A transfer device for processing special glass
By designing an irregular connection structure and using a point-fixing method, the problem of unstable pressure at the buffer points during transportation of curved glass was solved, achieving a safe transfer effect.
Patent Information
- Authority / Receiving Office
- CN · China
- Patent Type
- Utility models(China)
- Current Assignee / Owner
- DALIAN HUAYING GLASSWARE CO LTD
- Filing Date
- 2025-07-21
- Publication Date
- 2026-07-07
Smart Images

Figure CN224466991U_ABST
Abstract
Description
Technical Field
[0001] This utility model relates to the field of glass production technology, and more specifically, to a transfer device for special glass processing. Background Technology
[0002] Specialty glass refers to glass products that, in contrast to ordinary glass (such as flat glass), possess specific functions (such as high strength, high temperature resistance, radiation protection, and light transmission control) through adjustments to composition, special processes (such as coating, quenching, and doping) or structural design.
[0003] The handling of specialty glass after production differs from that of ordinary glass. Common handling devices for ordinary glass involve placing the glass against an inclined frame with a buffer structure between it and the ordinary glass to reduce direct impact. However, this method can lead to unstable pressure at the buffer points for curved glass, potentially causing breakage and posing a significant handling risk. Therefore, we propose a handling device for specialty glass processing. Utility Model Content
[0004] The purpose of this invention is to overcome the shortcomings of the existing technology, adapt to practical needs, and provide a transfer device for special glass processing to solve the technical problem that curved glass may break due to unstable pressure at the buffer point during transportation.
[0005] To solve the above-mentioned technical problems, this utility model provides the following technical solution: a transfer device for special glass processing, comprising a mounting frame and an irregular connecting structure. The irregular connecting structure is mounted on the mounting frame and includes a connecting frame. A tension plate is mounted on the top of the connecting frame, and a tension spring is connected to the tension plate. A glass adapter plate for fixing the glass is connected to the end of the tension spring away from the tension plate. A crossbar is mounted on the bottom of the connecting frame, and guide posts are mounted on both ends of the crossbar. A tension cloth for supporting the bottom of the glass is installed between the two guide posts. A central positioning plate for fixing the middle part of the glass is mounted at the front center of the connecting frame, and a suction cup is mounted on the inner side of the central positioning plate.
[0006] Preferably, the connecting frame is composed of two semi-circular ring-shaped plates connected in opposite directions symmetrically, with a rotating shaft connected to the mounting frame between the two plates, and a lateral limiting rod for position restriction installed between the rotating shaft and the connecting frame.
[0007] Preferably, the outer side of the mounting frame is provided with several side limiting structures. The side limiting structures include an arc-shaped plate mounted on the mounting frame. Several through holes are evenly opened on the arc-shaped plate. Insert rods for cooperating with the lateral limiting rods to limit the position of the connecting frame are connected in the through holes.
[0008] Preferably, a shaft is installed between the central positioning plate and the connecting frame to facilitate independent rotation of the central positioning plate. The central positioning plate consists of an L-shaped plate connected to the shaft and a side plate corresponding to and slidably connected to the L-shaped plate. A suction cup for fixing glass is installed on the side of the side plate facing the L-shaped plate. Corresponding threaded holes are opened on the side plate and the L-shaped plate, and screws for adjusting the position of the side plate are connected in the holes.
[0009] Preferably, the tensioning cloth is in a non-tensioned state when connected to the guide post and not under pressure, the guide post and the crossbar are fixed to each other, the crossbar and the connecting frame are rotatably connected, the guide post is a double-layer sleeve structure with a solid inner core and a hollow outer core, and the tensioning cloth is fixed based on the outer hollow sleeve structure.
[0010] Preferably, the connecting frame is tilted to one side when the glass is not being transferred, and a rubber pad is provided at the contact point between the connecting frame and the insert rod on the side limiting structure. The insert rod is a horizontal rod with a sponge tube on the outside.
[0011] Compared with the prior art, the beneficial effects of this utility model are:
[0012] 1. This utility model, through the design of an irregularly shaped connection structure, adopts a point-fixed connection method. The bottom of the curved glass is placed on the tension cloth. Since the tension cloth has no actual fixing points, it does not forcibly fix the bottom of the curved glass. At the same time, the central positioning plate set in the middle performs a positioning and relative clamping operation on the middle of the curved glass, rather than directly fixing it. Meanwhile, the glass transition plate on the top of the connecting frame, together with the tension spring, restricts the movement of the top two sides of the curved glass. With the tension cloth at the bottom, the operation of transferring and fixing the curved glass can be achieved without contact with external rigid equipment, reducing the possibility of external collisions and preventing the instability of the pressure on the buffer point. This solves the technical problem that the current curved glass may break due to the instability of the pressure on the buffer point during transportation.
[0013] 2. This utility model also achieves the purpose of relatively fixing the middle position of the curved glass by designing a central positioning plate and its connected screw and suction cup structure. The screw rotates to drive the side plate on the central positioning plate to move. At the same time, after contacting the curved glass, the suction cup adjusts the adsorption state and fixing point with the curved glass. It does not need to directly contact the central positioning plate, thus achieving the limitation of the middle of the curved glass without affecting the fixing performance of the curved glass. Attached Figure Description
[0014] Figure 1 This is a schematic diagram of the overall structure of this utility model;
[0015] Figure 2 This is a schematic diagram of the glass installation of this utility model;
[0016] Figure 3 This is a schematic diagram of the mounting bracket connection structure of this utility model;
[0017] Figure 4 This is a schematic diagram of the irregular connection structure of this utility model.
[0018] The following are the labels in the diagram: 100, mounting bracket; 200, irregular connection structure; 210, connecting bracket; 220, tension plate; 221, tension spring; 222, glass adapter plate; 230, crossbar; 231, guide post; 232, tension cloth; 300, side limiting structure; 310, arc plate; 320, insertion rod; 400, central positioning plate; 410, screw; 420, suction cup. Detailed Implementation
[0019] like Figures 1 to 4 As shown, this utility model relates to a transfer device for special glass processing, including a mounting frame 100 and an irregular connecting structure 200. The irregular connecting structure 200 is mounted on the mounting frame 100 and includes a connecting frame 210. A tension plate 220 is mounted on the top of the connecting frame 210, and a tension spring 221 is connected to the tension plate 220. A glass adapter plate 222 for fixing the glass is connected to the end of the tension spring 221 away from the tension plate 220. A crossbar 230 is mounted on the bottom of the connecting frame 210, and guide posts 231 are mounted on both ends of the crossbar 230. A tension cloth 232 for supporting the bottom of the glass is installed between the two guide posts 231. A central positioning plate 400 for fixing the middle of the glass is installed at the front center of the connecting frame 210, and a suction cup 420 is installed on the inner side of the central positioning plate 400.
[0020] This utility model, through the design of an irregularly shaped connection structure 200, adopts a point-fixed connection method. The bottom of the curved glass is placed on the tension cloth 232. Since the tension cloth 232 has no actual fixing points, it does not forcibly fix the bottom of the curved glass. At the same time, the central positioning plate 400 set in the middle performs a positioning and relative clamping operation on the middle of the curved glass, rather than directly fixing it. Meanwhile, the glass transition plate 222 on the top of the connecting frame 210, together with the tension spring 221, restricts the movement of the top positions on both sides of the curved glass. With the tension cloth 232 at the bottom, the operation of transferring and fixing the curved glass can be achieved without contact with external rigid equipment, reducing the possibility of external collisions and preventing the instability of the pressure on the buffer point. This solves the technical problem that the current curved glass may break due to the instability of the pressure on the buffer point during transportation.
[0021] This invention also achieves the purpose of relatively fixing the middle position of the curved glass by designing a central positioning plate 400 and its connected screw 410 and suction cup 420. The screw 410 rotates to drive the side plate on the central positioning plate 400 to move. At the same time, after contacting the curved glass, the suction cup 420 adjusts the adsorption state and fixing point with the curved glass, without direct contact with the central positioning plate 400. This achieves the limitation of the middle position of the curved glass without affecting the fixing performance of the curved glass.
[0022] Specifically, the connecting frame 210 is composed of two semi-circular ring-shaped plates connected symmetrically in opposite directions. A pivot connecting the two plates to the mounting frame 100 is provided between them. A lateral limiting rod for position restriction is also installed between the pivot and the connecting frame 210. The two semi-circular structures connected symmetrically in opposite directions can ensure the uniformity of force. At the same time, compared with a vertical frame, it can ensure that the curved glass will not directly collide with external equipment during transportation. It also makes it convenient for the connecting frame 210 to be directly restricted by external equipment without affecting the curved glass. The lateral limiting rod facilitates the contact and fixation of the connecting frame 210 with external equipment, thereby facilitating the adjustment of the overall rotation angle and fixed position of the connecting frame 210.
[0023] Furthermore, the outer side of the mounting bracket 100 is provided with several side limiting structures 300. The side limiting structure 300 includes an arc-shaped plate 310 mounted on the mounting bracket 100. Several through holes are evenly opened on the arc-shaped plate 310. Insert rods 320 are connected in the through holes to cooperate with the lateral limiting rod to limit the position of the connecting bracket 210. The side limiting structure 300 is used to cooperate with the lateral limiting rod to achieve the purpose of limiting the position and angle of the connecting bracket 210.
[0024] It is worth noting that a shaft is installed between the central positioning plate 400 and the connecting frame 210 to facilitate the independent rotation of the central positioning plate 400. The central positioning plate 400 consists of an L-shaped plate connected to the shaft and a side plate corresponding to and slidably connected to the L-shaped plate. A suction cup 420 for fixing the glass is installed on the side of the side plate facing the L-shaped plate. Corresponding threaded holes are opened on the side plate and the L-shaped plate, and screws 410 for adjusting the position of the side plate are connected in the holes. The rotation of the central positioning plate 400 is not affected by the connecting frame 210, which makes it convenient for the connected equipment at both ends of the connecting frame 210 to move with the curved glass contacted by the central positioning plate 400. This allows the connecting frame 210 to play a positional limiting role as a whole, without directly fixing the curved glass, reducing the possibility of damage caused by rigid fixing.
[0025] It is worth mentioning that the tension cloth 232 is in a non-tensioned state when connected to the guide post 231 and without pressure. The guide post 231 and the crossbar 230 are fixed to each other, and the crossbar 230 is rotatably connected to the connecting frame 210. The guide post 231 has a double-layer sleeve structure with a solid inner core and a hollow outer core. The tension cloth 232 is fixed based on the outer hollow sleeve structure. The non-tensioned state of the tension cloth 232 can effectively facilitate the placement of curved glass, while also increasing the contact area between the curved structure at the bottom of the curved glass and the tension cloth 232, and preventing damage to the curved glass during transportation caused by direct fixation.
[0026] It is worth noting that the connecting frame 210 is tilted to one side when the glass is not being transferred. The contact point between the connecting frame 210 and the insertion rod 320 on the side limiting structure 300 is equipped with a rubber pad. The insertion rod 320 is a horizontal rod with a sponge tube on the outside. The connecting frame 210 is initially tilted, which facilitates the fixed placement of the curved glass. At the same time, after being subjected to the pressure of the curved glass, the upper part can be limited to the maximum position by the insertion rod 320 to prevent it from falling or rotating too much.
[0027] Working Principle: This embodiment provides a transfer device for special glass processing. In use, the bottom of the curved glass is placed on the tension cloth 232. Since the tension cloth 232 has no actual fixing points, it does not forcibly fix the bottom of the curved glass. Simultaneously, the central positioning plate 400 positioned in the middle of the curved glass performs a positioning and clamping operation on the middle of the curved glass, rather than directly fixing it. Furthermore, the glass adapter plate 222 on the top of the connecting frame 210, in conjunction with the tension spring 221, restricts the movement of the top and sides of the curved glass. With the tension cloth 232 at the bottom, the curved glass can be transferred and fixed without contact with external rigid equipment. The screw 410 rotates to drive the side plate on the central positioning plate 400 to move. After contacting the curved glass, the suction cup 420 adjusts the adsorption state and fixing point with the curved glass. There is no need to directly contact the central positioning plate 400. The insertion position of the insertion rod 320 on the arc plate 310 is adjusted according to the type of curved glass and the transfer requirements, thereby restricting the rotation angle of the connecting frame 210.
[0028] The embodiments disclosed herein are preferred embodiments, but are not limited thereto. Those skilled in the art can readily grasp the spirit of this utility model based on the above embodiments and make different extensions and variations. However, as long as they do not depart from the spirit of this utility model, they are all within the protection scope of this utility model.
Claims
1. A transfer device for processing special glass, characterized in that, The device includes a mounting frame (100) and a non-circular connecting structure (200). The non-circular connecting structure (200) is mounted on the mounting frame (100). The non-circular connecting structure (200) includes a connecting frame (210). A tension plate (220) is mounted on the top of the connecting frame (210). A tension spring (221) is connected to the tension plate (220). A glass adapter plate (222) for fixing the glass is connected to the end of the tension spring (221) away from the tension plate (220). A crossbar (230) is mounted on the bottom of the connecting frame (210). Guide posts (231) are mounted on both ends of the crossbar (230). A tension cloth (232) for lifting the bottom of the glass is installed between the two guide posts (231). A central positioning plate (400) for fixing the middle of the glass is installed at the middle position of the front end of the connecting frame (210). A suction cup (420) is installed on the inner side of the central positioning plate (400).
2. The transfer device for special glass processing according to claim 1, characterized in that, The connecting frame (210) is composed of two semi-circular ring-shaped plates connected in opposite directions. A rotating shaft connected to the mounting frame (100) is provided between the two plates. A lateral limiting rod for position restriction is also installed between the rotating shaft and the connecting frame (210).
3. A transfer device for special glass processing according to claim 2, characterized in that, The mounting bracket (100) has several side limiting structures (300) on its outer side. The side limiting structure (300) includes an arc plate (310) mounted on the mounting bracket (100). Several through holes are evenly opened on the arc plate (310). Insert rods (320) for cooperating with the lateral limiting rod to limit the position of the connecting bracket (210) are connected in the through holes.
4. A transfer device for special glass processing according to claim 1, characterized in that, A shaft is installed between the central positioning plate (400) and the connecting frame (210) to facilitate the independent rotation of the central positioning plate (400). The central positioning plate (400) consists of an L-shaped plate connected to the shaft and a side plate corresponding to and slidably connected to the L-shaped plate. A suction cup (420) for fixing glass is installed on the side of the side plate facing the L-shaped plate. The side plate and the L-shaped plate have corresponding threaded holes and screws (410) for adjusting the position of the side plate are connected in the holes.
5. A transfer device for special glass processing according to claim 1, characterized in that, The tensioning cloth (232) is in a non-tensioned state when connected to the guide post (231) and without pressure. The guide post (231) is fixed to the crossbar (230). The crossbar (230) is rotatably connected to the connecting frame (210). The guide post (231) is a double-layer sleeve structure with a solid inner core and a hollow outer core. The tensioning cloth (232) is fixed based on the outer hollow sleeve structure.
6. A transfer device for special glass processing according to claim 3, characterized in that, The connecting frame (210) is tilted to one side when the glass is not being transferred. The contact point between the connecting frame (210) and the insert rod (320) on the side limiting structure (300) is provided with a rubber pad. The insert rod (320) is a horizontal rod with a sponge tube on the outside.