Efficient baffle plate processing tooling
By using an electric telescopic rod and a conveyor belt in conjunction with a fixed structure, the efficient and automated feeding and precise positioning of the baffle plate are achieved, solving the problems of slow feeding and inaccurate positioning in existing technologies, and improving processing efficiency and accuracy.
Patent Information
- Authority / Receiving Office
- CN · China
- Patent Type
- Utility models(China)
- Current Assignee / Owner
- ANHUI CONCH KAWASAKI EQUIP MFG
- Filing Date
- 2025-06-28
- Publication Date
- 2026-07-07
AI Technical Summary
The existing tooling for processing baffles lacks an efficient and automated feeding and positioning system, resulting in slow feeding, inaccurate positioning, weak clamping, and inflexible processing, making it difficult to meet the needs of high-efficiency production.
The system employs an electric telescopic rod and a conveyor belt in conjunction with a fixed structure to achieve automated feeding and precise positioning. The clamping force is finely adjusted through a motor and threaded rod system to ensure clamping stability and processing accuracy.
It improves feeding efficiency, ensures accurate positioning and stable clamping of the baffle plate, enhances processing efficiency and precision, and reduces raw material damage.
Smart Images

Figure CN224464240U_ABST
Abstract
Description
Technical Field
[0001] This utility model relates to the field of baffle plate technology, and in particular to a high-efficiency baffle plate processing tooling. Background Technology
[0002] In current technologies, tooling for machining stop plates is typically used to position, clamp, and support the stop plate during machining to ensure efficient and accurate processing. Its importance lies in improving machining efficiency, ensuring machining accuracy, reducing labor costs, and enhancing process safety. However, in stop plate machining, precise positioning and reliable clamping are crucial for ensuring machining quality. Existing technologies employ complex mechanical structures or manual adjustment methods to achieve positioning and clamping, but these methods suffer from cumbersome operation and unstable positioning accuracy.
[0003] However, existing technologies still have shortcomings, such as the following:
[0004] Current methods for processing material guide plates largely rely on machining centers, but these systems suffer from efficiency bottlenecks. The main problem lies in the lack of efficient automated feeding and positioning systems, resulting in slow feeding and inaccurate positioning. Simultaneously, the absence of precise and stable clamping and processing systems leads to unstable clamping and inflexible processing, making it difficult to meet the demands of high-efficiency production. Utility Model Content
[0005] This invention provides a high-efficiency tooling for processing baffle plates to solve the problems mentioned in the background art.
[0006] To solve the above-mentioned technical problems, the technical solution adopted by this utility model is as follows:
[0007] A high-efficiency baffle processing fixture includes a feeding structure, a transmission structure installed on the outer wall of one side of the feeding structure, a fixed structure connected to the inner side of the transmission structure, a starting structure provided on the top of the inner side of the transmission structure, and the feeding structure includes a motor storage box, with a conveyor belt installed on the inner side of the motor storage box.
[0008] Two electric telescopic rods are installed on the top left side of the motor storage box. A small motor is installed on the top of the motor storage box and on one side of the electric telescopic rods. A limit rod is installed on one end of the small motor drive.
[0009] A guide plate is installed on the right side of the motor storage box, and a slanted panel is installed on the bottom of the inner side of the guide plate. A placement groove is opened on one side of the outer wall of the guide plate.
[0010] The transmission structure includes a transmission frame, a transmission motor is installed on the outer wall of one side of the transmission frame, and a transmission groove is opened on the inner side of the transmission frame.
[0011] Preferably, the fixing structure includes a fixing box, a processing table is installed on the inner side of the top of the fixing box, four limiting processing grooves are opened on the outer wall of the processing table, a fixing cover is installed on the inner side of the top of the fixing box, four limiting cover grooves are opened on the outer wall of the fixing cover, and side plates are fixedly installed on the outer walls of the left and right sides of the fixing box.
[0012] Preferably, a positioning post is slidably connected to the inner side of the limiting cover groove, and limiting plates are installed on the outer walls of both the upper and lower ends of the positioning post. A processing slide post is installed on the top of the top limiting plate, and the outer wall of the processing slide post is slidably connected to the inner side of the limiting processing groove. A clamping frame is installed on the top of the processing slide post, and a buffer plate is installed on the inner side of the outer wall of the clamping frame. A pulling post is installed on the bottom of the bottom limiting plate.
[0013] Preferably, a connecting pipe is rotatably connected to the outer wall of the pulling column, a telescopic rod is installed on the outer wall of the connecting pipe, a tension spring is installed on the outer wall of the connecting pipe and on the outer wall of the telescopic rod, one end of the tension spring is installed with one end of the telescopic rod, a threaded pipe is rotatably connected to one end of the telescopic rod, a hexagonal nut is fixedly sleeved on one end of the outer wall of the threaded pipe, a threaded rod is threadedly connected to the inner side of the threaded pipe, a fixing ring is movably sleeved on one end of the threaded rod, a rotating disk is installed at the bottom of the fixing ring, and a transmission block is installed on the inner side of the middle of the rotating disk.
[0014] Preferably, the starting structure includes a lifting platform, a drive motor is installed on the top of the lifting platform, and a drive plate is installed on one end of the drive motor.
[0015] Preferably, a rotating column is installed at one end of the transmission motor and inside the transmission frame, a rotating rod is fixedly sleeved on the outer wall of the rotating column, and a transmission belt is drivenly connected to the outer wall of the rotating rod.
[0016] Preferably, the outer wall of the conveyor belt is slidably connected to the lower surface of the side plate, processing frames are installed on the outer walls of both sides of the conveyor frame, and a processing machine is installed in the middle of the top of the processing frame.
[0017] In summary, this technical solution has the following main advantages:
[0018] Employing two electrically operated telescopic rods, the material can be simultaneously pushed into the guide plate through two baffles and then slid into the center of the processing table via an inclined panel. This design significantly improves loading efficiency, allowing two materials to be processed at a time, reducing loading time, and enhancing overall production efficiency.
[0019] The fixed structure is adjustable. Through the cooperation of tension springs and hexagonal nuts, the clamping force can be finely adjusted to adapt to the material of baffle plates of different sizes, shapes and materials. The design of the limiting processing groove and the limiting cover groove ensures that the sliding of the clamping frame on the processing table is more precise, which further improves the stability of clamping and processing accuracy. Moreover, the four clamping frames are close to each other, and the buffer plates hold the four sides of the baffle plate material. The design of the buffer plates can also absorb the vibration during the processing to a certain extent, protect the surface of the material, and reduce scratches and damage. Attached Figure Description
[0020] Figure 1 This is a schematic diagram of the main structure of this utility model;
[0021] Figure 2 This is an enlarged structural diagram of point A in this utility model;
[0022] Figure 3 This is a cross-sectional view of the transmission frame of this utility model;
[0023] Figure 4 This is a schematic diagram of the starting structure of this utility model;
[0024] Figure 5 This is a cross-sectional view of the fixing box of this utility model.
[0025] In the diagram: 1. Feeding structure; 11. Motor storage box; 12. Conveyor belt; 13. Electric telescopic rod; 14. Small motor; 15. Limiting rod; 16. Guide plate; 161. Placement slot; 162. Sloping panel; 2. Conveying structure; 21. Conveying frame; 22. Conveying motor; 221. Rotating column; 222. Rotating roller; 223. Conveying belt; 23. Processing frame; 24. Processing machine; 25. Conveying slot; 3. Fixing structure; 31. Fixing box; 311. Fixing cover; 312. Limiting cover slot; 32. Side plate; 33. Machining table; 331. Limiting machining groove; 34. Clamping frame; 341. Buffer plate; 342. Machining slide column; 343. Limiting plate; 344. Positioning column; 345. Pulling column; 35. Connecting pipe; 351. Telescopic rod; 352. Tension spring; 353. Threaded pipe; 354. Threaded rod; 355. Hexagonal nut; 36. Rotating disk; 361. Fixing ring; 362. Transmission block; 4. Starting structure; 41. Lifting platform; 42. Active motor; 43. Active plate. Detailed Implementation
[0026] The technical solutions of the present invention will be clearly and completely described below with reference to the accompanying drawings of the embodiments of the present invention.
[0027] like Figures 1-5As shown, a high-efficiency baffle processing fixture includes a feeding structure 1, a transmission structure 2 installed on the outer wall of one side of the feeding structure 1, a fixed structure 3 connected to the inner side of the transmission structure 2, a starting structure 4 provided on the top of the inner side of the transmission structure 2, and the feeding structure 1 includes a motor storage box 11, with a conveyor belt 12 installed on the inner side of the motor storage box 11.
[0028] Two electric telescopic rods 13 are installed on the left side of the top of the motor storage box 11. A small motor 14 is installed on the top of the motor storage box 11 and on one side of the electric telescopic rod 13. A limit rod 15 is installed on one end of the small motor 14.
[0029] A guide plate 16 is installed on the right side of the motor storage box 11. A sloping panel 162 is installed on the bottom of the inner side of the guide plate 16. A placement groove 161 is opened on one side of the outer wall of the guide plate 16.
[0030] The transmission structure 2 includes a transmission frame 21, a transmission motor 22 is installed on the outer wall of one side of the transmission frame 21, and a transmission groove 25 is opened on the inner side of the transmission frame 21.
[0031] It should be noted that in this embodiment, the material of the baffle plate is transported to one side of the small motor 14 by the conveyor belt 12. The material of the baffle plate is blocked by the small motor 14. By activating the electric telescopic rod 13, one end of the electric telescopic rod 13 pushes one side of the material of the baffle plate, so that the other side of the material of the baffle plate enters one side of the guide plate 16, and the material of the baffle plate slides on the outer wall of the inclined plate 162, so that the material of the baffle plate enters the middle of the processing table 33.
[0032] The fixing structure 3 includes a fixing box 31. A processing table 33 is installed on the inner side of the top of the fixing box 31. The outer wall of the processing table 33 has four limiting processing grooves 331. A fixing cover 311 is installed on the inner side of the top of the fixing box 31. The outer wall of the fixing cover 311 has four limiting cover grooves 312. Side plates 32 are fixedly installed on the outer walls of the left and right sides of the fixing box 31. Positioning posts 344 are slidably connected to the inner side of the limiting cover grooves 312. Limiting plates 343 are installed on the outer walls of the upper and lower ends of the positioning posts 344. A processing slide column 342 is installed on the top of the top limiting plate 343. The outer wall of the processing slide column 342 is slidably connected to the inner side of the limiting processing groove 331. A clamping frame 34 is installed on the top of the processing slide column 342. A buffer plate 341 is installed on the inner side of the outer wall of the clamping frame 34. A pulling column 34 is installed on the bottom of the bottom limiting plate 343. 5. A connecting pipe 35 is rotatably connected to the outer wall of the pulling column 345. A telescopic rod 351 is installed on the outer wall of the connecting pipe 35. A tension spring 352 is installed on the outer wall of the connecting pipe 35 and on the outer wall of the telescopic rod 351. One end of the tension spring 352 is installed with one end of the telescopic rod 351. A threaded pipe 353 is rotatably connected to one end of the telescopic rod 351. A hexagonal nut 355 is fixedly sleeved on one end of the outer wall of the threaded pipe 353. A threaded rod 354 is threadedly connected to the inner side of the threaded pipe 353. A fixing ring 361 is movably sleeved on one end of the threaded rod 354. A rotating disk 36 is installed at the bottom of the fixing ring 361. A transmission block 362 is installed on the inner side of the middle part of the rotating disk 36. The starting structure 4 includes a lifting platform 41. An active motor 42 is installed on the top of the lifting platform 41. An active plate 43 is installed on the top transmission end of the active motor 42.
[0033] It should be noted that in this embodiment, the fixed structure 3 is transported to the top of the starting structure 4 via the conveyor belt 223. Then, the lifting platform 41 is activated, which raises the active motor 42, allowing the active plate 43 at one end of the active motor 42 to be inserted into the inner side of the rotating disk 36. The active motor 42 then drives the active plate 43 to rotate, thereby causing the inner side of the active plate 43 to drive the transmission block 362 to rotate. When the transmission block 362 rotates, the top of the transmission block 362 pulls the fixed ring 361, which in turn pulls the threaded rod 354. The threaded rod 354 then pulls the tension spring 352. When the tension spring 352 is stretched to a certain length, it will reach... When the extension rod 351 extends to the desired length, and the tension spring 352 is pulled, the other end of the tension spring 352 pulls the connecting pipe 35. The connecting pipe 35 drives the positioning pin 344 to slide within the limiting cover groove 312. At the same time, the limiting plates 343 at the upper and lower ends of the connecting pipe 35 limit the movement, allowing the processing sliding pin 342 to drive the clamping frame 34 to slide within the limiting processing groove 331 on the processing table 33. This causes the four clamping frames 34 to move closer together, using the buffer plate 341 to clamp the four sides of the material of the baffle plate. By rotating the hexagonal nut 355, the extension length of the tension spring 352 can be finely adjusted, and the extended length of the tension spring 352 allows for fine adjustment of the clamping force.
[0034] A rotating column 221 is installed at one end of the transmission motor 22 and inside the transmission frame 21. A rotating rod 222 is fixedly sleeved on the outer wall of the rotating column 221. A transmission belt 223 is drivenly connected to the outer wall of the rotating rod 222. The outer wall of the transmission belt 223 is slidably connected to the lower surface of the side plate 32. A processing frame 23 is installed on the outer walls of both sides of the transmission frame 21. A processing machine 24 is installed in the middle of the top of the processing frame 23.
[0035] It should be noted that in this embodiment, the raw material falls onto the upper surface of the processing table 33 through the baffle plate. When the transmission motor 22 is started, the transmission motor 22 drives the rotating roller 222 to rotate, so that the outer wall of the rotating roller 222 drives the transmission belt 223 for transmission connection. Thus, the transmission belt 223 drives the fixed structure 3 for transmission. When the fixed structure 3 is transmitted to the bottom of the processing machine 24, the baffle plate raw material is clamped and fixed by the starting structure 4. Then the processing machine 24 is started to process the baffle plate raw material.
[0036] The working principle of this utility model is as follows: The conveyor belt 12 transports the material to one side of the baffle plate, where it is blocked by the baffle plate. By activating the electric telescopic rod 13, one end of the rod pushes one side of the material, causing the other side of the material to enter one side of the guide plate 16. The material then slides along the outer wall of the inclined plate 162, thus entering the middle of the processing table 33.
[0037] The raw material falls onto the upper surface of the processing table 33 via the baffle plate. The transmission motor 22 is then started, driving the rotating roller 222 to rotate. The outer wall of the rotating roller 222 drives the transmission belt 223, which in turn drives the fixed structure 3. When the fixed structure 3 is directly below the processing machine 24, the baffle plate is clamped and fixed by the starting structure 4. The processing machine 24 is then started to process the raw material from the baffle plate.
[0038] The fixed structure 3 is transported to the top of the starting structure 4 via the conveyor belt 223. Then, the lifting platform 41 is activated, which raises the active motor 42, allowing the active plate 43 at one end of the active motor 42 to be inserted into the inner side of the rotating disk 36. The active motor 42 then drives the active plate 43 to rotate, thereby causing the inner side of the active plate 43 to drive the transmission block 362 to rotate. When the transmission block 362 rotates, the top of the transmission block 362 pulls the fixed ring 361, which in turn pulls the threaded rod 354. The threaded rod 354 then pulls the tension spring 352. When the tension spring 352 is stretched to a certain length, it will reach the telescopic rod 351. When the extension length is increased, the tension spring 352 is pulled, and the other end of the tension spring 352 pulls the connecting pipe 35. The connecting pipe 35 drives the positioning column 344 to slide within the limiting cover groove 312. At the same time, the limiting plates 343 at the upper and lower ends of the connecting pipe 35 limit the movement, allowing the processing slide column 342 to drive the clamping frame 34 to slide within the limiting processing groove 331 on the processing table 33. This causes the four clamping frames 34 to move closer together, and the buffer plate 341 clamps the four sides of the material of the baffle plate. By rotating the hexagonal nut 355, the extension length of the tension spring 352 can be finely adjusted. The extended length of the tension spring 352 allows for fine adjustment of the clamping force.
[0039] The foregoing has shown and described the basic principles, main features, and advantages of this utility model. Those skilled in the art should understand that this utility model is not limited to the above embodiments. The embodiments and descriptions in the specification are merely illustrative of the principles of this utility model. Various changes and modifications can be made to this utility model without departing from its spirit and scope, and all such changes and modifications fall within the scope of the claims. The scope of protection of this utility model is defined by the appended claims and their equivalents.
Claims
1. A high-efficiency baffle processing fixture, comprising a feeding structure (1), wherein a transmission structure (2) is installed on the outer wall of one side of the feeding structure (1), a fixing structure (3) is connected to the inner side of the transmission structure (2), and a starting structure (4) is provided on the top of the inner side of the transmission structure (2), characterized in that: The feeding structure (1) includes a motor storage box (11), and a conveyor belt (12) is installed inside the motor storage box (11). Two electric telescopic rods (13) are installed on the left side of the top of the motor storage box (11). A small motor (14) is installed on the top of the motor storage box (11) and on one side of the electric telescopic rod (13). A limit rod (15) is installed at one end of the small motor (14) for transmission. A guide plate (16) is installed on the right side of the motor storage box (11). A sloping panel (162) is installed on the bottom of the inner side of the guide plate (16). A placement groove (161) is opened on one side of the outer wall of the guide plate (16). The transmission structure (2) includes a transmission frame (21), a transmission motor (22) is installed on the outer wall of one side of the transmission frame (21), and a transmission groove (25) is opened on the inner side of the transmission frame (21).
2. The efficient baffle plate processing fixture according to claim 1, characterized in that: The fixing structure (3) includes a fixing box (31), a processing table (33) is installed on the inner side of the top of the fixing box (31), four limiting processing grooves (331) are opened on the outer wall of the processing table (33), a fixing cover (311) is installed on the inner side of the top of the fixing box (31), four limiting cover grooves (312) are opened on the outer wall of the fixing cover (311), and side plates (32) are fixedly installed on the outer walls of the left and right sides of the fixing box (31).
3. The efficient baffle plate processing fixture according to claim 2, characterized in that: The inner side of the limiting cover groove (312) is slidably connected to a positioning column (344). The outer walls of the upper and lower ends of the positioning column (344) are equipped with limiting plates (343). The top of the top limiting plate (343) is equipped with a processing slide column (342). The outer wall of the processing slide column (342) is slidably connected to the inner side of the limiting processing groove (331). The top of the processing slide column (342) is equipped with a clamping frame (34). The inner side of the outer wall of the clamping frame (34) is equipped with a buffer plate (341). The bottom of the bottom limiting plate (343) is equipped with a pulling column (345).
4. The efficient baffle plate processing fixture according to claim 3, characterized in that: The outer wall of the pulling column (345) is rotatably connected to a connecting pipe (35). A telescopic rod (351) is installed on the outer wall of the connecting pipe (35). A tension spring (352) is installed on the outer wall of the connecting pipe (35) and on the outer wall of the telescopic rod (351). One end of the tension spring (352) is installed on one end of the telescopic rod (351). One end of the telescopic rod (351) is rotatably connected to a threaded pipe (353). A hexagonal nut (355) is fixedly sleeved on one end of the outer wall of the threaded pipe (353). A threaded rod (354) is threadedly connected to the inner side of the threaded pipe (353). A fixing ring (361) is movably sleeved on one end of the threaded rod (354). A rotating disk (36) is installed at the bottom of the fixing ring (361). A transmission block (362) is installed on the inner side of the middle part of the rotating disk (36).
5. The efficient baffle plate processing fixture according to claim 1, characterized in that: The starting structure (4) includes a lifting platform (41), a drive motor (42) is installed on the top of the lifting platform (41), and a drive plate (43) is installed on one end of the drive motor (42) at the top.
6. The efficient baffle plate processing fixture according to claim 1, characterized in that: A rotating column (221) is installed at one end of the transmission motor (22) and inside the transmission frame (21). A rotating rod (222) is fixedly sleeved on the outer wall of the rotating column (221), and a transmission belt (223) is connected to the outer wall of the rotating rod (222).
7. The efficient baffle plate processing fixture according to claim 6, characterized in that: The outer wall of the conveyor belt (223) is slidably connected to the lower surface of the side plate (32), and processing racks (23) are installed on the outer walls of both sides of the conveyor frame (21). A processing machine (24) is installed in the middle of the top of the processing rack (23).