阅读说明：本技术 一种天花扣板 (Ceiling buckle plate ) 是由 蒋中成 于 2019-11-27 设计创作，主要内容包括：一种天花扣板,包括天花扣板面板、设置在天花扣板面板四边的镶嵌竖板,天花扣板面板、镶嵌竖板用不锈钢板或者铝板整体弯折或冲压而成,其特征在于天花扣板面板上通过粘合层铺贴有非金属层或金属板。本发明与已有技术相比,具有刚性强、隔音及保温效果好的优点。(The utility model provides a smallpox buckle, includes smallpox buckle panel, sets up the riser of inlaying at smallpox buckle panel four sides, smallpox buckle panel, inlay the riser and form with corrosion resistant plate or the whole bending type of aluminum plate or punching press, has laid non-metal layer or metal sheet through the bond line on its characterized in that smallpox buckle panel. Compared with the prior art, the invention has the advantages of strong rigidity and good sound insulation and heat preservation effects.)

1. The utility model provides a smallpox buckle, includes smallpox buckle panel, sets up the riser of inlaying at smallpox buckle panel four sides, smallpox buckle panel, inlay the riser and form with corrosion resistant plate or the whole bending of aluminum plate or punching press, and its characterized in that smallpox buckle is laid through the bond line and is pasted the non-metal layer on the panel again after the shaping.

2. The ceiling gusset of claim 1, wherein the non-metallic layer is a PVC plate or a PVC film and is applied to the outer surface of the ceiling gusset panel, the PVC plate or PVC film having a pattern formed on the outer surface.

3. The utility model provides a smallpox buckle, includes smallpox buckle panel, sets up the riser of inlaying at smallpox buckle panel four sides, smallpox buckle panel, inlay the riser and form with corrosion resistant plate or the whole bending type of aluminum plate or punching press, and its characterized in that smallpox buckle is laid through the bond line and is pasted the metal sheet on the panel again after the shaping.

4. The ceiling gusset plate of claim 3, wherein the metal plate is one of an aluminum plate, a stainless steel plate, an iron plate and a copper plate, and is attached to the outer surface of the ceiling gusset plate panel, and the outer surface of the metal plate is patterned by a pattern processing technique including die pressing, printing and the like.

Technical Field

The invention relates to a ceiling technology.

Background

The existing ceiling buckle plate is generally formed by integrally bending a metal plate (such as an aluminum alloy plate and a stainless steel plate), in order to reduce the dead weight and control the manufacturing cost, the thickness of the metal plate is generally thinner, although the rigidity of the metal plate can be improved by processing reinforcing ribs on the surface of the plate, the metal plate is easy to deform due to insufficient rigidity, and moreover, patterns are required to be arranged on the plate surface, so that the reinforcing ribs cannot be randomly arranged to improve the rigidity of the plate surface, and the rigidity of the plate surface is insufficient. Although patent CN201821583063.4 adopts the technique of bending the composite board to manufacture the ceiling buckle plate, because the ceiling buckle plate needs to be integrally processed and bent, the composite board can only adopt bendable material (for example, two metal plates are combined or the surface of the metal plate is coated with a film, depending on the material properties, the heat preservation and rigidity are still insufficient.

Disclosure of Invention

The invention aims to provide a ceiling buckle plate which is made of multilayer materials and has strong rigidity and good sound insulation and heat preservation effects.

The first scheme is as follows: the ceiling buckle plate comprises a ceiling buckle plate panel and embedded vertical plates arranged on the four sides of the ceiling buckle plate panel, wherein the ceiling buckle plate panel and the embedded vertical plates are formed by integrally bending or punching stainless steel plates or aluminum plates.

After the ceiling buckle plate is formed, the non-metal layer is paved and adhered on the panel through the bonding layer, and the non-metal layer with enough thickness can be paved and adhered, even the non-metal plate can be paved and adhered, so that the rigidity of the panel is enhanced, and meanwhile, under the combined action of the bonding layer and the non-metal layer, the ceiling buckle plate has the effects of sound insulation and heat preservation.

Here, the non-metallic layer is laid on the inside surface of the ceiling gusset panel.

Non-metallic layers are defined herein to mean non-metallic materials, including inorganic materials, organic materials, of course, including plastics, etc. inorganic materials include cement, glass, ceramics, etc. For example, an organic material PVC film or plate is spread on the outer surface of the ceiling buckle plate panel, and the outer surface of the PVC film or plate is processed with patterns. By adopting the PVC film or the plate, pattern colors including three-dimensional patterns can be processed on the outer surface of the PVC film or the plate through the processes of die pressing, printing and the like, so that the pattern design of the outer surface of the ceiling buckle plate panel is effectively enriched.

Scheme II: the ceiling buckle plate comprises a ceiling buckle plate panel and embedded vertical plates arranged on the four sides of the ceiling buckle plate panel, wherein the ceiling buckle plate panel and the embedded vertical plates are formed by integrally bending or punching stainless steel plates or aluminum plates.

The metal plate is made of aluminum plate, stainless steel plate, iron plate, etc. and is spread on the outer surface of the ceiling buckle plate, and the outer surface of the metal plate is processed with patterns through pattern processing technology including die pressing and printing. Because the metal plate with the patterns is paved and adhered on the ceiling buckle plate panel, pattern colors including three-dimensional patterns can be conveniently processed on the outer surface of the metal plate by adopting various processes such as die pressing, printing and the like before paving and adhering, thereby effectively enriching the pattern design of the outer surface of the ceiling buckle plate panel.

Compared with the prior art, the invention has the advantages of strong rigidity and good sound insulation and heat preservation effects.

Drawings

FIG. 1 is a schematic structural view of the present invention;

figure 2 is a partial cross-sectional view of a ceiling gusset panel.

Detailed Description

The present invention will now be described in further detail with reference to examples:

the first scheme is as follows: the invention is realized as the following by the invention shown in the figures 1 and 2, and comprises a ceiling buckle plate panel 1 and inlaid vertical plates 2 arranged on the four sides of the ceiling buckle plate panel 1, wherein the ceiling buckle plate panel 1 and the inlaid vertical plates 2 are formed by integrally bending or punching stainless steel plates or aluminum plates, and as shown in the figure 2, the invention is characterized in that a non-metal layer 4 is laid on the panel 1 through an adhesive layer 3 after the ceiling buckle plate is formed.

The non-metal layer 4 is applied to the inner surface of the ceiling gusset panel 1.

For example, the non-metal layer 4 is a PVC film and is paved on the outer surface of the ceiling buckle panel 1, and the outer surface of the PVC film 4 is processed with patterns.

Scheme II: the scheme is that on the basis of the scheme I, the non-metal layer 4 is replaced by a metal plate.

The metal plate (such as an aluminum plate, a stainless steel plate, an iron plate, a copper plate and the like) is laid on the outer surface of the ceiling buckle plate panel 1, and the outer surface of the metal plate is processed with patterns through a pattern processing technology including mould pressing and printing.