A garage door track punching device

By combining the design of conveyor belts and electric telescopic tubes, the problem of workpiece residue in the garage door track stamping device was solved, realizing automatic feeding and stable forming, and improving production efficiency and precision.

CN224333304UActive Publication Date: 2026-06-09ZHEJIANG BOYOU INTELLIGENT MFG CO LTD

Patent Information

Authority / Receiving Office
CN · China
Patent Type
Utility models(China)
Current Assignee / Owner
ZHEJIANG BOYOU INTELLIGENT MFG CO LTD
Filing Date
2025-04-21
Publication Date
2026-06-09

AI Technical Summary

Technical Problem

Existing garage door track stamping devices often leave workpieces inside the device after forming, making automatic unloading impossible and requiring manual or robotic arm assistance for part removal.

Method used

By matching the intermittent motion of the first and second conveyor belts with the stamping cycle, and combining an electric telescopic tube with a spring buffer, the workpiece can be automatically transported and stably stamped. The conveying frequency is controlled by adjusting the number of toothed plates and the motor speed to ensure that the workpiece slides off automatically.

Benefits of technology

It enables automatic workpiece unloading without the need for manual or robotic arm intervention, improving production efficiency and stamping accuracy, and ensuring stable workpiece conveying and forming quality.

✦ Generated by Eureka AI based on patent content.

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Abstract

This utility model relates to the field of track processing technology and discloses a garage door track stamping device. The workbench has two sides connected to a second rotating shaft, and the outer walls of the two second rotating shafts are connected to second synchronous pulleys. A second conveyor belt is installed on the outer walls of the two second synchronous pulleys. The transmission end of the motor is connected to the front end of the right second rotating shaft, and the rear end of the right second rotating shaft is connected to a drive disc. Threaded rods are evenly connected to the outer wall of the drive disc, and toothed plates are evenly connected inside the drive disc. A fixing ring is screwed onto the outer wall of the threaded rod. This garage door track stamping device matches the stamping cycle with the intermittent movement of the first and second conveyor belts, allowing for intermittent conveying of sheet metal to adapt to different stamping rhythms without manual or robotic arm intervention. The first and second conveyor belts ensure smooth workpiece transfer and prevent jamming.
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Description

Technical Field

[0001] This utility model belongs to the field of track processing technology, specifically a garage door track stamping device. Background Technology

[0002] In the existing field of garage door track stamping, stamping equipment typically uses molds to stamp metal sheets to form track workpieces with specific cross-sectional shapes. However, after stamping the metal sheets, some stamping equipment tends to leave workpieces inside the equipment, making automatic unloading impossible and requiring manual intervention or robotic arm assistance for part removal. Therefore, improvements are needed to address the current situation. Utility Model Content

[0003] In view of the above situation and to overcome the defects of the prior art, this utility model provides a garage door track stamping device, which effectively solves the problem that in the existing garage door track stamping processing field, stamping devices usually use molds to stamp metal sheets to form track workpieces with specific cross-sectional shapes. However, after some stamping equipment stamps the metal sheets, the workpieces are easy to remain in the device, making it impossible to achieve automatic unloading and requiring manual intervention or robotic arm assistance to remove the parts.

[0004] To achieve the above objectives, this utility model provides the following technical solution: a garage door track stamping device, comprising a worktable, a motor, and a first rotating shaft. The motor is installed on the front side of the worktable, and the first rotating shafts on both sides are connected to both sides of the inner wall of the worktable. A conveying assembly is provided on the right side of the worktable, and a stamping assembly is provided on the left side of the worktable.

[0005] The conveying assembly includes a first synchronous pulley, with both sides of the first synchronous pulley connected to the outer wall of the first rotating shaft on both sides. A first conveyor belt is provided on the outer wall of the first synchronous pulley on both sides. A second rotating shaft is connected to both sides inside the worktable, with a second synchronous pulley connected to the outer wall of the second rotating shaft on both sides. A second conveyor belt is provided on the outer wall of the second synchronous pulley on both sides. The transmission end of the motor is connected to the front end of the second rotating shaft on the right side. A drive disk is connected to the rear end of the second rotating shaft on the right side. Threaded rods are evenly connected to the outer wall of the drive disk. Toothed plates are evenly connected to the interior of the drive disk. A retaining ring is screwed to the outer wall of the threaded rod. A gear is connected to the rear end of the first rotating shaft on the right side, and the gear meshes with the toothed plates.

[0006] Preferably, the drive disk is uniformly connected with positioning rods inside, and the toothed plate is provided with mounting holes that match the positioning rods inside.

[0007] Preferably, a stabilizing block is connected to the rear side of the worktable, and a stabilizing ring is connected to the outer wall of the drive disk, with the stabilizing ring located inside the stabilizing block.

[0008] Preferably, mounting grooves are evenly provided on both sides of the top of the workbench, and fixing blocks are connected inside the mounting grooves on both sides. Auxiliary rollers are connected inside the fixing blocks on both sides. Fixing plates are connected to both sides of the outer wall of the workbench, and bolt mounting holes are provided inside the fixing plates on both sides.

[0009] Preferably, the rear side of the workbench is connected to a mounting box, and both the drive disk and the gear are located inside the mounting box.

[0010] Preferably, the stamping assembly includes an electric telescopic tube, with both sides of the electric telescopic tube installed on both sides of the top of the workbench. The bottom of the telescopic ends of the electric telescopic tubes on both sides are connected to a stamping module. A cutting blade is connected to the bottom of the stamping module. Mounting rods are connected to both sides inside the workbench. Both mounting rods on both sides penetrate the body of the stamping module. Springs are provided on the outer walls of both mounting rods on both sides. A stabilizing plate is connected to the top of both springs on both sides.

[0011] Preferably, the top of the workbench is provided with a cutting groove, which matches the cutting blade.

[0012] Compared with the prior art, the beneficial effects of this utility model are:

[0013] 1. By matching the intermittent movement of the first and second conveyor belts with the stamping cycle, the sheet metal can be intermittently conveyed to adapt to different stamping rhythms without the need for manual or robotic arm intervention. The first and second conveyor belts ensure smooth transfer of workpieces and avoid jamming.

[0014] 2. The number of toothed plates and the speed of the motor can be adjusted according to the required track length to control the intermittent conveying time of the sheet metal. By rotating the corresponding fixed ring, it can be removed from the drive plate. At this time, the corresponding toothed plate can be removed, and the intermittent conveying frequency of the first conveyor belt and the second conveyor belt can be controlled to adapt to different stamping rhythms.

[0015] 3. The combination of electric telescopic tubes on both sides and spring buffers enables efficient and stable stamping, while seamlessly connecting with the conveying components, solving the problem of some stamping equipment relying on manual part handling. Attached Figure Description

[0016] The accompanying drawings are provided to further understand the present invention and form part of the specification. They are used together with the embodiments of the present invention to explain the present invention and do not constitute a limitation thereof.

[0017] In the attached diagram:

[0018] Figure 1This is a schematic diagram of the structure of this utility model;

[0019] Figure 2 This is a schematic diagram of the mounting box structure of this utility model;

[0020] Figure 3 This is a schematic diagram of the fixing block structure of this utility model;

[0021] Figure 4 This is a schematic diagram of the drive disk structure of this utility model;

[0022] Figure 5 This is a schematic diagram of the auxiliary roller structure of this utility model;

[0023] Figure 6 This is a schematic diagram of the toothed plate structure of this utility model.

[0024] In the diagram: 100, workbench; 101, motor; 200, first rotating shaft; 201, first synchronous pulley; 202, first conveyor belt; 203, second rotating shaft; 204, second synchronous pulley; 205, second conveyor belt; 206, drive disc; 207, positioning rod; 208, threaded rod; 209, toothed plate; 210, retaining ring; 211, gear; 212, stabilizing block; 213, stabilizing ring; 300, mounting groove; 301, retaining block; 302, auxiliary roller; 303, mounting box; 304, fixing plate; 400, electric telescopic tube; 401, stamping module; 402, cutting blade; 403, cutting groove; 404, mounting rod; 405, spring; 406, stabilizing plate. Detailed Implementation

[0025] The technical solutions of the present utility model will be clearly and completely described below with reference to the accompanying drawings of the embodiments of the present utility model. Obviously, the described embodiments are only some embodiments of the present utility model, and not all embodiments. All other embodiments obtained by those skilled in the art based on the embodiments of the present utility model without creative effort are within the protection scope of the present utility model.

[0026] Please see Figure 1-6 A garage door track stamping device includes a workbench 100, a motor 101, and a first rotating shaft 200. The motor 101 is fixedly installed on the front side of the workbench 100, and the first rotating shafts 200 on both sides are rotatably connected to the inner walls of the workbench 100. A conveying assembly is provided on the right side of the workbench 100, and a stamping assembly is provided on the left side of the workbench 100.

[0027] The conveying assembly includes a first synchronous pulley 201. Both sides of the first synchronous pulley 201 are fixedly connected to the outer walls of the first rotating shafts 200 on both sides. A first conveyor belt 202 is sleeved on the outer walls of the first synchronous pulleys 201 on both sides. Second rotating shafts 203 are rotatably connected to both sides inside the worktable 100. Second synchronous pulleys 204 are fixedly connected to the outer walls of both second rotating shafts 203 on both sides. Second conveyor belts 205 are sleeved on the outer walls of both second synchronous pulleys 204 on both sides. The transmission end of the motor 101 is connected to the front end of the right second rotating shaft 203. A drive disc 206 is fixedly connected to the rear end of the right second rotating shaft 203. The drive disc 206 has an outer... A threaded rod 208 is uniformly and fixedly connected to the wall. A toothed plate 209 is uniformly and movably connected inside the drive disc 206. A retaining ring 210 is screwed onto the outer wall of the threaded rod 208. A gear 211 is fixedly connected to the rear end of the right first rotating shaft 200. The gear 211 meshes with the toothed plate 209, so that when the right second rotating shaft 203 rotates, the right first rotating shaft 200 rotates accordingly. The right second rotating shaft 203 is driven to rotate by the starter motor 101, which drives the second synchronous pulley 204 fixed on it to rotate. Then, the second conveyor belt 205 realizes the synchronous movement of the two second rotating shafts 203. The rear end of the right second rotating shaft 203... The drive disc 206 rotates along with the second rotating shaft 203. The threaded rod 208 and toothed plate 209 on the outer wall of the drive disc 206 move accordingly. During rotation, the toothed plate 209 inside the drive disc 206 periodically meshes with the gear 211. When the toothed plate 209 contacts the gear 211, it drives the first rotating shaft 200 to rotate. The rotation of the first rotating shaft 200 drives the first synchronous pulley 201 and the first conveyor belt 202, thereby causing the first conveyor belt 202 to move relative to the second conveyor belt 205 to transport the sheet metal. Because the toothed plates 209 are evenly distributed but not continuously meshed, the gear 211 rotates intermittently, causing the first synchronous pulley 201 and the first conveyor belt 202 to rotate intermittently. The first conveyor belt 202 and the second conveyor belt 205 move in rhythm to ensure intermittent conveying of the sheet metal. This allows the sheet metal to cooperate with the stamping components and automatically slide off the top left side of the worktable 100 after stamping. The number of toothed plates 209 and the speed of the motor 101 can be adjusted according to the required track length to control the intermittent conveying time of the sheet metal. By rotating the corresponding fixing ring 210, it can be removed from the drive plate 206, at which point the corresponding toothed plate 209 can be removed. The intermittent conveying frequency of the first conveyor belt 202 and the second conveyor belt 205 can be controlled to adapt to different stamping rhythms.

[0028] The drive disc 206 has positioning rods 207 evenly fixedly connected inside, and the toothed plate 209 has mounting holes that match the positioning rods 207 inside, so that the toothed plate 209 can be installed more firmly.

[0029] A stabilizing block 212 is fixedly connected to the rear side of the worktable 100, and a stabilizing ring 213 is fixedly connected to the outer wall of the drive disk 206. The stabilizing ring 213 is located inside the stabilizing block 212, so that the drive disk 206 can rotate stably.

[0030] The top of the workbench 100 has evenly spaced mounting grooves 300 on both sides. Fixing blocks 301 are fixedly connected inside the mounting grooves 300 on both sides. Auxiliary rollers 302 are rotatably connected inside the fixing blocks 301 on both sides. Fixing plates 304 are fixedly connected to both sides of the outer wall of the workbench 100. Bolt mounting holes are opened inside the fixing plates 304 on both sides. When the board is transported, its body will come into contact with the auxiliary rollers 302 on both sides, so that the board can be transported more smoothly.

[0031] The rear side of the workbench 100 is fixedly connected to the mounting box 303. The drive disk 206 and gear 211 are both located inside the mounting box 303, thereby preventing the operator from directly contacting the drive disk 206 and gear 211.

[0032] The stamping assembly includes an electric telescopic tube 400, with both sides of the electric telescopic tube 400 fixedly installed on the top of the workbench 100. A stamping module 401 is fixedly connected to the bottom of the telescopic ends of the two electric telescopic tubes 400. A cutting blade 402 is fixedly connected to the bottom of the stamping module 401. Mounting rods 404 are fixedly connected to both sides inside the workbench 100, penetrating the body of the stamping module 401. Springs 405 are sleeved on the outer walls of both mounting rods 404, and stabilizing plates 406 are fixedly connected to the top of the springs 405. During the stamping process of the sheet metal... When the toothed plate 209 and the gear 211 are in a non-meshing state, the electric telescopic tubes 400 on both sides are activated, pushing the stamping module 401 to move downward. The cutting blade 402 at the bottom of the stamping module 401 first contacts the metal sheet and cuts it. Then, the sheet is stamped into shape by the downward force of the stamping module 401. During the downward pressing process of the stamping module 401, the spring 405 on the mounting rod 404 is compressed, providing buffer and ensuring that the stamping force is evenly distributed. The stabilizing plate 406 at the top of the spring 405 maintains the balance of the stamping module 401 when it is pressed, preventing skewing and ensuring stamping accuracy.

[0033] The top of the workbench 100 is provided with a cutting groove 403, which matches the cutting blade 402, so that the cutting blade 402 can fully cut the board.

[0034] Working principle: The starting motor 101 drives the right second rotating shaft 203 to rotate, which in turn drives the second synchronous pulley 204 fixed on it to rotate. This, in turn, enables the synchronous movement of the two second rotating shafts 203 through the second conveyor belt 205. The drive disc 206 at the rear end of the right second rotating shaft 203 rotates with the second rotating shaft 203. The threaded rod 208 and toothed plate 209 on the outer wall of the drive disc 206 move accordingly. During the rotation, the toothed plate 209 inside the drive disc 206 periodically meshes with the gear 211. When the toothed plate 209 contacts... When gear 211 rotates, it drives the first rotating shaft 200 to rotate. The rotation of the first rotating shaft 200 drives the first synchronous pulley 201 and the first conveyor belt 202, thereby causing the first conveyor belt 202 and the second conveyor belt 205 to move relative to each other, transporting the sheet metal. Because the toothed plates 209 are evenly distributed but not continuously meshed, gear 211 rotates intermittently, causing the first conveyor belt 202 and the second conveyor belt 205 to move in rhythm, ensuring that the sheet metal is transported intermittently. This allows the sheet metal to cooperate with the stamping assembly, enabling the stamped sheet metal to be processed. The sheet metal automatically slides down from the top left side of the worktable 100. The number of toothed plates 209 and the speed of the motor 101 can be adjusted according to the required track length to control the intermittent conveying time of the sheet metal. By rotating the corresponding fixing ring 210, it is removed from the drive disc 206, at which point the corresponding toothed plate 209 can be removed. The intermittent conveying frequency of the first conveyor belt 202 and the second conveyor belt 205 is controlled to adapt to different stamping rhythms. During the stamping process of the sheet metal, when the toothed plate 209 and the gear 211... In the non-engaged state, the electric telescopic tubes 400 on both sides are activated, pushing the stamping module 401 downward. The cutting blade 402 at the bottom of the stamping module 401 first contacts the metal sheet and cuts it. Then, the sheet is stamped into shape by the downward force of the stamping module 401. During the downward pressing process of the stamping module 401, the spring 405 on the mounting rod 404 is compressed, providing buffer and ensuring that the stamping force is evenly distributed. The stabilizing plate 406 at the top of the spring 405 maintains the balance of the stamping module 401 when it is pressed, preventing skewing and ensuring stamping accuracy.

[0035] It should be noted that, in this document, relational terms such as "first" and "second" are used only to distinguish one entity or operation from another, and do not necessarily require or imply any such actual relationship or order between these entities or operations. Furthermore, the terms "comprising," "including," or any other variations thereof are intended to cover non-exclusive inclusion, such that a process, method, article, or apparatus that comprises a list of elements includes not only those elements but also other elements not expressly listed, or elements inherent to such process, method, article, or apparatus.

[0036] Although embodiments of the present invention have been shown and described, it will be understood by those skilled in the art that various changes, modifications, substitutions and alterations can be made to these embodiments without departing from the principles and spirit of the present invention, the scope of which is defined by the appended claims and their equivalents.

Claims

1. A garage door track stamping device, comprising a worktable (100), a motor (101), and a first rotating shaft (200), characterized in that: The motor (101) is installed on the front side of the workbench (100), and the first rotating shafts (200) on both sides are connected to the inner walls of the workbench (100). A conveying assembly is provided on the right side of the workbench (100), and a stamping assembly is provided on the left side of the workbench (100). The conveying assembly includes a first synchronous pulley (201), with both sides of the first synchronous pulley (201) connected to the outer walls of the two sides of the first rotating shaft (200). A first conveyor belt (202) is provided on the outer walls of the two sides of the first synchronous pulley (201). A second rotating shaft (203) is connected to both sides inside the workbench (100). A second synchronous pulley (204) is connected to the outer walls of both sides of the second rotating shaft (203). A second conveyor belt (205) is provided on the outer walls of both sides of the second synchronous pulley (204). The motor (1... The transmission end of 01) is connected to the front end of the second rotating shaft (203) on the right. The rear end of the second rotating shaft (203) on the right is connected to a drive disk (206). The outer wall of the drive disk (206) is uniformly connected with threaded rods (208). The inside of the drive disk (206) is uniformly connected with toothed plates (209). The outer wall of the threaded rod (208) is screwed with a fixing ring (210). The rear end of the first rotating shaft (200) on the right is connected to a gear (211). The gear (211) meshes with the toothed plate (209).

2. The garage door track stamping device according to claim 1, characterized in that: The drive disk (206) is uniformly connected with positioning rods (207), and the toothed plate (209) is provided with mounting holes that match the positioning rods (207).

3. The garage door track stamping device according to claim 1, characterized in that: A stabilizing block (212) is connected to the rear side of the worktable (100), and a stabilizing ring (213) is connected to the outer wall of the drive disk (206). The stabilizing ring (213) is located inside the stabilizing block (212).

4. The garage door track stamping device according to claim 1, characterized in that: The top of the workbench (100) is provided with mounting grooves (300) evenly on both sides. The mounting grooves (300) on both sides are connected to fixing blocks (301). The fixing blocks (301) on both sides are connected to auxiliary rollers (302). The outer walls of the workbench (100) are connected to fixing plates (304) on both sides. The fixing plates (304) on both sides are provided with bolt mounting holes.

5. A garage door track stamping device according to claim 1, characterized in that: The rear side of the workbench (100) is connected to the mounting box (303), and the drive disk (206) and the gear (211) are both located inside the mounting box (303).

6. The garage door track stamping device according to claim 1, characterized in that: The stamping assembly includes an electric telescopic tube (400), both sides of which are installed on the top of the workbench (100). The bottom of the telescopic ends of the electric telescopic tubes (400) are connected to a stamping module (401). The bottom of the stamping module (401) is connected to a cutting blade (402). Both sides of the inside of the workbench (100) are connected to mounting rods (404). Both mounting rods (404) penetrate the body of the stamping module (401). The outer walls of both mounting rods (404) are provided with springs (405). The tops of both springs (405) are connected to a stabilizing plate (406).

7. A garage door track stamping device according to claim 6, characterized in that: The top of the workbench (100) is provided with a cutting groove (403), which matches the cutting blade (402).