bracket to be moved and adjusted along the mounting bracket, thereby enabling the cutting mechanism and dust removal mechanism to be moved and adjusted. The cutting mechanism allows the lifting bracket to be raised and lowered easily, thereby enabling the two cutting discs to be raised and lowered synchronously and easily. It also allows the two mounting covers to move towards or away from each other, thus enabling the two cutting discs to move towards or away from each other. In addition, it can synchronously drive the two mounting tubes to rotate, thereby synchronously driving the two cutting discs to rotate. The dust removal mechanism facilitates the movement, adjustment and fixation of the sealing plate, thereby enabling the dust collection boxes on both sides separated by the serpentine inner plate to be sealed sequentially, and thus enabling the sucked dust-laden gas to be guided to the first filter plate and the second filter plate for filtration in sequence.

[0007] Preferably, the transfer mechanism further includes an electric cylinder body, which is fixedly installed on the inner top of the mounting bracket, and an electric cylinder slider is slidably provided on the electric cylinder body. The transfer bracket is fixedly installed on the bottom end of the electric cylinder slider, and symmetrically arranged side support plates are fixedly installed on the top of the transfer bracket. The side support plates are fixedly installed on both sides of the electric cylinder slider.

[0008] Preferably, the cutting mechanism further includes electric telescopic rods, which are fixedly inserted at both ends of the transfer bracket, and a lifting bracket is fixedly installed at the ends of the output ends of the two electric telescopic rods. Symmetrically distributed first guide rods are fixedly installed at the top of the lifting bracket. First guide holes are opened through both ends of the transfer bracket, and the first guide rods slide through the first guide holes. A bidirectional electric push rod is fixedly installed in the middle of the lifting bracket, and the output end of the bidirectional electric push rod slides through the lifting bracket. A mounting cover is fixedly installed at the ends of the output ends on both sides of the bidirectional electric push rod, and a mounting tube is rotatably inserted into the mounting cover. Opposite sides of the mounting cover are fixedly installed with... The second guide rod has symmetrically arranged second guide holes through the lifting bracket, and the second guide rod slides through the second guide holes. The cutting disc is fixedly sleeved on the middle of the outer side of the mounting tube, and the cutting disc is rotatably installed on the inner side of the mounting cover. A servo motor is fixedly installed on the lower end of one side of the lifting bracket, and a drive rod is fixedly connected to the end of the output end of the servo motor. The drive rod is rotatably inserted into the lifting bracket, and the mounting tube is slidably sleeved on the drive rod. The inner wall of the mounting tube has symmetrically distributed limiting guide blocks integrally formed, and the outer wall of the drive rod has symmetrically arranged limiting guide grooves, and the limiting guide blocks are slidably inserted into the limiting guide grooves.

[0009] Preferably, the dust removal mechanism further includes a dust removal box, which is fixedly installed at the top center of the lifting support. One end of the dust removal box is connected to symmetrically distributed elastic hoses, and the end of each elastic hose is fixedly connected to a sliding guide tube. The sliding guide tube slides through the lifting support and is fixedly connected to the mounting cover. The lifting support has mirror-distributed sliding slots, and the sliding guide tube is slidably engaged within these slots. A dust removal fan is fixedly installed on one side of the dust removal box, and a dust collection box can be slidably inserted into the dust removal box and bolted to it. One end of the dust collection box has a symmetrically arranged operating slot. Another end of the dust collection box has a slot that engages with the elastic hose. The dust collection box is equipped with a connecting through hole, and the serpentine inner plate is fixedly installed inside the dust collection box. A U-shaped inner plate that works with the serpentine inner plate is fixedly installed in the inner cavity of the dust collection box. A sealing cover that works with the serpentine inner plate is bolted to one side of the dust collection box. The first filter plate and the second filter plate are bolted between the dust collection box and the serpentine inner plate and work with the sealing cover. The sealing slide plate is slidably inserted between the serpentine inner plate and the U-shaped inner plate. A driven rack is fixedly installed on one side of the sealing slide plate. An adjusting rod is rotatably inserted into the dust collection box and the U-shaped inner plate. A drive gear that meshes with the driven rack is fixedly sleeved at the end of the adjusting rod. A limit sleeve is threaded onto the adjusting rod, and the limit sleeve can fit tightly against the inner wall of the dust collection box.

[0010] A method of using a cutting device for gypsum board edge banding tape includes the following steps: Step 1: Use fixing bolts to install the mounting bracket on the conveying equipment. During subsequent use, the electric cylinder body can drive the electric cylinder slider to move and adjust along the mounting bracket, thereby cooperating with the side support plate to stably drive the transfer bracket to move and adjust along the mounting bracket, thereby driving the cutting mechanism and dust removal mechanism to move and adjust, thus realizing the sequential cutting of the edge banding strips on both sides of the gypsum board conveyed on the conveying equipment. Step two: During this period, the bidirectional electric push rod can drive the two mounting covers to move in opposite directions or back to back, thereby conveniently driving the two cutting discs to move in opposite directions or back to back. The electric telescopic rod can drive the lifting bracket to move up and down conveniently, thereby driving the two cutting discs to move up and down synchronously. In addition, the servo motor can drive the drive rotating rod to rotate, thereby synchronously driving the two mounting rotating tubes to rotate, thereby synchronously driving the two cutting discs to rotate, thus enabling the two ends of gypsum board edge banding strips of different lengths to be cut simultaneously according to processing requirements. Step three: Simultaneously, the dust removal fan will start, continuously expelling the gas from the dust collection box. This, in conjunction with the flexible hose, sliding duct, and mounting cover, will simultaneously draw the dust generated during the cutting operations of the two cutting discs into the dust collection box. During this process, the user can rotate the limit screw to separate it from the dust collection box. Then, the user can rotate the adjusting rod to drive the drive gear, which will move the sealing plate through the driven rack to adjust its position and sequentially seal the dust collection boxes on both sides separated by the serpentine inner plate. After sealing, the user can rotate the limit screw in the opposite direction to reset it. This will guide the inhaled dust-laden gas to the first and second filter plates for filtration. After the device is used, the user can disassemble the dust collection box and the sealing cover sequentially and clean or replace the first and second filter plates.

[0011] Compared with the prior art, the beneficial effects of the present invention are as follows: 1. By using the transfer mechanism, the transfer bracket can be moved and adjusted along the mounting bracket, which in turn can move and adjust the cutting mechanism and the dust removal mechanism, thereby enabling the sequential cutting of the edge banding on both sides of the gypsum board without the need for additional cutting and dust removal mechanisms, thus effectively reducing costs. 2. Through the setting and use of the cutting mechanism, the lifting bracket can be easily raised and lowered, thereby driving the two cutting discs to rise and fall synchronously and conveniently. It can also easily drive the two mounting covers to move towards or away from each other, thus driving the two cutting discs to move towards or away from each other. In addition, it can synchronously drive the two mounting tubes to rotate, thereby driving the two cutting discs to rotate synchronously. This allows for the simultaneous cutting of the two ends of gypsum board edge banding strips of different lengths according to processing requirements, thereby effectively improving the practicality and processing efficiency of the cutting device. 3. The dust removal mechanism facilitates the movement, adjustment, and fixation of the sealing plate, allowing the dust collection boxes on both sides of the serpentine inner plate to be sealed sequentially. This enables the intake of dust-laden gas to be guided to the first and second filter plates for filtration, thus achieving simultaneous disassembly, cleaning, or replacement of the two filter plates and sequential operation of the two filter plates. This effectively reduces the frequency of filter plate cleaning and replacement, thereby further improving processing efficiency. Attached Figure Description

[0012] To more clearly illustrate the technical solutions in the embodiments of the present invention 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 the present invention. For those skilled in the art, other drawings can be obtained based on these drawings without creative effort.

[0013] Figure 1 This is a schematic diagram of the structure of the present invention.

[0014] Figure 2 For the present invention Figure 1 Enlarged schematic diagram of the structure at point A in the middle.

[0015] Figure 3 This is a schematic diagram of the installation of the cutting mechanism in this invention.

[0016] Figure 4 For the present invention Figure 3 Enlarged schematic diagram of the structure at point B.

[0017] Figure 5 For the present invention Figure 4 Enlarged schematic diagram of the structure at point C.

[0018] Figure 6 This is a schematic diagram of the dust removal mechanism connection in this invention.

[0019] Figure 7 This is a schematic diagram of the interior of the dust collection box in this invention.

[0020] Figure 8 For the present invention Figure 7 Enlarged schematic diagram of the structure at point D.

[0021] In the diagram: 1. Mounting bracket; 2. Transfer mechanism; 21. Electric cylinder body; 22. Electric cylinder slider; 23. Transfer bracket; 24. Side support plate; 25. First guide hole; 3. Cutting mechanism; 31. Electric telescopic rod; 32. Lifting bracket; 33. Bidirectional electric push rod; 34. Mounting cover; 35. Mounting tube; 36. Cutting disc; 37. Servo motor; 38. Drive rod; 39. First guide rod; 310. Second guide rod; 311. Second guide hole; 312. Limiting guide block; 13. Limiting guide groove; 314. Sliding through groove; 4. Dust removal mechanism; 41. Dust removal box; 42. Flexible hose; 43. Sliding duct; 44. Dust removal fan; 45. Dust collection box; 46. Connecting through hole; 47. Serpentine inner plate; 48. U-shaped inner plate; 49. Sealing outer cover; 410. First filter plate; 411. Second filter plate; 412. Sealing slide plate; 413. Driven rack; 414. Adjusting rod; 415. Drive gear; 416. Limiting screw sleeve; 417. Operating through groove. Detailed Implementation

[0022] The technical solutions of the embodiments of the present invention will be clearly and completely described below with reference to the accompanying drawings. Obviously, the described embodiments are only some embodiments of the present invention, and not all embodiments. Based on the embodiments of the present invention, all other embodiments obtained by those skilled in the art without creative effort are within the scope of protection of the present invention.

[0023] Example: Figures 1-8 As shown, the present invention provides a cutting device for gypsum board edge banding tape, including a mounting bracket 1. The inner side of the mounting bracket 1 is provided with a cooperating transfer mechanism 2, and the transfer mechanism 2 includes a transfer bracket 23. The transfer bracket 23 is provided with a cooperating cutting mechanism 3, and the cutting mechanism 3 includes a lifting bracket 32, a mounting cover 34, a mounting tube 35 and a cutting disc 36. The lifting bracket 32 ​​is provided with a cooperating dust removal mechanism 4, and the dust removal mechanism 4 includes a dust collection box 45, a serpentine inner plate 47, a first filter plate 410, a second filter plate 411 and a sealing slide plate 412. The opening and closing of this application is controlled by a PLC control module, which is prior art and will not be described in detail here. The transfer mechanism 2 enables the transfer bracket 23 to move and adjust along the mounting bracket 1, thereby enabling the cutting mechanism 3 and the dust removal mechanism 4 to move and adjust. The cutting mechanism 3 enables the lifting bracket 32 ​​to move up and down easily, thereby enabling the two cutting discs 36 to move up and down simultaneously and easily. It also enables the two mounting covers 34 to move towards or away from each other, thereby enabling the two cutting discs 36 to move towards or away from each other. In addition, it enables the two mounting tubes 35 to rotate simultaneously, thereby enabling the two cutting discs 36 to rotate simultaneously. The dust removal mechanism 4 provides convenience for the movement, adjustment and fixation of the sealing plate 412, thereby enabling the dust collection boxes 45 on both sides separated by the serpentine inner plate 47 to be sealed in sequence, thereby enabling the sucked dust-laden gas to be guided to the first filter plate 410 and the second filter plate 411 for filtration in sequence.

[0024] The transfer mechanism 2 also includes an electric cylinder body 21, which is fixedly installed on the inner top of the mounting bracket 1. An electric cylinder slider 22 is slidably provided on the electric cylinder body 21. The transfer bracket 23 is fixedly installed on the bottom end of the electric cylinder slider 22. A symmetrically arranged side support plate 24 is fixedly installed on the top of the transfer bracket 23. The side support plate 24 is fixedly installed on both sides of the electric cylinder slider 22.

[0025] By adopting the above technical solution, the mounting bracket 1 is installed on the conveying equipment using fixing bolts. During subsequent use, the electric cylinder body 21 can drive the electric cylinder slider 22 to move and adjust along the mounting bracket 1, thereby cooperating with the side support plate 24 to stably drive the transfer bracket 23 to move and adjust along the mounting bracket 1, thereby driving the cutting mechanism 3 and the dust removal mechanism 4 to move and adjust, and thus realizing the sequential cutting of the edge banding strips on both sides of the gypsum board being transferred on the conveying equipment.

[0026] The cutting mechanism 3 also includes electric telescopic rods 31, which are fixedly inserted at both ends of the transfer bracket 23. A lifting bracket 32 ​​is fixedly installed at the output ends of the two electric telescopic rods 31. Symmetrically distributed first guide rods 39 are fixedly installed at the top of the lifting bracket 32. First guide holes 25 are opened through both ends of the transfer bracket 23, and the first guide rods 39 slide through the first guide holes 25. The cooperation between the first guide rods 39 and the first guide holes 25 ensures the stable lifting and lowering of the lifting bracket 32. A bidirectional electric push rod 33 is fixedly installed in the middle of the lifting bracket 32, and the output end of the bidirectional electric push rod 33 slides through the lifting bracket 32. A mounting cover 34 is fixedly installed at the ends of the output ends on both sides of the bidirectional electric push rod 33, and a mounting tube 35 is rotatably inserted into the mounting cover 34. Second guide rods 310 are fixedly installed on opposite sides of the mounting cover 34. Symmetrically arranged second guide holes 311 are opened through the lifting bracket 32. The second guide rod 310 slides through the second guide hole 311. The cooperation between the second guide rod 310 and the second guide hole 311 ensures the stable opposite or opposite movement of the mounting cover 34. The cutting disc 36 is fixedly sleeved on the outer middle of the mounting tube 35, and the cutting disc 36 is rotatably mounted on the inner side of the mounting cover 34. A servo motor 37 is fixedly installed on the lower end of one side of the lifting bracket 32, and a drive rotating rod 38 is fixedly connected to the end of the output end of the servo motor 37. The rod 38 is rotatably inserted into the lifting bracket 32, and the mounting tube 35 is slidably sleeved on the driving rod 38. The inner wall of the mounting tube 35 is integrally formed with symmetrically distributed limiting guide blocks 312, and the outer wall of the driving rod 38 is provided with symmetrically arranged limiting guide grooves 313, and the limiting guide blocks 312 are slidably inserted into the limiting guide grooves 313. The cooperation between the limiting guide blocks 312 and the limiting guide grooves 313 can ensure that the two mounting tubes 35 rotate synchronously and stably with the driving rod 38.

[0027] By adopting the above technical solution, the bidirectional electric push rod 33 can drive the two mounting covers 34 to move in opposite directions or back to back, thereby conveniently driving the two cutting discs 36 to move in opposite directions or back to back. The electric telescopic rod 31 can drive the lifting bracket 32 ​​to move up and down conveniently, thereby driving the two cutting discs 36 to move up and down synchronously and conveniently. In addition, the servo motor 37 can drive the drive rotating rod 38 to rotate, thereby synchronously driving the two mounting rotating tubes 35 to rotate, thereby synchronously driving the two cutting discs 36 to rotate, thus enabling the two ends of gypsum board edge banding of different lengths to be cut simultaneously according to processing requirements.

[0028] The dust removal mechanism 4 also includes a dust removal box 41, which is fixedly installed at the top center of the lifting bracket 32. One end of the dust removal box 41 is connected to symmetrically distributed elastic hoses 42, and the end of the elastic hoses 42 is fixedly connected to a sliding guide tube 43. The sliding guide tube 43 slides through the lifting bracket 32 ​​and is fixedly connected to the mounting cover 34. The lifting bracket 32 ​​has mirror-distributed sliding slots 314, and the sliding guide tube 43 is slidably engaged in the sliding slots 314. The movable through-slot 314 ensures the stable adjustment of the sliding guide tube 43. A dust collector fan 44 is fixedly installed on one side of the dust collector housing 41, and the dust collection housing 45 can be slidably inserted into the dust collector housing 41 and bolted to the dust collector housing 41. One end of the dust collection housing 45 has a corresponding operating through-slot 417, which is symmetrical. The operating through-slot 417 facilitates the pulling out of the dust collection housing 45. One end has a through hole 46 for use with the flexible hose 42, and the serpentine inner plate 47 is fixedly installed inside the dust collection box 45. A U-shaped inner plate 48 for use with the serpentine inner plate 47 is fixedly installed inside the dust collection box 45. A sealing cover 49 for use with the serpentine inner plate 47 is bolted to one side of the dust collection box 45. The first filter plate 410 and the second filter plate 411 are bolted between the dust collection box 45 and the serpentine inner plate 47 and cooperate with the sealing cover 49. The sealing slide plate 412 is slidably inserted between the serpentine inner plate 47 and the U-shaped inner plate 48, and a driven rack 413 is fixedly installed on one side of the sealing slide plate 412. An adjusting rod 414 is rotatably inserted into the dust collection box 45 and the U-shaped inner plate 48, and a drive gear 415 that meshes with the driven rack 413 is fixedly sleeved at the end of the adjusting rod 414. A limiting sleeve 416 is threaded onto the adjusting rod 414, and the limiting sleeve 416 can fit tightly against the inner wall of the dust collection box 45.

[0029] By adopting the above technical solution, the dust removal fan 44 will start, thereby continuously discharging the gas inside the dust collection box 41. This, in conjunction with the flexible hose 42, sliding guide tube 43, and mounting cover 34, will simultaneously draw the dust generated during the cutting operations of the two cutting discs 36 into the dust collection box 45. During this process, the user can rotate the limit screw sleeve 416 to separate it from the dust collection box 45. Then, the user can rotate the adjusting rod 414 to drive the drive gear 415, which in turn drives the sealing slide plate 41 via the driven rack 413. 2. Adjust the position and seal the dust collection boxes 45 on both sides of the serpentine inner plate 47 in sequence. After sealing, simply turn the limit screw sleeve 416 in the reverse direction to reset. This will allow the inhaled dust-laden gas to be guided to the first filter plate 410 and the second filter plate 411 for filtration in sequence. After the device is used, the user can disassemble the dust collection box 45 and the sealing cover 49 in sequence and clean the first filter plate 410 and the second filter plate 411 in sequence or disassemble and replace the first filter plate 410 and the second filter plate 411 in sequence.

[0030] A method of using a cutting device for gypsum board edge banding tape includes the following steps: Step 1: Use fixing bolts to install the mounting bracket 1 on the conveying equipment. During subsequent use, the electric cylinder body 21 can drive the electric cylinder slider 22 to move and adjust along the mounting bracket 1, thereby cooperating with the side support plate 24 to stably drive the transfer bracket 23 to move and adjust along the mounting bracket 1, thereby driving the cutting mechanism 3 and the dust removal mechanism 4 to move and adjust, thus enabling the sequential cutting of the edge banding strips on both sides of the gypsum board being transferred on the conveying equipment. Step two: During this period, the bidirectional electric push rod 33 can drive the two mounting covers 34 to move towards or away from each other, thereby conveniently driving the two cutting discs 36 to move towards or away from each other. The electric telescopic rod 31 can drive the lifting bracket 32 ​​to move up and down conveniently, thereby driving the two cutting discs 36 to move up and down synchronously. In addition, the servo motor 37 can drive the drive rotating rod 38 to rotate, thereby synchronously driving the two mounting rotating tubes 35 to rotate, thereby synchronously driving the two cutting discs 36 to rotate, thereby synchronously cutting the two ends of the gypsum board edge banding of different lengths according to the processing requirements. Step three, simultaneously, the dust collector fan 44 will start, thereby continuously expelling the gas from the dust collector housing 41. This, in conjunction with the flexible hose 42, sliding duct 43, and mounting cover 34, will simultaneously draw the dust generated during the cutting operations of the two cutting discs 36 into the dust collection housing 45. During this period, the user can rotate the limit screw sleeve 416 to separate it from the dust collection housing 45, and then rotate the adjusting rod 414 to drive the drive gear 415 to rotate, thereby driving the sealing slide plate 412 through the driven rack 413. The dust collection boxes 45 on both sides of the serpentine inner plate 47 are sequentially sealed after the serpentine inner plate 47 is moved and adjusted. After sealing, the limit screw sleeve 416 is reset by turning it in the opposite direction. This allows the inhaled dust-laden gas to be guided to the first filter plate 410 and the second filter plate 411 for filtration. After the device is used, the user can disassemble the dust collection box 45 and the sealing cover 49 in sequence and clean the first filter plate 410 and the second filter plate 411 in sequence or disassemble and replace the first filter plate 410 and the second filter plate 411 in sequence.

[0031] Obviously, those skilled in the art can make various modifications and variations to this invention without departing from its spirit and scope. Therefore, if these modifications and variations fall within the scope of the claims of this invention and their equivalents, this invention also intends to include these modifications and variations.

Claims

1. A cutting device for gypsum board edge banding, comprising a mounting bracket (1), characterized in that: The inner side of the mounting bracket (1) is provided with a transfer mechanism (2) for use, and the transfer mechanism (2) includes a transfer bracket (23). The transfer bracket (23) is provided with a cutting mechanism (3) for use, and the cutting mechanism (3) includes a lifting bracket (32), a mounting cover (34), a mounting tube (35) and a cutting disc (36). The lifting bracket (32) is provided with a dust removal mechanism (4) for use, and the dust removal mechanism (4) includes a dust collection box (45), a serpentine inner plate (47), a first filter plate (410), a second filter plate (411) and a sealing plate (412). The use of the transfer mechanism (2) enables the transfer bracket (23) to move and adjust along the mounting bracket (1), thereby enabling the cutting mechanism (3) and the dust removal mechanism (4) to move and adjust. The use of the cutting mechanism (3) enables the lifting bracket (32) to move and adjust conveniently, thereby enabling the two cutting discs (36) to move and adjust synchronously and conveniently. It also enables the two mounting covers (34) to move towards or away from each other, thereby enabling the two cutting discs (36) to move towards or away from each other. In addition, it enables the two mounting tubes (35) to rotate synchronously, thereby enabling the two cutting discs (36) to rotate synchronously. The use of the dust removal mechanism (4) provides convenience for the movement, adjustment and fixation of the sealing plate (412), thereby enabling the dust collection boxes (45) on both sides separated by the serpentine inner plate (47) to be sealed sequentially, thereby enabling the inhaled dust-laden gas to be guided to the first filter plate (410) and the second filter plate (411) for filtration sequentially.

2. The cutting device for gypsum board edge banding as described in claim 1, characterized in that, The transfer mechanism (2) also includes an electric cylinder body (21), which is fixedly installed on the inner top of the mounting bracket (1), and an electric cylinder slider (22) is slidably provided on the electric cylinder body (21). The transfer bracket (23) is fixedly installed on the bottom end of the electric cylinder slider (22), and symmetrically arranged side support plates (24) are fixedly installed on the top of the transfer bracket (23). The side support plates (24) are fixedly installed on both sides of the electric cylinder slider (22).

3. The cutting device for gypsum board edge banding as described in claim 2, characterized in that, The cutting mechanism (3) also includes an electric telescopic rod (31), which is fixedly inserted at both ends of the transfer bracket (23), and a lifting bracket (32) is fixedly installed at the ends of the output ends of the two electric telescopic rods (31). A bidirectional electric push rod (33) is fixedly installed in the middle of the lifting bracket (32), and the output end of the bidirectional electric push rod (33) slides through the lifting bracket (32). The mounting cover (34) is fixedly installed at the ends of the output ends on both sides of the bidirectional electric push rod (33), and a rotating tube is installed thereon. 35) Rotary insertion on the mounting cover (34), the cutting blade (36) is fixedly sleeved on the middle of the outer side of the mounting tube (35), and the cutting blade (36) is rotatably installed on the inner side of the mounting cover (34). A servo motor (37) is fixedly installed on the lower side of one side of the lifting bracket (32), and a drive rod (38) is fixedly connected to the end of the output end of the servo motor (37). The drive rod (38) is rotatably inserted on the lifting bracket (32), and the mounting tube (35) is slidably sleeved on the drive rod (38).

4. The cutting device for gypsum board edge banding as described in claim 3, characterized in that, The top of the lifting bracket (32) is fixedly installed with symmetrically distributed first guide rods (39), and both ends of the transfer bracket (23) are provided with first guide holes (25), and the first guide rods (39) slide through the first guide holes (25).

5. A cutting device for gypsum board edge banding as described in claim 3, characterized in that, The mounting cover (34) is fixedly installed with a second guide rod (310) on each side. The lifting bracket (32) is provided with symmetrically arranged second guide holes (311), and the second guide rod (310) slides through the second guide hole (311).

6. The cutting device for gypsum board edge banding as described in claim 3, characterized in that, The inner wall of the mounting tube (35) is integrally formed with symmetrically distributed limiting guide blocks (312), and the outer wall of the driving rod (38) is provided with symmetrically arranged limiting guide grooves (313), and the limiting guide blocks (312) are slidably inserted into the limiting guide grooves (313).

7. The cutting device for gypsum board edge banding as described in claim 3, characterized in that, The dust removal mechanism (4) also includes a dust removal box (41), which is fixedly installed at the top center of the lifting bracket (32). One end of the dust removal box (41) is connected to symmetrically distributed elastic hoses (42). The end of the elastic hoses (42) is fixedly connected to a sliding guide tube (43), which slides through the lifting bracket (32) and is fixedly connected to the mounting cover (34). A dust removal fan (44) is fixedly installed on one side of the dust removal box (41). A dust collection box (45) can be slidably inserted into the dust removal box (41) and bolted to the dust removal box (41). One end of the dust collection box (45) is provided with a connecting through hole (46) that works with the elastic hoses (42). A serpentine inner plate (47) is fixedly installed on the inner side of the dust collection box (45). The inner cavity of the dust collection box (45) is fixedly installed with the serpentine inner plate (47). The U-shaped inner plate (48) is used in conjunction with the dust collection box (45). A sealing cover (49) for use with the serpentine inner plate (47) is bolted on one side of the dust collection box (45). The first filter plate (410) and the second filter plate (411) are bolted between the dust collection box (45) and the serpentine inner plate (47) and are used in conjunction with the sealing cover (49). The sealing slide plate (412) is slidably inserted between the serpentine inner plate (47) and the U-shaped inner plate (48). A driven rack (413) is fixedly installed on one side of the dust collection box (45). An adjusting rod (414) is rotatably inserted into the dust collection box (45) and the U-shaped inner plate (48). A drive gear (415) that meshes with the driven rack (413) is fixedly sleeved at the end of the adjusting rod (414). A limiting sleeve (416) is threaded onto the adjusting rod (414), and the limiting sleeve (416) can fit tightly against the inner wall of the dust collection box (45).

8. A cutting device for gypsum board edge banding as described in claim 7, characterized in that, The lifting bracket (32) has a mirror-distributed sliding groove (314) through it, and the sliding guide tube (43) is slidably locked in the sliding groove (314).

9. A cutting device for gypsum board edge banding as described in claim 7, characterized in that, One end of the dust collection box (45) is provided with a working slot (417) for use, and the working slot (417) has a symmetrical structure.

10. A method of using a cutting device for gypsum board edge banding, characterized in that, The cutting device for gypsum board edge banding as described in claim 9 includes the following steps: Step 1: Use fixing bolts to install the mounting bracket (1) on the conveying equipment. During subsequent use, the electric cylinder body (21) can drive the electric cylinder slider (22) to move and adjust along the mounting bracket (1), so as to cooperate with the side support plate (24) to stably drive the transfer bracket (23) to move and adjust along the mounting bracket (1), so as to drive the cutting mechanism (3) and the dust removal mechanism (4) to move and adjust, thereby realizing the sequential cutting of the edge banding on both sides of the gypsum board being transferred on the conveying equipment. Step 2: During this period, the bidirectional electric push rod (33) can drive the two mounting covers (34) to move towards each other or away from each other, thereby conveniently driving the two cutting discs (36) to move towards each other or away from each other. The electric telescopic rod (31) can drive the lifting bracket (32) to move up and down conveniently, thereby driving the two cutting discs (36) to move up and down synchronously. In addition, the servo motor (37) can drive the drive rotating rod (38) to rotate, thereby synchronously driving the two mounting rotating tubes (35) to rotate, thereby synchronously driving the two cutting discs (36) to rotate, thereby synchronously cutting the two ends of the gypsum board edge banding of different lengths according to the processing requirements. Step three, simultaneously, the dust removal fan (44) will start, thereby continuously expelling the gas inside the dust collection box (41), which, in conjunction with the flexible hose (42), sliding duct (43), and mounting cover (34), will simultaneously draw the dust generated during the cutting operation of the two cutting discs (36) into the dust collection box (45). During this period, the user can turn the limit screw sleeve (416) to separate it from the dust collection box (45), and then rotate the adjusting rod (414) to drive the drive gear (415) to rotate, thereby driving the sealing slide plate (41) through the driven rack (413). 2) Adjust the position and seal the dust collection boxes (45) on both sides of the serpentine inner plate (47) in sequence. After sealing, turn the limit screw sleeve (416) in the opposite direction to reset. Then, the dust-laden gas can be guided to the first filter plate (410) and the second filter plate (411) in sequence for filtration. After the device is used, the user can disassemble the dust collection box (45) and the sealing cover (49) in sequence and clean the first filter plate (410) and the second filter plate (411) in sequence or disassemble and replace the first filter plate (410) and the second filter plate (411) in sequence.