Arc-shaped glued wood pressing mechanism
By designing an arc-shaped glued laminated timber splicing and pressing mechanism with automatic unloading function, the problem of complex manual operation in the traditional unloading process is solved, and the processing efficiency is improved.
Patent Information
- Authority / Receiving Office
- CN · China
- Patent Type
- Utility models(China)
- Current Assignee / Owner
- NANTONG JIAZHU CONSTR TECH CO LTD
- Filing Date
- 2025-07-10
- Publication Date
- 2026-06-30
Smart Images

Figure CN224425858U_ABST
Abstract
Description
Technical Field
[0001] This utility model relates to the field of curved glued laminated timber processing technology, and in particular to a mechanism for splicing curved glued laminated timber. Background Technology
[0002] In the field of modern construction engineering, curved glued laminated timber components are widely used in large-span buildings, landscape projects and other fields due to their unique mechanical properties and aesthetics. As the core equipment for producing curved glued laminated timber components, the technological development of curved glued laminated timber splicing mechanisms directly affects the production efficiency and quality of the components.
[0003] However, traditional equipment requires manual unloading by operators. Operators must first release the hydraulic system pressure, then release the mold, and finally use auxiliary tools to remove the workpiece from the workstation. This unloading method is not only complicated but also time-consuming and labor-intensive, resulting in a significant reduction in the processing efficiency of the equipment.
[0004] Therefore, it is necessary to provide an arc-shaped glued laminated timber splicing mechanism to solve the above-mentioned technical problems. Utility Model Content
[0005] This utility model provides an arc-shaped glued laminated timber splicing mechanism, which solves the problem of low processing efficiency caused by the lack of automatic unloading function in traditional devices.
[0006] To solve the above-mentioned technical problems, the arc-shaped glued laminated timber splicing mechanism provided by this utility model includes: a device body, the device body including a pressing module, a buffer module, a device support frame, and a device base plate, the pressing module including a driving component mounted on the device support frame, a pressing plate provided on the output end of the driving component, a straight toothed plate installed on one side of the pressing plate, a fixing plate installed at the bottom of the device base plate, a reset block installed on the fixing plate, a rotating rod provided inside the reset block, a first elastic element for resetting the rotating rod provided inside the reset block, a one-way gear installed on the rotating rod, a base plate guide groove provided on the device base plate, a connecting block provided inside the base plate guide groove, a push plate installed at one end of the connecting block, a reciprocating component that can drive the connecting block to reset installed at the other end of the one-way gear, and a buffer plate provided on the device body.
[0007] Preferably, the buffer module includes a vertical plate mounted on the device base plate, a fixed slide rod mounted on the device base plate, a limiting block provided at the top of the fixed slide rod, a protrusion provided on the fixed slide rod, and a second elastic element for resetting the protrusion is arranged around the fixed slide rod.
[0008] Preferably, the vertical plate has a vertical groove, and a vertical guide block is provided inside the vertical groove. The vertical guide block is fixedly connected to the buffer plate, the buffer plate is fixedly connected to the protrusion, and the protrusion is slidably connected to the fixed slide rod.
[0009] Preferably, the device support frame has a support groove, and a support guide block is provided inside the support groove. The support guide block is fixedly connected to the lower pressure plate.
[0010] Preferably, the bottom of the device body is equipped with an anti-slip component for preventing the device body from slipping.
[0011] Preferably, the connecting block is slidably connected to the guide groove of the base plate, and the straight tooth plate meshes with a one-way gear.
[0012] Preferably, a controller is mounted on the vertical plate.
[0013] Compared with related technologies, the arc-shaped glued laminated timber splicing mechanism provided by this utility model has the following beneficial effects:
[0014] This utility model provides an arc-shaped glued laminated timber pressing mechanism. After processing is completed, the drive component will drive the straight tooth plate to move upward. At this time, the straight tooth plate will drive the one-way gear to rotate. Simultaneously, the one-way gear will drive the rotating rod to rotate. At this time, the one-way gear will drive the reciprocating component to drive the connecting block to slide along the guide groove of the bottom plate. Then, the connecting block will drive the push plate to push the workpiece out of the workstation. This device adds an automatic unloading function. Traditional manual unloading requires the operator to put their hands into the equipment to manually disassemble the mold or move the components. This device, by adding an automatic unloading function, pushes out the processed workpiece, which can greatly shorten the unloading time, thereby improving the processing efficiency of the device. Attached Figure Description
[0015] Figure 1 A schematic diagram of a preferred embodiment of the arc-shaped glued laminated timber splicing mechanism provided by this utility model;
[0016] Figure 2 for Figure 1 The diagram shown is a bottom view of the main body of the device.
[0017] Figure 3 for Figure 1 The diagram shows a left view of the main body of the device.
[0018] Figure 4 for Figure 1 The enlarged schematic diagram of part A shown below;
[0019] Figure 5 for Figure 2 The enlarged schematic diagram of section B is shown below;
[0020] Figure 6 for Figure 1 The diagram shows the internal structure of the reset block.
[0021] The diagram is labeled as follows: 1. Main body of the device; 2. Pressing module; 201. Pressing plate; 202. Straight tooth plate; 203. Buffer plate; 204. First elastic element; 205. Driving element; 206. Connecting block; 207. Bottom plate guide groove; 208. Reciprocating assembly; 209. One-way gear; 210. Fixing plate; 211. Reset block; 212. Rotating rod; 213. Push plate; 3. Buffering module; 301. Vertical plate; 302. Vertical slide groove; 303. Vertical guide block; 304. Protrusion; 305. Fixed slide rod; 306. Second elastic element; 307. Limiting block; 4. Controller; 5. Device support frame; 6. Anti-slip element; 7. Device bottom plate; 8. Support slide groove; 9. Support guide block. Detailed Implementation
[0022] The present invention will be further described below with reference to the accompanying drawings and embodiments.
[0023] Please refer to the following: Figure 1 , Figure 2 , Figure 3 , Figure 4 , Figure 5 and Figure 6 ,in, Figure 1 A schematic diagram of a preferred embodiment of the arc-shaped glued laminated timber splicing mechanism provided by this utility model; Figure 2 for Figure 1 The diagram shown is a bottom view of the main body of the device. Figure 3 for Figure 1 The diagram shows a left view of the main body of the device. Figure 4 for Figure 1 The enlarged schematic diagram of part A shown below; Figure 5 for Figure 2 The enlarged schematic diagram of section B is shown below; Figure 6 for Figure 1The diagram shows the internal structure of the reset block. The arc-shaped glued laminated timber pressing mechanism includes: a main body 1, which comprises a pressing module 2, a buffer module 3, a support frame 5, and a base plate 7. The pressing module 2 includes a driving component 205 mounted on the support frame 5. A pressing plate 201 is provided on the output end of the driving component 205. A straight toothed plate 202 is mounted on one side of the pressing plate 201. A fixing plate 210 is mounted on the bottom of the base plate 7. A reset block 211 is mounted on the fixing plate 210. A rotating mechanism is provided inside the reset block 211. The rotating rod 212 has a first elastic element 204 inside the reset block 211 for resetting the rotating rod 212. A one-way gear 209 is installed on the rotating rod 212. A bottom plate guide groove 207 is provided on the device base plate 7. A connecting block 206 is provided inside the bottom plate guide groove 207. A push plate 213 is installed at one end of the connecting block 206. A reciprocating assembly 208 that can drive the connecting block 206 to reset is installed at the other end of the one-way gear 209. A buffer plate 203 is provided on the device body 1.
[0024] The aforementioned driving component 205 may be a motor or other driving device that can drive the lower pressure plate 201 to move up and down. The aforementioned first elastic component 204 may be a torsion spring or other elastic component that can assist the rotating rod 212 in resetting. The reciprocating assembly 208 may be an assembly that can drive the push plate 213 to unload materials.
[0025] The buffer module 3 includes a vertical plate 301 mounted on the device base plate 7. A fixed slide rod 305 is mounted on the device base plate 7. A limiting block 307 is provided at the top of the fixed slide rod 305. A protrusion 304 is provided on the fixed slide rod 305. A second elastic element 306 for resetting the protrusion 304 is arranged around the fixed slide rod 305.
[0026] The second elastic element 306 can be a spring, elastic sponge, or other elastic component that can assist the protrusion 304 in resetting. The fixed slide bar 305 has the function of guiding the protrusion 304.
[0027] The vertical plate 301 has a vertical groove 302, and a vertical guide block 303 is provided inside the vertical groove 302. The vertical guide block 303 is fixedly connected to the buffer plate 203, the buffer plate 203 is fixedly connected to the protrusion 304, and the protrusion 304 is slidably connected to the fixed slide rod 305.
[0028] The aforementioned buffer plate 203 has the function of buffering the workpiece when the pressure plate 201 is pressed down, and can effectively protect the workpiece.
[0029] The device support frame 5 has a support groove 8, and a support guide block 9 is provided inside the support groove 8. The support guide block 9 is fixedly connected to the lower pressure plate 201, and the support guide block 9 has the function of guiding the lower pressure plate 201.
[0030] The bottom of the main body 1 of the device is equipped with an anti-slip component 6 for preventing slippage.
[0031] The aforementioned anti-slip component 6 can be a rubber anti-slip mat, a wooden anti-slip mat, or other components that can play an anti-slip role.
[0032] The connecting block 206 is slidably connected to the guide groove 207 of the base plate, and the straight tooth plate 202 meshes with the one-way gear 209.
[0033] When the spur plate 202 moves downward, the one-way gear 209 rotates but does not drive the reciprocating assembly 208 to move. When the spur plate 202 moves upward, it drives the one-way gear 209 to rotate. The one-way gear 209 is provided with a one-way shaft inside, so that the one-way gear 209 can rotate in one direction. At this time, the one-way gear 209 will drive the reciprocating assembly 208 to move.
[0034] A controller 4 is installed on the vertical plate 301, and the controller 4 has the function of controlling the operation of the device.
[0035] The working principle of the arc-shaped glued laminated timber splicing mechanism provided by this utility model is as follows:
[0036] When using this device, the controller 4 will start the drive unit 205. The drive unit 205 will drive the lower pressure plate 201 to move downward. The lower pressure plate 201 will drive the straight gear plate 202 to move downward. The straight gear plate 202 will drive the buffer plate 203 to press down on the workpiece. After processing is completed, the drive unit 205 will drive the straight gear plate 202 to move upward. The straight gear plate 202 will drive the one-way gear 209 to rotate. At the same time, the one-way gear 209 will drive the rotating rod 212 to rotate. The rotating rod 212 will drive the first elastic element 204 to move. The one-way gear 209 will drive the reciprocating assembly 208 to drive the connecting block 206 to slide along the bottom plate guide groove 207. The connecting block 206 will drive the push plate 213 to push the workpiece out of the workstation. At this time, the first elastic element 204 will use its own elastic force to drive the rotating rod to rotate, thereby driving the push plate 213 to reset.
[0037] Compared with related technologies, the arc-shaped glued laminated timber splicing mechanism provided by this utility model has the following beneficial effects:
[0038] After processing is completed, the drive component 205 will drive the spur gear 202 to move upward. At this time, the spur gear 202 will drive the one-way gear 209 to rotate. Simultaneously, the one-way gear 209 will drive the rotating rod 212 to rotate. At this time, the one-way gear 209 will drive the reciprocating component 208 to drive the connecting block 206 to slide along the bottom plate guide groove 207. At this time, the connecting block 206 will drive the push plate 213 to push the workpiece out of the workstation. This device adds an automatic unloading function. Traditional manual unloading requires the operator to put their hands into the equipment to manually disassemble the mold or move the components. This device, by adding an automatic unloading function, pushes out the processed workpiece, which can greatly shorten the unloading time, thereby improving the processing efficiency of the device.
[0039] The above description is merely an embodiment of this utility model and does not limit the patent scope of this utility model. Any equivalent structural or procedural transformations made based on the content of this utility model specification and drawings, or direct or indirect applications in other related technical fields, are similarly included within the patent protection scope of this utility model.
Claims
1. A mechanism for gluing and pressing arc-shaped laminated wood, characterized in that, include: The device body includes a pressing module, a buffer module, a device support frame, and a device base plate. The pressing module includes a driving component mounted on the device support frame. A pressing plate is provided on the output end of the driving component. A straight toothed plate is installed on one side of the pressing plate. A fixing plate is installed at the bottom of the device base plate. A reset block is installed on the fixing plate. A rotating rod is provided inside the reset block. A first elastic element for resetting the rotating rod is provided inside the reset block. A one-way gear is installed on the rotating rod. A base plate guide groove is provided on the device base plate. A connecting block is provided inside the base plate guide groove. A push plate is installed at one end of the connecting block. A reciprocating component that can drive the connecting block to reset is installed at the other end of the one-way gear. A buffer plate is provided on the device body.
2. The curved laminated wood pressing mechanism according to claim 1, wherein The buffer module includes a vertical plate mounted on the device base plate, a fixed slide rod mounted on the device base plate, a limiting block provided at the top of the fixed slide rod, a protrusion provided on the fixed slide rod, and a second elastic element for resetting the protrusion is arranged around the fixed slide rod.
3. The curved laminated wood pressing mechanism according to claim 2, wherein The vertical plate has a vertical groove, and a vertical guide block is provided inside the vertical groove. The vertical guide block is fixedly connected to the buffer plate, the buffer plate is fixedly connected to the protrusion, and the protrusion is slidably connected to the fixed slide rod.
4. The arc-shaped glued laminated timber splicing mechanism according to claim 1, characterized in that, The device support frame has a support groove, and a support guide block is provided inside the support groove. The support guide block is fixedly connected to the lower pressure plate.
5. The arc-shaped glued laminated timber splicing mechanism according to claim 1, characterized in that, The bottom of the main body of the device is equipped with anti-slip components to prevent the main body from slipping.
6. The arc-shaped glued laminated timber splicing mechanism according to claim 1, characterized in that, The connecting block is slidably connected to the guide groove of the base plate, and the straight tooth plate meshes with the one-way gear.
7. The arc-shaped glued laminated timber splicing mechanism according to claim 2, characterized in that, A controller is installed on the vertical plate.