A connecting structure for separating aluminum profile and metal veneer plate

By combining aluminum profile components with connecting and reinforcing components, the impact resistance problem of the connection structure between the partition aluminum profile and the metal decorative panel is solved, achieving a more stable and durable connection effect and improving the overall performance.

CN224395844UActive Publication Date: 2026-06-23LINYI MINGLIANG ALUMINUM CO LTD

Patent Information

Authority / Receiving Office
CN · China
Patent Type
Utility models(China)
Current Assignee / Owner
LINYI MINGLIANG ALUMINUM CO LTD
Filing Date
2025-05-16
Publication Date
2026-06-23

AI Technical Summary

Technical Problem

The existing connection structure between aluminum profiles and metal decorative panels for partitions has poor impact resistance, which reduces the overall structural connection and compatibility, thus limiting its applicability.

Method used

The structure adopts a combination of aluminum profile components, connecting components, decorative panels and reinforcing components. Through the design of components such as connecting frames, inserts, bottom grooves, top mounting plates and support rods, a stable connection between aluminum profiles and metal decorative panels is achieved, and the durability is enhanced by the reinforcing components.

Benefits of technology

It improves the impact resistance and durability of the connection structure between the aluminum profile of the partition and the metal decorative panel, enhances the stability and practicality of the overall connection, and facilitates cleaning and reuse.

✦ Generated by Eureka AI based on patent content.

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Abstract

The utility model relates to indoor decoration technical field especially, it relates to a partition aluminium alloy and metal veneer's connecting structure, include: aluminium alloy assembly, connecting assembly, decorative panel and reinforcing component, aluminium alloy assembly includes two aluminium material pieces and a splicing piece, connecting assembly connects on aluminium alloy assembly, connecting assembly includes connecting frame, connecting frame connects bottom plate, and the both ends of bottom plate are connected plug -in rod a respectively and are provided with bottom groove in central position, plug -in rod b connects in connecting frame inner wall both sides, top mounting plate connects in connecting frame inner wall top, and support rod connects on splicing piece, decorative panel connects in connecting frame, reinforcing component connects on aluminium alloy assembly and with connecting assembly connects, reinforcing component includes sound insulation cotton, sound insulation cotton connects heat insulation board, heat insulation board connects support, and support connects in aluminium alloy assembly, cross plate and filler plate connect in aluminium alloy assembly, the utility model discloses convenient and improve the use of partition aluminium alloy and metal veneer's connecting structure.
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Description

Technical Field

[0001] This utility model relates to the field of interior decoration technology, and in particular to a connection structure between a partition aluminum profile and a metal decorative panel. Background Technology

[0002] Many city office buildings have begun to use high-quality modular office partitions. These office partitions are mainly composed of aluminum profiles and metal decorative panels. The metal decorative panels on both sides of the office partition adopt a suspended connection structure.

[0003] Chinese patent CN209066654U discloses a connection structure between an aluminum profile and a metal decorative panel for a partition. The structure includes two panels (front and back) and a first connecting device and a second connecting device located on either side of the panels, respectively connecting to the door frame profile and the glass. The two panels and the two connecting devices form a hollow cavity filled with sound-insulating cotton. Two elastically bent edges extend inward from the vertical sides of each panel. This connection structure allows for fewer seams at the joint between the door frame profile and the single-layer glass, making the partition a unified whole. It also provides greater stability for the metal decorative panel installation, preventing panel wobbling, improving sound insulation, preventing dust ingress, and facilitating cleaning.

[0004] The existing connection structure between aluminum profiles and metal decorative panels for partitions uses a connection structure to connect the aluminum profiles and metal decorative panels. However, the impact resistance of the connection structure is not good, which reduces the overall structural connection effect and reduces the applicability of aluminum profiles and the effectiveness of the connection structure between aluminum profiles and metal decorative panels. Utility Model Content

[0005] To address the problems existing in the background technology, a connection structure between the partition aluminum profile and the metal decorative panel is proposed.

[0006] This utility model proposes a connection structure between a partition aluminum profile and a metal decorative panel, including: an aluminum profile assembly, a connection assembly, a decorative panel, and a reinforcement assembly;

[0007] The aluminum profile assembly consists of two aluminum profiles and one splicing component;

[0008] The connecting assembly is attached to the aluminum profile assembly; the connecting assembly includes a connecting frame, a base plate, insert a, a bottom groove, insert b, a top mounting plate, and a support rod;

[0009] The connecting frame is connected to the base plate. The two ends of the base plate are connected to the insertion rods a respectively, and a bottom groove is set in the center. The insertion rods b are connected to both sides of the inner wall of the connecting frame. The top mounting plate is connected to the upper part of the inner wall of the connecting frame. The support rod is connected to the splicing piece.

[0010] The decorative panel is attached to the connecting frame;

[0011] The reinforcement components are connected to the aluminum profile components and to the connecting components; the reinforcement components include sound insulation cotton, heat insulation board, bracket, cross plate and filler plate;

[0012] The sound insulation cotton is connected to the heat insulation board, the heat insulation board is connected to the bracket, the bracket is connected inside the aluminum profile assembly, and the cross plate and filler plate are connected inside the aluminum profile assembly.

[0013] Preferably, the two aluminum components respectively include an aluminum frame, an aluminum edge, a bent edge, a reinforcing aluminum material, an inner cavity a, a slot a, and an inner cavity b;

[0014] There are four sets of aluminum edges and bending edges, which are connected to the outer perimeter of the aluminum frame. The aluminum frame is connected and reinforced with aluminum material. The interior of the aluminum frame is hollow and has an inner cavity a.

[0015] The reinforced aluminum material has a hollow interior cavity b, and the inner wall of cavity b is provided with a slot a.

[0016] Preferably, the sound insulation cotton, heat insulation board, and bracket are connected inside the inner cavity a, and a semi-circular structure is provided at one end of the aluminum edge to connect the filling plate.

[0017] Preferably, the cross plate is connected inside the inner cavity b, and the end face of the cross plate is connected to the slot a respectively.

[0018] Preferably, the splicing components include a splicing frame, clamping plates, interlocking edges, clamping aluminum materials, and slots b;

[0019] The splicing frame is connected between two aluminum frames. Two clamping plates are set at the bottom of the splicing frame. The insert edge is connected to the splicing frame, the clamping aluminum is connected to the splicing frame, and the inner walls of the splicing frame are provided with slots b on both sides.

[0020] Preferably, the insert edge and the clamping aluminum material are connected to the aluminum edge and the bent edge, and the inner wall of the splicing frame is connected to the support rod.

[0021] Preferably, the spacing between the two clamping plates and the splicing frame forms a clamping cavity, which is connected to the top mounting plate.

[0022] Compared with the prior art, the present invention has the following beneficial technical effects:

[0023] This utility model's aluminum component is connected to a decorative panel via a connecting component. The connecting component connects to the aluminum components on both sides via a top mounting plate, insert a, and insert b, and is connected via a bottom groove and splicing piece, facilitating the connection between the aluminum component and the metal decorative panel. Furthermore, the two aluminum components are connected via the splicing piece, which facilitates the overall connection structure between the partition aluminum profile and the metal decorative panel, improving impact resistance. At the same time, the connecting component and the aluminum component are equipped with reinforcing components, which improve the durability of the aluminum component and the connecting component, and conveniently enhance the performance of the connection structure between the partition aluminum profile and the metal decorative panel. Attached Figure Description

[0024] Figure 1 This is a schematic diagram of the overall structure of this utility model;

[0025] Figure 2 This is a schematic diagram of the aluminum profile component structure in this utility model;

[0026] Figure 3 This is a schematic diagram of the aluminum component structure in this utility model;

[0027] Figure 4 This is a schematic diagram of the splicing component structure in this utility model;

[0028] Figure 5 This is a schematic diagram of the reinforcement component structure in this utility model.

[0029] Reference numerals: 1. Aluminum frame; 101. Aluminum edge; 102. Bending edge; 103. Reinforcing aluminum; 104. Inner cavity a; 105. Slot a; 106. Inner cavity b; 2. Splicing frame; 201. Clamping plate; 202. Insertion edge; 203. Clamping aluminum; 204. Slot b; 3. Connecting frame; 301. Base plate; 302. Insert rod a; 303. Bottom groove; 304. Insert rod b; 305. Top mounting plate; 306. Support rod; 4. Decorative panel; 5. Reinforcing component; 501. Sound insulation cotton; 502. Heat insulation board; 503. Bracket; 504. Cross plate; 505. Filler plate. Detailed Implementation

[0030] The specific embodiments of this disclosure will be described in detail below with reference to the accompanying drawings. It should be understood that the specific embodiments described herein are for illustration and explanation only and are not intended to limit this disclosure.

[0031] Example 1

[0032] like Figure 1 - Figure 5As shown, this utility model proposes a connection structure between a partition aluminum profile and a metal decorative panel, comprising: an aluminum profile assembly, a connecting assembly, a decorative panel 4, and a reinforcing assembly 5; the aluminum profile assembly includes two aluminum profile parts and a splicing part; the connecting assembly is connected to the aluminum profile assembly; the connecting assembly includes a connecting frame 3, a base plate 301, a plug rod a 302, a bottom groove 303, a plug rod b 304, a top mounting plate 305, and a support rod 306; the connecting frame 3 is connected to the base plate 301, the base plate 301 is connected to the plug rod a 302 at both ends and has a bottom groove 303 at the center, and the plug rod b 304... A top mounting plate 305 is connected to the upper part of the inner wall of the connecting frame 3, and a support rod 306 is connected to the splicing component. A decorative panel 4 is connected to the connecting frame 3. A reinforcing component 5 is connected to the aluminum profile assembly and also to the connecting component. The reinforcing component 5 includes sound insulation cotton 501, heat insulation board 502, bracket 503, cross plate 504, and filling plate 505. The sound insulation cotton 501 is connected to the heat insulation board 502, the heat insulation board 502 is connected to the bracket 503, the bracket 503 is connected inside the aluminum profile assembly, and the cross plate 504 and filling plate 505 are connected inside the aluminum profile assembly. By using the reinforcing component 5, the durability of the aluminum profile assembly and the connecting component is improved, and the connection structure between the partition aluminum profile and the metal decorative panel is effectively enhanced.

[0033] Further explanation: Sound insulation cotton 501, heat insulation board 502, and bracket 503 are connected within the inner cavity a104. A semi-circular structure connecting the filling plate 505 is provided at one end of the aluminum edge 101. The cross plate 504 is connected within the inner cavity b106, and the end face of the cross plate 504 is connected to the slot a105 respectively. The insert edge 202 and the clamping aluminum material 203 are connected to the aluminum edge 101 and the bent edge 102. The inner wall of the splicing frame 2 is connected to the support rod 306. The spacing between the two clamping plates 201 and the splicing frame 2 forms a clamping cavity, which is connected to the top mounting plate 305. The aluminum profile components and connecting components are connected by a butt joint, which is convenient for operation, facilitates the reuse of aluminum profile components and connecting components, and improves the practicality of the connection structure between the partition aluminum profile and the metal decorative panel.

[0034] Example 2

[0035] like Figure 2 - Figure 5 As shown, this utility model proposes a connection structure between a partition aluminum profile and a metal decorative panel. Based on the above embodiments, this embodiment also details the specific components of the two aluminum parts and the splicing parts, as well as their matching methods.

[0036] Further explanation: The two aluminum components include an aluminum frame 1, aluminum edges 101, bent edges 102, reinforcing aluminum material 103, inner cavity a104, slot a105, and inner cavity b106. Four sets of aluminum edges 101 and bent edges 102 are correspondingly arranged, connected to the periphery of the aluminum frame 1. The aluminum frame 1 is connected to the reinforcing aluminum material 103, and the interior of the aluminum frame 1 is hollow, forming the inner cavity a104. The interior of the reinforcing aluminum material 103 is also hollow, forming the inner cavity b106, and the inner wall of the inner cavity b106 is provided with the slot a105. The four sets of aluminum edges 101 and bent edges 102 facilitate insertion and connection with splicing components and connecting parts. The reinforcing aluminum material 103 enhances the structural integrity of the aluminum frame 1 and increases the service life of the aluminum profile components.

[0037] To further explain, the splicing component includes a splicing frame 2, clamping plates 201, interlocking edges 202, clamping aluminum profiles 203, and slots b204. The splicing frame 2 is connected between two aluminum profile frames 1. Two clamping plates 201 are provided at the bottom of the splicing frame 2. The interlocking edges 202 are connected to the splicing frame 2. The clamping aluminum profiles 203 are connected to the splicing frame 2. Slots b204 are provided on both sides of the inner wall of the splicing frame 2. The splicing frame 2 facilitates the connection of two aluminum profile components, making it easier to splice and install the aluminum profile components and improve the overall structural connection and cooperation of the aluminum profile assembly.

[0038] The working principle of this utility model is as follows: When the connection structure between the partition aluminum profile and the metal decorative panel is used, the splicing piece is inserted into the aluminum parts on both sides, so that the insertion edge 202 is inserted into and connected to a set of aluminum edges 101 and bent edges 102, thereby connecting the splicing frame 2 with the aluminum frames 1 on both sides. Then, the connecting frame 3 is inserted into the aluminum profile assembly, and then the top mounting plate 305 and the insertion rod b304 are moved simultaneously and inserted into and connected to the clamping plate 201, the two sets of aluminum edges 101, and the bent edges 102 respectively, so that the connecting frame 3 is connected to the aluminum frame 1 and the splicing frame 2. The bottom plate 301 is operated, and the insertion rods a302 at both ends of the bottom plate 301 are inserted into and connected to both sides of the connecting frame 3. At the same time, the bottom groove 303 receives and connects to the support rod 306. This connects the base plate 301, the connecting frame 3, and the support rod 306. The connecting frame 3 then connects the decorative panel 4 to the aluminum profile assembly, facilitating the connection between the partition aluminum profile and the metal decorative panel. After the partition aluminum profile and the metal decorative panel are connected by the connecting assembly, the reinforcing assembly 5 is operated, causing the sound insulation cotton 501, heat insulation board 502, and bracket 503 to fill the connecting cavity b106 and insert it into the cavity. The cross plate 504 is then inserted and filled into the cavity a104. The filling plate 505 is then connected according to the corresponding quantity filled by the aluminum edge 101. At the same time, the support rod 306 is inserted into the connecting frame 3, which increases the durability of the connecting assembly and the aluminum profile assembly and improves the impact resistance of the connection structure between the partition aluminum profile and the metal decorative panel.

[0039] The embodiment of the utility model is described in detail above in combination with the drawings, but the utility model is not limited to this, and various changes can be made within the knowledge range possessed by the person skilled in the art without departing from the purpose of the utility model.

Claims

1. A connection structure for partitioning an aluminum profile and a metal finish panel, characterized by, include: Aluminum profile components; The aluminum profile assembly consists of two aluminum profiles and one splicing component; Connecting components, attached to the aluminum profile components; The connecting components include a connecting frame (3), a base plate (301), a plug a (302), a bottom groove (303), a plug b (304), a top mounting plate (305), and a support rod (306); The connecting frame (3) is connected to the base plate (301). The two ends of the base plate (301) are connected to the insert rods a (302) respectively, and a bottom groove (303) is provided in the center. The insert rods b (304) are connected to both sides of the inner wall of the connecting frame (3). The top mounting plate (305) is connected to the upper part of the inner wall of the connecting frame (3). The support rod (306) is connected to the splicing piece. Decorative panel (4) is attached to connecting frame (3); And a reinforcing component (5), which is connected to the aluminum profile assembly and to the connecting assembly; the reinforcing component (5) includes sound insulation cotton (501), heat insulation board (502), bracket (503), cross plate (504) and filling plate (505); The sound insulation cotton (501) is connected to the heat insulation board (502), the heat insulation board (502) is connected to the bracket (503), the bracket (503) is connected inside the aluminum profile assembly, and the cross plate (504) and the filler plate (505) are connected inside the aluminum profile assembly.

2. The connecting structure of the partitioning aluminum profile and the metal veneer plate according to claim 1, characterized in that, The two aluminum components include an aluminum frame (1), an aluminum edge (101), a bent edge (102), a reinforcing aluminum material (103), an inner cavity a (104), a slot a (105), and an inner cavity b (106); Four sets of aluminum edges (101) and bent edges (102) are provided one-to-one. The four sets are connected to the outer periphery of the aluminum frame (1). The aluminum frame (1) is connected to the reinforcing aluminum material (103). The interior of the aluminum frame (1) is hollow and is an inner cavity a (104). The reinforced aluminum material (103) has a hollow interior cavity b (106), and the inner wall of the cavity b (106) is provided with a slot a (105).

3. The connecting structure of the partitioning aluminum profile and the metal veneer plate according to claim 2, characterized in that, The sound insulation cotton (501), heat insulation board (502), and bracket (503) are connected in the inner cavity a (104), and a semi-circular structure connecting the filling plate (505) is provided at one end of the aluminum edge (101).

4. The connecting structure of the partitioning aluminum profile and the metal veneer plate according to claim 2, characterized in that, The cross plate (504) is connected inside the inner cavity b (106), and the end face of the cross plate (504) is connected to the slot a (105) respectively.

5. The connecting structure of the partitioning aluminum profile and the metal veneer plate according to claim 2, characterized in that, The splicing components include a splicing frame (2), a clamping plate (201), a plug-in edge (202), a clamping aluminum material (203), and a slot b (204); The splicing frame (2) is connected between two aluminum frames (1). Two clamping plates (201) are provided at the bottom of the splicing frame (2). The insertion edge (202) is connected to the splicing frame (2). The clamping aluminum material (203) is connected to the splicing frame (2). The inner walls of the splicing frame (2) are provided with slots b (204) on both sides.

6. The connecting structure of the partitioning aluminum profile and the metal veneer plate according to claim 5, characterized in that, The insert edge (202) and the clamped aluminum material (203) are connected to the aluminum edge (101) and the bent edge (102), and the inner wall of the splicing frame (2) is connected to the support rod (306).

7. The connecting structure of the partitioning aluminum profile and the metal veneer plate according to claim 6, characterized in that, The spacing between the two clamping plates (201) and the splicing frame (2) forms a clamping cavity, which is connected to the top mounting plate (305).