A mounting shoe assembly for super-thick large glass assemblies
By using a split mounting boot assembly and a scissor-type telescopic mechanism, the problem of insufficient support area and range at the bottom of ultra-thick and large glass panels is solved, achieving stable support and improved safety.
Patent Information
- Authority / Receiving Office
- CN · China
- Patent Type
- Patents(China)
- Current Assignee / Owner
- JIANGSU DONGGE STAINLESS STEEL WARE
- Filing Date
- 2023-12-15
- Publication Date
- 2026-07-14
Smart Images

Figure CN117697684B_ABST
Abstract
Description
Technical Field
[0001] This invention relates to the field of glass frame installation technology, and in particular to an installation boot assembly for assembling ultra-thick large glass. Background Technology
[0002] When installing extra-thick and extra-large glass, shims must be placed at the bottom and a stainless steel frame must be placed around the glass to ensure its safety and stability. This is because if the bottom of a large glass pane directly contacts a wall or ground, the pressure on its bottom will increase due to the glass's weight, potentially leading to damage or breakage. Therefore, placing shims underneath effectively distributes and alleviates this pressure, preventing glass damage.
[0003] In addition, appropriate shims can form a buffer layer between the large glass panes and the wall or floor, providing cushioning and support. During installation, the glass may be subjected to impacts and vibrations from different directions. Without proper shims, this can cause the glass to wobble and become unstable, accelerating its aging and damage.
[0004] However, the current bottom pads are simply installed at the lower middle of the glass frame, with limited support area. Moreover, because of their fixed structure, they cannot automatically adjust the bottom support range according to different weights, resulting in an unadjustable support range and very limited lateral support force. Summary of the Invention
[0005] The technical problem that this invention aims to solve is that the current bottom pad is simply installed at the lower middle position of the glass frame, with a limited support area. Moreover, because its structure is fixed, it cannot automatically adjust the bottom support range according to different weights, resulting in an unadjustable support range. At the same time, its lateral support force is also very limited.
[0006] The technical solution adopted by the present invention to solve its technical problem is: an installation boot assembly for assembling ultra-thick large glass, including an upper positioning block installed on the upper part of the ultra-thick large glass outer frame and a bottom positioning block installed on the bottom part of the ultra-thick large glass outer frame. The lower end of the bottom positioning block is provided with a lower boot ball joint pad assembly. The lower boot ball joint pad assembly includes a bottom pad with an arc-shaped positioning groove at the upper end and side support frame assemblies installed on both sides of the bottom pad. The outer arms on both sides of the bottom pad are symmetrically provided with lateral telescopic storage slots for storing the side support frame assemblies. The bottom pad is elastically fitted with a scissor-type telescopic mechanism for controlling the side support frame assemblies.
[0007] The bottom pad has a bottom control chamber located diagonally below the arc-shaped positioning groove, which is connected to the lateral telescopic storage slot.
[0008] The side support frame assembly consists of a plurality of horizontally arranged built-in auxiliary support frames and an outermost telescopic support frame.
[0009] The inner side of the built-in auxiliary support frame is provided with a vertical upper adjustment groove and a vertical lower adjustment groove.
[0010] The bottom control chamber has symmetrically opened lateral assembly blind holes on both sides of its inner wall. The scissor telescopic mechanism includes a central scissor-type lateral extension bracket that is movably installed inside the bottom control chamber, a side scissor-type lateral extension bracket located inside the lateral telescopic storage slot, a top extrusion plate installed inside the bottom control chamber, and a lateral assembly shaft.
[0011] The inner side of the lateral telescopic storage slot has an inwardly protruding horizontal guide strip, and the two side walls of the built-in auxiliary support frame are provided with side guide grooves that cooperate with the horizontal guide strip.
[0012] The built-in auxiliary support frame has symmetrically arranged vertical upper limit grooves and vertical lower limit grooves on both sides of its inner wall.
[0013] Both the centrally located scissor-type lateral extension support and the side-mounted scissor-type lateral extension support are composed of a plurality of cross-connected links that are movably connected.
[0014] The transverse assembly shaft extends transversely through the interior of the central scissor-type transverse extension bracket and the side-mounted scissor-type transverse extension bracket, as well as the movable connecting ends on both sides.
[0015] Both ends of the transverse assembly shaft are axially fitted with side sliders.
[0016] The beneficial effects of this invention are:
[0017] (1) The mounting boot assembly for assembling ultra-thick large glass of the present invention adopts a split structure design, which is installed at the bottom, top and bottom of the glass frame respectively, making it convenient for assembly, storage and transportation.
[0018] (2) By elastically assembling a scissor telescopic mechanism for controlling the side support frame assembly inside the bottom pad, the bottom pad is squeezed by the bottom positioning block, thereby controlling the side support frame assembly to be squeezed outward and translated, increasing the bottom support area, and improving the bottom effect and stability.
[0019] (3) The side scissor-type horizontal extension bracket is automatically controlled to squeeze outward by the central scissor-type horizontal extension bracket inside the bottom control chamber, thereby controlling the internal auxiliary support frame and the external telescopic support frame to squeeze outward, thereby improving the support surface at the bottom of the ultra-thick glass and improving the support stability.
[0020] (4) The top extrusion plate and the transverse assembly shaft work together to improve control stability;
[0021] (5) The structure of the entire equipment can be automatically adjusted as needed, making it convenient to use, store and transport;
[0022] (6) The entire equipment is automatically controlled by gravity and has a compact structure. Attached Figure Description
[0023] The present invention will be further described below with reference to the accompanying drawings and embodiments.
[0024] Figure 1 This is a schematic diagram of the structure of the present invention.
[0025] Figure 2 This is a partial internal schematic diagram of the present invention.
[0026] Figure 3 This is a side view of the lower boot ball joint gasket assembly in this invention.
[0027] Figure 4 This is a partial internal schematic diagram of the lower boot ball joint washer assembly in this invention. Detailed Implementation
[0028] The present invention will now be described in further detail with reference to the accompanying drawings. These drawings are simplified schematic diagrams, illustrating only the basic structure of the invention, and therefore only show the components relevant to the invention.
[0029] In the description of this invention, it should be noted that, unless otherwise explicitly specified and limited, the terms "connected" and "linked" should be interpreted broadly. For example, they can refer to a fixed connection, a detachable connection, or an integral connection; they can refer to a mechanical connection or an electrical connection; they can refer to a direct connection or an indirect connection through an intermediate medium. Those skilled in the art can understand the specific meaning of the above terms in this invention based on the specific circumstances.
[0030] Figure 1 , Figure 2 , Figure 3 and Figure 4 The mounting boot assembly shown includes an upper positioning block 1 installed on the upper part of the outer frame of the ultra-thick glass and a bottom positioning block 2 installed on the bottom part of the outer frame of the ultra-thick glass. The lower end of the bottom positioning block 2 is provided with a lower boot ball joint pad assembly 3. The lower boot ball joint pad assembly 3 includes a bottom pad 4 with an arc-shaped positioning groove at the upper end and side support frame assemblies 5 installed on both sides of the bottom pad 4. The outer arms on both sides of the bottom pad 4 are symmetrically provided with lateral telescopic storage slots 6 for storing the side support frame assemblies 5. The bottom pad 4 is elastically fitted with a scissor-type telescopic mechanism 7 for controlling the side support frame assemblies 5.
[0031] The bottom gasket 4 has a bottom control chamber 8 located diagonally below the arc-shaped positioning groove, which is connected to the lateral telescopic storage slot 6.
[0032] The side support frame assembly 5 consists of four horizontally arranged built-in auxiliary support frames 51 and an outermost telescopic support frame 52.
[0033] To facilitate the movable assembly with the built-in auxiliary support frame 51, the inner side of the built-in auxiliary support frame 51 is provided with a vertically positioned upper adjustment groove 53 and a vertically positioned lower adjustment groove 54.
[0034] When the scissor telescopic mechanism 7 is compressed, the built-in auxiliary support frame 51 is compressed outward, and then the built-in auxiliary support frame 51 drives the outermost external telescopic support frame 52.
[0035] To facilitate lateral movement adjustment, lateral assembly blind holes are symmetrically opened on both sides of the inner wall of the bottom control chamber 8. The scissor telescopic mechanism 7 includes a central scissor-type lateral extension bracket 71 that is movably installed inside the bottom control chamber 8, a side scissor-type lateral extension bracket 72 located inside the lateral telescopic storage slot 6, a top extrusion plate 73 installed inside the bottom control chamber 8, and a lateral assembly shaft 74.
[0036] To improve the stability of internal translation, the inner side of the lateral telescopic storage slot 6 has an inwardly protruding horizontal guide bar 9, and the two side walls of the built-in auxiliary support frame 51 are provided with side guide grooves 10 that cooperate with the horizontal guide bar 9.
[0037] An arc-shaped guide surface is provided on the outer section of the horizontal guide bar 9 to facilitate the sliding connection of the side guide groove 10 to the outer side of the horizontal guide bar 9.
[0038] To facilitate connection, assembly, and adjustment, both the centrally mounted scissor-type lateral extension bracket 71 and the side-mounted scissor-type lateral extension bracket 72 are constructed by a plurality of cross-connected links that are movably connected.
[0039] The centrally mounted scissor-type lateral extension bracket 71 is composed of two centrally mounted compression links that are movably connected in a cross manner, while the side-mounted scissor-type lateral extension bracket 72 is a standard scissor linkage mechanism. The lateral assembly shafts 74 at the movable connection ends of the upper and lower ends of the scissor linkage are movably assembled with the longitudinally positioned upper adjustment groove 53 and the longitudinally positioned lower adjustment groove 54 on the inner side of the built-in auxiliary support frame 51.
[0040] The centrally located scissor-type lateral extension bracket 71 has an internal reset spring for controlling elastic reset.
[0041] To facilitate the assembly, the transverse assembly shaft 74 extends transversely through the interior of the central scissor-type transverse extension bracket 71 and the side-mounted scissor-type transverse extension bracket 72, as well as the movable connection ends on both sides.
[0042] The central scissor-type lateral extension bracket 71 is located at the movable connection end of the bottom control chamber 8. The two ends of the lateral assembly shaft 74 are inserted into the lateral assembly blind hole and are movably assembled with the bottom control chamber 8. When the ultra-thick glass outer frame is pressed downward, the bottom pad is deformed downward. At this time, the central scissor-type lateral extension bracket 71 is compressed. Then, the central scissor-type lateral extension bracket 71 controls the side scissor-type lateral extension bracket 72 to deform synchronously and extend outward. This controls the horizontal adjustment of the built-in auxiliary support frame 51 and the external telescopic support frame 52, thereby increasing the support range on both sides.
[0043] To improve the stability of the sliding adjustment, lateral sliders 75 are axially mounted at both ends of the transverse assembly shaft 74.
[0044] The lateral sliders 75 on both sides of the lateral assembly shaft 74 at the movable connection end in the middle of the side-mounted scissor-type lateral extension bracket 72 are inserted between the upper and lower horizontal guide bars to ensure the stability of the side-mounted scissor-type lateral extension bracket 72.
[0045] Based on the above-described preferred embodiments of the present invention, and through the foregoing description, those skilled in the art can make various changes and modifications without departing from the inventive concept. The technical scope of this invention is not limited to the contents of the specification, but must be determined according to the scope of the claims.
Claims
1. A mounting boot assembly for assembling ultra-thick large glass, comprising an upper positioning block (1) mounted on the upper part of the ultra-thick large glass outer frame and a lower positioning block (2) mounted on the bottom part of the ultra-thick large glass outer frame, characterized in that: The bottom positioning block (2) is provided with a lower boot ball joint pad assembly (3) at its lower end. The lower boot ball joint pad assembly (3) includes a bottom pad (4) with an arc-shaped positioning groove at its upper end and a side support frame assembly (5) installed on both sides of the bottom pad (4). The outer arms on both sides of the bottom pad (4) are symmetrically provided with lateral telescopic storage slots (6) for storing the side support frame assembly (5). The bottom pad (4) is elastically fitted with a scissor telescopic mechanism (7) for controlling the side support frame assembly (5).
2. The mounting boot assembly for assembling ultra-thick large glass as described in claim 1, characterized in that: The bottom pad (4) has a bottom control chamber (8) located below the arc-shaped positioning groove and connected to the lateral telescopic storage slot (6).
3. The mounting boot assembly for assembling ultra-thick large glass as described in claim 1, characterized in that: The side support frame assembly (5) consists of a plurality of horizontally arranged built-in auxiliary support frames (51) and an outermost telescopic support frame (52).
4. The mounting boot assembly for assembling ultra-thick large glass as described in claim 3, characterized in that: The inner side of the built-in auxiliary support frame (51) is provided with a vertical upper adjustment groove (53) and a vertical lower adjustment groove (54).
5. The mounting boot assembly for assembling ultra-thick large glass as described in claim 2, characterized in that: The bottom control chamber (8) has symmetrically opened lateral assembly blind holes on both sides of its inner wall. The scissor telescopic mechanism (7) includes a central scissor-type lateral extension bracket (71) that is movably installed inside the bottom control chamber (8), a side scissor-type lateral extension bracket (72) located inside the lateral telescopic storage slot (6), a top extrusion plate (73) installed inside the bottom control chamber (8), and a lateral assembly shaft (74).
6. A mounting boot assembly for assembling ultra-thick large glass as described in claim 3, characterized in that: The inner side of the lateral telescopic storage slot (6) has an inwardly protruding horizontal guide strip (9), and the two side walls of the built-in auxiliary support frame (51) are provided with side guide grooves (10) that cooperate with the horizontal guide strip (9).
7. A mounting boot assembly for assembling ultra-thick large glass as described in claim 5, characterized in that: Both the central scissor-type lateral extension support (71) and the side-mounted scissor-type lateral extension support (72) are composed of a plurality of cross-connected links that are movably connected.
8. A mounting boot assembly for assembling ultra-thick large glass as described in claim 5, characterized in that: The transverse assembly shaft (74) extends transversely through the interior of the central scissor-type transverse extension bracket (71) and the side scissor-type transverse extension bracket (72) and the movable connection ends on both sides.
9. A mounting boot assembly for assembling ultra-thick large glass as described in claim 5, characterized in that: Both ends of the transverse assembly shaft (74) are axially fitted with side sliders (75).