A gypsum board processing positioning device
By designing a gypsum board processing positioning device, and utilizing a combination of an adjusting positioning plate and a rubber drive roller, the problem of gypsum board offset during the conveying process was solved, thereby improving processing stability and quality.
Patent Information
- Authority / Receiving Office
- CN · China
- Patent Type
- Utility models(China)
- Current Assignee / Owner
- TAISHAN GYPSUM (CHANGZHI) CO LTD
- Filing Date
- 2025-04-23
- Publication Date
- 2026-07-14
AI Technical Summary
In the existing technology, gypsum boards lack a suitable positioning structure when conveyed by rollers, which makes the gypsum boards prone to displacement and affects the quality of subsequent processing.
A gypsum board processing positioning device was designed, including a frame, support rollers, positioning plates and rubber drive rollers. By adjusting the distance of the positioning plates and starting the motor to drive the rubber rollers to rotate, the gypsum board is kept stable during the conveying process.
This improves the stability of gypsum board during the punching process, prevents deviation, and ensures processing quality.
Smart Images

Figure CN224489616U_ABST
Abstract
Description
Technical Field
[0001] This utility model relates to the field of gypsum board processing, and in particular to a gypsum board processing positioning device. Background Technology
[0002] Gypsum board is a type of building material with gypsum as the core material and facing paper on both sides. Its characteristics include lightweight, fire resistance, sound insulation, and ease of processing, making it widely used in interior decoration such as walls, ceilings, and partitions.
[0003] To enhance acoustic performance (sound absorption / insulation) and improve ventilation and humidity control, gypsum boards often require punching with a punching machine. In current technology, roller conveyor equipment is often used to transport gypsum boards. However, when placing gypsum boards on roller conveyors, it is often done manually based on experience and skill, lacking a suitable positioning structure. This can easily lead to the gypsum boards being misaligned. When the misalignment angle is too large, it will greatly affect the subsequent processing quality.
[0004] Therefore, it is necessary to provide a new positioning device for gypsum board processing to solve the above-mentioned technical problems. Utility Model Content
[0005] To solve the above-mentioned technical problems, this utility model provides a gypsum board processing positioning device, which solves the problem that in the prior art, gypsum boards are mostly placed manually based on experience and skill, lacking a suitable positioning structure, which may cause the gypsum boards to be placed off-center. When the offset angle is too large, it will greatly affect the subsequent processing quality.
[0006] The gypsum board processing and positioning device provided by this utility model includes a frame and a punching machine. Several support rollers are movably arranged on the frame, and a first gantry seat is installed on the frame. A sliding groove is opened on the first gantry seat.
[0007] Two sliding blocks are slidably arranged inside the slide groove, and a positioning plate is installed at the bottom of the sliding blocks.
[0008] In a preferred embodiment, a bidirectional lead screw is movably disposed inside the slide groove, with both ends of the bidirectional lead screw passing through and threadedly connected to the two slide blocks respectively.
[0009] In a preferred embodiment, one end of the bidirectional lead screw extends out of the first gantry seat and is equipped with a crank.
[0010] In a preferred embodiment, the bidirectional lead screw is galvanized.
[0011] In a preferred embodiment, a second gantry seat is fixed on the frame, and brackets are fixed on the opposite side of the second gantry seat and the first gantry seat;
[0012] A rubber drive roller is movably mounted on the bracket, and a rotating shaft is provided on one side of the bracket. One end of the rotating shaft is fixedly connected to the rubber drive roller, and a worm gear is installed on the other end of the rotating shaft.
[0013] A support frame is mounted on the frame, and a drive shaft is movably mounted on the support frame. Both ends of the drive shaft are connected to worm gears, and the two worm gears mesh with the two worm wheels respectively.
[0014] In a preferred embodiment, a motor is mounted on the support frame, and a mounting shaft is movably disposed on the support frame. A first bevel gear is mounted on one end of the mounting shaft, and the other end of the mounting shaft is connected to the motor via a coupling.
[0015] A second bevel gear is mounted on the drive shaft, and the first bevel gear meshes with the second bevel gear.
[0016] The beneficial effects of this utility model are:
[0017] 1. When using this processing positioning device, the operator can adjust the distance between the two positioning plates according to the size of the gypsum board to be fed. When placing the gypsum board, the operator can keep the two sides of the gypsum board horizontal with the two positioning plates on the support roller to avoid excessive offset when placing the gypsum board, which will affect the subsequent processing effect.
[0018] 2. Start the motor. Under the transmission action of the two bevel gears, the drive shaft will rotate. Under the transmission action of the worm gear and worm, the two rubber drive rollers will be driven to rotate simultaneously in the same direction, thereby moving the gypsum board placed on the support roller towards the feed port of the punching machine. Since the rubber drive rollers also play a role in fixing the gypsum board while driving it to move (during processing), the stability of the gypsum board during punching can be greatly improved. Attached Figure Description
[0019] Figure 1 A three-dimensional view of the main structure of the gypsum board processing and positioning device provided by this utility model;
[0020] Figure 2 for Figure 1 A schematic diagram of the enlarged structure of A shown;
[0021] Figure 3 for Figure 1 A schematic diagram of the enlarged structure of B shown;
[0022] Figure 4 for Figure 1 A schematic diagram of the enlarged structure of C shown;
[0023] Figure 5 A top view of the main structure of the gypsum board processing and positioning device provided by this utility model.
[0024] Labels in the diagram: 1. Frame; 2. Punching machine; 3. Support roller; 4. First gantry; 5. Slide groove; 6. Slide block; 7. Positioning plate; 8. Double-acting lead screw; 9. Hand crank; 10. Bracket; 11. Rubber drive roller; 12. Rotating shaft; 13. Worm gear; 14. Support frame; 15. Drive shaft; 16. Worm; 17. Motor; 18. Mounting shaft; 19. First bevel gear; 20. Second bevel gear; 21. Second gantry. Detailed Implementation
[0025] The present invention will be further described below with reference to the accompanying drawings and embodiments.
[0026] Please refer to the following: Figure 1 , Figure 2 , Figure 3 , Figure 4 as well as Figure 5 ,in Figure 1 A three-dimensional view of the main structure of the gypsum board processing and positioning device provided by this utility model; Figure 2 for Figure 1 A schematic diagram of the enlarged structure of A shown; Figure 3 for Figure 1 A schematic diagram of the enlarged structure of B shown; Figure 4 for Figure 1 A schematic diagram of the enlarged structure of C shown; Figure 5 A top view of the main structure of the gypsum board processing and positioning device provided by this utility model.
[0027] In the specific implementation process, such as Figures 1-5 As shown, the machine includes a frame 1 and a punching machine 2. Several support rollers 3 are movably mounted on the frame 1. A first gantry seat 4 is installed on the frame 1. A groove 5 is formed on the first gantry seat 4, and two slide blocks 6 are slidably arranged inside the groove 5. A positioning plate 7 is installed at the bottom of each slide block 6. A bidirectional lead screw 8 is movably arranged inside the groove 5. Both ends of the bidirectional lead screw 8 pass through the two slide blocks 6 and are threadedly connected to them. One end of the bidirectional lead screw 8 extends out of the first gantry seat 4 and is equipped with a crank 9 for easy rotation by the operator. The bidirectional lead screw 8 is galvanized. To improve its service life, when using this processing positioning device, the operator can adjust the distance between the two positioning plates 7 according to the size of the gypsum board to be loaded. During adjustment, the crank 10 is turned to drive the double-acting screw 8 to rotate. Under the action of the double-acting screw 8, the two sliding blocks 6 will slide along the slide groove 5, thereby adjusting the distance between the two positioning plates 7. When placing the gypsum board, the operator can keep the two sides of the gypsum board and the two positioning plates 7 horizontally placed on the support roller 3 to avoid excessive offset when placing the gypsum board, which would affect the subsequent processing effect.
[0028] A second gantry seat 21 is fixed on the frame 1. A bracket 10 is fixed on the opposite side of the second gantry seat 21 and the first gantry seat 4. A rubber drive roller 11 is movably mounted on the bracket 10. The rubber drive roller 11 is made of soft rubber (50 to 60 HA). The bottom of the rubber drive roller 11 extends beyond the top of the gypsum board (1 to 3 mm), which has a certain dynamic adaptability and can also ensure the friction force used to drive the movement of the gypsum board.
[0029] A rotating shaft 12 is provided on one side of the support 10. One end of the rotating shaft 12 is fixedly connected to the rubber drive roller 11, and a worm gear 13 is installed at the other end of the rotating shaft 12. A support frame 14 is installed on the frame 1, and a transmission shaft 15 is movably installed on the support frame 14. Worms 16 are connected to both ends of the transmission shaft 15, and the two worms 16 mesh with the two worm gears 13 respectively. A motor 17 is installed on the support frame 14, and a mounting shaft 18 is movably installed on the support frame 14. A first bevel gear 19 is installed at one end of the mounting shaft 18, and the other end of the mounting shaft 18 is connected to the motor 17 through a coupling. A second bevel gear 20 is installed on the transmission shaft 15, and the first bevel gear 19 meshes with the second bevel gear 20. The worms 16 and worm gears 13, and the first bevel gear 19 and second bevel gear 20 all adopt closed transmission, which reduces wear and improves service life.
[0030] When the motor 17 is started, the transmission shaft 15 will rotate under the transmission action of the two bevel gears. Under the transmission action of the worm gear 13 and the worm 16, the two rubber drive rollers 11 will be driven to rotate simultaneously in the same direction, thereby moving the gypsum board placed on the support roller 3 towards the feed port of the punching machine 2. Since the rubber drive rollers 11 also play a role in fixing the gypsum board while driving it to move (preventing the gypsum board from moving during punching), the stability of the gypsum board during punching can be greatly improved.
[0031] The working principle of this utility model is as follows: When using this processing positioning device, the operator can adjust the distance between the two positioning plates 7 according to the size of the gypsum board to be loaded. During adjustment, the crank 10 is turned to drive the double-acting screw 8 to rotate. Under the action of the double-acting screw 8, the two sliding blocks 6 will slide along the sliding groove 5, thereby adjusting the distance between the two positioning plates 7. When placing the gypsum board, the operator can keep the two sides of the gypsum board and the two positioning plates 7 horizontally placed on the support roller 3 to avoid excessive offset when placing the gypsum board, which would affect the subsequent processing effect.
[0032] When the motor 17 is started, the transmission shaft 15 will rotate under the transmission action of the two bevel gears. Under the transmission action of the worm gear 13 and the worm 16, the two rubber drive rollers 11 will be driven to rotate simultaneously in the same direction, thereby moving the gypsum board placed on the support roller 3 towards the feed port of the punching machine 2. Since the rubber drive rollers 11 also play a role in fixing the gypsum board while driving it to move (preventing the gypsum board from moving during punching), the stability of the gypsum board during punching can be greatly improved.
[0033] The circuits and controls involved in this utility model are all existing technologies and will not be described in detail here.
[0034] 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 gypsum board processing and positioning device, comprising a frame (1) and a punching machine (2), characterized in that, A number of support rollers (3) are movably arranged on the frame (1), and a first gantry seat (4) is installed on the frame (1). A sliding groove (5) is provided on the first gantry seat (4). The slide groove (5) has two sliding blocks (6) inside, and a positioning plate (7) is installed at the bottom of the sliding blocks (6). A second gantry (21) is fixed on the frame (1), and a bracket (10) is fixed on the opposite side of the second gantry (21) and the first gantry (4). A rubber drive roller (11) is movably mounted on the bracket (10). A rotating shaft (12) is provided on one side of the bracket (10). One end of the rotating shaft (12) is fixedly connected to the rubber drive roller (11), and a worm gear (13) is installed on the other end of the rotating shaft (12). A support frame (14) is installed on the frame (1), and a drive shaft (15) is movably arranged on the support frame (14). Both ends of the drive shaft (15) are connected to worm gears (16), and the two worm gears (16) mesh with the two worm wheels (13) respectively.
2. The gypsum board processing positioning device according to claim 1, characterized in that, The slide groove (5) is movably provided with a bidirectional lead screw (8), and the two ends of the bidirectional lead screw (8) pass through the two slide blocks (6) respectively and are threadedly connected to them.
3. The gypsum board processing positioning device according to claim 2, characterized in that, One end of the bidirectional lead screw (8) extends out of the first gantry seat (4) and is equipped with a crank (9).
4. The gypsum board processing positioning device according to claim 3, characterized in that, The bidirectional lead screw (8) is galvanized.
5. The gypsum board processing positioning device according to claim 4, characterized in that, A motor (17) is mounted on the support frame (14), and an installation shaft (18) is movably arranged on the support frame (14). A first bevel gear (19) is mounted on one end of the installation shaft (18), and the other end of the installation shaft (18) is connected to the motor (17) through a coupling. A second bevel gear (20) is mounted on the drive shaft (15), and the first bevel gear (19) meshes with the second bevel gear (20).