Auxiliary continuous turning structure for plate processing

By designing an auxiliary continuous flipping structure for sheet metal processing, the problems of positional displacement and contamination caused by manual operation were solved, achieving stable flipping and cleaning of the sheets, and improving processing accuracy and cleaning efficiency.

CN224492819UActive Publication Date: 2026-07-14福建思嘉新材料科技有限公司

Patent Information

Authority / Receiving Office
CN · China
Patent Type
Utility models(China)
Current Assignee / Owner
福建思嘉新材料科技有限公司
Filing Date
2025-09-11
Publication Date
2026-07-14

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Abstract

The utility model discloses a supplementary continuous face turning structure for plate processing relates to plate processing technical field, including frame, be provided with the turnover subassembly of helping plate to turn over on the frame, the side away from the frame of turnover subassembly is provided with the clamping assembly of clamping plate, the both sides of clamping assembly all are provided with the cleaning assembly of cleaning plate surface, the turnover subassembly includes the drive motor of fixed mounting on the frame, drive motor drive has the transmission, the central position of transmission is provided with drive shaft. The utility model discloses setting over turnover subassembly and clamping assembly, through the drive driven transmission wheel of belt drive, drive plate to carry out continuous turnover, and the drive shaft setting in the center of main transmission wheel will rotate motion transmission to clamping assembly, drive plate to turn over, in the turnover process, spring can automatically compensate the slight vibration or thickness tolerance of plate, can adapt to the plate of different width and process clamping.
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Description

Technical Field

[0001] This utility model relates to the field of sheet metal processing technology, specifically to an auxiliary continuous flipping structure for sheet metal processing. Background Technology

[0002] In the field of sheet metal processing (such as metal, wood, plastic, composite materials, etc.), flipping sheets is a common process requirement, especially in double-sided processing (such as cutting, drilling, carving, spraying, etc.). Traditional sheet metal flipping mainly relies on manual operation or simple mechanical assistance.

[0003] An existing patent (authorization announcement number: CN220575869U) discloses an automatic flipping device. The key technical points of the solution are: by setting a plate support part and a movable plate, the lower plate A is pulled out from the movable seat, and the lower plate B is pulled out from the guide groove at the bottom of the frame. Then, the plate to be processed is placed on the lower plate A and plate B in the frame for support. Since the movable seat moves forward under the support of the spring, it can realize the clamping and fastening action of the two ends of the plate to prevent the plate from falling off due to displacement during processing. The movable plate is rotated to the upper and lower surfaces of the plate to play an auxiliary role in fixing the plate and also prevent the plate from falling off the frame during flipping, effectively ensuring the flipping effect.

[0004] However, the above technical solutions still have certain defects. Manual operation can easily cause the position of the plate to shift after flipping, requiring repeated adjustments, which affects the accuracy of subsequent processing. At the same time, if the debris, oil stains or dust generated on the plate surface during processing are not cleaned in time, they may contaminate the other side of the processing surface after flipping, affecting the coating adhesion or welding quality. Therefore, an auxiliary continuous flipping structure for plate processing is proposed. Utility Model Content

[0005] The purpose of this invention is to provide an auxiliary continuous flipping structure for sheet metal processing to solve the problems in the background art.

[0006] To achieve the above objectives, this utility model provides the following technical solution:

[0007] An auxiliary continuous flipping structure for sheet metal processing includes a frame, on which a flipping component is provided to help flip the sheet metal. A clamping component for holding the sheet metal is provided on the side of the flipping component away from the frame. Cleaning components for cleaning the surface of the sheet metal are provided on both sides of the clamping component.

[0008] The flipping assembly includes a drive motor fixedly mounted on the frame, the drive motor drives a first transmission wheel, and a drive shaft is provided at the center of the first transmission wheel;

[0009] The clamping assembly includes a fixed plate fixedly mounted on the end of the drive shaft, and an elastic limiting plate slidably mounted on the fixed plate. The limiting plate and the fixed plate cooperate to form a clamping space for the plate, and a spring connects the limiting plate and the fixed plate.

[0010] Based on the above technical solutions, this utility model also provides the following optional technical solutions:

[0011] As a further embodiment of this utility model: the flipping assembly further includes a rotating disk installed on the outside of the first transmission wheel, the rotating disk being rotatably connected to the first transmission wheel, the surface of the first transmission wheel being covered with a belt, and the first transmission wheel being driven by the belt to a second transmission wheel.

[0012] As a further embodiment of this utility model: the cleaning component includes a mounting plate that can be detachably installed via a locking block and a locking slot. An airbag is provided on one side of the mounting plate, and a cleaning strip is provided on the other side. A sliding rod is provided in the locking slot to limit the displacement of the locking block. A sliding rod is slidably provided in the locking slot of the fixing plate. The cleaning component is installed on the fixing plate of the clamping component via a detachable structure.

[0013] As a further embodiment of this utility model: the rotating disk, the first transmission wheel, the second transmission wheel, and the drive shaft are all provided in two sets, and each set of drive components drives a set of clamping components and a cleaning component. The clamping surfaces of the two sets of clamping components are perpendicular to each other, forming a right-angle positioning structure for the plate.

[0014] As a further improvement of this utility model: the end of the card block near the card slot is provided with an elastic buckle, and the card slot is provided with a groove to facilitate the engagement of the elastic buckle; the end of the sliding rod near the card slot is provided with a limit ring, and the diameter of the limit ring is larger than the diameter of the sliding rod.

[0015] As a further improvement of this utility model, two sets of clamping components are mirror-arranged along the long side of the mounting plate.

[0016] As a further improvement of this utility model, the inner wall of the limiting plate is coated with an anti-slip material.

[0017] As a further improvement of this invention, the cleaning strip is made of nylon.

[0018] Compared with the prior art, the beneficial effects of this utility model are as follows:

[0019] 1. This utility model sets up a flipping component and a clamping component. The driven transmission wheel is driven by a belt drive to continuously flip the plate. At the same time, the drive shaft set at the center of the main transmission wheel transmits the rotational motion to the clamping component, which drives the plate to flip. During the flipping process, the spring can automatically compensate for slight vibrations or thickness tolerances of the plate, and can adapt to the processing and clamping of plates of different widths.

[0020] 2. This utility model cleans dust from the surface of the board by setting up a cleaning component. At the same time, the installation plate can be installed with one click by the cooperation of the elastic buckle on the side of the card block and the groove of the card slot. By pressing the sliding rod, the sliding rod squeezes the elastic buckle and the elastic buckle retracts, so that the card block can be removed along the sliding groove. The detachable structure of the card slot and the elastic buckle makes it easy to replace the worn cleaning strip. Attached Figure Description

[0021] Figure 1 This is a schematic diagram of the structure of this utility model;

[0022] Figure 2 This is a schematic diagram of the transmission component of this utility model;

[0023] Figure 3 This is a schematic diagram of the clamping assembly of this utility model;

[0024] Figure 4 This is a schematic diagram of the cleaning component of this utility model;

[0025] Figure 5 For the present utility model Figure 4 Enlarged view of point A in the middle.

[0026] Figure label annotations: 1. Frame; 2. Flip assembly; 3. Clamping assembly; 4. Cleaning assembly;

[0027] 21. Drive motor; 22. Rotating disc; 23. First transmission wheel; 24. Drive shaft; 25. Transmission belt; 26. Second transmission wheel;

[0028] 31. Fixing plate; 32. Limiting plate; 33. Spring;

[0029] 41. Mounting plate; 42. Airbag; 43. Cleaning strip; 44. Locking block; 45. Sliding rod. Detailed Implementation

[0030] To make the objectives, technical solutions, and advantages of this utility model clearer, the present utility model will be further described in detail below with reference to the accompanying drawings and embodiments.

[0031] In one embodiment, such as Figures 1-5As shown, an auxiliary continuous flipping structure for sheet metal processing includes a frame 1. A flipping component 2 that helps flip the sheet metal is provided on the frame 1. A clamping component 3 for clamping the sheet metal is provided on the side of the flipping component 2 away from the frame 1. Cleaning components 4 for cleaning the surface of the sheet metal are provided on both sides of the clamping component 3.

[0032] In this embodiment, the flipping component 2 is set as the power source for flipping the board and driving the board to rotate. At the same time, the clamping component 3 fixes the board 31, so that the board can stably follow the rotation when the flipping component 2 rotates. Meanwhile, the cleaning component 4 cleans the surface of the board simultaneously when the board rotates.

[0033] In one embodiment, such as Figure 2 As shown, the flipping assembly 2 includes a drive motor 21 fixedly mounted on the frame 1. The drive motor 21 drives a first transmission wheel 23. A drive shaft 24 is located at the center of the first transmission wheel 23. The flipping assembly 2 also includes a rotating disk 22 mounted on the outside of the first transmission wheel 23. The rotating disk 22 is rotatably connected to the first transmission wheel 23. The surface of the first transmission wheel 23 is covered with a belt. The first transmission wheel 23 drives a second transmission wheel 26 through the belt. The drive motor 21 is fixedly mounted on the frame 1 as a power source. It directly drives the main first transmission wheel 23 to rotate through its output shaft. The surface of the main first transmission wheel 23 is covered with a belt. The belt drives the driven first transmission wheel 23, realizing synchronous rotation of the two wheels. At the same time, the rotating disk 22 provides radial support for the first transmission wheel 23, reducing the bending stress of the drive shaft 24. The drive shaft 24 located at the center of the main first transmission wheel 23 transmits the rotational motion to the clamping assembly 3, causing the plate to flip.

[0034] In one embodiment, such as Figure 3As shown, the clamping assembly 3 includes a fixed plate 31 fixedly mounted on the end of the drive shaft 24, and an elastic limiting plate 32 slidably mounted on the fixed plate 31. The inner wall of the limiting plate 32 is coated with an anti-slip material. The limiting plate 32 and the fixed plate 31 cooperate to form a clamping space for the plate material, and a spring 33 connects the limiting plate 32 and the fixed plate 31. Two sets of the clamping assembly 3 are mirror-arranged along the long side of the mounting plate 41. When the plate material is fed into the processing position, the edge of the plate material is inserted into the clamping space formed by the fixed plate 31 and the elastic limiting plate 32. The insertion force of the plate pushes the limiting plate 32 to slide towards the fixed plate 31, overcoming the resistance of the spring 33. At this time, the spring 33 is compressed and stores energy. The spring 33 continues to apply a rebound force, pushing the limiting plate 32 to press against the plate. Since the two sets of clamping components 3 are mirror-symmetrically arranged, the two sides of the plate are simultaneously subjected to balanced clamping forces. The anti-slip material (such as polyurethane coating) on ​​the inner wall of the limiting plate 32 increases the coefficient of friction to prevent the plate from sliding. During the flipping process, the spring 33 can automatically compensate for slight vibrations or thickness tolerances of the plate, and can adapt to the processing and clamping of plates of different widths.

[0035] In one embodiment, such as Figure 4 and Figure 5 As shown, the cleaning component 4 includes a mounting plate 41 that is detachably mounted to a slot via a locking block 44. An airbag 42 is provided on one side of the mounting plate 41, and a cleaning strip 43 is provided on the other side. A sliding rod 45 is provided in the slot to limit the displacement of the locking block 44. The sliding rod 45 is slidably mounted in the slot of the fixing plate 31. The cleaning component 4 is detachably mounted on the fixing plate 31 of the clamping component 3. An elastic buckle is provided at the end of the locking block 44 near the slot, and a groove is provided in the slot to facilitate the engagement of the elastic buckle. A limit ring is provided at the end of the sliding rod 45 near the slot, and the diameter of the limit ring is larger than the diameter of the sliding rod 45. The cleaning strip 43 is made of nylon. Made of the same material; the mounting plate 41 is installed with one click by the cooperation of the elastic buckle on the side of the locking block 44 and the groove of the locking slot. The sliding rod 45 moves axially in the groove. The diameter of the limiting ring at its end is larger than the rod diameter, forming a mechanical stop to prevent over-insertion. At the same time, the sliding rod 45 can be pressed to squeeze the elastic buckle and retract it. The locking block 44 can be removed along the sliding groove. When installed in place, the elastic buckle locks into the groove to complete rigid positioning. At the same time, the detachable structure of the groove and the elastic buckle makes it easy to replace the worn cleaning strip 43. When the clamping component 3 clamps the plate, the airbag 42 on the side of the mounting plate 41 is deformed by pressure to assist in clamping the side of the plate.

[0036] In one embodiment, such as Figure 1 and Figure 2As shown, the rotating disk 22, the first transmission wheel 23, the second transmission wheel 26, and the drive shaft 24 are all provided in two sets, and each set of drive components drives a set of clamping components 3 and cleaning components 4. The clamping surfaces of the two sets of clamping components 3 are perpendicular to each other, forming a right-angle positioning structure for the plate. By fixing the two sets of clamping components 3 and the cleaning components 4 to the two sets of first transmission wheels 23 respectively, the plates are perpendicular to each other during processing. When one set of plates is placed in parallel, the other set of plates is perpendicular to the other set of plates, so that the cleaning strip 43 on the side of the mounting plate 41 sweeps the surface of the plate, automatically removing debris or dust, so that the surface of the plate can be cleaned during the plate flipping process.

[0037] The above embodiments disclose an auxiliary continuous flipping structure for sheet metal processing. The flipping assembly 2 assists in flipping the sheet metal. A drive motor 21 directly drives the main first transmission wheel 23 to rotate via its output shaft. The surface of the main first transmission wheel 23 is covered with a belt, which drives the driven first transmission wheel 23, achieving synchronous rotation of both wheels. The sheet metal is simultaneously clamped by a limiting plate 32, and a spring 33 assists in clamping, helping to better fix the sheet metal. Simultaneously, when the sheet metal rotates, the two sets of sheet metal are placed at a vertical angle. The mounting plate 41 on the edge of the vertically placed sheet metal drives a cleaning strip 43 to sweep and brush the processed sheet metal, removing dust and improving cleaning efficiency.

[0038] The above description is merely a specific embodiment of this application, but the scope of protection of this application is not limited thereto. Any variations or substitutions that can be easily conceived by those skilled in the art within the technical scope disclosed in this application should be included within the scope of protection of this application. Therefore, the scope of protection of this application should be determined by the scope of the claims.

Claims

1. An auxiliary continuous flipping structure for sheet metal processing, comprising a frame (1), wherein a flipping assembly (2) for assisting in flipping the sheet metal is provided on the frame (1), characterized in that, The flipping component (2) is provided with a clamping component (3) for clamping the plate on the side away from the frame (1), and a cleaning component (4) for cleaning the surface of the plate is provided on both sides of the clamping component (3). The flipping assembly (2) includes a drive motor (21) fixedly mounted on the frame (1), the drive motor (21) drives a first transmission wheel (23), and a drive shaft (24) is provided at the center of the transmission wheel (23); The clamping assembly (3) includes a fixed plate (31) fixedly disposed at the end of the drive shaft (24) and an elastic limiting plate (32) slidably mounted on the fixed plate (31). The limiting plate (32) and the fixed plate (31) cooperate to form a clamping space for the plate, and a spring (33) is connected between the limiting plate (32) and the fixed plate (31).

2. The auxiliary continuous flipping structure for sheet metal processing according to claim 1, characterized in that, The flipping assembly (2) also includes a rotating disk (22) installed on the outside of the first transmission wheel (23). The rotating disk (22) is rotatably connected to the first transmission wheel (23). The surface of the first transmission wheel (23) is covered with a belt. The first transmission wheel (23) is driven by a second transmission wheel (26) through the belt.

3. The auxiliary continuous flipping structure for sheet metal processing according to claim 1, characterized in that, The cleaning component (4) includes a mounting plate (41) that can be detachably installed via a locking block (44) and a locking slot. An airbag (42) is provided on one side of the mounting plate (41), and a cleaning strip (43) is provided on the other side. A sliding rod (45) is provided in the locking slot to limit the displacement of the locking block (44). The sliding rod (45) is slidably installed in the locking slot of the fixing plate (31). The cleaning component (4) is installed on the fixing plate (31) of the clamping component (3) via a detachable structure.

4. The auxiliary continuous flipping structure for sheet metal processing according to claim 2, characterized in that, The rotating disk (22), the first transmission wheel (23), the second transmission wheel (26), and the drive shaft (24) are all provided in two sets, and each set of drive components drives a set of clamping components (3) and cleaning components (4). The clamping surfaces of the two sets of clamping components (3) are perpendicular to each other, forming a right-angle positioning structure for the plate.

5. The auxiliary continuous flipping structure for sheet metal processing according to claim 3, characterized in that, The card block (44) is provided with an elastic buckle at one end near the card slot, and the card slot is provided with a groove to facilitate the engagement of the elastic buckle. The sliding rod (45) is provided with a limit ring at one end near the card slot, and the diameter of the limit ring is larger than the diameter of the sliding rod (45).

6. The auxiliary continuous flipping structure for sheet metal processing according to claim 1, characterized in that, The clamping assembly (3) is provided in two sets mirror images along the long side of the mounting plate (41).

7. The auxiliary continuous flipping structure for sheet metal processing according to claim 1, characterized in that, The inner wall of the limiting plate (32) is coated with anti-slip material.

8. The auxiliary continuous flipping structure for sheet metal processing according to claim 3, characterized in that, The cleaning strip (43) is made of nylon.