Glass roof lining type concave-convex molding adjusting structure

Abstract

The application discloses a glass top lining type concave-convex molding adjusting structure, wherein the glass decoration layer is a curved surface structure, vertical parts are arranged at two ends of the glass decoration layer respectively, an installation frame is provided with a plug-in slot for installing the vertical parts, a supporting square tube is fixed with the installation frame through a connecting assembly and is arranged along a horizontal direction, an upper end of a hoisting assembly is installed on the supporting square tube, a lower end of the hoisting assembly is fixed with a decoration assembly, and the hoisting assembly is provided with an adjusting assembly for adjusting the height of the decoration assembly. The curved surface glass decoration layer is matched with the installation frame provided with the plug-in slot, the stable assembly of the glass vertical parts is realized, the horizontally arranged supporting square tube is fixed with the frame through the connecting assembly, and a reliable bearing base is constructed. The hoisting assembly can flexibly adjust the height of the decoration assembly through the adjusting assembly, the decoration assembly below the glass layer is adjusted, and the aesthetic property of the decoration assembly can be ensured.

Description

Technical Field

[0001] This invention relates to the field of architectural decoration, specifically to an adjustable concave-convex shape structure for a glass roof. Background Technology

[0002] Current curved glass roof lining designs typically feature recessed and raised decorative components beneath the glass roof, often made of wood or aluminum. However, in actual installation, these components generally rely on welding and bolting for fixed installation, making height adjustment inflexible after completion. This not only fails to meet the design requirements of personalized architectural reliefs but also prevents future optimization based on changes in usage, aesthetic iterations, or maintenance needs. Therefore, a new technological solution is needed to achieve height adjustment of these decorative components. Summary of the Invention

[0003] To address the aforementioned technical problems, this application discloses an adjustable concave-convex shape structure for a glass roof. This solution utilizes a curved glass decorative layer paired with an installation frame featuring interlocking slots to achieve stable assembly of the vertical glass section. Horizontally arranged supporting square tubes are fixed to the frame via connecting components, constructing a reliable load-bearing base. The hoisting assembly allows for flexible adjustment of the decorative component's height via adjustable components, thereby adjusting the decorative components below the glass layer and ensuring the aesthetic appeal of the decorative components.

[0004] This invention discloses an adjustable concave-convex shape structure for a glass roof, comprising:

[0005] A glass decorative layer, wherein the glass decorative layer has a curved structure and vertical portions are provided at both ends of the glass decorative layer;

[0006] The mounting frame has a slot for mounting the vertical part;

[0007] A supporting square tube is fixed to the mounting frame by a connecting component, and the supporting square tube is arranged in a horizontal direction;

[0008] A hoisting assembly, the upper end of which is mounted on the supporting square tube, and a decorative component fixed to the lower end of which is a hoisting assembly, the hoisting assembly having an adjusting component for adjusting the height of the decorative component.

[0009] Preferably, the hoisting assembly further includes:

[0010] A first lifting rod, the top of which is mounted on the supporting square tube, and the lower end of which has a first sliding block portion;

[0011] The second hanger has a lower end for mounting the decorative component and an upper end for having a second slider portion.

[0012] The cylindrical shell has an inner cavity for slidingly mounting the first slider part and the second slider part. The upper end of the cylindrical shell is provided with a first clearance hole for passing through the first lifting rod, and the lower end of the cylindrical shell is provided with a second clearance hole for passing through the second lifting rod.

[0013] A first elastic element is located in the inner cavity and above the first slider portion;

[0014] The second elastic element is located in the inner cavity and is located below the second slider portion;

[0015] The adjustment component is used to adjust the deformation of the first elastic element or the second elastic element.

[0016] Preferably, the adjusting assembly includes a first adjusting nut and a second adjusting nut, the first rod having threads for installing the first adjusting nut, and the second rod having threads for installing the second adjusting nut.

[0017] Preferably, the first adjusting nut is located above the cylindrical shell, and the second adjusting nut is located below the cylindrical shell.

[0018] Preferably, the shell includes a cylindrical body and an end cap, which are fixedly connected by welding or threaded connections.

[0019] Preferably, the decorative component includes a first decorative profile and a second decorative profile, wherein there are multiple first decorative profiles and multiple second decorative profiles, and the first decorative profiles and the second decorative profiles are distributed in an overlapping manner.

[0020] Preferably, the first decorative profile has a first horizontal arm, each end of the first horizontal arm has a vertical arm, the top of each of the two vertical arms has a second horizontal arm, and a gap is left between the two second horizontal arms.

[0021] The first horizontal arm is used to fix the second boom.

[0022] Preferably, the second decorative profile is U-shaped, and has a third horizontal arm and two vertical arms, with the two vertical arms located at both ends of the third horizontal arm; the vertical arms are provided with slots for inserting and installing the second horizontal arm.

[0023] Preferably, the connecting assembly includes two angle steels, a first angle steel for fixing the supporting square tube, and a second angle steel for fixing the mounting frame, with the two angle steels fixedly connected. Attached Figure Description

[0024] To more clearly illustrate the technical solutions in the embodiments of the present invention, the accompanying drawings used in the description of the embodiments or the prior art will be briefly introduced below.

[0025] Figure 1 This is a schematic diagram of the inner lining concave-convex shape adjustment structure of the glass roof disclosed in this embodiment;

[0026] Figure 2 This is a schematic diagram showing the connection relationship between the first and second lifting rods in this embodiment;

[0027] Figure 3 This is a structural schematic diagram of the second decorative profile in this embodiment.

[0028] The reference numerals used in the attached figures are as follows:

[0029] 11-Glass decorative layer; 12-Mounting frame; 13-Supporting square tube; 14-Connecting assembly; 15-Lifting assembly; 16-Decorative assembly; 17-First lifting rod; 18-First slider part; 19-Second lifting rod; 20-Second slider part; 21-Cylinder shell; 22-Inner cavity; 23-First clearance hole; 24-Second clearance hole; 25-First elastic element; 26-Second elastic element; 27-Adjusting assembly; 28-First adjusting nut; 29-Second adjusting nut; 30-Cylinder body; 31-End cap; 32-First decorative profile; 33-Second decorative profile; 34-First horizontal arm; 35-Vertical arm; 36-Second horizontal arm; 37-Third horizontal arm; 38-Vertical arm; 39-Slot; 40-Angle steel. Detailed Implementation

[0030] The technical solutions of this application will be further described below with reference to specific embodiments, but this application is not limited to these embodiments.

[0031] like Figures 1 to 3 As shown, this embodiment discloses an adjustable concave-convex shape structure for a glass roof, comprising:

[0032] A glass decorative layer 11, wherein the glass decorative layer 11 has a curved structure and vertical portions are provided at both ends of the glass decorative layer 11;

[0033] Mounting frame 12, the mounting frame 12 having a plug groove for mounting the vertical part;

[0034] A supporting square tube 13 is fixed to the mounting frame 12 via a connecting component 14, and the supporting square tube 13 is arranged in a horizontal direction.

[0035] The hoisting assembly 15 has its upper end mounted on the supporting square tube 13, and its lower end fixed with a decorative component 16. The hoisting assembly 15 also has an adjusting component 27 for adjusting the height of the decorative component 16.

[0036] This solution uses a curved glass decorative layer 11 paired with a mounting frame 12 featuring interlocking slots to achieve stable assembly of the vertical portion of the glass. Horizontally arranged supporting square tubes 13 are fixed to the frame via connecting components 14, forming a reliable load-bearing base. The hoisting assembly 15 can flexibly adjust the height of the decorative component 16 via adjusting component 27, thereby adjusting the decorative component 16 below the glass layer and ensuring its aesthetic appeal.

[0037] As one embodiment of this invention, the hoisting assembly 15 further includes:

[0038] The first suspension rod 17 has its top mounted on the supporting square tube 13, and its lower end has a first slider portion 18.

[0039] The second hanger 19 has a lower end for mounting the decorative component 16 and an upper end for having a second slider portion 20.

[0040] The cylindrical shell 21 has an inner cavity 22 for slidingly mounting the first slider part 18 and the second slider part 20. The upper end of the cylindrical shell 21 is provided with a first clearance hole 23 for passing through the first lifting rod 17, and the lower end of the cylindrical shell 21 is provided with a second clearance hole 24 for passing through the second lifting rod 19.

[0041] The first elastic element 25 is located in the inner cavity 22 and is located above the first slider portion 18.

[0042] The second elastic element 26 is located in the inner cavity 22 and is located below the second slider portion 20;

[0043] The adjustment component 27 is used to adjust the deformation of the first elastic element 25 or the second elastic element 26.

[0044] In this design, the hoisting assembly 15 utilizes a nested structure of double hoisting rods and a cylindrical shell 21. The first slider 18 or the second slider 20 slides within the inner cavity 22 of the cylindrical shell 21, forming a buffered adjustment space in conjunction with the vertically arranged elastic structures. The adjustment assembly 27, by changing the deformation of the first elastic element 25 or the second elastic element 26, can precisely fine-tune the height of the decorative assembly 16, improving its adjustability. Simultaneously, the first elastic element 25 and the second elastic element 26 can offset installation errors and external vibrations, ensuring both the stability of the design accuracy and enhancing the structure's impact resistance.

[0045] Furthermore, the first elastic element 25 and the second elastic element 26 are compression springs, respectively.

[0046] In one embodiment of this invention, the adjustment assembly 27 includes a first adjusting nut 28 and a second adjusting nut 29. The first rod 17 is provided with threads for installing the first adjusting nut 28, and the second rod 19 is provided with threads for installing the second adjusting nut 29.

[0047] The first adjusting nut 28 is located above the cylindrical shell 21, and the second adjusting nut 29 is located below the cylindrical shell 21.

[0048] This solution has the advantages of high adjustment precision and simple operation.

[0049] In one embodiment of this invention, the cylindrical shell 21 includes a cylindrical body 30 and an end cap 31, which are fixedly connected by welding or threaded connections. Before installing the lifting assembly 15, the various components of the lifting assembly 15 are assembled. The combination of the sleeve and the end cap 31 can effectively install the first lifting rod 17 and the second lifting rod 19. Finally, the cylindrical body 30 and the end cap 31 are fixed.

[0050] As one embodiment of this example, the decorative component 16 includes a first decorative profile 32 and a second decorative profile 33, wherein there are multiple first decorative profiles 32 and multiple second decorative profiles 33, and the first decorative profiles 32 and the second decorative profiles 33 are distributed in an alternating manner.

[0051] The second decorative profile 33 is installed on the upper end of the first decorative profile 32.

[0052] As one embodiment of this example, the first decorative profile 32 has a first horizontal arm 34, and the two ends of the first horizontal arm 34 have vertical arms 35 respectively. The tops of the two vertical arms 35 have second horizontal arms 36 respectively, and there is a gap between the two second horizontal arms 36.

[0053] The first horizontal arm 34 is used to fix the second boom 19.

[0054] In this solution, the second hanger 19 fixes the first decorative profile 32, and the height of the first decorative profile 32 is adjusted by adjusting the component 27, which facilitates the adjustment of the flatness of the entire decorative surface.

[0055] In one embodiment of this invention, the second decorative profile 33 is U-shaped and has a third horizontal arm 37 and two vertical arms 38, with the two vertical arms 38 located at both ends of the third horizontal arm 37. The vertical arms 38 are provided with slots 39 for inserting and installing the second horizontal arm 36.

[0056] As one embodiment of this invention, the connecting component 14 includes two angle steels 40. The first angle steel 40 is used to fix the supporting square tube 13, and the other angle steel 40 is used to fix the mounting frame 12. The two angle steels 40 are fixedly connected to each other.

[0057] For those skilled in the art, various modifications and improvements can be made without departing from the inventive concept of this invention, and these all fall within the protection scope of this invention.

Claims

1. A recessed-convex adjustable structure for a glass roof, characterized in that, include: A glass decorative layer (11) is a curved structure, and vertical portions are provided at both ends of the glass decorative layer (11). Mounting frame (12), the mounting frame (12) having a plug groove for mounting the vertical part; A supporting square tube (13) is fixed to the mounting frame (12) by a connecting component (14), and the supporting square tube (13) is arranged in a horizontal direction; The hoisting assembly (15) has its upper end mounted on the supporting square tube (13) and its lower end fixed with a decorative component (16). The hoisting assembly (15) has an adjusting component (27) for adjusting the height of the decorative component (16).

2. The adjustable concave-convex shape structure for the glass roof according to claim 1, characterized in that, The hoisting assembly (15) also includes: The first rod (17) is mounted on the top of the supporting square tube (13), and the lower end of the first rod (17) has a first slider (18). The second rod (19) has a lower end for mounting the decorative component (16) and an upper end for having a second slider (20). The cylindrical shell (21) has an inner cavity (22) for slidingly mounting the first slider part (18) and the second slider part (20). The upper end of the cylindrical shell (21) is provided with a first clearance hole (23) for passing through the first lifting rod (17), and the lower end of the cylindrical shell (21) is provided with a second clearance hole (24) for passing through the second lifting rod (19). The first elastic element (25) is located in the inner cavity (22) and is located above the first slider portion (18); The second elastic element (26) is located in the inner cavity (22) and is located below the second slider portion (20); The adjustment component (27) is used to adjust the deformation of the first elastic element (25) or the second elastic element (26).

3. The inner lining concave-convex shape adjustment structure of the glass roof according to claim 2, characterized in that, The adjustment assembly (27) includes a first adjustment nut (28) and a second adjustment nut (29). The first rod (17) is provided with a thread for installing the first adjustment nut (28), and the second rod (19) is provided with a thread for installing the second adjustment nut (29).

4. The inner lining type concave-convex shape adjustment structure of the glass roof according to claim 3, characterized in that, The first adjusting nut (28) is located above the cylindrical shell (21), and the second adjusting nut (29) is located below the cylindrical shell (21).

5. The adjustable concave-convex shape structure for the glass roof according to claim 3, characterized in that, The shell (21) includes a cylinder (30) and an end cap (31), which are fixedly connected by welding or threaded parts.

6. The adjustable concave-convex shape structure for the glass roof according to claim 2, characterized in that, The decorative component (16) includes a first decorative profile (32) and a second decorative profile (33), the number of the first decorative profile (32) and the number of the second decorative profile (33) are multiple, and the first decorative profile (32) and the second decorative profile (33) are distributed in an intersecting manner.

7. The adjustable concave-convex shape structure for the glass roof according to claim 6, characterized in that, The first decorative profile (32) has a first horizontal arm (34), and the two ends of the first horizontal arm (34) have vertical arms (35), the tops of the two vertical arms (35) have second horizontal arms (36), and there is a gap between the two second horizontal arms (36); The first horizontal arm (34) is used to fix the second boom (19).

8. The adjustable concave-convex shape structure for the glass roof according to claim 7, characterized in that, The second decorative profile (33) is U-shaped. The second decorative profile (33) has a third horizontal arm (37) and two vertical arms (38). The two vertical arms (38) are located at both ends of the third horizontal arm (37). The vertical arm (38) is provided with a slot (39) for inserting and installing the second horizontal arm (36).

9. The adjustable concave-convex shape structure for the glass roof according to claim 1, characterized in that, The connecting assembly (14) includes two angle steels (40), the first angle steel (40) is used to fix the supporting square tube (13), and the other angle steel (40) is used to fix the mounting frame (12), and the two angle steels (40) are fixedly connected.

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