A double-layer partition type laminated glass
Patent Information
- Authority / Receiving Office
- CN · China
- Patent Type
- Utility models(China)
- Current Assignee / Owner
- ZHEJIANG ZHENXIN GLASS TECH CO LTD
- Filing Date
- 2025-06-10
- Publication Date
- 2026-07-07
Smart Images

Figure CN224465414U_ABST
Abstract
Description
Technical Field
[0001] This utility model relates to the field of laminated glass, specifically a double-layered, partitioned laminated glass. Background Technology
[0002] Laminated glass is a composite glass product consisting of two or more pieces of glass with one or more layers of organic polymer interlayer sandwiched between them. After special high-temperature pre-pressing (or vacuuming) and high-temperature and high-pressure processes, the glass and interlayer are permanently bonded together.
[0003] According to Chinese Patent No. CN219281566U, an infrared heat-reflective coated laminated glass is disclosed. This utility model achieves rapid assembly of the infrared heat-reflective laminated glass body by clamping the laminated glass body between a front fixed frame and a rear fixed frame, connecting one side of the front fixed frame and the rear fixed frame through a left connecting frame, and connecting the other side of the front fixed frame and the rear fixed frame through a right connecting frame. By opening a connecting groove on the left connecting frame and setting a connecting protrusion on the right connecting frame, it is also convenient for personnel to quickly splice adjacent infrared heat-reflective coated laminated glass.
[0004] Regarding the aforementioned patent content, protrusions and grooves are provided to splice the glass. However, when splicing the last piece of glass or when it is not necessary to use protrusions to splice the glass, the protrusions on the connecting frame are difficult to move into the interior of the connecting frame. As a result, the edge of the connecting frame remains protruding, affecting the edge flatness. Consequently, after the glass is installed on the frame, there will be a large gap between the glass and the frame, which in turn affects the installation effect of the glass. Utility Model Content
[0005] Based on this, the purpose of this utility model is to provide a double-layer partitioned laminated glass to solve the technical problem that when splicing to the last glass or when splicing glass without using protrusions, the side of the connecting frame will always remain convex, thus affecting the installation effect.
[0006] To achieve the above objectives, this utility model provides the following technical solution: a double-layered laminated glass, comprising a glass frame, a groove on one side of the glass frame, and a threaded cylinder connected to the inside of the groove via a bearing, a threaded post connected to the inside of the threaded cylinder, and an insert plate installed at one end of the threaded post, a worm gear installed on the outer wall of the threaded cylinder, and a worm connected to the inside of the groove via a bearing, wherein a first tempered glass and a second tempered glass are respectively installed inside the glass frame.
[0007] By adopting the above technical solution, the groove is designed to facilitate the storage of the insert plate, while the threaded cylinder is designed to allow the threaded column to move inside it.
[0008] Furthermore, multiple telescopic rods are installed on one side of the inside of the groove, and one end of each telescopic rod is fixedly connected to one side of the insert plate.
[0009] By adopting the above technical solution, the telescopic rod can guide the insert plate, thereby improving the stability of the insert plate during movement.
[0010] Furthermore, a slot is provided on the other side of the glass frame, and the slot is adapted to the insert plate.
[0011] By adopting the above technical solution, the two glass frames can be positioned after the insert plate is inserted into the slot.
[0012] Furthermore, a PVB film layer is provided between the first tempered glass and the second tempered glass, and an explosion-proof film is provided on the side of the first tempered glass and the second tempered glass away from the PVB film layer.
[0013] By adopting the above technical solutions, the installation of explosion-proof film can improve the performance of glass.
[0014] Furthermore, one end of the worm gear extends to the outside of the glass frame and is connected to a knob.
[0015] By adopting the above technical solution, it is convenient for staff to rotate the worm gear by turning the knob.
[0016] Furthermore, the worm gear meshes with the worm.
[0017] By adopting the above technical solution, when the worm rotates, it will drive the worm wheel to rotate, and the worm wheel will drive the threaded cylinder to rotate.
[0018] Furthermore, the length of the threaded column is greater than the depth of the threaded cylinder.
[0019] By adopting the above technical solution, the threaded column can be moved inside the threaded cylinder.
[0020] Furthermore, the length and height of the insert plate are the same as the length and height of the groove.
[0021] By adopting the above technical solution, the insert plate can be moved into the groove.
[0022] Furthermore, the insert plate has two bolt holes inside, and two bolts extending into the slot are installed on one side of the outer surface of the glass frame.
[0023] By adopting the above technical solution, after the insert plate is inserted into the slot, the operator can screw the bolt into the bolt hole to lock and limit the insert plate, thus completing the splicing between the glass frames.
[0024] In summary, the present invention has the following main advantages:
[0025] 1. This utility model, by setting up a threaded cylinder, a threaded column, a worm, a worm wheel, a groove, and a knob, allows for the installation of glass frames when insert plates are not needed for splicing. To ensure the flatness of the glass frame sides, the operator rotates the worm by turning the knob. The rotation of the worm drives the worm wheel to rotate, which in turn drives the threaded cylinder to rotate and moves the threaded column. The threaded column then moves the insert plate, allowing it to be inserted into the groove. This achieves the purpose of storing the insert plate and prevents the glass frame sides from bulging when the insert plate is not in use, thereby improving the flatness of the glass frame sides and facilitating the installation of the glass frame.
[0026] 2. This utility model is equipped with a telescopic rod, which can guide the insert plate to improve the stability of the insert plate during movement, so that the insert plate can be smoothly moved into or out of the groove. Attached Figure Description
[0027] Figure 1 This is a schematic diagram of the overall three-dimensional structure of this utility model;
[0028] Figure 2 This is a schematic diagram of the overall orthographic structure of this utility model;
[0029] Figure 3 This is a schematic diagram of the first tempered glass structure of this utility model;
[0030] Figure 4 This is a schematic diagram of the side structure of the glass frame of this utility model;
[0031] Figure 5 This is a schematic diagram of the insert plate structure of this utility model;
[0032] Figure 6 This is a schematic diagram of the worm gear structure of this utility model.
[0033] In the diagram: 1. Glass frame; 2. First tempered glass; 3. PVB film layer; 4. Second tempered glass; 5. Groove; 6. Insert plate; 7. Bolt hole; 8. Telescopic rod; 9. Bolt; 10. Threaded post; 11. Threaded cylinder; 12. Worm gear; 13. Worm wheel; 14. Knob; 15. Explosion-proof film; 16. Slot. Detailed Implementation
[0034] The technical solutions of the present invention will be clearly and completely described below with reference to the accompanying drawings. The embodiments described below with reference to the accompanying drawings are exemplary and are only used to explain the present invention, and should not be construed as limiting the present invention.
[0035] The embodiments of this utility model will be described below based on its overall structure.
[0036] Example 1:
[0037] A type of double-layered laminated glass, such as Figures 1-6 As shown, the glass frame 1 includes a groove 5 on one side, and a threaded cylinder 11 is connected to the inside of the groove 5 via a bearing. A threaded post 10 is threadedly connected to the inside of the threaded cylinder 11, and an insert plate 6 is installed at one end of the threaded post 10. The groove 5 is designed to facilitate the storage of the insert plate 6. A worm gear 13 is installed on the outer wall of the threaded cylinder 11, and a worm 12 is also connected to the inside of the groove 5 via a bearing. A first tempered glass 2 and a second tempered glass 4 are installed inside the glass frame 1. A PVB film layer 3 is provided between the first tempered glass 2 and the second tempered glass 4. An explosion-proof film 15 is provided on the side of the first tempered glass 2 and the second tempered glass 4 away from the PVB film layer 3. The explosion-proof film 15 can improve the performance of the glass. A slot 16 is provided on the other side of the glass frame 1. The slot 16 is adapted to the insert plate 6. When the insert plate 6 is inserted into the slot 16, the two glass frames 1 can be positioned.
[0038] See Figure 1 , Figure 2 , Figure 4 , Figure 5 and Figure 6 One end of the worm gear 12 extends to the outside of the glass frame 1 and is connected to a knob 14, which allows the operator to rotate the worm gear 12 by turning the knob 14. The worm wheel 13 meshes with the worm gear 12. When the worm gear 12 rotates, it will drive the worm wheel 13 to rotate, and the worm wheel 13 will drive the threaded cylinder 11 to rotate. The length of the threaded column 10 is greater than the depth of the threaded cylinder 11. The length and height of the insert plate 6 are the same as the length and height of the groove 5, so that the insert plate 6 can be moved into the groove 5. Two bolt holes 7 are opened inside the insert plate 6. Two bolts 9 extending into the slot 16 are installed on one side of the outer surface of the glass frame 1. After the insert plate 6 is inserted into the slot 16, the operator can screw the bolts 9 into the bolt holes 7, thereby locking and limiting the insert plate 6. In this way, the splicing between the glass frames 1 can be completed.
[0039] Example 2:
[0040] Based on the above embodiment 1, in order to improve the stability of the insert plate 6 when it moves, it is necessary to guide the insert plate 6, so the following structure will be set.
[0041] Specifically, multiple telescopic rods 8 are installed on one side of the inside of the groove 5. One end of the telescopic rod 8 is fixedly connected to one side of the insert plate 6. The telescopic rods 8 can guide the insert plate 6 to improve the stability of the insert plate 6 when it moves.
[0042] The working principle of this utility model is as follows: First, since the first tempered glass 2 and the second tempered glass 4 are provided with an explosion-proof film 15 on the side away from the PVB film layer 3, the setting of the explosion-proof film 15 can improve the performance of the glass. When it is necessary to splice the glass frame 1, the worker can insert the insert plate 6 on one side of the glass frame 1 into the slot 16 to position the glass frame 1. Then, the bolt 9 is screwed into the bolt hole 7 to lock and fix the insert plate 6. In this way, the splicing of the glass frame 1 can be completed.
[0043] When the insert plate 6 is not needed to splice the glass frame 1, it is necessary to ensure the flatness of the side of the glass frame 1. Therefore, the operator needs to rotate the worm gear 12 by turning the knob 14. The rotation of the worm gear 12 drives the worm wheel 13 to rotate, which in turn drives the threaded cylinder 11 to rotate and moves the threaded column 10. The threaded column 10 then moves the insert plate 6, so that the insert plate 6 moves into the groove 5, thereby achieving the purpose of storing the insert plate 6 and preventing the side of the glass frame 1 from bulging when the insert plate 6 is not in use, thereby improving the flatness of the side of the glass frame 1.
[0044] Although embodiments of the present invention have been shown and described, these specific embodiments are merely explanations of the present invention and are not intended to limit the invention. The specific features, structures, materials, or characteristics described may be combined in any suitable manner in one or more embodiments or examples. After reading this specification, those skilled in the art may make modifications, substitutions, and variations to the embodiments as needed without departing from the principles and spirit of the present invention, provided that such modifications, substitutions, and variations are within the scope of the claims of the present invention and are protected by patent law.
Claims
1. A double-layered laminated glass with partition, comprising a glass frame (1), characterized in that: A groove (5) is provided on one side of the glass frame (1), and a threaded cylinder (11) is connected to the inside of the groove (5) through a bearing. A threaded column (10) is threadedly connected to the inside of the threaded cylinder (11), and a plug plate (6) is installed at one end of the threaded column (10). A worm gear (13) is installed on the outer wall of the threaded cylinder (11). A worm (12) is also connected to the inside of the groove (5) through a bearing. A first tempered glass (2) and a second tempered glass (4) are respectively installed inside the glass frame (1).
2. The double-layered laminated glass with partition as described in claim 1, characterized in that: Multiple telescopic rods (8) are installed on one side of the inside of the groove (5), and one end of the telescopic rod (8) is fixedly connected to one side of the insert plate (6).
3. The double-layered laminated glass with partition as described in claim 1, characterized in that: A slot (16) is provided on the other side of the glass frame (1), and the slot (16) is adapted to the insert plate (6).
4. The double-layered laminated glass with partition as described in claim 1, characterized in that: A PVB film layer (3) is provided between the first tempered glass (2) and the second tempered glass (4), and an explosion-proof film (15) is provided on the side of the first tempered glass (2) and the second tempered glass (4) away from the PVB film layer (3).
5. A double-layered laminated glass with a partition structure according to claim 1, characterized in that: One end of the worm gear (12) extends to the outside of the glass frame (1) and is connected to a knob (14).
6. The double-layered laminated glass with partition as described in claim 1, characterized in that: The worm gear (13) meshes with the worm (12).
7. The double-layered laminated glass with partition as described in claim 1, characterized in that: The length of the threaded column (10) is greater than the depth of the threaded cylinder (11).
8. A double-layered laminated glass with a partition as described in claim 1, characterized in that: The length and height of the insert plate (6) are the same as the length and height of the groove (5).
9. A double-layered laminated glass with a partition structure according to claim 1, characterized in that: The insert plate (6) has two bolt holes (7) inside, and two bolts (9) extending into the slot (16) are installed on one side of the outer surface of the glass frame (1).