A cutting limiting device suitable for processing of special-shaped glass
By designing a cutting and limiting device suitable for irregularly shaped glass, and utilizing components such as electric push rods and rubber suction cups, the cumbersome problem of manually pushing glass in the production of irregularly shaped glass in bulk orders has been solved, and efficient and stable cutting and breaking operations have been achieved.
Patent Information
- Authority / Receiving Office
- CN · China
- Patent Type
- Utility models(China)
- Current Assignee / Owner
- XIN LI DE GLASS PROD
- Filing Date
- 2025-08-19
- Publication Date
- 2026-06-26
AI Technical Summary
In the production of irregularly shaped glass in bulk, workers need to manually push the glass to cut and break it, which increases labor intensity and reduces production efficiency.
Design a cutting limiting device that uses an electric push rod to drive the support platform to move up and down, combined with a rubber suction cup and anti-slip rubber strip, to achieve stable cutting and suspended breakage of glass, reducing manual operation.
It reduces the labor intensity of workers, improves production efficiency, enhances the stability of glass placement and the precision of cutting and breaking, and the device has a simple and convenient structure.
Smart Images

Figure CN224411637U_ABST
Abstract
Description
Technical Field
[0001] This utility model relates to the field of irregular glass processing technology, and in particular to a cutting and limiting device suitable for processing irregular glass. Background Technology
[0002] In the field of irregularly shaped glass processing, two production models are currently commonly used. One is the mass production model. In this model, the customer needs to provide precise design files such as CAD drawings. The factory imports these drawings into automated cutting equipment, which then precisely cuts the glass edges according to the drawing information, making it conform to the curvature or shape corresponding to the drawing. This production method has the significant advantages of simplicity and speed, and can efficiently meet the production needs of large-scale, standardized orders.
[0003] Another type is the piecework production model, where customers typically only provide a hand-drawn sketch of the required glass shape on paper. Upon receiving such an order, the factory first places the glass stably on the paper, then marks the glass surface with a pattern that perfectly matches the drawing on the paper. After marking, the glass is manually cut along the marks using a glass cutter.
[0004] However, there is a rather tedious step in the process of cutting irregularly shaped glass for individual orders. After the worker finishes cutting one side of the glass, they need to manually push the glass so that one end is off the table and suspended in the air. Then, they use pliers to pinch the glass and break off the cut portion. After completing this operation, they have to push the glass back onto the table again, and then repeat the above cutting and breaking process for the other parts of the glass. This repeated pushing and breaking of the glass greatly increases the labor intensity of the workers and reduces the overall production efficiency.
[0005] Based on this situation, this application proposes a cutting and limiting device for processing irregularly shaped glass, aiming to solve the above problems and improve the convenience and efficiency of processing irregularly shaped glass in bulk. Utility Model Content
[0006] In view of the shortcomings of the existing technology, this utility model provides a cutting and limiting device suitable for processing irregularly shaped glass.
[0007] An embodiment of this utility model provides a cutting and limiting device suitable for processing irregularly shaped glass, comprising:
[0008] A bracket, on which a glass support plate is mounted;
[0009] A support mechanism for supporting glass includes a rectangular frame that runs through a glass support plate. A support platform that can move up and down and is limited is slidably connected inside the rectangular frame. Multiple rubber suction cups are installed at the upper end of the support platform. When the glass is cut, the support platform moves down to make the glass abut against the glass support plate. When the cut glass is broken, the support platform drives the glass away from the glass support plate.
[0010] Furthermore, four guide rails are fixed inside the rectangular frame, and the outer wall of the support platform is provided with rail grooves running through it from top to bottom, with the guide rails slidably connected in the rail grooves.
[0011] Furthermore, a mounting plate is fixed to the bottom of the rectangular frame, an electric push rod is fixed to the bottom of the mounting plate, a drive rod is fixed to the output end of the electric push rod, and the drive rod is fixedly connected to the bottom of the support platform.
[0012] Furthermore, the support platform is provided with a mounting groove, and the rubber suction cup is fixed in the mounting groove with glue.
[0013] Furthermore, multiple anti-slip rubber strips are fixed on the support platform, and the anti-slip rubber strips are distributed in a linear array on the support platform.
[0014] Furthermore, a rubber sheet is laid on the glass support plate, and the rubber sheet is configured to cooperate with the glass support plate.
[0015] Compared with the prior art, the present invention has the following beneficial effects:
[0016] This invention uses an electric push rod to drive the support platform to move up and down, so that the glass is firmly against the glass support plate during cutting and suspended in the air when broken, eliminating the need for workers to manually push the glass repeatedly, greatly reducing labor intensity; the rubber plate, rubber suction cup and anti-slip rubber strip work together to enhance the stability and limiting effect of glass placement, improve cutting and breaking accuracy, and improve overall production efficiency, and the device has a simple structure and is easy to operate. Attached Figure Description
[0017] Figure 1 This is a schematic diagram of the structure of a cutting and limiting device for processing irregularly shaped glass, as described in an embodiment of this utility model.
[0018] Figure 2 This is a schematic diagram of the guide rail in a cutting and limiting device for processing irregularly shaped glass, as described in an embodiment of this utility model.
[0019] Figure 3 This is a schematic diagram of the rubber suction cup in a cutting and limiting device for processing irregularly shaped glass, as described in an embodiment of this utility model.
[0020] In the above attached diagram: 1 bracket, 2 glass support plate, 3 support platform, 4 rectangular frame, 5 rail groove, 6 guide rail, 7 drive rod, 8 mounting plate, 9 electric push rod, 10 rubber suction cup, 11 mounting groove, 12 anti-slip rubber strip. Detailed Implementation
[0021] The technical solution of this utility model will be further described below with reference to the accompanying drawings and embodiments.
[0022] like Figures 1-3 As shown in the figure, this utility model embodiment proposes a cutting and limiting device suitable for processing irregularly shaped glass, comprising:
[0023] The support bracket 1 is made of high-strength metal, such as stainless steel, which has sufficient rigidity and stability to withstand various forces generated during glass cutting, ensuring that the entire device will not shake or deform during use. A glass support plate 2 is installed on the support bracket 1. The glass support plate 2 is made of a highly flat and smooth material, such as tempered glass, to ensure the stability of the glass during placement. A rubber sheet is laid on the glass support plate 2. The rubber sheet has a certain degree of elasticity and friction, which prevents the glass from sliding during placement and cutting, and also acts as a buffer to avoid direct contact between the glass and the glass support plate 2, thus preventing scratches.
[0024] The support mechanism for supporting the glass includes a rectangular frame 4 that runs through the glass support plate 2. The rectangular frame 4 is bolted to the glass support plate 2 to ensure a strong and stable connection. A support platform 3, capable of vertical movement but with limited positioning, is slidably connected within the rectangular frame 4. Four guide rails 6 are fixed within the rectangular frame 4. The guide rails 6 are made of hard alloy material, offering high wear resistance and guiding accuracy. Rail grooves 5 extend vertically through the outer wall of the support platform 3. The guide rails 6 are slidably connected within the rail grooves 5. Through the cooperation of the guide rails 6 and the rail grooves 5, the support platform 3 can move smoothly up and down within the rectangular frame 4. Furthermore, the high dimensional accuracy of the guide rails 6 and rail grooves 5 effectively limits the direction of movement of the support platform 3, preventing it from shifting.
[0025] A mounting plate 8 is fixed to the bottom of the rectangular frame 4. The mounting plate 8 is connected to the rectangular frame 4 by welding to ensure the strength of the connection. An electric actuator 9 is fixed to the bottom of the mounting plate 8. The electric actuator 9 is a stable product with adjustable thrust, and its thrust range can meet the needs of the support platform 3 to move the glass up and down. The required brand and model can be purchased on the market. A drive rod 7 is fixed to the output end of the electric actuator 9. The drive rod 7 is connected to the output end of the electric actuator 9 by thread and locked with a nut to ensure the reliability of the connection. The drive rod 7 is fixedly connected to the bottom of the support platform 3. The connection method can be welding or bolting to ensure that the drive rod 7 can effectively transmit the power of the electric actuator 9 to the support platform 3.
[0026] Multiple rubber suction cups 10 are recessed at the upper end of the support platform 3. These suction cups 10 are made of high-quality rubber, possessing excellent flexibility and adhesion. The support platform 3 has mounting grooves 11, and the rubber suction cups 10 are fixed within these grooves using adhesive. The adhesive used is a product with strong adhesion and good aging resistance, ensuring a secure connection between the rubber suction cups 10 and the support platform 3. When the glass is placed on the support platform 3, the rubber suction cups 10 adhere tightly to the glass surface, increasing the friction between the glass and the support platform 3 and preventing the glass from slipping during breakage.
[0027] The support platform 3 is equipped with multiple anti-slip rubber strips 12, which are made of rubber and have anti-slip textures on their surface. The anti-slip rubber strips 12 are arranged in a linear array on the support platform 3, which further enhances the friction between the support platform 3 and the glass and improves the stability of the glass placement. When the rubber suction cup 10 adsorbs the glass, the glass abuts against the anti-slip rubber strips 12, thus limiting the position of the glass.
[0028] When cutting the glass, the electric push rod 9 retracts, driving the support platform 3 downwards via the drive rod 7, so that the glass comes into contact with the glass support plate 2. At this time, the rubber plate and rubber suction cup 10 work together to firmly fix the glass on the glass support plate 2, providing stable conditions for the cutting operation. When breaking the cut glass, the electric push rod 9 extends, driving the support platform 3 to move the glass away from the glass support plate 2, leaving one end of the glass suspended in the air, making it convenient for workers to use pliers to grasp the glass and break off the cut portion. The entire process does not require manual pushing of the glass by workers, greatly reducing the labor intensity of workers and improving production efficiency. At the same time, the device has a simple structure and is easy to operate.
[0029] Finally, it should be noted that the above embodiments are only used to illustrate the technical solutions of this utility model and are not intended to limit it. Although this utility model has been described in detail with reference to preferred embodiments, those skilled in the art should understand that modifications or equivalent substitutions can be made to the technical solutions of this utility model without departing from the spirit and scope of the technical solutions of this utility model, and all such modifications or substitutions should be covered within the scope of the claims of this utility model.
Claims
1. A cutting and limiting device suitable for processing irregularly shaped glass, characterized in that, include: A bracket (1) on which a glass support plate (2) is mounted; The support mechanism for supporting the glass includes a rectangular frame (4) that runs through the glass support plate (2). A support platform (3) that can move up and down and is limited is slidably connected inside the rectangular frame (4). Multiple rubber suction cups (10) are installed at the upper end of the support platform (3). When the glass is cut, the support platform (3) moves down to make the glass abut against the glass support plate (2). When the cut glass is broken, the support platform (3) drives the glass away from the glass support plate (2).
2. The cutting limiting device for processing of the special-shaped glass according to claim 1, characterized in that, in: Four guide rails (6) are fixed inside the rectangular frame (4), and the outer wall of the support platform (3) is provided with rail grooves (5) running through it from top to bottom. The guide rails (6) are slidably connected in the rail grooves (5).
3. A cutting and limiting device for processing irregularly shaped glass according to claim 1, characterized in that, in: The bottom of the rectangular frame (4) is fixed with an mounting plate (8), the bottom of the mounting plate (8) is fixed with an electric push rod (9), the output end of the electric push rod (9) is fixed with a drive rod (7), and the drive rod (7) is fixedly connected to the bottom of the support platform (3).
4. A cutting and limiting device for processing irregularly shaped glass according to claim 1, characterized in that, in: The support platform (3) is provided with an installation groove (11), and the rubber suction cup (10) is fixed in the installation groove (11) by glue.
5. A cutting and limiting device for processing irregularly shaped glass according to claim 1, characterized in that, in: Multiple anti-slip rubber strips (12) are fixed on the support platform (3), and the anti-slip rubber strips (12) are arranged in a linear array on the support platform (3).
6. A cutting and limiting device for processing irregularly shaped glass according to claim 1, characterized in that, in: A rubber sheet is laid on the glass support plate (2), and the rubber sheet is configured to cooperate with the glass support plate (2).