A quick-connecting panel connection mechanism

By using a quick-connect splicing mechanism and rock wool sound insulation filling, the problems of time-consuming and labor-intensive splicing of aluminum alloy plates and noise transmission are solved, achieving a stable and beautiful connection and a quiet and comfortable environment.

CN224431882UActive Publication Date: 2026-06-30安徽合生建设集团有限公司

Patent Information

Authority / Receiving Office
CN · China
Patent Type
Utility models(China)
Current Assignee / Owner
安徽合生建设集团有限公司
Filing Date
2025-04-17
Publication Date
2026-06-30

AI Technical Summary

Technical Problem

The existing splicing of wide aluminum alloy plates has problems such as labor-intensive and time-consuming welding, easy deformation, unsightly appearance, and difficult maintenance.

Method used

A quick-connection mechanism is adopted, which uses a combination of female, male, and female splicing seats to achieve a stable connection of the panels through the cooperation of splicing strips and dovetail grooves, and rock wool sound insulation filling is installed inside the panels.

Benefits of technology

It achieves both stability and aesthetics in the connection of the panels, reduces noise transmission, simplifies the maintenance process, and improves the durability and seismic resistance of the structure.

✦ Generated by Eureka AI based on patent content.

Smart Images

  • Figure CN224431882U_ABST
    Figure CN224431882U_ABST
Patent Text Reader

Abstract

This utility model discloses a quick-connecting plate assembly mechanism, including a splicing connection structure. Plate A is connected to one side of the splicing connection structure, and plate B is connected to another side. A female splicing seat on one side of the splicing connection structure has a male splicing seat, and a female splicing seat is inserted between the male and female splicing seats. A splicing strip is fixedly installed on the surface of the female splicing seat. A splicing groove is formed on the surface of the male splicing seat, and a second connecting groove is formed on one side of the splicing groove. The interior of the female splicing seat has a connecting groove, a first connecting groove, and a receiving groove. This quick-connecting plate assembly mechanism, when the male and female splicing seats are joined, completes the initial connection between plate A and plate B by inserting the splicing strip into the splicing groove; it avoids welding deformation, has an aesthetically pleasing appearance, and is convenient for maintenance and inspection.
Need to check novelty before this filing date? Find Prior Art

Description

Technical Field

[0001] This utility model relates to the field of decorative building materials, specifically a quick-assembly board connection mechanism. Background Technology

[0002] Aluminum alloy sheets for interior decoration are alloy materials with aluminum as the main component. They are widely used in the decoration industry, and the density of aluminum alloy sheets is approximately 2.7 g / cm³. 3 Aluminum is only one-third the weight of steel and one-fifth the weight of glass. For the same area, its weight is far less than other materials, making it easy to handle and install without placing excessive load on buildings. Its alloy content is generally above 50%, giving it good strength and hardness, allowing it to withstand certain impacts without easily deforming or cracking. It can be used for various structural supports and decorative parts in construction. Aluminum readily reacts with oxygen in the air to form an aluminum oxide film. This oxide film prevents further oxidation of the internal aluminum, giving aluminum alloy sheets strong corrosion resistance, making them resistant to rust and fading, and suitable for various environmental conditions. Aluminum alloy sheets do not burn in fire and can withstand temperatures up to 600℃. It does not drip molten material and has excellent fire resistance; at the same time, it also has excellent waterproof performance and can be used in damp areas such as kitchens, bathrooms, and balconies; it can be manufactured into various shapes, sizes, and styles of parts through various processing methods such as extrusion, bending, stamping, stretching, and laser cutting, such as arc, wave, and irregular shapes, to meet the needs of different decoration styles and designs; after surface treatment such as anodizing, painting, powder coating, and fluorocarbon spraying, it can present a rich variety of colors and lusters, such as metallic colors, solid colors, wood grain colors, and stone grain colors, and can also form various patterns and textures through carving, punching, embossing, and other processes, enhancing the overall aesthetics of the decoration;

[0003] Existing wide aluminum alloy sheets are limited by factors such as the pressure of aluminum profile extruders, the maximum width of dies, and processing costs. The maximum width of extruded aluminum profiles is limited. To achieve the required width for the project, the traditional method is to weld narrow plates together. This method is labor-intensive and time-consuming, welding can cause deformation, the appearance is not aesthetically pleasing, and it can also cause local damage, making disassembly and maintenance difficult. Utility Model Content

[0004] The purpose of this utility model is to provide a quick-assembly plate connection mechanism to solve the defects mentioned in the background art.

[0005] To achieve the above objectives, a rapid splicing panel connection mechanism is provided, comprising a splicing connection structure. Panel A is connected to one side of the splicing connection structure, and panel B is connected to another side of the splicing connection structure. A parent splicing seat is provided on one side of the female splicing seat on the splicing connection structure, and a child splicing seat is inserted between the parent and female splicing seats. A splicing strip is fixedly installed on the surface of the female splicing seat, and a splicing groove is formed on the surface of the parent splicing seat. A second connecting groove is formed on one side of the splicing groove. A connecting groove, a first connecting groove, and a receiving groove are formed inside the female splicing seat. The parent splicing seat and the female splicing seat are fixedly provided at both ends of panel A and panel B, respectively.

[0006] Preferably, both plate A and plate B have internal cavities, and both plate A and plate B are fixedly filled with sound insulation material, which is rock wool.

[0007] Preferably, the splicing connection structure includes a female splicing seat, a male splicing seat, a child splicing seat, a connecting groove, a splicing strip, a first connecting groove, a receiving groove, a splicing groove, and a second connecting groove, and the plate A and plate B are spliced ​​together through the splicing connection structure.

[0008] Preferably, the splicing strip and the splicing groove are sized to match, the splicing strip is inserted into the inside of the splicing groove, and the cross-section of both the splicing strip and the splicing groove is dovetail-shaped.

[0009] Preferably, the sub-splicing base includes a first connecting base, a shaped plate, and a second connecting base. The first connecting base is fixedly disposed at one end of the shaped plate, and the second connecting base is fixedly disposed at the other end of the shaped plate.

[0010] Preferably, the sub-splicing seat has an "I"-shaped cross-section, and the splicing strip is inserted into the splicing groove and reinforced by the sub-splicing seat.

[0011] Preferably, the first connecting seat is adapted to the size of the first connecting groove, the second connecting seat is adapted to the size of the second connecting groove, the irregular plate is adapted to the size of the connecting groove and the receiving groove, the first connecting seat is inserted into the inside of the first connecting groove, the second connecting seat is inserted into the inside of the second connecting groove, and the irregular plate is respectively inserted into the inside of the connecting groove and the receiving groove.

[0012] Compared with the prior art, the beneficial effects of this utility model are:

[0013] 1. This utility model, by inserting the sub-splicing base into the interior of the mother and father splicing bases and reinforcing the connection strength between them, further improves the stability of the connection between the father and mother splicing bases, preventing loosening. The sub-splicing base makes the connection between the splicing strip and the splicing groove more stable, strengthens the bonding force between board A and board B, and can withstand greater tensile, compressive, and shear forces, reducing the possibility of loosening or separation due to stress, making the overall structure more reliable. It can withstand greater weight and is less prone to loosening or wobbling.

[0014] 2. This utility model achieves initial docking between sheet A and sheet B by inserting a splicing strip into the splicing groove during the docking process using the parent and mother splicing seats. It avoids welding deformation, has an aesthetically pleasing appearance, and facilitates maintenance and inspection. Both sheet A and sheet B are internally fitted with sound-insulating filling material, which is rock wool. This significantly reduces sound transmission and effectively blocks external noise from entering the room, creating a quiet and comfortable living or working environment. Attached Figure Description

[0015] Figure 1 This is a front view schematic diagram of the structure of this utility model;

[0016] Figure 2 for Figure 1 A bottom view;

[0017] Figure 3 This is a schematic diagram of the cross-sectional structure of the plate.

[0018] Figure 4 This is a schematic diagram of the sheet metal structure;

[0019] Figure 5 This is a schematic diagram of a splicing connection structure;

[0020] Figure 6 for Figure 5 Diagram showing the connection and installation of the middle and male splicing bases;

[0021] Figure 7 for Figure 3 Side view.

[0022] The diagram is labeled as follows: 1. Panel A; 11. Inner cavity; 12. Sound insulation filling; 2. Panel B; 3. Splicing connection structure; 30. Female splicing seat; 301. Male splicing seat; 302. Child splicing seat; 31. Connecting groove; 32. Splicing strip; 33. First connecting groove; 34. Receiving groove; 35. Splicing groove; 36. Second connecting groove; 37. First connecting seat; 38. Irregularly shaped panel; 39. Second connecting seat. Detailed Implementation

[0023] Please see Figure 1-7 This utility model provides a quick-assembly panel connection mechanism, including a splicing connection structure 3. Panel A1 is connected to one side of the splicing connection structure 3, and panel B2 is connected to another side of the splicing connection structure 3. A parent splicing seat 301 is provided on one side of a female splicing seat 30 on the splicing connection structure 3. A child splicing seat 302 is inserted between the parent splicing seat 301 and the female splicing seat 30. A splicing strip 32 is fixedly installed on the surface of the female splicing seat 30. A splicing groove 35 is opened on the surface of the parent splicing seat 301. A second connecting groove 36 is opened on one side of the splicing groove 35. A connecting groove 31, a first connecting groove 33, and a receiving groove 34 are opened inside the female splicing seat 30. The parent splicing seat 301 and the female splicing seat 30 are fixedly provided at both ends of the panels A1 and B2, respectively.

[0024] Working principle: In actual use, holding board A1, the female splicing seat 30 at the end of board A1 is aligned with the male splicing seat 301 at the end of board B2. During the alignment, the splicing strip 32 is inserted into the splicing groove 35, completing the initial alignment between board A1 and board B2. Then, the female splicing seat 302 is inserted into the female and male splicing seats 301, reinforcing the connection between them and further improving the strength of the connection. The stability of the connection will not loosen; the sub-splicing seat 302 makes the connection between the splicing strip 32 and the splicing groove 35 more stable, making the bonding force between the board A1 and the board B2 stronger, and able to withstand greater tensile, compressive and shear forces, reducing the possibility of loosening or separation due to stress, making the overall structure more reliable; it can withstand greater weight and is not prone to loosening or wobbling; the setting of the sub-splicing seat 302 can effectively limit the displacement of board A1 and board B2 in all directions, including horizontal, vertical and torsional directions, and maintain a relatively fixed position during use. The sub-joint base 302 enhances the stability of the entire structure. For example, in building ceilings, ceiling panels connected by reinforced dovetail structures can better maintain a horizontal position and are less prone to deformation and sagging. The sub-joint base 302 can distribute the stress between the joint strip 32 and the joint groove 35, reducing the probability of fatigue damage, wear, and cracking caused by long-term use or repeated stress, extending the service life of the connection parts, and thus improving the durability of the overall structure composed of panels A1 and B2. In the event of vibration, the sub-joint base 302 can act as a buffer and constraint, ensuring the stability of panels A1 and B2. The connections between them are not easily damaged during vibration, enhancing the overall structure's resistance to vibration. Both panels A1 and B2 are fixedly equipped with sound insulation filling 12, which is made of rock wool. Rock wool is a high-quality sound insulation material with a large number of fibers and pores inside. These microstructures can effectively absorb and reflect sound. When sound waves enter the rock wool inside the aluminum alloy panel, they are continuously reflected and scattered between the fibers and pores. The sound energy is gradually converted into heat energy and consumed, thus significantly reducing the propagation of sound. It can effectively block external noise from entering the room and create a quiet and comfortable living or working environment for people.

[0025] In a preferred embodiment, both board A1 and board B2 have an inner cavity 11, and both board A1 and board B2 have a sound insulation filling 12 fixedly installed inside them. The sound insulation filling 12 is rock wool.

[0026] As a preferred embodiment, the splicing connection structure 3 includes a female splicing seat 30, a male splicing seat 301, a female splicing seat 302, a connecting groove 31, a splicing strip 32, a first connecting groove 33, a receiving groove 34, a splicing groove 35, and a second connecting groove 36. The plate A1 and the plate B2 are spliced ​​together through the splicing connection structure 3.

[0027] In a preferred embodiment, the splicing strip 32 and the splicing groove 35 are matched in size, the splicing strip 32 is inserted into the inside of the splicing groove 35, and the cross-sections of the splicing strip 32 and the splicing groove 35 are both designed in a dovetail shape.

[0028] In a preferred embodiment, the sub-splitter 302 includes a first connecting seat 37, a shaped plate 38, and a second connecting seat 39. The first connecting seat 37 is fixedly disposed at one end of the shaped plate 38, and the second connecting seat 39 is fixedly disposed at the other end of the shaped plate 38.

[0029] As a preferred embodiment, the sub-splicing base 302 has an "I" shaped cross-section, and the splicing strip 32 is inserted into the splicing groove 35 and reinforced by the sub-splicing base 302.

[0030] In a preferred embodiment, the first connecting seat 37 is adapted to the size of the first connecting groove 33, the second connecting seat 39 is adapted to the size of the second connecting groove 36, and the irregular plate 38 is adapted to the size of the connecting groove 31 and the receiving groove 34. The first connecting seat 37 is inserted into the inside of the first connecting groove 33, the second connecting seat 39 is inserted into the inside of the second connecting groove 36, and the irregular plate 38 is respectively inserted into the inside of the connecting groove 31 and the receiving groove 34.

Claims

1. A quick splice plate connecting mechanism comprising a splice connecting structure (3), characterized in that: The splicing connection structure (3) is connected to a plate A (1) on one side and a plate B (2) on the other side. A parent splicing seat (301) is provided on one side of the female splicing seat (30) on the splicing connection structure (3). A child splicing seat (302) is inserted between the parent splicing seat (301) and the female splicing seat (30). A splicing strip (32) is fixedly installed on the surface of the female splicing seat (30). A splicing groove (35) is opened on the surface of the parent splicing seat (301). A second connecting groove (36) is opened on one side of the splicing groove (35). A connecting groove (31), a first connecting groove (33), and a receiving groove (34) are opened inside the female splicing seat (30). A parent splicing seat (301) and a female splicing seat (30) are fixedly provided at both ends of the plate A (1) and the plate B (2).

2. A quick splicing type plate connecting mechanism according to claim 1, characterized in that: Both the plate A (1) and the plate B (2) have an inner cavity (11) inside. Both the plate A (1) and the plate B (2) are fixedly filled with sound insulation filling (12), which is rock wool.

3. A quick splicing type plate connecting mechanism according to claim 1, characterized in that: The splicing connection structure (3) includes a female splicing seat (30), a male splicing seat (301), a female splicing seat (302), a connecting groove (31), a splicing strip (32), a first connecting groove (33), a receiving groove (34), a splicing groove (35), and a second connecting groove (36). Plate A (1) and plate B (2) are spliced ​​together through the splicing connection structure (3).

4. A quick splicing type plate connecting mechanism according to claim 3, characterized in that: The splicing strip (32) and the splicing groove (35) are matched in size. The splicing strip (32) is inserted into the inside of the splicing groove (35). The cross-sections of the splicing strip (32) and the splicing groove (35) are both set in a dovetail shape.

5. A quick splicing type plate connecting mechanism according to claim 3, characterized in that: The sub-splicing base (302) includes a first connecting base (37), a shaped plate (38), and a second connecting base (39). The first connecting base (37) is fixedly provided at one end of the shaped plate (38), and the second connecting base (39) is fixedly provided at the other end of the shaped plate (38).

6. A quick splicing type plate connecting mechanism according to any one of claims 3 or 5, characterized in that: The sub-splicing seat (302) has an "I" shaped cross section. The splicing strip (32) is inserted into the splicing groove (35) and reinforced by the sub-splicing seat (302).

7. A quick splicing type plate connecting mechanism according to claim 5, characterized in that: The first connecting seat (37) is adapted to the size of the first connecting groove (33), the second connecting seat (39) is adapted to the size of the second connecting groove (36), the irregular plate (38) is adapted to the size of the connecting groove (31) and the receiving groove (34), the first connecting seat (37) is inserted into the inside of the first connecting groove (33), the second connecting seat (39) is inserted into the inside of the second connecting groove (36), and the irregular plate (38) is inserted into the inside of the connecting groove (31) and the receiving groove (34) respectively.