A mobile device for coupling processing

By designing a motor-driven threaded rod and clamping plate structure, the problems of easy breakage and inconvenient turning of the moving device used for coupling processing during transportation were solved, realizing stable clamping and flexible turning of the coupling, and improving the adaptability and reliability of the equipment.

CN122165977APending Publication Date: 2026-06-09JIUJIANG XINLIAN TRANSMISSION MACHINERY

Patent Information

Authority / Receiving Office
CN · China
Patent Type
Applications(China)
Current Assignee / Owner
JIUJIANG XINLIAN TRANSMISSION MACHINERY
Filing Date
2026-05-09
Publication Date
2026-06-09

AI Technical Summary

Technical Problem

Existing mobile devices for coupling processing lack effective mid-section protection during transportation, making them prone to breakage. They also have difficulty turning in narrow terrain and exhibit poor adaptability.

Method used

A moving device is designed, comprising a platform, a motor, a threaded rod, a shaped sliding plate, a clamping plate, and an elastic collision block. The motor drives the threaded rod to move the shaped sliding plate and the clamping plate, thereby achieving stable clamping and lifting of the coupling. When encountering obstacles, the elastic collision block reduces swaying. In narrow terrain, the shaped block and the extrusion rod structure enable flexible steering of the platform.

Benefits of technology

It effectively protects the middle section of the coupling from breakage and allows for flexible turning in narrow terrain, improving the adaptability and reliability of the equipment.

✦ Generated by Eureka AI based on patent content.

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Abstract

The application discloses a moving device for coupling machining and belongs to the technical field of moving devices.The moving device for coupling machining comprises a platform, a motor is arranged above the platform, threaded rods are arranged on the two output ends of the motor, and special-shaped moving plates are rotatably connected to the outer sides of the threaded rods.In the application, when the coupling needs to be transported, the coupling is placed between the two groups of clamping plates, the output end of the motor is made to rotate forward, the two groups of special-shaped moving plates are made to gradually approach each other, the two groups of extruding plates are made to extrude extruding plate one, the supporting blocks are made to rise, the coupling can extrude the two groups of sliding blocks upward and is finally clamped by the two groups of sliding blocks, and the purpose of fixing the coupling is achieved.When the platform is subjected to impact, one group of clamping plates shakes, the mounting plate drives the impact block to impact the clamping plate through the telescopic rod, a force in the opposite direction is generated, and the middle section of the coupling is not prone to breaking.
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Description

Technical Field

[0001] This application relates to the field of mobile device technology, and more specifically, to a mobile device for coupling processing. Background Technology

[0002] Couplings, as key components in mechanical transmission systems, are widely used to connect driving and driven shafts, enabling power transmission and motion compensation. The manufacturing process of couplings typically involves multiple steps, including blank preparation, turning, drilling, keyway milling, heat treatment, and surface treatment. The efficiency of workpiece handling and transfer between these steps directly affects the processing rhythm and product quality of the entire production line. With the increasing level of automated manufacturing, higher requirements are placed on the stability, adaptability, and reliability of workpiece movement devices during coupling processing.

[0003] Chinese Patent CN221474911U, published on August 6, 2024, discloses a mobile device for casting processing, including a base plate. A vertical plate is fixedly connected to the top of the base plate. A lifting groove is formed on one side of the vertical plate, and a support plate is slidably connected to another side of the vertical plate. A lifting assembly is installed inside the lifting groove to move the support plate. A clamping groove is formed on the top of the support plate, and two clamping plates are slidably connected to the top of the support plate. A clamping assembly is installed inside the clamping groove to move the two clamping plates. Four movable rollers are rotatably connected to the bottom of the base plate in a rectangular shape. During operation, when the device moves and is subjected to collisions, the middle section of the coupling lacks an effective protective device, which may cause the coupling to break off in the middle. Furthermore, the device is inconvenient to turn when encountering narrow terrain, resulting in poor adaptability. Summary of the Invention

[0004] To address the shortcomings of existing technologies, this invention provides a moving device for coupling processing, which solves the problems mentioned in the background section.

[0005] To achieve the above objectives, this application provides a moving device for coupling processing, including a platform, with a movable base mounted below the platform; A motor is mounted on top of the platform. Threaded rods are mounted on both output ends of the motor. A shaped sliding plate is rotatably connected to the outer side of each threaded rod. The shaped sliding plate is slidably connected to the top of the platform. Two sets of sliders are slidably connected to the outer side of the shaped sliding plate. An extension plate is fixedly connected above the sliders. A spring is fixedly connected between the two sets of extension plates. Four sets of guide rods are slidably connected to the inner side of the top of the platform. A support block is fixedly connected above the four sets of guide rods. A pressing plate is fixedly connected to the outer side of the support block. A pressing plate is fixedly connected to the outer side of the shaped sliding plate, near the pressing plate. Two sets of fixing plates are fixedly connected above the support block, between the two sets of fixing plates. Two sets of clamping plates are slidably connected. A second spring is fixedly connected between the clamping plate and the fixed plate. An installation plate is fixedly connected to the outer side of the clamping plate. A movable plate is slidably connected above the support block and between the clamping plate and the fixed plate. A rotating rod is rotatably connected above both the installation plate and the movable plate. A fixed rod is fixedly connected above the support block and between the clamping plate and the fixed plate. Telescopic rods are rotatably connected to the outer sides of the two sets of rotating rods and fixed rods. An elastic collision block is assembled on the outer side of the movable plate and near the clamping plate. A rectangular plate is assembled on the outer side of the elastic collision block. A rectangular plate is fixedly connected above the support block and between the clamping plate and the fixed plate. A third spring is fixedly connected between the rectangular plate and the rectangular plate.

[0006] Preferably, the two sets of threaded rods and the two sets of irregularly shaped sliding plates are mirror images of each other, and the lower surface of the two sets of sliders on the outer side of the irregularly shaped sliding plates is set as an inclined surface.

[0007] Preferably, the two sets of extrusion plates are respectively attached to both sides of the extrusion plate one, the extrusion plate one is configured as an inverted triangular structure, and the side of the two sets of extrusion plates that are attached to the extrusion plate one is configured as a bevel.

[0008] Preferably, the opposite sides of both sets of clamping plates are configured as inclined structures, and the outer side of the elastic collision block and the side closest to the clamping plate is configured as an arc-shaped structure.

[0009] Preferably, two sets of sliding rods are fixedly connected above the platform, a baffle plate is fixedly connected above the sliding rods, a baffle plate is slidably connected to the outside of the sliding rods above the platform, a spring is fixedly connected between the baffle plate and the baffle plate, an irregularly shaped block is fixedly connected to the outside of the baffle plate, an opening is opened on the outside of the irregularly shaped moving plate, a lifting plate is fixedly connected to the outside of the irregularly shaped block, a top impact block is fixedly connected above the lifting plate, two sets of support plates are fixedly connected above the platform, a rotating rod is rotatably connected between the two sets of support plates, and a support plate is rotatably connected to the outside of the rotating rod and above the top impact block.

[0010] Preferably, the irregularly shaped block is configured as a trapezoidal structure, the irregularly shaped block is attached to the inside of the opening, and the two sets of irregularly shaped blocks are mirror-symmetrical.

[0011] Preferably, the upper front and rear ends of the tray are fixedly connected to a baffle plate, and the upper part of both sets of the top impact blocks is set with an arc-shaped structure.

[0012] Preferably, four sets of arc-shaped plates are fixedly connected to the inner side of the platform. A cavity is opened inside the movable base. Four sets of arc-shaped extrusion plates are slidably connected to the inner side of the movable base and the inner side of the platform. All four sets of arc-shaped extrusion plates pass through the cavity. A circular plate is fixedly connected to the lower part of the four sets of arc-shaped extrusion plates and the cavity. Multiple sets of guide rods are slidably connected to the inner side of the movable base and the lower part of the cavity. The guide rods are fixedly connected to the lower part of the circular plate. Springs are fixedly connected between the circular plate and the movable base and to the outer side of the multiple sets of guide rods. A slot is fixedly connected to the upper part of the movable base. A pin is slidably connected to the inner side of the slot. The pin passes through the upper part of the platform. Extrusion blocks are fixedly connected to both sides of the pin and the upper part of the platform. Extrusion rods are fixedly connected to the outer side of the extrusion plate and the lower part of the extrusion blocks.

[0013] Preferably, the four sets of arc-shaped extrusion plates are located between the four sets of arc-shaped plates, and both sides of the arc-shaped extrusion plates are set as inclined surfaces. The slots and pins inside the slots are rectangular structures.

[0014] The advantages of this application are: (1) In this application, when the coupling needs to be transported, after the coupling is placed between the two sets of clamping plates, the output end of the motor is rotated in the forward direction, so that the two sets of irregular moving plates gradually approach each other, so that the two sets of extrusion plates 2 squeeze the extrusion plate 1, thereby causing the support block to rise, so that the coupling can push the two sets of sliders apart upward and finally be clamped by the two sets of sliders to achieve the purpose of fixing the coupling. When the platform is impacted, one set of clamping plates shakes, so that the mounting plate drives the elastic collision block to push against the clamping plate through the telescopic rod, thereby generating a force in the opposite direction, so that the middle section of the coupling is not easy to break.

[0015] (2) In this application, when the coupling is transported to the designated position, the output end of the motor is rotated in the opposite direction. When the distance between the two sets of irregularly shaped moving plates is expanded to the maximum, the irregularly shaped block is not blocked by the irregularly shaped moving plate due to the inclined surface of the irregularly shaped block. The irregularly shaped moving plate can be moved upward by the force of the spring four, thereby causing the top block to move upward, causing the top block to squeeze the top plate, causing the plate to tilt, so that the plate can lift the coupling between the two sets of clamping plates. When the tilt angle of the plate reaches the corresponding angle, the coupling moves to one side of the plate for easy handling by the staff.

[0016] (3) In this application, when the distance between the two sets of irregularly shaped moving plates is expanded to the maximum, the pin is disengaged from the slot due to the squeezing of the squeezing block by the squeezing rod, so that the worker can apply the corresponding force to the platform and make the platform rotate. Whenever the worker rotates the platform 90 degrees, the arc-shaped squeezing plate will limit the arc-shaped plate, so that the platform does not remain fixed when under force, thus making the equipment easy to change direction when encountering narrow terrain. Attached Figure Description

[0017] Figure 1 This is an overall appearance and structural diagram of the present invention; Figure 2 This is a structural diagram of the platform above the present invention; Figure 3 This is a structural diagram of the upper part of the platform of the present invention; Figure 4 This is a rear view of the upper part of the platform structure of the present invention; Figure 5 This is a diagram of the support block and surrounding structure of the present invention; Figure 6 This is a structural diagram of the support block above the present invention; Figure 7 This is the invention Figure 6 Enlarged view of point a in the middle; Figure 8 This is a diagram of the irregularly shaped block and its surrounding structure according to the present invention; Figure 9 This is a diagram of the tray and surrounding structure of the present invention; Figure 10 This is a structural diagram of the lower inner side of the platform of the present invention; Figure 11 This is a cross-sectional view of the cavity interior of the present invention; Figure 12 This is a diagram of the extrusion block and its surrounding structure according to the present invention.

[0018] Explanation of key figure labels: 100. Platform; 200. Movable base; 101. Motor; 102. Threaded rod; 103. Irregularly shaped moving plate; 104. Slider; 105. Extension plate; 106. Spring 1; 107. Guide rod; 108. Support block; 109. Extrusion plate 1; 110. Extrusion plate 2; 111. Clamping plate; 112. Fixing plate; 113. Spring 2; 114. Mounting plate; 115. Movable plate; 116. Rotating rod; 117. Fixing rod; 118. Telescopic rod; 119. Elastic collision block; 120. Rectangular plate 1; 121. Rectangular plate II; 122. Spring III; 201. Lifting plate; 202. Impact block; 203. Opening; 204. Irregular block; 205. Baffle II; 206. Sliding rod; 207. Baffle I; 208. Spring IV; 209. Support plate; 210. Rotating rod; 211. Support plate; 301. Arc plate; 302. Cavity; 303. Arc extrusion plate; 304. Circular plate; 305. Guide rod; 306. Spring V; 307. Slot; 308. Pin; 309. Extrusion block; 310. Extrusion rod. Detailed Implementation

[0019] To enable those skilled in the art to better understand the present application, the technical solutions in the embodiments of the present application will be clearly and completely described below with reference to the accompanying drawings. Obviously, the described embodiments are merely some, not all, of the embodiments of the present application. All other embodiments obtained by those skilled in the art based on the embodiments of the present application without creative effort should fall within the scope of protection of the present application.

[0020] Example 1, see Figures 1-7 This embodiment provides a moving device for coupling processing, including a platform 100, and a moving base 200 is mounted below the platform 100; A motor 101 is mounted on top of the platform 100. Threaded rods 102 are mounted on both output ends of the motor 101. A shaped sliding plate 103 is rotatably connected to the outer side of each threaded rod 102. The shaped sliding plate 103 is slidably connected above the platform 100. Two sets of sliders 104 are slidably connected to the outer side of the shaped sliding plate 103. The two sets of threaded rods 102 and the two sets of shaped sliding plates 103 are mirror images of each other. By setting the two sets of threaded rods 102, when the output end of the motor 101 rotates in both directions, the two sets of threaded rods 102 can drive the two sets of shaped sliding plates 103 to gradually move closer or further apart. The lower surface of the opposite side of the two sets of sliders 104 on the outer side of the shaped sliding plate 103 is set as an inclined surface. An extension plate 10 is fixedly connected above the sliders 104. 5. A spring 106 is fixedly connected between the two sets of extension plates 105. By setting the spring 106, when one end of the coupling is at the upper end between the two sets of sliders 104, the two sets of sliders 104 can clamp the coupling through the spring 106. Four sets of guide rods 107 are slidably connected to the upper inner side of the platform 100. A support block 108 is fixedly connected above the four sets of guide rods 107. An extrusion plate 109 is fixedly connected to the outer side of the support block 108. An extrusion plate 110 is fixedly connected to the outer side of the irregular moving plate 103 and the side close to the extrusion plate 109. The two sets of extrusion plates 110 are respectively attached to both sides of the extrusion plate 109. The extrusion plate 109 is set as an inverted triangle structure. The two sets of extrusion plates 110 and the extrusion plate 109 are respectively attached to the two sides of the extrusion plate 109. The side of the 9-phase contact is set as an inclined surface. Two sets of fixing plates 112 are fixedly connected above the support block 108. Two sets of clamping plates 111 are slidably connected above the support block 108 and between the two sets of fixing plates 112. A spring 113 is fixedly connected between the clamping plate 111 and the fixing plate 112. By setting the clamping plate 111, the two sets of clamping plates 111 can be fixed to the coupling by the spring 113. A mounting plate 114 is fixedly connected to the outside of the clamping plate 111. A movable plate 115 is slidably connected above the support block 108 and between the clamping plate 111 and the fixing plate 112. A rotating rod 116 is rotatably connected above both the mounting plate 114 and the movable plate 115. A rotating rod 116 is rotatably connected above the support block 108 and between the clamping plate 111 and the fixing plate 112. A fixing rod 117 is fixedly connected between the fixing plates 112. Two sets of rotating rods 116 are rotatably connected to the outer side of the fixing rods 117 via telescopic rods 118. An elastic collision block 119 is fitted on the outer side of the movable plate 115, near the clamping plate 111. By setting the elastic collision block 119, the elastic collision block 119 can press against the clamping plate 111, thereby generating a force on the clamping plate 111. The opposite sides of the two sets of clamping plates 111 are both set as inclined structures. The outer side of the elastic collision block 119, near the clamping plate 111, is set as an arc-shaped structure. A rectangular plate 120 is fitted on the outer side of the elastic collision block 119. A rectangular plate 121 is fixedly connected above the support block 108, between the clamping plate 111 and the fixing plate 112.A spring 122 is fixedly connected between rectangular plate 121 (second rectangular plate) and rectangular plate 120 (first rectangular plate).

[0021] In practical use, the coupling is placed above the support block 108, allowing the two sets of clamping plates 111 to clamp the coupling using spring 113. At this time, the output end of the motor 101 rotates in the forward direction, causing the two sets of threaded rods 102 to rotate. The rotation of the threaded rods 102 causes the two sets of irregularly shaped moving plates 103 to gradually approach each other. As the irregularly shaped moving plates 103 move, they drive the second pressing plate 110, allowing it to move towards the first pressing plate 109 and press against it. The pressing plate 109 can drive the support block 108 to move upward, allowing the coupling above the support block 108 to simultaneously push the two sets of sliders 104 apart. When the coupling is at the upper end between the two sets of sliders 104, it can be clamped by the spring 106. At this time, the motor 101 stops running, allowing couplings of different specifications to be fixed on this equipment. When the platform 100 or the movable base 200 is impacted, the coupling and the two sets of clamping plates 111 will shake. When the clamping plate 111 moves due to shaking, it drives the mounting plate 114 to move, which in turn drives the rotating rod 116 to move. The rotating rod 116, via the telescopic rod 118, drives the movable plate 115 to move. When the clamping plate 111 moves towards the fixed plate 112, the movable plate 115 moves towards the clamping plate 111. This movement of the movable plate 115 drives the elastic collision block 119 to move, allowing the elastic collision block 119 to press against the clamping plate 111, thus subjecting the clamping plate 111 to [a certain condition / condition]. An opposing force is applied to reduce the sway of the coupling and prevent it from breaking in the middle. When the coupling moves to the designated position, the output end of the motor 101 rotates in the opposite direction, causing the two sets of irregularly shaped moving plates 103 to move to the middle position of the two sets of threaded rods 102, so that the two sets of sliders 104 stop fixing the coupling. Since the support block 108 is no longer squeezed by the two sets of pressing plates 110 against the pressing plate 109, the support block 108 contacts the top of the platform 100 to facilitate subsequent unloading.

[0022] Example 2, see Figures 8-9In this embodiment, based on Embodiment 1, two sets of sliding rods 206 are fixedly connected to the upper part of the platform 100. A baffle 207 is fixedly connected above the sliding rods 206. A baffle 205 is slidably connected to the outer side of the sliding rods 206 and above the platform 100. A spring 208 is fixedly connected between the baffle 207 and the baffle 205. A shaped block 204 is fixedly connected to the outer side of the baffle 205. By setting the shaped block 204, when the shaped moving plate 103 is located on the inclined surface of the shaped block 204, the shaped block 204 can move upward by the spring 208. The shaped block 204 is set as a trapezoidal structure and fits against the inner side of the opening 203. The two sets of shaped blocks 204 The irregularly shaped moving plate 103 is mirror-symmetrical, with an opening 203 on its outer side. A lifting plate 201 is fixedly connected to the outer side of the irregularly shaped block 204. A top impact block 202 is fixedly connected above the lifting plate 201. Two sets of support plates 209 are fixedly connected above the platform 100. A rotating rod 210 is rotatably connected between the two sets of support plates 209. A support plate 211 is rotatably connected to the outer side of the rotating rod 210 and above the top impact block 202. By setting the support plate 211, the support plate 211 can lift the coupling to end the clamping of the coupling by the two sets of clamping plates 111. A baffle plate is fixedly connected to both the front and rear ends of the support plate 211. The top of the two sets of top impact blocks 202 is set with an arc-shaped structure.

[0023] In practical use, when the two sets of irregularly shaped moving plates 103 move to the middle position of the two sets of threaded rods 102 and unloading is required, the output end of the motor 101 rotates in the opposite direction, causing the two sets of irregularly shaped moving plates 103 to gradually move away from each other. As the irregularly shaped moving plates 103 gradually move to the inclined surface of the irregularly shaped block 204 and begin to move, the spring four 208 drives the baffle two 205 to move upwards. The baffle two 205 can then drive the irregularly shaped block 204 to move upwards. Through the upward movement of the irregularly shaped block 204, it can drive the impact block 202 upwards via the lifting plate 201. When the impact block 202 moves upwards and impacts the pallet 211, the pallet 211 tilts and the angle continuously changes. When the pallet 211 tilts to the corresponding angle, the pallet... 211 can overcome the force of spring 113 to lift the coupling above the support block 108, so that the coupling is separated from the two sets of clamping plates 111, and the support plate 211 is tilted so that the coupling can roll down to the end of the support plate 211 near the outside of the platform 100, so as to facilitate the workers to pick up the goods. When a new set of couplings needs to be transported, the motor 101 is rotated in the forward direction, so that the two sets of irregular moving plates 103 are moved to the middle position of the two sets of threaded rods 102 respectively. During the process of the irregular moving plate 103 moving to the middle position of the threaded rod 102, the irregular moving plate 103 squeezes the irregular block 204, so that the irregular block 204 gradually descends and eventually returns to its original position. When the irregular block 204 returns to its original position, the irregular block 204 uses the lifting plate 201 to make the impact block 202 return to its original position.

[0024] Example 3, see Figures 10-12 In this embodiment, based on Embodiment 1 or Embodiment 2, four sets of arc-shaped plates 301 are fixedly connected to the inner side of the lower part of the platform 100. A cavity 302 is formed inside the movable base 200. Four sets of arc-shaped extrusion plates 303 are slidably connected to the inner side of the movable base 200 and the inner side of the lower part of the platform 100. By setting the arc-shaped extrusion plates 303, the arc-shaped extrusion plates 303 can limit the arc-shaped plates 301. All four sets of arc-shaped extrusion plates 303 penetrate into the cavity 302. A circular plate 304 is fixedly connected below the four sets of arc-shaped extrusion plates 303 and inside the cavity 302. Multiple sets of guide rods 305 are slidably connected to the inner side of the movable base 200 and below the cavity 302. The guide rods 305 are fixedly connected to the lower part of the circular plate 304. The circular plate 304 and the movable base 200 are connected between the multiple sets of guide rods 305. Spring 306 is fixedly connected to the outer side of 05. Slot 307 is fixedly connected to the top of the movable base 200. Pin 308 is slidably connected to the inner side of slot 307. By setting slot 307 and pin 308, when pin 308 is inside slot 307, platform 100 cannot rotate. When pin 308 is disengaged from the inner side of slot 307, platform 100 can rotate. Four sets of arc-shaped extrusion plates 303 are between four sets of arc-shaped plates 301. Both sides of arc-shaped extrusion plates 303 are set as bevels. The slots inside slot 307 and pin 308 are rectangular structures. Pin 308 passes through the top of platform 100. Extrusion blocks 309 are fixedly connected to both sides of pin 308 and above platform 100. Extrusion rod 310 is fixedly connected to the outer side of extrusion plate 110 and below extrusion block 309.

[0025] In practical use, when the two sets of irregularly shaped moving plates 103 move further apart, the extrusion rod 310 gradually extrudes the extrusion block 309, causing the extrusion block 309 to drive the pin 308 upward, disengaging the pin 308 from the inside of the slot 307. When the desired direction of the platform 100 is required, the operator can apply a corresponding force to the platform 100, causing it to rotate. During the rotation of the platform 100, the arc-shaped plate 301 extrudes the arc-shaped extrusion plate 303, causing the arc-shaped extrusion plate 303 to move downward. The arc-shaped extrusion plate 303 then drives the circular plate 304 downward. Whenever the platform... When the platform 100 rotates 90 degrees, the arc plate 301 stops pressing the arc extrusion plate 303, allowing the circular plate 304 to drive the arc extrusion plate 303 back to its original position through the force of the spring 306, thereby limiting the arc plate 301. When no corresponding force is applied to the platform 100, the platform 100 can be in a fixed state. When the coupling is fixed again, the extrusion rod 310 stops pressing the extrusion block 309, allowing the pin 308 to move downwards under its own weight and the weight of the two sets of extrusion blocks 309, and re-insert into the inside of the slot 307, preventing the platform 100 from rotating.

[0026] The above description is only a preferred embodiment of the present invention, but the scope of protection of the present invention is not limited thereto. Any equivalent substitutions or modifications made by those skilled in the art within the scope of the technology disclosed in the present invention, based on the technical solution and inventive concept of the present invention, should be covered within the scope of protection of the present invention.

Claims

1. A moving device for coupling processing, comprising a platform (100), characterized in that, A movable base (200) is mounted below the platform (100). A motor (101) is mounted on top of the platform (100). Threaded rods (102) are mounted on both output ends of the motor (101). A shaped sliding plate (103) is rotatably connected to the outer side of the threaded rod (102). The shaped sliding plate (103) is slidably connected above the platform (100). Two sets of sliders (104) are slidably connected to the outer side of the shaped sliding plate (103). An extension plate (105) is fixedly connected above the sliders (104). A spring (106) is fixedly connected between the two sets of extension plates (105). Four sets of guide rods (107) are slidably connected to the inner side above (100). A support block (108) is fixedly connected above the four sets of guide rods (107). An extrusion plate one (109) is fixedly connected to the outer side of the support block (108). An extrusion plate two (110) is fixedly connected to the outer side of the irregular moving plate (103) and the side close to the extrusion plate one (109). Two sets of fixing plates (112) are fixedly connected above the support block (108). Two sets of clamping plates (113) are slidably connected above the support block (108) and between the two sets of fixing plates (112). 1) A spring 2 (113) is fixedly connected between the clamping plate (111) and the fixing plate (112). A mounting plate (114) is fixedly connected to the outside of the clamping plate (111). A movable plate (115) is slidably connected above the support block (108) and between the clamping plate (111) and the fixing plate (112). A rotating rod (116) is rotatably connected above both the mounting plate (114) and the movable plate (115). A fixing rod (116) is fixedly connected above the support block (108) and between the clamping plate (111) and the fixing plate (112). 7) The two sets of rotating rods (116) and fixed rods (117) are rotatably connected to telescopic rods (118). An elastic collision block (119) is installed on the outer side of the movable plate (115) and near the clamping plate (111). A rectangular plate (120) is installed on the outer side of the elastic collision block (119). A rectangular plate (121) is fixedly connected above the support block (108) and between the clamping plate (111) and the fixed plate (112). A spring (122) is fixedly connected between the rectangular plate (121) and the rectangular plate (120).

2. The moving device for coupling processing according to claim 1, characterized in that, The two sets of threaded rods (102) and the two sets of irregular sliding plates (103) are mirror images of each other, and the two sets of sliders (104) on the outer side of the irregular sliding plate (103) are both set with inclined surfaces below their opposite sides.

3. The moving device for coupling processing according to claim 2, characterized in that, The two sets of extrusion plates (110) are respectively attached to both sides of the extrusion plate (109). The extrusion plate (109) is configured as an inverted triangle structure, and the side of the two sets of extrusion plates (110) that are attached to the extrusion plate (109) is configured as a slope.

4. The moving device for coupling processing according to claim 3, characterized in that, The opposing sides of the two sets of clamping plates (111) are both set with an inclined structure, and the outer side of the elastic collision block (119) and the side close to the clamping plate (111) is set with an arc-shaped structure.

5. A moving device for coupling processing according to claim 4, characterized in that, Two sets of sliding rods (206) are fixedly connected above the platform (100). A baffle (207) is fixedly connected above the sliding rods (206). A baffle (205) is slidably connected to the outside of the sliding rods (206) and above the platform (100). A spring (208) is fixedly connected between the baffle (207) and the baffle (205). A shaped block (204) is fixedly connected to the outside of the baffle (205). The shaped sliding plate (103) An opening (203) is provided on the outside of the irregular block (204). A lifting plate (201) is fixedly connected to the outside of the irregular block (204). A top impact block (202) is fixedly connected above the lifting plate (201). Two sets of support plates (209) are fixedly connected above the platform (100). A rotating rod (210) is rotatably connected between the two sets of support plates (209). A support plate (211) is rotatably connected to the outside of the rotating rod (210) and above the top impact block (202).

6. The moving device for coupling processing according to claim 5, characterized in that, The irregular block (204) is configured as a trapezoidal structure, and the irregular block (204) fits into the inner side of the opening (203). The two sets of irregular blocks (204) are mirror symmetrical.

7. A moving device for coupling processing according to claim 6, characterized in that, The front and rear ends of the tray (211) are fixedly connected with baffles, and the top of the two sets of impact blocks (202) are both set with an arc-shaped structure.

8. A moving device for coupling processing according to claim 7, characterized in that, Four sets of arc-shaped plates (301) are fixedly connected to the inner side of the platform (100). A cavity (302) is opened inside the movable base (200). Four sets of arc-shaped extrusion plates (303) are slidably connected to the inner side of the movable base (200) and the inner side of the platform (100). The four sets of arc-shaped extrusion plates (303) all penetrate into the cavity (302). A circular plate (304) is fixedly connected below the four sets of arc-shaped extrusion plates (303) and inside the cavity (302). Multiple sets of guide rods (305) are slidably connected to the inner side of the movable base (200) and below the cavity (302). A spring (306) is fixedly connected to the bottom of the circular plate (304). The circular plate (304) and the movable base (200) are fixedly connected to each other and to the outside of the multiple sets of guide rods (305). A slot (307) is fixedly connected to the top of the movable base (200). A pin (308) is slidably connected to the inside of the slot (307). The pin (308) passes through the top of the platform (100). An extrusion block (309) is fixedly connected to both sides of the pin (308) and to the top of the platform (100). An extrusion rod (310) is fixedly connected to the outside of the extrusion plate (110) and to the bottom of the extrusion block (309).

9. A moving device for coupling processing according to claim 8, characterized in that, The four sets of arc-shaped extrusion plates (303) are located between the four sets of arc-shaped plates (301). Both sides of the arc-shaped extrusion plates (303) are set as inclined surfaces. The slots and pins (308) inside the slots (307) are rectangular structures.