A positioning structure for processing and transferring insulating glass.
By setting up fixed supports and fixed protection mechanisms on the insulating glass transfer vehicle, and using U-shaped positioning grooves and L-shaped corner guards to protect the edges and corners of the insulating glass, the problems of stability and protection during the transfer process are solved, and the glass is accurately positioned and protected.
Patent Information
- Authority / Receiving Office
- CN · China
- Patent Type
- Utility models(China)
- Current Assignee / Owner
- SHENYANG HUAYE CONSTR ENG CO LTD
- Filing Date
- 2025-08-27
- Publication Date
- 2026-06-30
AI Technical Summary
The existing methods for transporting insulated glass suffer from insufficient stability, particularly the issue of easily damaged glass edges and corners.
The system employs a fixed support mechanism and a fixed protection mechanism. The bottom edge of the insulating glass is precisely positioned and supported by a U-shaped positioning groove and a convex strip. L-shaped corner protectors and L-shaped rubber pads protect the glass corners, and an adjustable U-shaped pull plate provides protection.
It achieves precise positioning and rigid protection of insulated glass, avoiding collision damage during transportation and improving transportation stability and safety.
Smart Images

Figure CN224427466U_ABST
Abstract
Description
Technical Field
[0001] This utility model relates to the field of insulating glass transfer technology, and in particular to a positioning structure for insulating glass processing and transfer. Background Technology
[0002] Insulating glass is a type of glass product with good heat insulation and sound insulation properties. It is usually made of two or more panes of glass bonded to an aluminum alloy frame containing a desiccant using a high-strength, high-airtightness composite adhesive. The glass is transferred from the glass sheet storage area to the cutting machine, cut to the required size, and then transferred to the temporary storage area for the next process or directly to the aluminum frame assembly area. During these transfer processes, care must be taken to avoid scratching or breaking the glass surface.
[0003] Currently, when insulated glass needs to be transferred during processing, a transfer trolley is usually used to place the glass for transfer. This simple transfer trolley uses a slanted frame to support the insulated glass for transfer. This simple transfer structure has limited stability when transferring insulated glass, and this type of transfer trolley lacks protection for the bottom corners of the glass, making the corners of the glass easy to be damaged during transfer. Therefore, we propose a positioning structure for the transfer of insulated glass during processing. Utility Model Content
[0004] The main objective of this invention is to provide a positioning structure for the processing and transfer of insulating glass. This structure comprises a fixed support mechanism and a fixed protection mechanism on the main body of the transfer vehicle. The fixed support mechanism's rubber support block uses a U-shaped positioning groove and a convex strip to precisely position and support the bottom edge of the insulating glass through flexible contact, allowing the insulating glass to rest against the support frame for support. This effectively ensures precise positioning and placement of the insulating glass on the main body of the transfer vehicle for transfer. Furthermore, the fixed protection mechanism's L-shaped corner guard plate has L-shaped rubber pads to protect the corners of the insulating glass. Combined with an adjustable U-shaped drawer plate on the side box, adjustable protection is provided, achieving both rigid positioning and flexible protection of the sides and corners of the insulating glass. This effectively prevents collision damage during the transfer of the insulating glass and solves the problems in the prior art.
[0005] To achieve the above objectives, the technical solution adopted by this utility model is as follows:
[0006] A positioning structure for transferring insulating glass during processing includes a transfer vehicle body. A support frame is centrally welded to the frame of the transfer vehicle body. The structure also includes a fixed support mechanism and a fixed guard mechanism. The fixed support mechanism includes a U-shaped side plate, a support plate, adhesive blocks, and anti-convex strips. Support plates are symmetrically placed on the two side plates of the transfer vehicle body away from the support frame, and a U-shaped side plate is welded to one side of each support plate. The U-shaped side plate is bolted to the wide side frame of the transfer vehicle body. Adhesive blocks are adhered to the surface of the support plates. The body has a U-shaped positioning groove, and there are symmetrical protruding strips in the U-shaped positioning groove. The positioning and protection mechanism includes a side box, a U-shaped drawer plate, a central connecting plate, an L-shaped corner guard plate and an L-shaped rubber pad. The long side frame of the transfer vehicle body is symmetrically welded with a side box, and a U-shaped drawer plate symmetrically welded to the surface of the central connecting plate is inserted into the side box. Pin holes for inserting pins are arranged between the U-shaped drawer plate and the side box. An L-shaped corner guard plate is symmetrically welded above the central connecting plate, and an L-shaped rubber pad is glued to the inner surface of the L-shaped corner guard plate.
[0007] Furthermore, the frame of the transfer vehicle body near the U-shaped side panel is provided with a tongue-fixing groove for mounting the tongue, and the tongue is welded to the center plate surface of the U-shaped side panel.
[0008] By adopting the above-mentioned preferred technical solution, the U-shaped side mounting plate is inserted into the transfer vehicle body by means of the tongue and the tongue groove, which facilitates the positioning and installation of the U-shaped side mounting plate.
[0009] Furthermore, the surface of the tray is welded with columns arranged in a row, and the columns are inserted upward into the rubber support blocks between the U-shaped positioning grooves;
[0010] By adopting the above-mentioned preferred technical solution, the support plate is supported by a pillar inserted into the rubber support block, thereby improving the support stability of the rubber support block.
[0011] Furthermore, the U-shaped positioning groove has symmetrically protruding semi-circular strips with convex bulges at the arc surface cavity, and the length of the convex bulges is the same as the length of the cavity wall of the U-shaped positioning groove.
[0012] By adopting the above-mentioned preferred technical solution, the convex strips of the symmetrically raised semi-circular strips in the U-shaped positioning groove can symmetrically compress the insulating glass to provide support.
[0013] Furthermore, the transfer vehicle body has guide holes for inserting guide posts at the wide side frame near the middle connecting plate, and the guide posts are welded to the surface of the middle connecting plate in the center.
[0014] By adopting the above-mentioned preferred technical solution, when the middle connecting plate is guided and pulled out in the side box by means of the U-shaped pull plate, the middle connecting plate obtains guiding support at the frame of the transfer vehicle body by means of the guide column.
[0015] Furthermore, the number of pin holes on the surface of the side box is greater than the number of pin holes on the surface of the U-shaped drawer, and the depth of the side box cavity is the same as the length of the U-shaped drawer.
[0016] By adopting the above-mentioned preferred technical solution, the side box surface has a number of pin holes for inserting pins at multiple positions, and the U-shaped drawer plate also has a number of pin holes to facilitate positioning by inserting pins at multiple positions on the side box.
[0017] Compared with the prior art, the present invention has the following beneficial effects:
[0018] This utility model sets up a positioning structure consisting of a fixed support mechanism and a fixed protection mechanism on the main body of the transfer vehicle. The rubber support block of the fixed support mechanism uses a U-shaped positioning groove and a convex strip to precisely position and support the bottom edge of the insulating glass through flexible contact, so that the insulating glass can lean against the support frame to obtain support, effectively ensuring that the insulating glass is accurately positioned and placed on the main body of the transfer vehicle for transfer.
[0019] Furthermore, the L-shaped corner guards of the fixed protection mechanism have L-shaped rubber pads to protect the edges and corners of the insulated glass. Combined with the adjustable U-shaped pull plate at the side box, it provides adjustable protection, achieving rigid positioning and flexible protection of the sides and corners of the insulated glass, effectively avoiding collision damage during the transportation of the insulated glass. Attached Figure Description
[0020] Figure 1 This is a schematic diagram of the overall structure of a positioning structure for processing and transferring insulating glass according to this utility model.
[0021] Figure 2 This is an exploded view of the positioning and protection mechanism of a positioning structure for processing and transferring insulating glass according to this utility model.
[0022] Figure 3 This is an exploded view of the fixed support mechanism of the positioning structure for processing and transferring insulating glass according to this utility model.
[0023] In the diagram: 1. Transfer vehicle body; 2. Backrest; 3. Fixed support mechanism; 4. Fixed protection mechanism; 5. U-shaped side mounting plate; 6. Insert tongue; 7. Tongue positioning groove; 8. Support plate; 9. Rubber support block; 10. U-shaped positioning groove; 11. Convex strip; 12. Support column; 13. Side box; 14. U-shaped drawer plate; 15. Central connecting plate; 16. Pin hole; 17. Insert pin; 18. L-shaped corner guard plate; 19. L-shaped rubber pad; 20. Guide post; 21. Guide hole. Detailed Implementation
[0024] To make the technical means, creative features, objectives and effects of this utility model easier to understand, the present utility model will be further described below in conjunction with specific embodiments.
[0025] like Figure 1-3As shown, a positioning structure for transferring insulating glass includes a transfer vehicle body 1. A support frame 2 is welded centrally to the frame of the transfer vehicle body 1. It also includes a fixed support mechanism 3 and a fixed protection mechanism 4. The fixed support mechanism 3 includes a U-shaped side plate 5, a support plate 8, a rubber support block 9, and a counter-convex strip 11. Support plates 8 are symmetrically placed on the two side plates of the transfer vehicle body 1 away from the support frame 2, and a U-shaped side plate 5 is welded to one side of each support plate 8. The U-shaped side plate 5 is bolted to the wide side frame of the transfer vehicle body 1. A rubber support block 9 is adhered to the surface of the support plate 8, and a U-shaped positioning feature is provided on the block of the rubber support block 9. The U-shaped positioning groove 10 has symmetrically protruding anti-protrusion strips 11. The positioning and protection mechanism 4 includes a side box 13, a U-shaped drawer plate 14, a central connecting plate 15, an L-shaped corner guard plate 18, and an L-shaped rubber pad 19. The long side frame of the transfer vehicle body 1 is symmetrically welded with a side box 13, and a U-shaped drawer plate 14 symmetrically welded to the surface of the central connecting plate 15 is inserted into the side box 13. A pin hole 16 for inserting a pin 17 is arranged between the U-shaped drawer plate 14 and the side box 13. An L-shaped corner guard plate 18 is symmetrically welded above the central connecting plate 15, and an L-shaped rubber pad 19 is glued to the inner surface of the L-shaped corner guard plate 18.
[0026] The transfer vehicle body 1 has a tongue-fixing groove 7 for mounting the tongue 6 at the frame near the U-shaped side plate 5, and the tongue 6 is welded to the center plate surface of the U-shaped side plate 5.
[0027] By adopting the above-mentioned preferred technical solution, the U-shaped side mounting plate 5 is inserted into the tongue slot 7 of the transfer vehicle body 1 with the help of the tongue 6, which facilitates the positioning and installation of the U-shaped side mounting plate 5.
[0028] The support plate 8 has support columns 12 welded to its surface, and the support columns 12 are inserted upward into the rubber support blocks 9 between the U-shaped positioning grooves 10.
[0029] By adopting the above-mentioned preferred technical solution, the support plate 8 is supported by the pillar 12 inserted into the rubber support block 9, thereby improving the support stability of the rubber support block 9.
[0030] The U-shaped positioning groove 10 has symmetrically protruding semi-circular strips of a pair of convex strips 11 at the arc surface cavity, and the length of the pair of convex strips 11 is the same as the length of the cavity wall of the U-shaped positioning groove 10.
[0031] By adopting the above-mentioned preferred technical solution, the convex strips 11 of the symmetrically raised semi-circular strips in the U-shaped positioning groove 10 can symmetrically compress the insulating glass to provide support.
[0032] The transfer vehicle body 1 has a guide hole 21 for inserting the guide post 20 at the wide side frame near the middle connecting plate 15, and the guide post 20 is welded to the surface of the middle connecting plate 15 in the center.
[0033] By adopting the above-mentioned preferred technical solution, when the central connecting plate 15 is guided and pulled out in the side box 13 by means of the U-shaped pull plate 14, the central connecting plate 15 obtains guiding support at the frame of the transfer vehicle body 1 by means of the guide post 20.
[0034] The number of pin holes 16 on the surface of the side box 13 is greater than the number of pin holes 16 on the surface of the U-shaped drawer 14, and the depth of the box cavity of the side box 13 is the same as the length of the plate of the U-shaped drawer 14.
[0035] By adopting the above-mentioned preferred technical solution, the side box 13 has a number of pin holes 16 on its surface, allowing for the insertion of pins 17 at multiple positions. The U-shaped drawer 14 also has a number of pin holes 16, which facilitates the positioning of the side box 13 by inserting pins 17 at multiple positions.
[0036] It should be noted that this utility model is a positioning structure for processing and transferring hollow glass. A positioning structure is formed by a fixed support mechanism 3 and a fixed protection mechanism 4 at the transfer vehicle body 1. After the U-shaped side plate 5 of the fixed support mechanism 3 is inserted into the tongue groove 7 of the transfer vehicle body 1 with the tongue 6, the U-shaped side plate 5 and the transfer vehicle body 1 can be locked with bolts so that the support plate 8 of the U-shaped side plate 5 presses on the surface of the transfer vehicle body 1. Four sets of U-shaped side plates 5 with support plates 8 can be installed at the transfer vehicle body 1.
[0037] Furthermore, the connecting plate 15 of the fixed protection mechanism 4 is inserted into the side box 13 welded to the outside of the transfer vehicle body 1 using a U-shaped pull plate 14. At the same time, the connecting plate 15 is guided and inserted into the guide hole 21 of the transfer vehicle body 1 using a guide post 20. When the insulating glass needs to be transferred, the insulating glass can be pressed against the U-shaped positioning groove 10 of the two sets of adhesive support blocks 9 and positioned by the opposing convex strips 11. The adhesive support blocks 9 can provide cushioning and stable support for the insulating glass, positioning it and allowing the insulating glass to rest against the surface of the support frame 2. Subsequent insulating glass can also be placed at the adhesive support blocks 9, allowing the insulating glass to press against each other. This prevents cardboard or other cushioning materials from contacting each other. Then, the U-shaped pull plate 14 of the connecting plate 15 is continuously inserted into the side box 13. As the L-shaped adhesive at the L-shaped corner guard plate 18 above the connecting plate 15... After pad 19 contacts the corner of the insulating glass, pull the U-shaped pull plate 14 appropriately so that the U-shaped pull plate 14 is perpendicularly connected to the pin hole 16 of the side box 13. At this time, insert the pin 17 at the vertical connection position of the pin hole 16 for pin connection. The insulating glass can be simply fixed by strapping it between the frame of the transfer cart body 1 and the support frame 2. At this time, the transfer cart body 1 with rollers installed at the bottom can be pushed to transfer the insulating glass. During the transfer of the insulating glass, the L-shaped corner guard plate 18 and the L-shaped rubber pad 19 are used for positioning protection to prevent the corner of the insulating glass from being damaged during the transfer. After the transfer is to the processing position, the pin 17 can be pulled out so that the U-shaped pull plate 14 is pulled out from the side box 13 and the L-shaped corner guard plate 18 is removed from the insulating glass. At this time, the insulating glass can be moved away by handling equipment for processing.
[0038] It should be noted that this utility model is a positioning structure for the processing and transfer of insulating glass. All components in this utility model are known to those skilled in the art, and their structure and principle can be learned by those skilled in the art through technical manuals or conventional experimental methods.
[0039] The foregoing has shown and described the basic principles, main features, and advantages of this utility model. Those skilled in the art should understand that this utility model is not limited to the above embodiments. The embodiments and descriptions in the specification are merely illustrative of the principles of this utility model. Various changes and modifications can be made to this utility model without departing from its spirit and scope, and all such changes and modifications fall within the scope of the claims. The scope of protection of this utility model is defined by the appended claims and their equivalents.
Claims
1. A positioning structure for transferring insulating glass during processing, comprising a transfer vehicle body (1), wherein a support frame (2) is centrally welded to the frame of the transfer vehicle body (1), characterized in that: It also includes a fixed support mechanism (3) and a fixed protection mechanism (4). The fixed support mechanism (3) includes a U-shaped side plate (5), a support plate (8), a rubber support block (9), and a convex strip (11). The support plate (8) is symmetrically placed on the two side plates of the transfer vehicle body (1) away from the backrest (2), and a U-shaped side plate (5) is welded to one side of the support plate (8). The U-shaped side plate (5) is bolted to the wide side frame of the transfer vehicle body (1). A rubber support block (9) is adhered to the surface of the support plate (8), and a U-shaped positioning groove (10) is provided in the block of the rubber support block (9). A symmetrical convex strip (11) is raised in the U-shaped positioning groove (10). The fixed protection mechanism (4) includes a side box (13), a U-shaped drawer (14), a central connecting plate (15), an L-shaped corner guard (18), and an L-shaped rubber pad (19). The long side frame of the transfer vehicle body (1) is symmetrically welded with a side box (13), and a U-shaped drawer (14) symmetrically welded to the surface of the central connecting plate (15) is inserted into the side box (13). A pin hole (16) for inserting a pin (17) is arranged between the U-shaped drawer (14) and the side box (13). An L-shaped corner guard (18) is symmetrically welded above the central connecting plate (15), and an L-shaped rubber pad (19) is glued to the inner surface of the L-shaped corner guard (18).
2. The positioning structure for processing and transferring insulating glass according to claim 1, characterized in that: The main body (1) of the transfer vehicle has a tongue-fixing groove (7) for mounting the tongue (6) at the frame near the U-shaped side plate (5), and the tongue (6) is welded to the center plate surface of the U-shaped side plate (5).
3. The positioning structure for processing and transferring insulating glass according to claim 1, characterized in that: The tray (8) has support columns (12) welded to its surface, and the support columns (12) are inserted upward into the rubber support block (9) between the U-shaped positioning grooves (10).
4. The positioning structure for processing and transferring insulating glass according to claim 1, characterized in that: The U-shaped positioning groove (10) has symmetrically raised semi-circular strips of convex strips (11) at the arc surface cavity, and the length of the convex strips (11) is the same as the length of the cavity wall of the U-shaped positioning groove (10).
5. The positioning structure for processing and transferring insulating glass according to claim 1, characterized in that: The transfer vehicle body (1) has a guide hole (21) for inserting a guide post (20) at the wide side frame near the middle connecting plate (15), and the guide post (20) is welded to the surface of the middle connecting plate (15) in the center.
6. The positioning structure for processing and transferring insulating glass according to claim 1, characterized in that: The number of pin holes (16) on the surface of the side box (13) is greater than the number of pin holes (16) on the surface of the U-shaped drawer (14), and the depth of the box cavity of the side box (13) is the same as the length of the plate of the U-shaped drawer (14).