A belt processing fixture
By using a vacuum suction cup and rotating roller structure to assist in fixing the belt, the problem of leaving marks in the clamping device in the existing technology is solved, and mark-free fixing and efficient processing are achieved.
Patent Information
- Authority / Receiving Office
- CN · China
- Patent Type
- Utility models(China)
- Current Assignee / Owner
- QINGDAO DH SPORT EQUIP CO LTD
- Filing Date
- 2025-08-11
- Publication Date
- 2026-06-30
AI Technical Summary
The existing belt processing fixtures do not have a fixed structure, and the clamping device is prone to leaving marks on the belt surface after clamping, which affects the belt quality.
It adopts a vacuum suction cup and rotating roller structure, which uses vacuum adsorption and rotating roller to fix the belt, combined with electromagnetic control valve and servo controller to achieve traceless fixation.
This method achieves a secure fixation of the belt, avoids clamping marks, and improves processing accuracy and efficiency.
Smart Images

Figure CN224425728U_ABST
Abstract
Description
Technical Field
[0001] This utility model belongs to the field of belt processing tooling technology, and more specifically, it relates to a belt processing tooling. Background Technology
[0002] Belt processing fixtures are customized jigs or devices specifically designed for belt manufacturing, repair, and secondary processing. Through functions such as precise positioning, stable clamping, and dynamic control, they solve processing problems caused by the flexibility, easy deformation, and surface sensitivity of belts, ensuring the accuracy and efficiency of processes such as cutting, drilling, splicing, and inspection.
[0003] Based on existing technology, it has been found that existing belt processing tooling does not have a structure for fixing the belt during use, and traditional clamping devices are prone to leaving marks on the belt surface after clamping, which affects the quality of the belt. Utility Model Content
[0004] To address the aforementioned technical problems, this utility model provides a belt processing fixture, which solves the problems that existing belt processing fixtures do not have a structure for fixing the belt during use, and that traditional clamping devices easily leave marks on the belt surface after clamping, affecting the quality of the belt.
[0005] This utility model discloses a belt processing fixture, which is achieved through the following specific technical means:
[0006] A belt processing fixture includes a main body;
[0007] The main body is a belt processing tool body; the main body has an installation groove; the main body is set on a cross mounting platform; a vacuum suction cup is set on the cross mounting platform; the vacuum suction cup is set on both sides of the main body; a rotating base is set at the bottom of the cross mounting platform; the rotating base is connected to the motor output shaft; a servo controller is set on the side of the motor; the motor is fixedly set on the top of the welding bracket.
[0008] Furthermore, the main body is provided with four sets; a rotating roller is rotatably arranged inside the mounting groove; and the mounting groove is provided with four sets.
[0009] Furthermore, the bottom of the main body is provided with an inlay groove; a trapezoidal mounting block is provided inside the inlay groove; hexagonal socket head cap screws are provided on both sides of the trapezoidal mounting block; the hexagonal socket head cap screws are provided on a cross mounting platform; the threaded holes of the cross mounting platform are compatible with the hexagonal socket head cap screws.
[0010] Furthermore, the vacuum suction cup is provided with multiple sets of circular holes; a connecting pipe is provided on the side of the vacuum suction cup; an electromagnetic control valve is provided on the connecting pipe; the connecting pipe and the circular holes on the vacuum suction cup are interconnected.
[0011] Furthermore, the motor and servo controller are connected to an external power source via wires; the servo controller is located on the side of the welding bracket; the servo controller is located on the side of the motor.
[0012] Furthermore, the welding bracket is provided with support feet at its bottom.
[0013] Compared with the prior art, the present invention has the following beneficial effects:
[0014] 1. This device includes a main body and vacuum suction cups. The vacuum suction cups are located on both sides of the main body, allowing the main body to be positioned by inserting it into the trapezoidal mounting block via the inlay groove on the main body. The belt passes through the mounting groove and contacts the rotating roller. When the belt moves, it drives the rotating roller to rotate, thus providing an auxiliary assist effect. Compressed air is connected to the external pipe and controlled by an electromagnetic control valve to further fix the belt on the vacuum suction cup, ensuring the belt is firmly installed. This fixing method will not leave marks on the belt, will not cause belt deformation, and provides a better fixing effect. Attached Figure Description
[0015] Figure 1 This is a front-view three-dimensional structural schematic diagram of the present invention.
[0016] Figure 2 This is a three-dimensional structural diagram of the present invention viewed from below.
[0017] Figure 3 This is a partially exploded three-dimensional structural diagram of the present invention.
[0018] Figure 4 This is a bottom-view, partially exploded three-dimensional structural diagram of this utility model.
[0019] In the diagram, the correspondence between component names and drawing numbers is as follows:
[0020] 1. Main body; 101. Mounting groove; 102. Rotating roller; 103. Inlay groove; 104. Trapezoidal mounting block; 105. Socket head bolt; 2. Cross mounting platform; 3. Vacuum suction cup; 301. Connecting pipeline; 302. Electromagnetic control valve; 4. Rotating base; 401. Motor; 402. Servo controller; 5. Welding bracket; 501. Support foot. Detailed Implementation
[0021] The embodiments of this utility model will be described in further detail below with reference to the accompanying drawings and examples.
[0022] Example:
[0023] As attached Figure 1To be continued Figure 4 As shown:
[0024] This utility model provides a belt processing fixture, including a main body 1;
[0025] The main body 1 is the belt processing fixture body; the main body 1 has an installation groove 101; the main body 1 is set on the cross mounting platform 2; the cross mounting platform 2 is equipped with a vacuum suction cup 3; the vacuum suction cup 3 is set on both sides of the main body 1; the bottom of the cross mounting platform 2 is equipped with a rotating base 4; the rotating base 4 is connected to the output shaft of the motor 401; a servo controller 402 is set on the side of the motor 401; the motor 401 is fixedly set on the top of the welding bracket 5; the installation groove 101 is used to install the belt to be processed, while the cross mounting platform 2 is used to install the main body 1, and the vacuum suction cup 3 can help fix the belt, and the rotating base 4 can be driven to rotate by the motor 401, and the servo controller 402 is used to control the motor 401.
[0026] Among them, such as Figure 1 As shown, the main body 1 is provided with four sets; a rotating roller 102 is rotatably arranged inside the mounting groove 101; the mounting groove 101 is provided with four sets; the rotating roller 102 here is used to contact the belt and play an auxiliary role when the belt moves, thereby improving the smoothness of the belt movement.
[0027] Among them, such as Figure 4 As shown, the bottom of the main body 1 is provided with an inlay groove 103; a trapezoidal mounting block 104 is provided inside the inlay groove 103; hexagonal socket head cap screws 105 are provided on both sides of the trapezoidal mounting block 104; the hexagonal socket head cap screws 105 are provided on the cross mounting platform 2; the threaded holes of the cross mounting platform 2 are compatible with the hexagonal socket head cap screws 105; the inlay groove 103 here is used to install the trapezoidal mounting block 104, and the trapezoidal mounting block 104 is connected to the cross mounting platform 2 by the hexagonal socket head cap screws 105.
[0028] Among them, such as Figure 1 As shown, the vacuum suction cup 3 is provided with multiple sets of round holes; a connecting pipe 301 is provided on the side of the vacuum suction cup 3; an electromagnetic control valve 302 is provided on the connecting pipe 301; the connecting pipe 301 and the round holes on the vacuum suction cup 3 are interconnected; the connecting pipe 301 here is used to connect external compressed air and control it through the electromagnetic control valve 302, so as to adsorb and fix the belt through the round holes on the vacuum suction cup 3.
[0029] Among them, such as Figure 3 As shown, the motor 401 and the servo controller 402 are connected to an external power supply via wires; the servo controller 402 is located on the side of the welding bracket 5; the servo controller 402 is located on the side of the motor 401.
[0030] Among them, such as Figure 1 As shown, the bottom of the welding bracket 5 is provided with a support foot 501; the welding bracket 5 here is connected to other parts of the equipment and is supported by the support foot 501.
[0031] The specific usage and function of this embodiment are as follows:
[0032] In this invention, the main body 1 is positioned by inserting and connecting the inlay groove 103 on the main body 1 with the trapezoidal mounting block 104. The belt passes through the mounting groove 101 and contacts the rotating roller 102. When the belt moves, it can drive the rotating roller 102 to rotate, thus providing an auxiliary assisting effect. Compressed air is connected to the external pipe 301 and controlled by the electromagnetic control valve 302, which can assist in fixing the belt on the vacuum suction cup 3, ensuring the belt is firmly installed. This fixing method will not leave marks on the belt, will not cause belt deformation, and has a better fixing effect. Furthermore, the servo controller 402 can control the motor 401 to drive the rotating base 4 and the cross mounting platform 2 to rotate, thereby meeting the needs of belt processing.
Claims
1. A belt processing tool, characterized by: Includes the main body (1); The main body (1) is a belt processing fixture body; the main body (1) is provided with an installation groove (101); the main body (1) is set on a cross mounting platform (2); a vacuum suction cup (3) is set on the cross mounting platform (2); the vacuum suction cup (3) is set on both sides of the main body (1); a rotating base (4) is set at the bottom of the cross mounting platform (2); the rotating base (4) is connected to the output shaft of the motor (401); a servo controller (402) is set on the side of the motor (401); the motor (401) is fixedly set on the top of the welding bracket (5).
2. The belt processing tooling of claim 1, wherein: The main body (1) is provided with four sets; a rotating roller (102) is rotatably provided inside the mounting groove (101); the mounting groove (101) is provided with four sets.
3. The belt processing tooling of claim 1, wherein: The main body (1) has an inlay groove (103) at its bottom; a trapezoidal mounting block (104) is provided inside the inlay groove (103); hexagonal socket head cap screws (105) are provided on both sides of the trapezoidal mounting block (104); the hexagonal socket head cap screws (105) are provided on the cross mounting platform (2); the threaded holes of the cross mounting platform (2) are compatible with the hexagonal socket head cap screws (105).
4. The belt processing tooling of claim 1, wherein: The vacuum suction cup (3) is provided with multiple sets of round holes; a connecting pipe (301) is provided on the side of the vacuum suction cup (3); an electromagnetic control valve (302) is provided on the connecting pipe (301); the connecting pipe (301) and the round holes on the vacuum suction cup (3) are interconnected.
5. The belt processing tooling of claim 1, wherein: The motor (401) and the servo controller (402) are connected to an external power source via wires; the servo controller (402) is located on the side of the welding bracket (5); the servo controller (402) is located on the side of the motor (401).
6. The belt processing tooling of claim 1, wherein: The bottom of the welding bracket (5) is provided with a support foot (501).