Clamping mechanism, product holder

By combining the clamping and cutting mechanisms, the wooden door cutting machine achieves automated clamping and precise cutting, solving the problems of manual feeding and unstable clamping, and improving cutting accuracy and efficiency.

CN224489422UActive Publication Date: 2026-07-14XUZHOU LITENG INTELLIGENT TECH CO LTD

Patent Information

Authority / Receiving Office
CN · China
Patent Type
Utility models(China)
Current Assignee / Owner
XUZHOU LITENG INTELLIGENT TECH CO LTD
Filing Date
2023-09-28
Publication Date
2026-07-14

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  • Figure CN224489422U_ABST
    Figure CN224489422U_ABST
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Abstract

The utility model discloses a purpose provides clamping mechanism, product support, equipment is in working, first template is placed on cutting mechanism, then through the telescoping of pneumatic cylinder, and then drive the compression and grab to the wood board clamping, then through the rotation of drive motor, and then drive the support plate on the guide rail one sliding, then adjust the position of adjusting tool structure, lift the crosscutting cutter of positioning tool structure and adjusting tool structure through the jacking pneumatic cylinder, and the clamping mechanism carries the material removal, and after the removal of the excess material of both ends, the clamping mechanism continues to carry the material removal to the position of the knife groove, and the longitudinal cutter mechanism lifts the longitudinal cutter and its power part under the action of adjusting pneumatic cylinder, and under the action of longitudinal motor, along the guide rack cutting is carried out, and after cutting is completed one side, the tool returns and cuts the other side, like this can complete the cutting of four -sided margin, finally realizes accurate cutting to the material, and improves cutting accuracy.
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Description

Technical Field

[0001] This utility model relates to the field of wooden door manufacturing technology, and in particular to clamping mechanisms and product supports. Background Technology

[0002] A wooden door cutting machine is a specialized device for cutting wooden doors. It can automatically cut and process wood according to different door sizes and shapes, greatly improving production efficiency and product quality. Based on modern CNC technology and an automated control system, this machine can quickly and accurately complete processing steps such as door panel cutting.

[0003] Modern wooden door cutting machines have complex processes, requiring manual feeding. They also cannot clamp and fix the wooden door during cutting, which can easily cause the door to shift during cutting, affecting the cutting accuracy. The door panel needs to be rotated or flipped to complete the cutting of all four sides, which greatly reduces the cutting efficiency. Utility Model Content

[0004] The purpose of this utility model is to provide a clamping mechanism and a product bracket to solve the problems mentioned in the background art and facilitate its promotion.

[0005] To achieve the aforementioned objectives, the technical solution adopted by this utility model is as follows:

[0006] The clamping mechanism includes a moving component and a clamping component. The moving component includes a bracket with a support leg at its lower end and a guide rail at its upper end. A support plate is mounted on the guide rail and moves along the guide rail via a rack and pinion mechanism.

[0007] Furthermore, the clamping assembly includes a mounting bracket provided on the inner wall of the support plate, a clamping gripper hinged to the inner side of the mounting bracket, and a cylinder that cooperates with the clamping gripper is mounted on the mounting bracket, with the end of the cylinder's extension shaft hinged to one end of the clamping gripper.

[0008] The product support includes a clamping mechanism and a cutting mechanism. The cutting mechanism includes a cross-cutting mechanism and a longitudinal cutting mechanism. The cross-cutting mechanism includes a cross-cutting frame disposed between the support legs. The cross-cutting frame has multiple evenly arranged guide grooves, and multiple evenly arranged guide rollers are rotatably disposed within the guide grooves. The ends of the cross-cutting frame away from the support legs are opposite to each other.

[0009] It is equipped with a cross-cutting machine structure;

[0010] The longitudinal cutting mechanism includes a longitudinal cutting frame, one side of which is connected to a transverse cutting frame. The transverse cutting frame is provided with a knife groove, and the bottom of the longitudinal cutting frame is provided with a longitudinal cutting knife mechanism.

[0011] Furthermore, the cross-cutting machine structure includes an adjusting cutter structure and a positioning cutter structure respectively installed at both ends of the longitudinal cutting frame. The adjusting cutter structure is moved by a lead screw, and the positioning cutter structure is moved by a cylinder. Both the adjusting cutter structure and the positioning cutter structure include a lifting cylinder. A frame is installed on the upper end of the lifting cylinder, and a cross-cutting motor is installed on the frame. A cross-cutting blade is installed on the output shaft of the cross-cutting motor.

[0012] Furthermore, the longitudinal slicing mechanism includes a movable frame, on which an adjusting cylinder is mounted, on which an mounting frame is mounted and on which a longitudinal slicing blade is mounted, and on which a longitudinal slicing motor is driven and connected to the longitudinal slicing blade is mounted, a guide rod and a guide rack are mounted on the longitudinal slicing frame, and rollers that cooperate with the guide rod are provided on the side of the movable frame, and a longitudinal motor is mounted on the movable frame, and a longitudinal moving gear is mounted on the output shaft of the longitudinal motor and meshes with the guide rack.

[0013] As an improvement, the beneficial effects of this utility model are as follows:

[0014] This utility model relates to a clamping mechanism and product support. During operation, the template is first placed on the cutting mechanism. Then, the extension and retraction of the cylinder causes the clamping gripper to clamp the wooden board. The rotation of the drive motor then causes the support plate to slide on the guide rail. The position of the adjusting cutter structure is then adjusted, and the cross-cutting blade of the positioning cutter structure and the adjusting cutter structure is lifted by the lifting cylinder. The clamping mechanism moves the material, and the excess material at both ends is removed by the cross-cutting blade. After the excess material at both ends is removed, the clamping mechanism continues to move the material to the cutter groove. The longitudinal cutting mechanism, under the action of the adjusting cylinder, lifts the longitudinal cutting blade and its power unit, and cuts along the guide rack under the action of the longitudinal motor. After cutting one side, the blade returns to cut the other side, thus completing the cutting of excess material on all four sides. This achieves precise cutting of the material and improves cutting accuracy. Attached Figure Description

[0015] Figure 1 is a first-view schematic diagram of this utility model;

[0016] Figure 2 is a schematic diagram of the present invention from a second perspective;

[0017] Figure 3 is a schematic diagram of the present invention from a third perspective;

[0018] Figure 4 is a schematic diagram of the present invention from a fourth perspective;

[0019] Figure 5 is a partial structural schematic diagram of the present invention from a fifth perspective;

[0020] Appendix Label Reference Table:

[0021] 100. Moving component; 101. Support leg; 102. Guide rail 1; 103. Support plate; 104. Bracket; 200. Clamping component; 201. Mounting frame; 202. Clamping gripper; 203. Cylinder; 300. Longitudinal cutting mechanism; 301. Longitudinal cutting frame; 302. Blade groove; 310. Longitudinal cutting blade mechanism; 311. Moving frame; 312. Adjusting cylinder; 313. Mounting frame; 314. Longitudinal cutting blade; 315. Longitudinal cutting motor; 316. Guide rod; 317. Roller; 318. Guide rack; 319. Longitudinal moving gear; 320. Longitudinal motor; 400. Cross-cutting mechanism; 401. Cross-cutting machine structure; 4011. Adjusting cutter structure; 4012. Positioning cutter structure; 4013. Lifting cylinder; 4014. Frame; 4015. Cross-cutting motor; 4016. Cross-cutting blade; 402. Cross-cutting frame; 403. Guide groove; 404. Guide roller. Detailed Implementation

[0022] The specific embodiments of this utility model will be further described below with reference to the accompanying drawings. Identical components are indicated by the same reference numerals. It should be noted that the terms "front," "rear," "left," "right," "up," and "down" used in the following description refer to directions in the accompanying drawings, while the terms "inner" and "outer" refer to directions toward or away from the geometric center of a specific component, respectively.

[0023] To make the content of this utility model easier to understand, the technical solutions of this utility model will be clearly and completely described below with reference to the accompanying drawings of the embodiments. Identical components are indicated by the same reference numerals.

[0024] As shown in Figures 1 to 5, the clamping mechanism includes a moving component 100 and a clamping component 200. The moving component 100 includes a bracket 104, a support leg 101 is provided below the bracket 104, a guide rail 102 is provided at the upper end of the bracket 104, and a support plate 103 is provided on the guide rail 102. The support plate 103 moves along the guide rail 102 through a rack and pinion mechanism.

[0025] The clamping assembly 200 includes a support plate 103 with a mounting bracket 201 on its inner wall. A clamping gripper 202 is hinged to the inner side of the mounting bracket 201. A cylinder 203 is mounted on the mounting bracket 201 and is configured to cooperate with the clamping gripper 202. The end of the extension shaft of the cylinder 203 is hinged to one end of the clamping gripper 202. By extending and retracting the cylinder 203, the clamping gripper 202 is driven to clamp the wooden board. Then, by rotating the drive motor, the support plate 103 is driven to slide on the guide rail 102.

[0026] The product support includes a clamping mechanism and a cutting mechanism. The cutting mechanism includes a cross-cutting mechanism 400 and a longitudinal cutting mechanism 300. The cross-cutting mechanism 400 includes a cross-cutting frame 402 disposed between the support legs 101. The cross-cutting frame 402 is provided with a plurality of evenly arranged guide grooves 403. A plurality of evenly arranged guide rollers 404 are rotatably disposed in the guide grooves 403. The cross-cutting machine structure 401 is provided on both sides of the end of the cross-cutting frame 402 away from the support legs 101.

[0027] The longitudinal cutting mechanism 300 includes a longitudinal cutting frame 301, one side of which is connected to a cross-cutting frame 402. The cross-cutting frame 402 is provided with a knife groove 302, and the bottom of the longitudinal cutting frame 301 is provided with a longitudinal cutting knife mechanism 310.

[0028] The cross-cutting machine structure 401 includes an adjusting cutter structure 4011 and a positioning cutter structure 4012 respectively installed at both ends of the longitudinal cutting frame 301. The adjusting cutter structure 4011 is moved by a lead screw, and the positioning cutter structure 4012 is moved by a cylinder. Both the adjusting cutter structure 4011 and the positioning cutter structure 4012 include a lifting cylinder 4013. A frame 4014 is installed on the upper end of the lifting cylinder 4013. A cross-cutting motor 4015 is installed on the frame 4014. A cross-cutting blade 4016 is installed on the output shaft of the cross-cutting motor 4015. By adjusting the position of the adjusting cutter structure 4011, the positioning cutter structure 4012 and the cross-cutting blade 4016 of the adjusting cutter structure 4011 are lifted by the lifting cylinder 4013. The clamping mechanism drives the material to move, so that the two ends of the material are cut off by the cross-cutting blade 4016.

[0029] The longitudinal cutting mechanism 310 includes a movable frame 311, on which an adjusting cylinder is mounted.

[0030] 312, An adjusting cylinder 312 is mounted on a mounting frame 313, and a longitudinal cutting blade is mounted on the mounting frame 313.

[0031] 314. A longitudinal cutting motor 315, which is connected to the longitudinal cutting blade 314, is mounted on the mounting frame 313. A guide rod 316 and a guide rack 318 are mounted on the longitudinal cutting frame 301. A roller 317 that cooperates with the guide rod 316 is provided on the side of the moving frame 311. A longitudinal motor 320 is mounted on the moving frame 311. A longitudinal moving gear 319 is mounted on the output shaft of the longitudinal motor 320 and meshes with the guide rack 318. After the excess material at both ends is removed, the clamping mechanism continues to drive the material to the position of the blade groove 302. The longitudinal cutting blade mechanism 310 lifts the longitudinal cutting blade 314 and its power unit under the action of the adjusting cylinder 312. Under the action of the longitudinal motor 320, it cuts along the guide rack 318. After cutting one side, the blade returns to cut the other side. In this way, the excess material on all four sides can be cut, and the material can be cut accurately, thereby improving the cutting accuracy.

[0032] The above are merely preferred embodiments of this utility model patent and are not intended to limit this utility model patent. Any modifications, equivalent substitutions, and improvements made within the spirit and principles of this utility model patent should be included within the protection scope of this utility model patent.

Claims

1. A clamping mechanism, comprising a moving component (100) and a clamping component (200), characterized in that, The moving component (100) includes a bracket (104), a support leg (101) is provided below the bracket (104), a guide rail (102) is provided at the upper end of the bracket (104), a support plate (103) is provided on the guide rail (102), and the support plate (103) moves along the guide rail (102) through a rack and pinion mechanism.

2. The clamping mechanism according to claim 1, characterized in that, The clamping assembly (200) includes a mounting bracket (201) provided on the inner wall of a support plate (103). A clamping gripper (202) is hinged to the inner side of the mounting bracket (201). A cylinder (203) that cooperates with the clamping gripper (202) is mounted on the mounting bracket (201), and the end of the extension shaft of the cylinder (203) is hinged to one end of the clamping gripper (202).

3. A product bracket, characterized in that, The clamping mechanism according to any one of claims 1-2 is further comprising a cutting mechanism, the cutting mechanism comprising a cross-cutting mechanism (400) and a longitudinal cutting mechanism (300), the cross-cutting mechanism (400) comprising a cross-cutting frame (402) disposed between the support legs (101), the cross-cutting frame (402) being provided with a plurality of evenly arranged guide grooves (403) on the upper part, a plurality of evenly arranged guide rollers (404) being rotatably disposed in the guide grooves (403), and the cross-cutting frame (402) having cross-cutting machine structures (401) opposite each other on both sides of the end away from the support legs (101); The longitudinal cutting mechanism (300) includes a longitudinal cutting frame (301), one side of which is connected to a cross-cutting frame (402). The cross-cutting frame (402) is provided with a knife groove (302), and the bottom of the longitudinal cutting frame (301) is provided with a longitudinal cutting knife mechanism (310).

4. The product bracket according to claim 3, characterized in that, The cross-cutting machine structure (401) includes an adjusting cutter structure (4011) and a positioning cutter structure (4012) respectively installed at both ends of the longitudinal cutting frame (301). The adjusting cutter structure (4011) is moved by a lead screw, and the positioning cutter structure (4012) is moved by a cylinder. Both the adjusting cutter structure (4011) and the positioning cutter structure (4012) include a lifting cylinder (4013). A frame (4014) is installed on the upper end of the lifting cylinder (4013). A cross-cutting motor (4015) is installed on the frame (4014), and a cross-cutting blade (4016) is installed on the output shaft of the cross-cutting motor (4015).

5. The product bracket according to claim 3, characterized in that, The longitudinal slicing mechanism (310) includes a movable frame (311), an adjusting cylinder (312) is mounted on the movable frame (311), an mounting frame (313) is mounted on the adjusting cylinder (312), and a longitudinal slicing blade (314) is mounted on the mounting frame (313). A longitudinal slicing motor (315) that is connected to the longitudinal slicing blade (314) is mounted on the mounting frame (313). A guide rod (316) and a guide rack (318) are mounted on the longitudinal slicing frame (301). A roller (317) that cooperates with the guide rod (316) is provided on the side of the movable frame (311). A longitudinal motor (320) is mounted on the movable frame (311). A longitudinal moving gear (319) is mounted on the output shaft of the longitudinal motor (320) and meshes with the guide rack (318).