A cutting device for producing curved tempered glass
By designing the adjustment and conveying mechanisms of the automatic cutting equipment, and utilizing suction cups and a pull rope system, the problem of low glass removal efficiency after laser glass cutting was solved, realizing the automated removal of cut glass, and improving production efficiency and ease of operation.
Patent Information
- Authority / Receiving Office
- CN · China
- Patent Type
- Utility models(China)
- Current Assignee / Owner
- ZHANGJIAGANG YANDING GLASS CO LTD
- Filing Date
- 2025-05-23
- Publication Date
- 2026-06-26
AI Technical Summary
Existing laser glass cutting machines have low efficiency in removing glass after cutting, especially when the glass is thick and heavy, making manual operation inconvenient.
Design a cutting device that includes an automatic cutting machine body, an adjustment mechanism, and a conveying mechanism. The device automatically removes the cut glass using a suction cup and a pull rope system. The position of the guide frame is adjusted by a stepper motor and a drive motor. The suction cup is controlled by an air pump and a solenoid valve to achieve automatic glass cutting.
It enables automated removal of cut glass, improving production efficiency and reducing the difficulty of manual operation, especially facilitating the handling of thick glass.
Smart Images

Figure CN224411636U_ABST
Abstract
Description
Technical Field
[0001] This utility model relates to the field of tempered glass production technology, specifically a cutting device for producing curved tempered glass. Background Technology
[0002] The production of curved tempered glass requires first cutting the glass with a glass cutting machine, and then placing the cut glass into a tempering furnace for shaping. Existing glass cutting machines include laser glass cutting machines. During the laser glass cutting process, the laser beam position can be automatically adjusted to cut the glass in a non-contact manner. Through a rapid heating and cooling process, a vertical stress band is generated inside the glass, thus forming a crack without debris or cracks. There is no need to bend the glass edges. However, when using a laser glass cutting machine, the cut glass is placed inside the larger cut glass. It is mostly removed manually, which is inefficient. Furthermore, if the glass is thick, the cut glass will be heavy, making it inconvenient for users to handle. Utility Model Content
[0003] The purpose of this invention is to provide a cutting device for producing curved tempered glass, so as to solve the problems mentioned in the background art.
[0004] To achieve the above objectives, this utility model provides the following technical solution:
[0005] A cutting device for producing curved tempered glass, comprising:
[0006] The machine body is capable of automatically cutting glass, including a base plate, an adjustment mechanism for adjusting the position of two conveying mechanisms relative to the machine body, and two conveying mechanisms for removing the cut glass. The base plate is located at one end of the machine body. The adjustment mechanism is fixedly connected to the top surface of the base plate. The adjustment mechanism includes a vertical rod, the bottom end of which is fixedly connected to the top surface of the base plate. A frame is fixedly connected to the top of the vertical rod, and a rotating plate is rotatably connected to the top of the frame. The two conveying mechanisms are located on opposite sides of the rotating plate. Each conveying mechanism includes a guide frame, one end of which is fixedly connected to the side wall of an adjacent rotating plate. A locking block is slidably engaged with the guide frame, and a suction cup is provided below the locking block. A limit hole is provided on the top surface of the locking block. A power box is provided with the suction cup, and the power box is fixedly connected to the top surface of the rotating plate. An automatic winch is provided inside the power box, and a pull rope is fixedly wound around the automatic winch. One end of the pull rope passes through the adjacent limit hole and is detachably connected to the adjacent suction cup.
[0007] Furthermore, each guide frame has a screw rotatably connected between its two ends, each card block has a threaded hole on one side, each threaded hole engages with an adjacent screw, each guide frame has a drive box fixedly connected to its other end, each drive box has a drive motor installed inside, and the motor shaft of each drive motor is fixedly connected to one end of an adjacent screw.
[0008] Furthermore, a motor box is fixedly connected inside the frame, and a stepper motor is installed inside the motor box. The motor shaft of the stepper motor is fixedly connected to the center of the bottom surface of the rotating plate.
[0009] Furthermore, each suction cup has an internal threaded ring fixedly connected to its top center, and each pull rope has a screw head rotatably connected to one end, with each screw head screwed into the interior of the adjacent internal threaded ring.
[0010] Furthermore, a rubber tube is fixedly connected to the top surface of any suction cup, and a connecting box is fixedly connected to the other end of each of the two guide frames. An air pump is installed inside each of the two connecting boxes, and an insertion tube is fixedly connected to the air outlet of each of the two air pumps. Each insertion tube is movably inserted into the interior of an adjacent rubber tube, and a solenoid valve is installed on each insertion tube.
[0011] Furthermore, each suction cup is equipped with a counterweight ring.
[0012] Furthermore, each card block has a guide wheel rotatably connected to its top surface, each guide wheel has an annular groove on its outer side wall, and each pull rope is located inside the annular groove on the adjacent guide wheel.
[0013] Compared with the prior art, the beneficial effects of this utility model are:
[0014] The machine body is used to cut the glass. After the cutting is completed, the stepper motor is started to drive the rotating plate to rotate, so that the position of the two guide frames is adjusted so that a single guide frame is above the machine body. Then, the drive motor is started to drive the adjacent screw to rotate, and the position of the locking block on the guide frame is adjusted so that the locking block on the single guide frame can move the suction cup to any position above the machine body. Then, the automatic winch is started to release the pull rope so that the suction cup is automatically attached to the cut glass under the pressure of the counterweight ring. Then, the two guide frames are swapped by rotating the rotating plate, so that the cut glass is detached from the machine body. Finally, the air pump is started to inject air into the suction cup, so that the suction cup is detached from the cut glass, thus facilitating unloading from the machine body. Attached Figure Description
[0015] Figure 1 This is a schematic diagram of the overall structure of this utility model;
[0016] Figure 2 This is a schematic diagram of the conveying mechanism structure in this utility model;
[0017] Figure 3 This is a schematic diagram of the card block and suction cup structure in this utility model;
[0018] Figure 4 This is a schematic diagram of the pull rope and suction cup structure in this utility model.
[0019] In the diagram: 100, body; 200, base plate; 300, adjusting mechanism; 310, upright; 320, frame; 330, rotating plate; 340, motor box; 400, conveying mechanism; 410, guide frame; 411, screw; 420, locking block; 421, guide wheel; 430, drive box; 440, suction cup; 441, internal thread ring; 442, counterweight ring; 443, rubber tube; 450, power box; 451, pull rope; 452, screw head; 460, connecting box. Detailed Implementation
[0020] The technical solutions of the present utility model will be clearly and completely described below with reference to the accompanying drawings of the embodiments. Obviously, the described embodiments are only some embodiments of the present utility model, and not all embodiments. Based on the embodiments of the present utility model, all other embodiments obtained by those of ordinary skill in the art without creative effort are within the protection scope of the present utility model.
[0021] Please see Figure 1-4 In this embodiment of the present invention, a cutting device for producing curved tempered glass includes:
[0022] The machine includes a body 100 capable of automatically cutting glass, a base plate 200, an adjustment mechanism 300 for adjusting the positions of two conveying mechanisms 400 relative to the body 100, and two conveying mechanisms 400 for removing the cut glass. The base plate 200 is located at one end of the body 100. The adjustment mechanism 300 is fixedly connected to the top surface of the base plate 200. The adjustment mechanism 300 includes a vertical rod 310, the bottom end of which is fixedly connected to the top surface of the base plate 200. A frame 320 is fixedly connected to the top of the vertical rod 310, and a rotating plate 330 is rotatably connected to the top of the frame 320. The two conveying mechanisms 400 are respectively located at the rotating plate 320. On opposite sides of plate 330, the conveying mechanism 400 includes a guide frame 410, one end of which is fixedly connected to the side wall of the adjacent rotating plate 330. The guide frame 410 is slidably engaged with a locking block 420, and a suction cup 440 is provided below the locking block 420. A limit hole is provided on the top surface of the locking block 420. The suction cup 440 is equipped with a power box 450, which is fixedly connected to the top surface of the rotating plate 330. An automatic winch is provided inside the power box 450, and a pull rope 451 is fixedly wound around the automatic winch. One end of the pull rope 451 passes through the adjacent limit hole and is detachably connected to the adjacent suction cup 440.
[0023] Specifically, the glass is placed on the machine body 100 for cutting. After the machine body 100 starts and the glass is cut, the rotating plate 330 is rotated to position a conveyor mechanism 400 above the machine body 100. Then, by adjusting the angle of the rotating plate 330, the relative position between the guide frame 410 on the conveyor mechanism 400 and the machine body 100 is adjusted. Then, by sliding the locking block 420, the suction cup 440 is positioned above the cut glass. Next, the automatic winch is started to lower the pull rope 451, causing the suction cup 440 to press against the cut glass due to its own weight and adhere to it. Finally, the automatic winch is started. The winch retracts the pull rope 451, causing the suction cup 440 and the cut glass to detach from the machine body 100. Then, by rotating the turntable 330, the two conveying mechanisms 400 are swapped, allowing the other conveying mechanism 400 to move above the machine body 100 and use the suction cup 440 to pick up the cut glass again. After one conveying mechanism 400 is detached from the machine body 100, the suction cup 440 can be lowered by the pull rope 451 to remove the picked-up glass. Thus, the cut glass can be moved back and forth on the machine body 100 by the two conveying mechanisms 400, making it easy to remove the cut glass from the machine body 100.
[0024] Example 1
[0025] like Figure 1-4 As shown, in this embodiment, a screw 411 is rotatably connected between the two ends of any guide frame 410, a threaded hole is opened on one side of any locking block 420, and any threaded hole is screwed into the adjacent screw 411. A drive box 430 is fixedly connected to the other end of any guide frame 410, a drive motor is provided inside any drive box 430, and the motor shaft of any drive motor is fixedly connected to one end of the adjacent screw 411. A motor box 340 is fixedly connected inside the frame 320, and a stepper motor is provided inside the motor box 340. The motor shaft of the stepper motor is fixedly connected to the center of the bottom surface of the rotating plate 330.
[0026] In this embodiment, by starting the stepper motor, the rotation angle of the rotating plate 330 can be adjusted, thereby changing the positions of the two conveying mechanisms 400. This allows a single conveying mechanism 400 to be positioned above the machine body 100. Once the single conveying mechanism 400 is above the machine body 100, the angle of the rotating plate 330 can be adjusted to tilt the guide frame 410 above the machine body 100. This allows the locking block 420 on the guide frame 410 to slide along the guide frame 410 to any position above the machine body 100. By starting the drive motor, the adjacent screw 411 can be rotated, causing the screw 411 to move the adjacent locking block 420 on the adjacent guide frame 410, thereby adjusting the relative position of the locking block 420 and the guide frame 410. The stepper motor, drive motor, and automatic winch can be controlled by the controller for automated operation, making it convenient for users.
[0027] like Figure 3-4As shown, in this embodiment, an internal threaded ring 441 is fixedly connected to the center of the top surface of any suction cup 440, a screw head 452 is rotatably connected to one end of any pull rope 451, and any screw head 452 is screwed into the interior of an adjacent internal threaded ring 441. A rubber tube 443 is fixedly connected to the top surface of any suction cup 440, and a connecting box 460 is fixedly connected to the other end of each of the two guide frames 410. An air pump is installed inside each of the two connecting boxes 460, and an insertion tube is fixedly connected to the air outlet of each of the two air pumps. Each insertion tube is movably inserted into the interior of an adjacent rubber tube 443, and a solenoid valve is installed on each insertion tube. A counterweight ring 442 is provided for each suction cup 440.
[0028] In practice, the suction cup 440 and the counterweight ring 442 have different specifications. The rubber tube 443 and the internal threaded ring 441 on the suction cup 440 of different specifications are the same. When using it, a suction cup of appropriate specification can be selected, and then a suitable number and specification of counterweight rings 442 can be stacked on the suction cup 440, and the counterweight rings 442 can be fitted onto the adjacent pull ropes 451. Then, the internal threaded ring 441 on the suction cup 440 is screwed and fixed with the adjacent screw head 452. Then, the adjacent insertion tube is inserted into the rubber tube 443. When the suction cup 440 is lowered by the pull rope 451, the suction cup 440 is pressed by the counterweight ring 442 to expel the internal air and form a negative pressure. The glass is pressed and adsorbed, and then the pull rope 451 pulls the suction cup 440 upward, causing the suction cup 440 to lift the adsorbed glass away from the machine body 100. When it is time to put the glass down, the pull rope 451 can be lowered to support the glass adsorbed by the suction cup 440 on the ground or table. Then, the air pump and solenoid valve are activated, so that the solenoid valve opens to allow the insertion tube to flow smoothly, and the air pump allows gas to enter the suction cup 440 through the insertion tube, so that the suction cup 440 no longer forms a negative pressure, and the suction cup 440 naturally detaches from the adsorbed glass. The air pump and solenoid valve can be automated through the controller, and the solenoid valve can prevent external gas from entering the suction cup 440 through the insertion tube.
[0029] Example 2
[0030] Based on Embodiment 1, the guide wheel 421 is set to make the movement of the pull rope 451 smoother.
[0031] like Figure 2-3 As shown, in this embodiment, a guide wheel 421 is rotatably connected to the top surface of any card block 420, an annular groove is provided on the outer side wall of any guide wheel 421, and any pull rope 451 is located inside the annular groove on the adjacent guide wheel 421.
[0032] In specific implementation, by setting guide wheel 421, the pull rope 451 can pass around guide wheel 421 and be locked inside the annular groove on guide wheel 421, which limits and guides the pull rope 451. The guide wheel 421 supports the pull rope 451, so that the pull rope 451 will not stick to the top surface of the locking block 420 and generate large friction, which facilitates the movement of the pull rope 451.
[0033] It will be apparent to those skilled in the art that this invention is not limited to the details of the exemplary embodiments described above, and that it can be implemented in other specific forms without departing from the spirit or essential characteristics of this invention. Therefore, the embodiments should be considered illustrative and non-limiting in all respects, and the scope of this invention is defined by the appended claims rather than the foregoing description. Thus, it is intended that all variations falling within the meaning and scope of equivalents of the claims be included within this invention. No reference numerals in the claims should be construed as limiting the scope of the claims.
[0034] Furthermore, it should be understood that although this specification describes embodiments, not every embodiment contains only one independent technical solution. This narrative style is merely for clarity. Those skilled in the art should consider the specification as a whole, and the technical solutions in each embodiment can also be appropriately combined to form other embodiments that can be understood by those skilled in the art.
Claims
1. A cutting device for producing curved tempered glass, characterized in that, include: Body (100); The base plate (200) is located at one end of the body (100); An adjustment mechanism (300) is fixedly connected to the top surface of the base plate (200). The adjustment mechanism (300) includes a vertical rod (310), and the bottom end of the vertical rod (310) is fixedly connected to the top surface of the base plate (200). A frame (320) is fixedly connected to the top end of the vertical rod (310), and a rotating plate (330) is rotatably connected to the top end of the frame (320). Two conveying mechanisms (400) are located on opposite sides of the rotating plate (330). Each conveying mechanism (400) includes a guide frame (410), one end of which is fixedly connected to the side wall of the adjacent rotating plate (330). The guide frame (410) is slidably engaged with a locking block (420), and a suction cup (440) is provided below the locking block (420). A limit hole is provided on the top surface of the locking block (420). The suction cup (440) is equipped with a power box (450), which is fixedly connected to the top surface of the rotating plate (330). An automatic winch is provided inside the power box (450), and a pull rope (451) is fixedly wound around the automatic winch. One end of the pull rope (451) passes through the adjacent limit hole and is detachably connected to the adjacent suction cup (440).
2. The cutting equipment for producing curved tempered glass according to claim 1, characterized in that, Each guide frame (410) has a screw (411) rotatably connected between its two ends. Each card block (420) has a threaded hole on one side, and each threaded hole is screwed into the adjacent screw (411). Each guide frame (410) has a drive box (430) fixedly connected to its other end. Each drive box (430) has a drive motor inside, and the motor shaft of each drive motor is fixedly connected to one end of the adjacent screw (411).
3. The cutting equipment for producing curved tempered glass according to claim 1, characterized in that, Each suction cup (440) is equipped with a counterweight ring (442).
4. The cutting equipment for producing curved tempered glass according to claim 2, characterized in that, Each of the card blocks (420) has a guide wheel (421) rotatably connected to its top surface. Each of the guide wheels (421) has an annular groove on its outer side wall. Each of the pull ropes (451) is located inside the annular groove on the adjacent guide wheel (421).
5. The cutting equipment for producing curved tempered glass according to claim 3, characterized in that, Each suction cup (440) has an internal threaded ring (441) fixedly connected to the center of its top surface, and each pull rope (451) has a screw head (452) rotatably connected to one end, and each screw head (452) is screwed into the interior of the adjacent internal threaded ring (441).
6. The cutting equipment for producing curved tempered glass according to claim 5, characterized in that, A rubber tube (443) is fixedly connected to the top surface of any suction cup (440), and a connecting box (460) is fixedly connected to the other end of each of the two guide frames (410). An air pump is installed inside each of the two connecting boxes (460), and an insertion tube is fixedly connected to the air outlet of each of the two air pumps. Each insertion tube is movably inserted into the interior of the adjacent rubber tube (443), and a solenoid valve is installed on each insertion tube.
7. The cutting equipment for producing curved tempered glass according to claim 1, characterized in that, The frame (320) is fixedly connected to a motor box (340), and a stepper motor is installed inside the motor box (340). The motor shaft of the stepper motor is fixedly connected to the center of the bottom surface of the rotating plate (330).