CN113073779A - Clamping and inserting type splicing assembly and mounting method - Google Patents

Abstract

The invention provides a card-inserting type splicing assembly, which is used for splicing aluminum honeycomb panels into a whole and comprises: the connecting piece is provided with an inserting groove and a first binding surface which is connected to one side surface of the aluminum honeycomb panel in a bonding mode; the splicing piece is provided with a buckling part inserted into the inserting groove, so that when the two aluminum honeycomb plates are respectively connected to the two connecting pieces, the buckling part can be clamped and connected with the inserting groove to enable the two adjacent aluminum honeycomb plates to be spliced and fixed. This card formula concatenation subassembly need not to handle aluminium honeycomb panel's limit portion, avoids direct damaged aluminium honeycomb panel structure. The installation is convenient and fast, and the disassembly is convenient; the plate loss rate is reduced and the cost is reduced by installation.

Description

Clamping and inserting type splicing assembly and mounting method

Technical Field

The invention relates to the field of panel installation, in particular to a clamping and inserting type splicing assembly.

Background

With the promotion of factory production and modularized installation in the field of architectural decoration, the application of the light-weight high-strength aluminum honeycomb panel in indoor decoration is wider and wider. The aluminum honeycomb panel is a plate for suspended ceilings, which is formed by compounding a double-sided aluminum skin and an aluminum honeycomb core at a high temperature, and is more and more favored by owners in recent years due to excellent performance; the existing market mostly adopts the form of bright lines and frame combination to carry out single-block installation, has single structure and is not beautiful, has no good solution scheme on edge treatment and splicing of two decorative panels, is suitable for aluminum honeycomb panels at different positions of a suspended ceiling in the processing process and needs to carry out different processing procedures, and has complex working procedures; because of its aluminium skin thickness can influence its price, for reduce cost, the aluminium honeycomb panel that is applicable to the furred ceiling on the market is all thinner, can cause a large amount of panel losses because of aluminium honeycomb panel limit portion is weak in the installation.

For example, the conventional patent document CN 207931211U discloses an aluminum honeycomb panel structure, in which a solid mounting plate layer is disposed on a mounting side surface of the aluminum honeycomb panel, so that when the aluminum honeycomb panel needs to be spliced with other panels, the aluminum honeycomb panel can be mounted by directly screwing on the solid mounting plate layer, which greatly facilitates the mounting and use of the aluminum honeycomb panel; and the solid installation sheet layer has also improved the installation intensity of aluminum honeycomb panel side, avoids aluminum honeycomb panel to appear the phenomenon that breaks away from after the installation with other panel concatenations, guarantees aluminum honeycomb panel's installation quality. But be difficult to guarantee the uniformity of concatenation gap when splicing adjacent aluminum honeycomb panel, need make the mark in advance on aluminum honeycomb panel in order to guarantee the uniformity of concatenation clearance in the concatenation, this operating procedure is loaded down with trivial details, reduces the efficiency of construction.

Disclosure of the invention

The invention aims to provide a card-inserting type splicing assembly which is used for splicing aluminum honeycomb panels into a whole, wherein a connecting piece is directly bonded on the aluminum honeycomb panels in advance in a bonding mode, and then the adjacent aluminum honeycomb panels are spliced by the card-inserting connection of the connecting piece and the splicing piece.

In order to achieve the above object, the present invention provides a card-insertion type splicing assembly for splicing aluminum honeycomb panels into a whole, the card-insertion type splicing assembly comprising: the connecting piece is provided with an inserting groove and a first binding surface which is connected to one side surface of the aluminum honeycomb panel in a bonding mode; the splicing piece is provided with a buckling part inserted into the inserting groove, so that when the two aluminum honeycomb plates are respectively connected to the two connecting pieces, the buckling part can be clamped and connected with the inserting groove to enable the two adjacent aluminum honeycomb plates to be spliced and fixed.

The invention has the following excellent technical scheme: the buckling part comprises a first buckling part and a second buckling part which are respectively inserted into the two inserting grooves, and a partition plate is arranged between the first buckling part and the second buckling part, so that when two adjacent aluminum honeycomb plates are buckled on the first buckling part and the second buckling part through the connecting piece, a reserved gap is formed between the two adjacent aluminum honeycomb plates.

The invention has the following excellent technical scheme: the first buckling part comprises a first buckle inserted into the insertion groove, the insertion groove is provided with a first insertion wall and a second insertion wall, and two sides of the first buckle are provided with limiting grooves for accommodating and installing the first insertion wall and the second insertion wall.

The invention has the following excellent technical scheme: the first plug wall and the second plug wall are respectively provided with two opposite limiting bulges so that the first buckle is limited and clamped when being inserted into the plug groove.

The invention has the following excellent technical scheme: the inserting grooves and the first buckles are at least two.

The invention has the following excellent technical scheme: an inserting gap is formed between every two adjacent inserting grooves, and an inserting line strip used for being inserted into the inserting gap is arranged between every two adjacent first buckles.

The invention has the following excellent technical scheme: the end part of the limiting protrusion is spherical, and the end part of the first buckle is provided with an arc-shaped transition surface, so that the first buckle is inserted into the insertion groove in a sliding manner.

The invention has the following excellent technical scheme: an elastic gap used for allowing the limiting protrusions to generate elastic deformation when the first buckle extrudes the limiting protrusions is arranged between the limiting protrusions and the bottom of the insertion groove, and the elastic deformation degree is that the first buckle can enter the insertion groove through an inlet formed by the two limiting protrusions in a surrounding mode.

The invention has the following excellent technical scheme: the first binding surface is provided with an adhesive overflow groove.

The invention also provides an installation method of the clamping-inserting type splicing assembly; the method comprises the following steps:

s1, coating adhesive glue on one side surface of the aluminum honeycomb panel to enable the first binding surface of the connecting piece to be bonded on the aluminum honeycomb panel, and repeating the bonding step to enable the two aluminum honeycomb panels to be respectively bonded with the connecting piece;

and S2, inserting the buckling parts into the inserting grooves of the two connecting pieces in the S1 to ensure that the two aluminum honeycomb plates are spliced and fixed into a whole.

In this scheme, the connecting piece is connected on aluminium honeycomb panel through the mode that bonds, has the inserting groove on the connecting piece, and aluminium honeycomb panel passes through the structural feature that the connection realization aluminium honeycomb panel of connecting piece has the inserting groove, and the splice has the clamping part that inserts this inserting groove, and the card through inserting groove and clamping part is inserted and is connected the concatenation that realizes adjacent aluminium honeycomb panel.

And the buckling part comprises a first buckling part and a second buckling part which are respectively inserted into the two inserting grooves, a partition plate is arranged between the first buckling part and the second buckling part, so that the aluminum honeycomb plates are adjacent to each other and are respectively buckled in the first buckling part and the second buckling part through the connecting piece, a reserved gap is arranged between the aluminum honeycomb plates, the two adjacent aluminum honeycomb plates are kept in the same splicing gap when being spliced through the arrangement of the reserved gap, and the consistency of the whole gap is kept when the plurality of aluminum honeycomb plates are spliced.

First buckle portion is including inserting the first buckle of inserting the inserting groove, and the inserting groove has first grafting wall and second grafting wall, and first buckle both sides set up and hold the installation first grafting wall and the spacing groove of second grafting wall, and first buckle portion is connected through the mode buckle that mutual card was inserted with the inserting groove promptly and is made the buckle connect inseparabler.

The invention has the beneficial effects that:

the invention provides a clamping and inserting type splicing assembly which comprises a connecting piece provided with an inserting groove, wherein the connecting piece is connected to an aluminum honeycomb plate in a bonding mode, so that the aluminum honeycomb plate and the connecting piece are integrated, the aluminum honeycomb plate is loaded with the structural characteristics of the inserting groove, and the adjacent aluminum honeycomb plates are spliced into a whole by the splicing piece with a clamping part through the structural characteristics; this card formula concatenation subassembly only bonds on aluminium honeycomb panel through the connecting piece that has the inserting groove structure, need not to handle aluminium honeycomb panel's limit portion, avoids causing aluminium honeycomb panel's damage to avoid with the loss of building materials.

The buckle part of splicing part is for connecting the first buckle part and the second buckle part of two inserting grooves respectively, and sets up the baffle between first buckle part and the second buckle part to make two adjacent aluminium honeycomb panels pass through respectively the connecting piece buckle is provided with the reservation clearance between two adjacent aluminium honeycomb panels when first buckle part and second buckle part, and the aluminium honeycomb panel that splices can be guaranteed in this reservation clearance and splice the uniformity in clearance each other, improves the regularity of whole concatenation.

Drawings

FIG. 1 is a front view of a card-insertion type splicing assembly according to an embodiment of the present invention;

FIG. 2 is a block diagram of a splice according to an embodiment of the present invention;

FIG. 3 is a structural view of an aluminum honeycomb panel according to an embodiment of the present invention;

FIG. 4 is a flow chart illustrating an installation process of a card-insertion type splicing assembly according to an embodiment of the present invention;

in the figure: 1. an aluminum honeycomb panel; 2. a connecting member; 21. inserting grooves; 211. a first socket wall; 212. a second socket wall; 213. a limiting bulge; 214. an elastic gap; 22. a first binding surface; 221. a glue overflow groove; 23. a splicing gap; 3. splicing pieces; 31. a fastening part; 311. a first fastening part; 312. a second fastening part; 32. a partition plate; 33. a first buckle; 34. a limiting groove; 35. and inserting the wire strips.

Detailed Description

The present invention will be described in further detail with reference to examples, which are not intended to limit the technical scope of the present invention. Those skilled in the art can appreciate from the disclosure of the present invention that other objects can be achieved by appropriately changing the structure, process conditions and the like without departing from the scope of the present invention, and all such changes and modifications as would be obvious to one skilled in the art are intended to be included within the scope of the present invention.

In order to better explain the invention, the following further illustrate the main content of the invention in connection with specific examples, but the content of the invention is not limited to the following examples.

Example 1

As shown in fig. 1, 2 and 3, the formula concatenation subassembly is inserted to card of this scheme embodiment for splice aluminium honeycomb panel in an organic whole, include: the connecting piece 2 is provided with an inserting groove 21 and a first binding surface 22 which is connected to one side surface of the aluminum honeycomb panel 1 in a bonding mode; splice 3 has the buckle portion 31 that inserts inserting groove 21 to make when two aluminium honeycomb panels 1 connect respectively in two connecting pieces 2, buckle portion 31 can the card insert connect inserting groove 21 makes two adjacent aluminium honeycomb panels 1 splice fixedly. Specifically, aluminium honeycomb panel 1 is through bonding with connecting piece 2 and forming an organic wholely, make 1 load of aluminium honeycomb panel have the structural feature of inserting groove 21, so that the mode that aluminium honeycomb panel 1 can the grafting buckle assembles, splice 3 has the clamping part 31 of inserting groove 21, so that two adjacent loads have the aluminium honeycomb panel 1 card of inserting groove 21 to insert on splice 3, in order to realize adjacent aluminium honeycomb panel 1's concatenation, this operation process is simple, only need adopt the mode of pasting to make up aluminium honeycomb panel 1 and connecting piece 2, need not to carry out fluting or the processing of punching to aluminium honeycomb panel 1's limit portion, avoid the aluminium honeycomb panel 1 structure damage that from this produces, adjacent aluminium honeycomb panel 1 adopts the mode of card insertion respectively the card to insert on splice 3 simultaneously, mutual concatenation process noninterfere.

As shown in fig. 2, the fastening portion 31 includes a first fastening portion 311 and a second fastening portion 312 respectively inserted into the two inserting slots 21, and a partition plate 32 is disposed between the first fastening portion 311 and the second fastening portion 312, so that when two adjacent aluminum honeycomb panels 1 are fastened to the first fastening portion 311 and the second fastening portion 312 through the connecting member 2, a reserved gap is disposed between the two adjacent aluminum honeycomb panels 1. Specifically, the fastening portion 31 of the splicing element 3 is a first fastening portion 311 and a second fastening portion 312, which are respectively inserted into the two adjacent connecting elements 2, and a partition plate 32 is arranged between the first fastening portion 311 and the second fastening portion 312, and the partition plate 32 is used for setting a barrier between the two adjacent aluminum honeycomb panels 1, so that the two adjacent aluminum honeycomb panels 1 are kept at a fixed distance after being spliced.

The first locking portion 311 includes a first locking tab 33 inserted into the insertion groove 21, the insertion groove 21 has a first insertion wall 211 and a second insertion wall 212, and two sides of the first locking tab 33 are provided with a limiting groove 34 for accommodating and mounting the first insertion wall 211 and the second insertion wall 212. That is, the first buckle 33 of the first buckle part 311 is accommodated in the insertion groove 21, and the first insertion wall 211 and the second insertion wall 212 of the insertion groove 21 are also accommodated in the limit groove 34 of the first buckle part 311, and the first buckle part 311 and the insertion groove 21 are mutually limited and clamped, so that the two parts are difficult to separate, and the tightness of the buckle is enhanced.

The first insertion wall 211 and the second insertion wall 212 are respectively provided with two opposite limiting protrusions 213 so that the first latch 33 is limited and clamped when being inserted into the insertion groove 21. In order to further improve the clamping tightness between the first buckle 33 and the insertion groove 21, the side wall of the insertion groove 21 is provided with a limiting protrusion 213 so as to reduce the notch of the insertion groove 21, so that the first buckle 33 is difficult to pull out after being inserted into the insertion groove 21.

At least two insertion grooves 21 and at least two first buckles 33 are arranged respectively. The more the number of the mutual card insertion of the further insertion grooves 21 and the first buckles 33 is, the tighter the snap connection between the splicing piece 3 and the connecting piece 2 is, and the more favorable the splicing stability is achieved by adopting the insertion combination of at least two groups of insertion grooves 21 and the first buckles 33 for improving the connection tightness.

An inserting gap 23 is arranged between two adjacent inserting grooves 21, and an inserting line 35 for inserting the inserting gap 23 is arranged between two adjacent first buckles 33. Furthermore, an insertion gap is formed between adjacent insertion grooves 21, which is beneficial to the first insertion wall 211 or the second insertion wall 212 of the insertion groove 21 to be extruded and shifted in the process of being inserted and extruded by the first buckle 33, and the insertion gap can be used as a shift space when the first insertion wall 211 or the second insertion wall 212 shifts, and after the wire strip 35 to be inserted is inserted into the insertion gap, the wire strip 35 can extrude the first insertion wall 211 or the second insertion wall 212 to generate a trend of reducing the force of the notch of the insertion groove 21, so that the first buckle 33 is difficult to be pulled out from the insertion groove 21.

The end of the limiting protrusion 213 is spherical, and the end of the first catch 33 has an arc-shaped transition surface so that the first catch 33 is slidably inserted into the insertion groove 21. Because set up in the inserting groove 21 in order to reduce the spacing protruding 213 of notch, can there be the resistance when first buckle 33 inserts, insert inserting groove 21 for convenience, set up this spacing protruding 213's tip into globular, the tip of first buckle 33 also sets up to the arc transition face simultaneously, so that the arc makes to change to insert to spherical extrusion contact, simultaneously because spherical stress bearing performance is good, pull out the difficult emergence extrusion deformation of inserting the spherical spacing protruding 213 of in-process at extrusion many times, be favorable to improving and pull out and insert the use number of times, so that reuse in the future.

An elastic gap 214 for allowing the limiting protrusion 213 to elastically displace when the first buckle 33 extrudes the limiting protrusion 213 is disposed between the limiting protrusion 213 and the bottom of the insertion groove 21, so that the limiting protrusion 213 elastically displaces to expand the distance between the two limiting protrusions 213, thereby facilitating the insertion of the first buckle 33 into the insertion groove 21. In order to further reduce the resistance problem of the first latch 33 passing over the limiting protrusion 213 to be inserted into the insertion groove 21, an elastic gap 214 is provided between the limiting protrusion 213 and the bottom of the insertion groove 21, so that the limiting protrusion 213 can elastically deflect under the pressing action of the first latch 33 to expand the slot opening of the insertion groove 21, thereby facilitating the insertion of the first latch 33 into the insertion groove 21.

The first bonding surface 22 is provided with a glue overflow groove 221. Being connected through the mode of pasting between aluminium honeycomb panel 1 and the connecting piece 2, for the compactness that improves the bonding, set up on the first binding face 22 of connecting piece 2 and overflow gluey groove 221 so that the adhesive can hold and make first binding face 22 keep powerful laminating power on aluminium honeycomb panel 1 in this overflows gluey groove, in order to improve connection stability between them.

An installation method of the embodiment of the scheme; the method comprises the following steps:

s1, coating adhesive glue on one side surface of the aluminum honeycomb panel 1 to enable the first binding surface 22 of the connecting piece 2 to be bound on the aluminum honeycomb panel 1, and repeating the binding step to enable the two aluminum honeycomb panels 1 to be respectively bound and loaded with the connecting pieces 2;

and S2, inserting the buckling parts 31 into the inserting grooves 21 of the two connecting pieces 2 in the S1, so that the two aluminum honeycomb plates 1 are spliced and fixed into a whole.

By adopting the assembly mode of the scheme, the aluminum honeycomb panel 1 can be quickly spliced into a whole, and the splicing assembly is convenient and quick to install and disassemble; the plate loss rate is reduced and the cost is reduced by installation.

The embodiments of the present invention have been described for illustrative purposes, but the description is only for the preferred embodiments of the present invention and should not be construed as limiting the scope of the invention. All equivalent changes and modifications within the scope of the application of the present invention shall fall within the scope of the patent of the present invention.

Claims (10)

1. The utility model provides a card formula concatenation subassembly of inserting for splice aluminium honeycomb panel (1) in an organic whole, its characterized in that, card formula concatenation subassembly includes: the connecting piece (2) is provided with a plug-in groove (21) and a first binding surface (22) which is connected to one side surface of the aluminum honeycomb plate (1) in a bonding mode; the splicing piece (3) is provided with a buckling part (31) inserted into the inserting groove (21), so that when the two aluminum honeycomb plates (1) are respectively connected to the two connecting pieces (2), the buckling part (31) can be clamped and connected with the inserting groove (21) to enable the two adjacent aluminum honeycomb plates (1) to be spliced and fixed.

2. The card-insertion type splicing assembly according to claim 1, wherein: the buckling part (31) comprises a first buckling part (311) and a second buckling part (312) which are respectively inserted into the two inserting grooves (21), a partition plate (32) is arranged between the first buckling part (311) and the second buckling part (312), so that when the two adjacent aluminum honeycomb panels (1) are buckled on the first buckling part (311) and the second buckling part (312) through the connecting piece (2), a reserved gap is formed between the two adjacent aluminum honeycomb panels (1).

3. The card-insertion type splicing assembly according to claim 2, wherein: the first buckling part (311) comprises a first buckle (33) inserted into the insertion groove (21), the insertion groove (21) is provided with a first insertion wall (211) and a second insertion wall (212), and two sides of the first buckle (33) are provided with limiting grooves (34) for accommodating and installing the first insertion wall (211) and the second insertion wall (212).

4. The card-insertion type splicing assembly according to claim 3, wherein: the first plug-in wall (211) and the second plug-in wall (212) are respectively provided with two opposite limiting bulges (213) so that the first buckle (33) is limited and clamped when being inserted into the plug-in groove (21).

5. The card-insertion type splicing assembly according to claim 3, wherein: the number of the inserting grooves (21) and the number of the first buckles (33) are at least two.

6. The card-insertion type splicing assembly according to claim 5, wherein: an inserting gap (23) is formed between every two adjacent inserting grooves (21), and an inserting line strip (35) used for being inserted into the inserting gap (23) is arranged between every two adjacent first buckles (33).

7. The card-insertion type splicing assembly according to claim 4, wherein: the end part of the limiting protrusion (213) is spherical, and the end part of the first buckle (33) is provided with an arc transition surface, so that the first buckle (33) is inserted into the insertion groove (21) in a sliding manner.

8. The card-insertion type splicing assembly according to claim 7, wherein: an elastic gap (214) for enabling the limiting protrusion (213) to elastically deform when the first buckle (33) extrudes the limiting protrusion (213) is arranged between the limiting protrusion (213) and the bottom of the insertion groove (21); the degree of the elastic deformation is that the first buckle (33) can enter the insertion groove (21) through an inlet surrounded by the two limiting protrusions (213).

9. The card-insertion type splicing assembly according to claim 1, wherein: the first binding surface (22) is provided with an adhesive overflow groove (221).

10. The method of installing a card-plug assembly according to any one of claims 1-9; the method is characterized by comprising the following steps:

s1, coating adhesive glue on one side surface of the aluminum honeycomb panel (1) to enable the first binding surface (22) of the connecting piece (2) to be bonded on the aluminum honeycomb panel (1), and enabling the two aluminum honeycomb panels (1) to be respectively bonded and loaded with the connecting piece (2);

s2, inserting the buckling parts (31) into the inserting grooves (21) of the two connecting pieces (2) in the S1, and enabling the two aluminum honeycomb panels (1) to be spliced and fixed into a whole.

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