CN222976285U - Composite panel, table panel and wall panel - Google Patents

Abstract

The application provides a composite panel, a table panel and a wall panel, wherein the composite panel comprises a decorative surface layer and a reinforcing material layer, the reinforcing material layer is specifically arranged on one side of the decorative surface layer in the thickness direction, the reinforcing material layer is adhered and fixed with the decorative surface layer through glue to form a composite board, one side of the composite board, which is away from the decorative surface layer, is provided with a functional groove, and the functional groove penetrates through the thickness direction of the reinforcing material layer and extends to the decorative surface layer to accommodate redundant glue after the reinforcing material layer is adhered with the decorative surface layer. According to the application, the structural strength and the shock resistance of the composite panel are improved by optimizing the structural form of the composite panel, and the production and use costs of the composite panel are effectively reduced.

Description

Composite panel, deck plate and wall panel

Technical Field

The application relates to the technical field of laminated composite boards, in particular to a composite panel, a deck panel and a wall panel.

Background

Along with the continuous progress of material science and production technology, the building decoration industry continuously develops, and the decoration panel is widely applied to the construction of indoor wall surfaces, household table tops and the like so as to improve the overall aesthetic feeling of the building.

At present, materials used as decoration panels in the industry, such as rock plates, natural stone materials, glass and the like, are more expensive along with the improvement of color and quality, and after the corresponding materials are processed into the decoration panels, the structure strength and the impact resistance of the decoration panels are poor due to large area and thin thickness, and the decoration panels are easy to break and break in the installation and use processes, so that the use cost of the decoration panels is higher. Therefore, research on how to improve the structural strength and the impact resistance of the decoration panel reduces the use cost of the decoration panel, and the development of the decoration panel industry is greatly influenced.

Disclosure of utility model

The application aims to provide a composite panel, a deck plate and a wall panel, which can improve the structural strength and the shock resistance of the composite panel and effectively reduce the use cost by optimizing the structural form.

The technical scheme provided by the application is as follows:

in one aspect, the present application provides a composite panel comprising:

a decorative surface layer;

The reinforcing material layer is arranged on one side of the thickness direction of the decorative surface layer, is adhered and fixed with the decorative surface layer through glue, and forms a composite board;

One side of the composite board, which is away from the decorative surface layer, is provided with a functional groove, and the functional groove penetrates through the thickness direction of the reinforcing material layer and extends to the decorative surface layer, and is used for accommodating the redundant glue after the reinforcing material layer is bonded with the decorative surface layer.

The composite panel provided by the application has the advantages that the structural strength and the impact resistance of the decoration panel are improved by covering the decoration surface layer with the reinforcing material layer, the breakage probability of the composite panel in the production and use processes is effectively reduced, meanwhile, the functional groove is arranged, when the decoration surface layer and the reinforcing material layer are bonded through glue in the actual production process, redundant glue between the decoration surface layer and the reinforcing material layer flows into the functional groove, the glue between the decoration surface layer and the reinforcing material layer is promoted to flow fully, so that the finished product of the composite panel tends to be flat, the stability of the reinforcing material layer supporting the decoration surface layer at each position is further improved, the impact resistance and the cracking resistance of the decoration surface layer are further improved, the structural strength of the composite panel is further improved, the breakage probability of the corresponding composite panel in the transportation, installation, use and other processes is remarkably reduced, the cost of the corresponding composite panel is lower, the comprehensive performance is better, meanwhile, the production process of the composite panel is simple and easy to operate, the production convenience of the composite panel is effectively ensured, the production cost of the composite panel is further effectively promoted, and the forward development of the decoration surface is further promoted.

In some embodiments, the functional groove is provided at an edge of the composite plate and extends along a length direction of the composite plate.

According to the composite panel provided by the application, the functional groove is formed at the edge of the composite board, so that the composite panel can be simultaneously suitable for different application scenes (for example, when the composite panel is used as a panel, one side of the composite panel forming functional groove is arranged at one side of the panel supporting cabinet body close to an operation area, so that the functional groove is used as a drip groove, and as the redundant glue flows into the functional groove, gaps between the decorative surface layer and the reinforcing material layer in the functional groove are blocked, the situation that water stains and the like above the panel flow down along the edge of the panel and spread to the supporting cabinet body is effectively reduced, the service life of the corresponding panel is further prolonged, the user experience is improved, and for example, when the composite panel is used as a wall panel, the connecting fastener matched with the supporting fastener on a wall body is arranged in the functional groove, the upper wall installation of the corresponding composite panel is realized, the application range of the composite panel is enlarged, the purpose-made property is reduced, and in the installation process, after the corresponding composite panel used as the panel, the panel is damaged, a user can use other corresponding composite panel used as a wall panel or a wall panel, and the like, the corresponding composite panel is further customized, and the corresponding production cost is further reduced, and the corresponding composite panel is further improved.

In some embodiments, the reinforcing material layer is provided with a glue accommodating cavity for accommodating the excess glue after the decorative surface layer is bonded with the reinforcing material layer;

The reinforcing material layer penetrates through the reinforcing material layer, a plurality of through holes are formed in the thickness direction of the reinforcing material layer, the through holes are uniformly distributed in the middle of the surface of the reinforcing material layer, and the glue accommodating cavity is formed in the position between the inner wall of the through hole and the decorative surface layer.

According to the composite panel provided by the application, the glue accommodating cavity is formed by the through holes formed in the reinforcing material layer and the side wall of the decorative surface layer, and when the decorative surface layer and the reinforcing material layer are bonded by glue, the redundant glue between the decorative surface layer and the reinforcing material layer directly flows into the glue accommodating cavity, so that the sufficient flow of the glue between the decorative surface layer and the reinforcing material layer is further promoted, the glue layer between the decorative surface layer and the reinforcing material layer tends to be more flat after solidification, the stability of the reinforcing material layer supporting the decorative surface layer everywhere is effectively improved, the decorative surface layer everywhere is uniformly stressed, the impact resistance and the cracking resistance of the composite panel are further improved, and the integral structural strength of the composite panel is further improved.

Meanwhile, the glue accommodating cavity is formed on the reinforcing material layer in an opening mode, the production process of the composite panel is simple and easy to operate, the production convenience of the composite panel is further guaranteed, and the production cost of the composite panel is stably reduced.

In some embodiments, the decorative surface layer is provided with first chamfers at positions corresponding to two sides of the functional groove in the width direction, and the first chamfers are arranged close to the reinforcing material layer;

The positions of the reinforcing material layer, which correspond to the two sides of the functional groove in the width direction, are provided with second chamfers, and the second chamfers are positioned on one side of the reinforcing material layer, which is close to the decorative surface layer;

The first chamfers are in one-to-one correspondence with the second chamfers, and are fixedly covered with the reinforcing material layer to form a filling groove, and the filling groove is used for containing redundant glue after the decoration surface layer is bonded with the reinforcing material layer.

According to the composite panel provided by the application, the filling groove is formed in the side wall of the functional groove, and the redundant glue after the decoration surface layer and the reinforcing material layer are adhered flows into the filling groove instead of directly flowing into the functional groove, so that on one hand, the distance between the opening of the functional groove and a gap between the decoration surface layer and the reinforcing material layer is prolonged, the probability that water stains and the like flow into the gap between the decoration surface layer and the reinforcing material layer through the functional groove when the composite panel is used as a table panel is further reduced, and on the other hand, the flatness of the side wall of the functional groove is also kept, so that various fasteners are conveniently installed in the functional groove when the corresponding composite panel is used as a wall panel, and the stability of each use function of the corresponding composite panel is guaranteed. Simultaneously, through set up first chamfer, second chamfer respectively on decorative cover and reinforcing material layer to form the filling groove after the amalgamation, the shaping mode in filling groove is simple, helps further promoting composite panel's production convenience.

In some embodiments, the decorative surface layer comprises any one of a natural stone layer, a rock plate layer, a ceramic layer, and a glass layer;

The reinforcing material layer comprises a metal sheet layer.

According to the composite panel provided by the application, any one of natural stone, rock plate, ceramic and glass is arranged as a decorative surface layer material, and the metal plate is arranged as a reinforcing material layer, so that the structural strength and the impact resistance of the composite panel are obviously improved while the attractiveness and the decoration are ensured, and the comprehensive performance of the composite panel is effectively improved.

In another aspect, the present application also provides a deck plate comprising any one of the composite deck plates described above,

The side of the composite panel, which is away from the reinforcing material layer, forms the front surface of the table panel, and the reinforcing material layer forms the supporting bottom plate of the table panel;

the composite panel is provided with a water tank avoiding hole in a penetrating manner in the thickness direction of the composite panel;

The functional groove is positioned on one side of the deck plate close to the operation area to serve as a water guiding groove.

When the composite panel is used as the panel, the reinforcing material layer stably supports the decorative surface layer, so that the structural strength of the corresponding panel is effectively improved, the shock resistance of the panel is enhanced, the cracking and breakage of the panel in the use process are effectively reduced, meanwhile, the probability of separating the decorative surface layer from the reinforcing material layer in the use process of the panel is effectively reduced due to the arrangement of the water pouring groove, the attractiveness and the use safety of the corresponding panel are ensured, the service life of the corresponding panel is effectively prolonged, the use cost of the corresponding panel is reduced, and the user experience is further stably improved.

In another aspect, the present application also provides a wall panel, including any one of the composite panels described above, further including:

The connecting fastener is arranged in the functional groove and is used for being matched with the connecting fastener of the wall surface so as to realize the wall mounting of the wall panel.

When the composite panel is applied to the wall panel, the structural strength and the impact resistance of the corresponding wall panel are stronger due to the reinforcing material layer supporting decoration surface layer, so that the probability of breakage in the processes of production, transportation, installation, use and the like is effectively reduced, the corresponding cost is lower, the comprehensive performance is higher, meanwhile, in the actual use process, the connecting fastener is installed in the functional groove, and the corresponding connecting fastener is matched with the supporting fastener of the wall body, so that the wall panel can be installed on the wall, the installation operation of the wall panel is simple and easy to realize, the use convenience of the wall panel is effectively improved, the use cost of the wall panel is further reduced, and the use experience of a user is ensured.

In some embodiments, the connecting fastener comprises a support plate and a hanging plate, the support plate is perpendicular to the hanging plate, and the support plate is arranged on one side of the hanging plate in the thickness direction and is connected to the middle part of the hanging plate in the width direction, so that the connecting fastener is in a T-shaped structure;

One end of the support plate, which is away from the hanging plate, extends into the functional groove along the length direction of the support plate and is fixedly connected with the inner wall of the functional groove;

The hanging plate is slidably embedded into the T-shaped groove of the supporting fastener of the wall body along the length direction of the hanging plate, and is in clamping fit with the supporting fastener along the extending direction of the supporting plate.

According to the wall panel provided by the application, the T-shaped connecting fastener is arranged, and the upper wall installation of the corresponding wall panel is realized by means of sliding clamping cooperation of the connecting fastener and the supporting fastener, so that the wall panel is simple in installation structure, convenient to operate and beneficial to further improving the construction convenience of the corresponding wall panel.

In some embodiments, the middle part of each side wall of the composite panel is provided with a mounting groove;

The wall panel also comprises splice plates, wherein the splice plates are used for respectively sliding and embedding two ends of each splice plate into the corresponding mounting grooves of two adjacent composite panels along the splicing direction when the adjacent composite panels are spliced, and the splice plates are respectively abutted against the bottom surfaces in the corresponding mounting grooves so as to fix the two adjacent spliced composite panels.

In some embodiments, the mounting groove comprises a first notch and a second notch, wherein the first notch and the second notch comprise two notches, and the two first notches are respectively arranged at two ends of the composite panel in the length direction;

When the adjacent composite panels are spliced in sequence along the length direction of the composite panels, the two ends of the length of the splice plate are respectively and slidably embedded into the corresponding first notch of the adjacent composite panel along the direction of the square of the composite panel until the two ends are respectively abutted against the bottom surfaces of the corresponding first notches;

When the adjacent composite panels are spliced in sequence along the width direction of the composite panel, the two ends of the length of the splice plate are respectively and slidably embedded into the corresponding second notch of the adjacent composite panel along the width direction of the composite panel until the two ends are respectively abutted against the bottom surface of the corresponding second notch.

According to the wall panel provided by the application, the mounting groove is formed in the side wall of the composite panel, and the splice plates are matched with the mounting groove in a plugging manner, so that the adjacent composite panels are spliced in sequence, the splicing structure is simple, the production and the assembly are convenient, and the production and the use costs are effectively reduced.

Compared with the prior art, the composite panel, the deck plate and the wall panel provided by the application have at least one of the following beneficial effects:

1. The application increases the structural strength and the shock resistance of the corresponding composite panel, namely the decorative panel, by covering the decorative surface layer with the reinforcing material layer, effectively reduces the breakage probability in the production, use and other processes, and simultaneously, the functional grooves are arranged, so that the corresponding composite panel can be simultaneously suitable for different application scenes, the application range is enlarged, the specificity is reduced, and the comprehensive performance of the corresponding composite panel is improved, thereby obviously reducing the production and use cost of the corresponding composite panel, namely the decorative panel, being beneficial to energy conservation and cost reduction of enterprises, improving the use experience of users and promoting the forward development of the decorative panel industry.

2. According to the application, the decorative surface layer and the reinforcing material layer are fixed through gluing, the through holes are formed in the reinforcing material layer to form the glue accommodating cavity, and the arrangement of the functional grooves and the filling grooves is combined, so that the corresponding composite panel can effectively reduce the probability of separating the upper decorative surface layer from the reinforcing material layer while improving the structural strength and the shock resistance of the composite panel, and further effectively ensure the stability of the integral structure of the composite panel. Meanwhile, the glue containing cavity, the functional groove and the filling groove are simple in forming mode, so that the production convenience of the composite panel is effectively guaranteed, and the production cost of the composite panel is further reduced.

Drawings

The above features, technical features, advantages and implementation modes of the present invention will be further described in the following description of preferred embodiments with reference to the accompanying drawings in a clear and understandable manner.

FIG. 1 is an isometric view of an embodiment of the present application that generally embodies the overall structure of the composite panel;

FIG. 2 is a left side view of a functional slot opening position according to an embodiment of the present application;

FIG. 3 is a state diagram of an embodiment of the present application primarily embodying the composite deck as a countertop;

FIG. 4 is a state diagram of an embodiment of the present application primarily embodying the composite panel as a wall panel;

FIG. 5 is a schematic axial view of a glue cavity and a functional groove according to an embodiment of the present application;

FIG. 6 is a schematic axial view of a through hole according to an embodiment of the present application;

FIG. 7 is a schematic illustration of an isometric view of an embodiment of the present application showing a form of filling slot opening;

FIG. 8 is a side view of an embodiment of the present application showing primarily the form of filling slot opening;

FIG. 9 is a side view of an embodiment of the application showing a functional slot in other forms;

FIG. 10 is a side view of an overall structure embodying essentially the drip structure of an embodiment of the present application;

FIG. 11 is an isometric view of an overall deck plate embodying substantially the entire structure of a deck plate according to an embodiment of the present application;

fig. 12 is an isometric view of an overall structure of a connecting fastener according to an embodiment of the present application.

Reference numerals illustrate:

1. decoration surface layer, 11, first chamfer, 12, mounting groove, 2, reinforcing material layer, 21, second chamfer, 3, functional groove, 4, glue containing cavity, 5, filling groove, 6, water groove avoiding hole, 7, connecting fastener, 71, support plate, 72, hanging plate, 8, splice plate;

100. water stain 200, a supporting cabinet body 300, a wall body 400 and a supporting fastener.

Detailed Description

In order to more clearly illustrate the embodiments of the present application or the technical solutions in the prior art, the following description will explain the specific embodiments of the present application with reference to the accompanying drawings. It is evident that the drawings in the following description are only examples of the application, from which other drawings and other embodiments can be obtained by a person skilled in the art without inventive effort.

For the sake of simplicity of the drawing, the parts relevant to the present application are shown only schematically in the figures, which do not represent the actual structure thereof as a product. Additionally, in order to simplify the drawing for ease of understanding, components having the same structure or function in some of the drawings are shown schematically with only one of them, or only one of them is labeled. Herein, "a" means not only "only this one" but also "more than one" case.

In the building decoration industry, the decoration panel is widely applied to the construction of indoor wall surfaces, household table tops and the like due to good decoration, wear resistance, corrosion resistance and the like. It is known that materials (such as rock board, natural stone, glass, etc.) used as decoration panels are more expensive along with the improvement of color and quality, however, after the corresponding materials are processed into the decoration panels, the structural strength and impact resistance of the finished decoration panels are poor due to the large overall area and thin thickness, and the decoration panels are easy to break and break in the installation and use processes.

In contrast, referring to fig. 1 to 4 of the drawings, in one embodiment, a composite panel is provided, which comprises a decoration surface layer 1 and a reinforcement material layer 2 parallel to each other, wherein the reinforcement material layer 2 is specifically arranged on one side of the decoration surface layer 1 in the thickness direction and is adhered and fixed with the decoration surface layer 1 through glue to form a composite board, one side of the composite board, which is away from the decoration surface layer 1, is provided with a functional groove 3, and the functional groove 3 penetrates through the thickness direction of the reinforcement material layer 2 and extends to the decoration surface layer 1, and is used for accommodating redundant glue after the reinforcement material layer 2 is adhered with the decoration surface layer 1.

The composite board is formed by covering the reinforcing material layer 2 with the decorative surface layer 1, the structural strength and the impact resistance of the composite board are obviously improved, the breakage rate of the composite board in the production and use processes is effectively reduced, and due to the functional groove 3, when the decorative surface layer 1 and the reinforcing material layer 2 are glued in the actual production process, redundant glue between the decorative surface layer 1 and the reinforcing material layer 2 flows into the functional groove 3, the glue between the decorative surface layer 1 and the reinforcing material layer 2 is promoted to flow fully, the finished product of the composite board tends to be smooth, the stability of the reinforcing material layer 2 at the position of the decorative surface layer 1 is effectively improved, the impact resistance and the cracking resistance of the decorative surface layer 1 are further improved, the structural strength of the composite board is improved, the breakage probability of the corresponding composite board in the transportation, installation and use processes is obviously reduced, the cost of the corresponding composite board is lower, the comprehensive performance is better, meanwhile, the production process of the composite board is simple, the operation is easy, the production convenience of the composite board is effectively guaranteed, and the production cost of the composite board is effectively reduced, and the forward development of the decoration industry is facilitated.

In one embodiment, the basis of the above-described embodiments is, in particular. In this embodiment of the present application, the decorative layer 1 and the reinforcing material layer 2 are both provided in a rectangular plate-like structure, so that the corresponding composite panel has a rectangular plate-like structure. Of course, according to the practical application, the shapes of the decorative surface layer 1 and the reinforcing material layer 2 can be adaptively adjusted, that is, the composite panel can be set to other shapes, and the shapes of the decorative surface layer 1 and the reinforcing material layer 2 are not particularly limited in the embodiment of the application. This embodiment of the application will be described with respect to a rectangular shape of the composite panel.

In addition, in the embodiment of the application, the decorative surface layer 1 can be any one of a natural stone layer, a rock plate layer, a ceramic layer and a glass layer, and the reinforcing material layer 2 can be a metal plate layer, so that the structural strength and the production convenience of the corresponding composite panel are stably improved while the decorative performance of the corresponding composite panel is ensured. Of course, according to practical needs, the decorative surface layer 1 and the reinforcing material layer 2 may be made of other materials, and the materials for setting the decorative surface layer 1 and the reinforcing material layer 2 are not particularly limited in the embodiment of the present application. This embodiment of the application will be described only by taking the example in which the decorative layer 1 is provided as a natural stone layer and the reinforcing material layer 2 is provided as a metal plate layer.

Meanwhile, referring to fig. 2 and 5, a glue accommodating cavity 4 is formed on the reinforcing material layer 2, and the glue accommodating cavity 4 is used for accommodating excessive glue between the decorative surface layer 1 and the reinforcing material layer 2. Specifically, in this embodiment of the present application, the reinforcing material layer 2 is provided with a plurality of through holes penetrating through its thickness direction, the plurality of through holes are adapted to the shape of the composite panel and are uniformly distributed on the board surface of the reinforcing material layer 2 at intervals in a matrix form, and after the decorative surface layer 1 is bonded with the reinforcing material layer 2, the glue accommodating cavity 4 is formed at a position of the decorative surface layer 1, which is close to the side wall of the reinforcing material layer 2 and is surrounded by the inner wall of the through hole.

In this embodiment of the application, referring to fig. 5, the through holes are provided as round holes, and when the reinforcing material layer 2 is bonded to the decorative surface layer 1, the excess glue between the two is uniformly led out from the round holes at the corresponding positions. Of course, the through holes may be configured as waist-shaped holes, rectangular holes, or other corresponding hole structures according to the specific application, which is not particularly limited by the embodiment of the present application.

Referring to fig. 6, a specific case when the through hole is opened as a waist-shaped hole is illustrated, the length direction of the waist-shaped hole is parallel to the length direction of the reinforcing material layer 2, or the length direction of the waist-shaped hole is parallel to the width direction of the reinforcing material layer 2, or the length direction of a part of the waist-shaped hole is parallel to the length direction of the reinforcing material layer 2, the length direction of a part of the waist-shaped hole is parallel to the width direction of the reinforcing material layer 2, and the waist-shaped holes are uniformly distributed at intervals on the plate surface of the reinforcing material layer 2, so that the excessive glue at all positions between the reinforcing material layer 2 and the decorative surface layer 1 is uniformly led out from the corresponding waist-shaped hole.

In this embodiment of the present application, the functional groove 3 is formed at the edge of the composite board and extends along the length direction of the composite board, so that the composite board is suitable for different application scenarios such as a countertop and a wall panel. Since the excess glue near the edges of the composite panel can be led out from the edges of the reinforcing material layer 2 and the decorative surface layer 1 and the functional grooves 3, in this embodiment of the application, the through holes are all distributed in the middle of the surface of the reinforcing material layer 2.

In actual production, glue is coated on the bonding surface of the decoration surface layer 1 and the reinforcing material layer 2, after the bonding surface is buckled and glued, the glue between the decoration surface layer 1 and the reinforcing material layer 2 is extruded, the gap between the decoration surface layer 1 and the reinforcing material layer 2 is fully flowed, and the gap between the decoration surface layer 1 and the reinforcing material layer 2 is filled as much as possible, after the glue is filled, the excessive glue in the middle of the composite panel is led out from the extrusion through holes, the excessive glue at the edge of the composite panel is led out from the functional groove 3 or the edge of the reinforcing material layer 2 and the decoration surface layer 1 through extrusion, the glue between the decoration surface layer 1 and the reinforcing material layer 2 is more flattened, and after the excessive glue fills the corresponding glue accommodating cavity 4 and the functional groove 3 and covers the edge of the decoration surface layer 1 and the reinforcing material layer 2, the gap between the decoration surface layer 2 and the reinforcing material layer 1 is covered, after the glue is solidified, the firm bonding between the decoration surface layer 1 and the reinforcing material layer 2 is realized, the gap between the reinforcing material layer 2 and the decoration surface layer 1 is effectively plugged, and the long-term stability of a corresponding composite panel structure is effectively maintained.

Meanwhile, as the functional groove 3 is formed at the edge of the composite board and extends along the length direction of the composite board, the composite panel can be suitable for different application scenes, for example, referring to fig. 3, the composite panel is used as a panel, one side of the composite panel forming functional groove 3 is arranged at one side of the panel supporting cabinet body 200 close to an operation area, so that the functional groove 3 is used as a drip groove, the situation that water stains 100 above the panel flow down along the edge of the panel and spread towards the supporting cabinet body 200 (the spreading direction of the water stains 100 above the panel is indicated by an arrow in fig. 3) is reduced, the service life of the corresponding panel is further prolonged, the user experience is improved, for example, referring to fig. 4, the composite panel is used as a wall panel, the connecting fastener 7 matched with the supporting fastener 400 on the wall body 300 is arranged in the functional groove 3, the upper wall installation of the corresponding composite panel is realized, the application range of the composite panel is effectively enlarged, the purpose-made property is reduced, in the installation process, after the corresponding composite panel such as the panel is damaged, the user can use the panel as the wall panel, the panel is used as the wall panel, the corresponding panel is further customized, the corresponding energy-saving performance of the composite panel is improved, and the corresponding energy-saving performance of the composite panel is further can be improved, and the corresponding energy-saving performance of the composite panel is improved, and the corresponding production cost is remarkably is reduced.

In addition, in this embodiment of the present application, referring to fig. 7 and 8, the positions of the decorative surface layer 1 corresponding to the two sides of the functional groove 3 in the width direction are provided with the first chamfer 11, the first chamfer 11 is located at one side of the decorative surface layer 1 adjacent to the reinforcing material layer 2, the positions of the reinforcing material layer 2 corresponding to the two sides of the functional groove 3 in the width direction are provided with the second chamfer 21 correspondingly, the second chamfer 21 is located at one side of the reinforcing material layer 2 adjacent to the decorative surface layer 1, and after the decorative surface layer 1 and the reinforcing material layer 2 are adhered and fixed, the first chamfer 11 and the second chamfer 21 are in one-to-one correspondence, and are spliced to form the filling groove 5.

In actual production, the redundant glue after the decoration surface layer 1 and the reinforcing material layer 2 are adhered flows into the filling groove 5 firstly, but not directly flows into the functional groove 3, so that the flatness of the side wall of the functional groove 3 is kept, various connecting fasteners 7 are conveniently installed in the functional groove 3 when the corresponding composite panel is used as a wall panel, in addition, the setting of the filling groove 5 is also beneficial to prolonging the distance between the opening of the functional groove 3 and a gap between the decoration surface layer 1 and the reinforcing material layer 2, and further, the probability that water stain 100 and the like flow into the gap between the decoration surface layer 1 and the reinforcing material layer 2 through the opening of the functional groove 3 when the composite panel is used as a table panel is reduced, and therefore, the application of the corresponding composite panel to different use scenes is effectively ensured.

In this embodiment of the application, the functional groove 3 is formed by splicing the cut reinforcing material layer 2 and the decorative surface layer 1 after grooving at the side facing away from the decorative surface. Referring to fig. 9, the decorative surface layer 1 may be grooved only at one side facing away from the decorative surface, and the position of the reinforcing material layer 2 corresponding to the groove of the decorative surface layer 1 is formed by protruding towards the groove, at this time, the reinforcing material layer 2 is not perforated, so that when the corresponding composite panel is used as a countertop, the situation that water stains 100 penetrate between the decorative surface layer 1 and the reinforcing material layer 2 from the functional groove 3 can be effectively reduced, and meanwhile, the contact area between the reinforcing material layer 2 and the decorative surface layer 1 is larger, which is also helpful for improving the structural stability of the composite panel. In the embodiment of the present application, the functional groove 3 is formed in various ways, and will not be described in detail herein.

Of course, the structural strength of the corresponding composite panel is affected to a certain extent whether the decorative surface layer 1 or the reinforcing material layer 2 is grooved, and in the embodiment of the application, when the corresponding composite panel is used as a table panel, that is, when the corresponding functional groove 3 is used as a drip groove, the reinforcing and supporting effects on the corresponding table panel can be further enhanced by adding reinforcing ribs at the positions corresponding to the functional groove 3 on the decorative surface layer 1, that is, the drip grooves on the corresponding table panel can be embedded with the reinforcing ribs at the same time. In particular, in the embodiment of the present application, the reinforcing ribs may be embedded in the decorative surface layer 1 along the extending direction of the functional grooves 3 at the positions corresponding to the functional grooves 3, and meanwhile, the reinforcing ribs may be made of steel bars, or of course, other materials capable of enhancing the structural strength of the composite panel may be used for making the reinforcing ribs.

In addition, referring to fig. 10, in the present application, the reinforcing material layer 2 may be directly protruded to a side away from the decorative surface layer 1 to form a dripping structure, and when the corresponding composite panel is used as a countertop, the water spot 100 may directly drip onto the ground from the dripping structure, and in this case, if the dripping structure is formed in a shape matching with the support fastener 400 of the wall 300, the corresponding composite panel may be used in two usage scenarios of the countertop and the wall. In addition, as the decorative surface layer 1 and the reinforcing material layer 2 are not grooved, the structural strength of the corresponding composite panel can be effectively ensured.

In addition to the above-described structure, in order to improve the adhesive strength between the decorative surface layer 1 and the reinforcing material layer 2, in the embodiment of the present application, the adhesive strength between the glue and the decorative surface layer 1 and between the glue and the reinforcing material layer 2 may be increased by providing the side surfaces of the reinforcing material layer 2 and the decorative surface layer 1, which are close to each other, and even the surfaces of the first chamfer 11 and the second chamfer 21 with uneven rough surface structures, so as to ensure stable connection between the decorative surface layer 1 and the reinforcing material layer 2 after the glue is solidified.

The technical scheme of the application is further described below by taking a scene that the composite panel is applied to the deck plate as an example. In one embodiment, a deck plate is provided, referring to fig. 3 and 11, comprising the composite panel according to any of the above embodiments, wherein a side of the composite panel facing away from the reinforcing material layer 2 forms a front surface of the deck plate, the reinforcing material layer 2 forms a supporting base plate of the deck plate, and a side of the composite panel forming functional slot 3 is located at a side of the deck plate near the operation area to serve as a water guiding slot.

In practice, when the composite panel is used as a countertop, for example, when the countertop is used for a kitchen, the edge of the countertop is usually required to extend beyond the support cabinet 200 by a predetermined width to form the edge of the countertop. When the deck plate in the embodiment of the application is installed, one side of the composite panel forming functional groove 3 is arranged at the side close to the operation area, the functional groove 3 separates the glue containing cavity 4 from the edge of the deck plate, so that the situation that water stain 100 on the deck plate flows into a gap between the decorative surface layer 1 and the reinforcing material layer 2 from the glue containing cavity 4 is effectively reduced, and excessive glue flows into the functional groove 3 to seal the gap between the decorative surface layer 1 and the reinforcing material layer 2 in the functional groove 3, thereby effectively reducing the probability that the water stain 100 on the deck plate flows into the gap between the decorative surface layer 1 and the reinforcing material layer 2 and causes the relative separation of the decorative surface layer 1 and the reinforcing material layer 2, and effectively ensuring the structural strength of the corresponding deck plate.

In addition, the composite panel is provided with a water tank avoiding hole 6 penetrating through the thickness direction of the composite panel so as to install the water tank.

The technical scheme of the application is further described below by taking a scene that the composite panel is applied to a wall panel as an example. In one embodiment, referring to fig. 4 and 12, a wall panel is provided, including the composite panel according to any of the above embodiments, and further including a connection fastener 7, where the connection fastener 7 is installed in the functional slot 3 of the corresponding composite panel, and is used to cooperate with the support fastener 400 of the wall 300 to implement the wall mounting of the wall panel.

In this embodiment of the present application, in order to improve the convenience of wall mounting on a wall panel, referring to fig. 12 specifically, the connecting fastener 7 includes a support plate 71 and a hanging plate 72, the support plate 71 and the hanging plate 72 are mutually perpendicular, and the support plate 71 is disposed at one side of the thickness direction of the hanging plate 72 and is connected to the middle of the width direction of the hanging plate 72, so that the connecting fastener 7 is in a T-shaped structure, a T-shaped groove is formed at one side of the supporting fastener 400 of the wall 300 facing away from the wall surface, and when mounting, one end of the support plate 71 facing away from the hanging plate 72 extends into the functional groove 3 along its length direction and is fixedly connected with the inner wall of the functional groove 3, so as to keep the length directions of the support plate 71 and the hanging plate 72 consistent with the extending direction of the functional groove 3, and then the hanging plate 72 slides along its length direction and is embedded into the T-shaped groove of the supporting fastener 400 along the extending direction of the support plate 71, so as to realize the hanging of the corresponding wall panel on the wall surface.

Further, referring to fig. 4, in order to realize sequential splicing between adjacent wall panels, the middle parts of the side walls of the composite panels are respectively provided with mounting grooves 12, correspondingly, the wall panels are provided with splice plates 8, and when the adjacent composite panels are spliced, two ends of the adjacent composite panels are respectively and slidably embedded into the corresponding mounting grooves 12 of the adjacent two composite panels along the splicing direction until the two ends of the adjacent composite panels are respectively abutted against the bottom surfaces in the corresponding mounting grooves 12 so as to fix the spliced adjacent two composite panels.

In this embodiment of the application, the mounting groove 12 is a rectangular groove, and in order to ensure the stability of the wall panel after the wall is mounted, the mounting groove 12 is preferably formed on the decorative surface layer 1, and at the same time, the splice plate 8 is adapted to the shape of the mounting groove 12 between two adjacent wall panels and is a rectangular plate.

Specifically, the mounting groove 12 on any composite panel comprises a first notch and a second notch, the first notch is respectively formed in two ends of the composite panel in the length direction, the corresponding second notch is respectively formed in two ends of the composite panel in the width direction, any gap between two adjacent composite panels corresponds to one splice plate 8, when the adjacent composite panels are spliced in sequence along the length direction of the composite panels, the two ends of the length of the splice plate 8 slide and are embedded into the corresponding first notches of the adjacent composite panels respectively along the direction of the width of the composite panels until the two ends abut against the bottom surfaces of the corresponding first notches respectively, and similarly, when the adjacent composite panels are spliced in sequence along the width direction of the composite panels, the two ends of the length of the splice plate 8 slide and are embedded into the corresponding second notches of the adjacent composite panels respectively along the width direction of the composite panels until the two ends abut against the bottom surfaces of the corresponding second notches respectively.

In order to improve the adaptability of the splice plate 8 and the corresponding mounting groove 12 and reduce the occurrence of the situation that the splice plate 8 abuts against the upper decorative surface layer 1 of the corresponding composite panel, in the embodiment of the application, the outer surface of any splice plate 8 is coated with an elastic protection sleeve, anti-slip teeth are arranged at two ends of any elastic protection sleeve along the length direction of the splice plate 8, and the inner wall surface of any mounting groove 12 is provided with a rough wall surface, so that the stability of the splice plate 8 mounted in the corresponding composite panel is improved, and the stability of the upper wall of the wall panel is further ensured.

It should be noted that the above embodiments can be freely combined as needed. The foregoing is merely a preferred embodiment of the present application and it should be noted that modifications and adaptations to those skilled in the art may be made without departing from the principles of the present application, which are intended to be comprehended within the scope of the present application.

Claims (10)

1. A composite panel, comprising:

a decorative surface layer;

The reinforcing material layer is arranged on one side of the thickness direction of the decorative surface layer, is adhered and fixed with the decorative surface layer through glue, and forms a composite board;

One side of the composite board, which is away from the decorative surface layer, is provided with a functional groove, and the functional groove penetrates through the thickness direction of the reinforcing material layer and extends to the decorative surface layer, and is used for accommodating the redundant glue after the reinforcing material layer is bonded with the decorative surface layer.

2. A composite panel according to claim 1, wherein,

The functional groove is formed in the edge of the composite board and extends along the length direction of the composite board.

3. A composite panel according to claim 1 or 2, wherein,

The reinforcing material layer is provided with a glue containing cavity which is used for containing redundant glue after the decorative surface layer is bonded with the reinforcing material layer;

The reinforcing material layer penetrates through the reinforcing material layer, a plurality of through holes are formed in the thickness direction of the reinforcing material layer, the through holes are uniformly distributed in the middle of the surface of the reinforcing material layer, and the glue accommodating cavity is formed in the position between the inner wall of the through hole and the decorative surface layer.

4. A composite panel according to claim 1 or 2, wherein,

The positions of the decorative surface layer, which correspond to the two sides of the functional groove in the width direction, are provided with first chamfers, and the first chamfers are arranged close to the reinforcing material layer;

The positions of the reinforcing material layer, which correspond to the two sides of the functional groove in the width direction, are provided with second chamfers, and the second chamfers are positioned on one side of the reinforcing material layer, which is close to the decorative surface layer;

The first chamfers are in one-to-one correspondence with the second chamfers, and are fixedly covered with the reinforcing material layer to form a filling groove, and the filling groove is used for containing redundant glue after the decoration surface layer is bonded with the reinforcing material layer.

5. A composite panel according to claim 1 or 2, wherein,

The decorative surface layer comprises any one of a natural stone layer, a rock plate layer, a ceramic layer and a glass layer;

The reinforcing material layer comprises a metal sheet layer.

6. A deck plate comprising a composite deck plate as claimed in any one of claims 1 to 5,

The side of the composite panel, which is away from the reinforcing material layer, forms the front surface of the table panel, and the reinforcing material layer forms the supporting bottom plate of the table panel;

the composite panel is provided with a water tank avoiding hole in a penetrating manner in the thickness direction of the composite panel;

The functional groove is positioned on one side of the deck plate close to the operation area to serve as a water guiding groove.

7. A wall panel comprising the composite panel of any one of claims 1-5, further comprising:

The connecting fastener is arranged in the functional groove and is used for being matched with the supporting fastener of the wall body so as to realize the wall mounting of the wall panel.

8. A wall panel according to claim 7, wherein,

The connecting fastener comprises a support plate and a hanging plate, wherein the support plate is perpendicular to the hanging plate, is arranged on one side of the hanging plate in the thickness direction and is connected to the middle part of the hanging plate in the width direction, so that the connecting fastener is of a T-shaped structure;

One end of the support plate, which is away from the hanging plate, extends into the functional groove along the length direction of the support plate and is fixedly connected with the inner wall of the functional groove;

The hanging plate is slidably embedded into the T-shaped groove of the supporting fastener of the wall body along the length direction of the hanging plate, and is in clamping fit with the supporting fastener along the extending direction of the supporting plate.

9. A wall panel according to claim 7, wherein,

The middle parts of the side walls of the composite panel are provided with mounting grooves;

The wall panel also comprises splice plates, wherein the splice plates are used for respectively sliding and embedding two ends of each splice plate into the corresponding mounting grooves of two adjacent composite panels along the splicing direction when the adjacent composite panels are spliced, and the splice plates are respectively abutted against the bottom surfaces in the corresponding mounting grooves so as to fix the two adjacent spliced composite panels.

10. A wall panel as claimed in claim 9, wherein,

The mounting groove comprises a first notch and a second notch, wherein the first notch and the second notch comprise two first notches which are respectively arranged at two ends of the composite panel in the length direction;

When the adjacent composite panels are spliced in sequence along the length direction of the composite panels, the two ends of the length of the splice plate are respectively and slidably embedded into the corresponding first notch of the adjacent composite panel along the direction of the square of the composite panel until the two ends are respectively abutted against the bottom surfaces of the corresponding first notches;

When the adjacent composite panels are spliced in sequence along the width direction of the composite panel, the two ends of the length of the splice plate are respectively and slidably embedded into the corresponding second notch of the adjacent composite panel along the width direction of the composite panel until the two ends are respectively abutted against the bottom surface of the corresponding second notch.