CN215949273U - Novel rock plate door structure - Google Patents

Abstract

The utility model relates to the technical field of composite material doors, in particular to a novel rock plate door structure, which comprises: rock face, multiply wood, metal strengthening rib and banding strip, seted up in the multiply wood and inlayed and establish the groove, inlay establish the groove with the metal strengthening rib cooperation, the metal strengthening rib inlays to be established in the multiply wood, rock face fixed mounting be in the plain noodles is seen to the multiply wood, banding strip fixed mounting be in the rock face with the whole circumference wall that the multiply wood is constituteed. The utility model has the beneficial effects that: the problem of among the prior art utilize rock plate and timber to carry out the material of complex and appear absorbing moisture deformation easily is improved, improved among the prior art, the composite construction that rock plate and timber only adopted the glue to paste has the advantage that manufacturing is simple, and anti deformability is strong.

Description

Novel rock plate door structure

Technical Field

The utility model relates to the technical field of composite material doors, in particular to a novel rock plate door structure.

Background

The rock plate product is a white translucent ceramic rich in kaolinite, an engineered stone derived from high temperature baked kaolinite clay. Kaolin contains a variety of minerals including silica, feldspar, mineral oxides, and the like. The rock plate product is fired at extremely high temperatures, typically in excess of 1200 ℃. The rock laminate is subjected to such high temperatures during the manufacturing process that it is resistant to high thermal environments and does not burn or emit any harmful substances. Meanwhile, the rock plate has the characteristics of no holes and antifouling performance on the surface, and in the prior art, the rock plate is used as a material of the kitchen cabinet door to gradually occupy a certain position in the market, however, the rock plate has large mass, the defect that the quality cannot be changed even if the rock plate is manufactured into a very light and thin sheet material is overcome, and meanwhile, in the prior art, the rock plate is generally manufactured in a paving mode, the specification of the rock plate is made to be larger and thinner as much as possible, so that the idea of manufacturing the cabinet door or the indoor door by using the rock plate can only be manufactured by compounding with the traditional wood, and the rock plate is compounded by taking the rock plate as the visible light surface of the rock plate in a pasting mode. However, the composite mode has the problem that the wooden door core is easy to warp and deform, so that the composite of different materials can be separated from the composite.

In view of this, need urgently to design a novel rock plate door structure, improved among the prior art and utilized rock plate and timber to carry out the problem that moisture absorption deformation easily appears in the material of complex, improved among the prior art, the composite construction that rock plate and timber only adopted to glue and paste has the advantage that manufacturing is simple, anti deformability is strong.

SUMMERY OF THE UTILITY MODEL

In order to solve the defects of the prior art, the utility model aims to provide a novel rock plate door structure, which solves the problem that the material compounded by a rock plate and wood in the prior art is easy to absorb moisture and deform, improves the composite structure only formed by gluing the rock plate and the wood in the prior art, and has the advantages of simple processing and manufacturing and strong deformation resistance.

In order to achieve the above object, the technical solution of the present invention is: a novel rock panel door structure comprising: rock face, multiply wood, metal strengthening rib and banding strip, seted up in the multiply wood and inlayed and establish the groove, inlay establish the groove with the metal strengthening rib cooperation, the metal strengthening rib inlays to be established in the multiply wood, rock face fixed mounting be in the plain noodles is seen to the multiply wood, banding strip fixed mounting be in the rock face with the whole circumference wall that the multiply wood is constituteed.

Furthermore, the multilayer board is formed by laminating a plurality of groups of same or different wood boards, and the grains between the wood boards are arranged along the same extending direction.

Further, the embedding groove includes: t type limit groove and core strip, T type limit groove is seted up the core strip both sides, core strip central symmetry sets up T type limit groove central point puts.

Furthermore, the embedding grooves are formed in the length direction side and the width direction side of the multilayer board, and the first embedding groove formed in the length direction side of the multilayer board is perpendicular to the second embedding groove formed in the width direction side of the multilayer board and does not intersect with the second embedding groove.

Further, the metal reinforcing bar includes: the T-shaped periphery and the hollowed-out slots are arranged in the center of the T-shaped periphery, and the hollowed-out slots are meshed with the core strips.

Has the advantages that:

according to the novel rock plate door structure provided by the utility model, the metal reinforcing ribs are inserted into the multilayer board, the metal reinforcing ribs abut against the internal structure of the multilayer board by using the rigidity of the metal reinforcing ribs, the warping deformation of the multilayer board is prevented, meanwhile, the metal reinforcing ribs are arranged in the width direction and the length direction of the multilayer board, the deformation of the internal part of the multilayer board is inhibited from two directions, and meanwhile, the composite material is lighter than a rock plate material in the appearance direction while the external sticking rock plate is used for preventing water and deformation. This structure has improved among the prior art and has utilized rock plate and timber to carry out the problem that moisture absorption deformation appears easily in the material of complex, has improved among the prior art, and the rock plate only adopts the composite construction who glues with timber, has manufacturing simply, the advantage that anti deformability is strong.

Drawings

FIG. 1 is a schematic side view of a novel panel door structure of the present invention;

FIG. 2 is a schematic view of a novel metal reinforcing rib of a rock plate door structure according to the present invention;

FIG. 3 is a schematic structural view of an edge banding of a novel panel door structure of the present invention;

FIG. 4 is a schematic view of a novel rock plate door structure embedding groove structure of the present invention;

the labels in the figure are: 1-rock face, 2-multilayer board, 3-metal reinforcing rib, 4-edge banding, 21-embedded groove, 22-wood laminate, 31-T-shaped periphery, 32-hollowed-out slot, 211-T-shaped edge groove, 212-core bar, 213-embedded groove I and 214-embedded groove II.

Detailed Description

The technical solutions in the embodiments of the present invention will be clearly and completely described below with reference to the drawings in the embodiments of the present invention, and it is obvious that the described embodiments are only a part of the embodiments of the present invention, and not all of the embodiments. All other embodiments that can be derived by one of ordinary skill in the art from the embodiments disclosed herein are intended to be within the scope of the present invention.

As shown in the figures, the utility model discloses a novel rock plate door structure, comprising: rock face 1, multiply wood 2, metal strengthening rib 3 and banding strip 4, it establishes groove 21 to have seted up in multiply wood 2, inlay establish groove 21 with metal strengthening rib 3 cooperates, metal strengthening rib 3 inlays to be established in multiply wood 2, 1 fixed mounting of rock face is in the plain noodles is seen to multiply wood 2, banding strip 4 fixed mounting be in rock face 1 with the whole circumference wall that multiply wood 2 is constituteed.

In the present embodiment, the multilayer board 2 is formed by laminating a plurality of groups of wood boards 22 of the same kind or different kinds, and the grains between the wood boards 22 are arranged along the same extending direction.

In this embodiment, the embedding groove 21 includes: t type limit groove 211 and core strip 212, T type limit groove 211 sets up in the both sides of core strip 212, core strip 212 central symmetry sets up T type limit groove 211 central point puts.

In this embodiment, the embedding grooves 21 are formed in the longitudinal direction side and the width direction side of the multilayer board 2, and the first embedding groove 214 formed in the longitudinal direction side of the multilayer board 2 and the second embedding groove 214 formed in the width direction side of the multilayer board 2 are perpendicular to each other and do not intersect with each other.

In this embodiment, the metal reinforcing rib 3 includes: t type periphery 31 and fretwork slot 32, fretwork slot 32 sets up in T type periphery 31 center department, just fretwork slot 32 with the core strip 212 meshes mutually.

The working principle is as follows:

in the working process, firstly, the multilayer board 2 is formed by high-frequency pressure splicing of wood laminates 22, the number of the wood laminates 22 is set to be an odd number of layers 3/5/7/11, the grains of each layer of the wood laminates 22 are required to be oriented consistently, the water content is controlled to be 10 +/-1%, and the internal cracking phenomenon of the wood laminates 22 cannot occur. And after splicing is finished, the two surfaces are subjected to sand flattening and thickness fixing, so that the flatness error is lower than 0.3mm, the sand flattening times of the two surfaces and the sand flattening thickness fixing amount of each time are kept consistent, and the uniform double-surface internal stress release is realized.

The embedding grooves 21 are formed in the length direction and the width direction of the multilayer board 2, the embedding grooves 21 in the length direction are arranged into two groups, the embedding grooves 21 in the width direction are arranged into one group, the embedding grooves 214 in the length direction and the embedding grooves 214 in the width direction are perpendicular to each other and do not intersect, and the core strips 212 are reserved in the embedding grooves 21 for use.

The metal reinforcing ribs 3 are embedded into the first embedded groove 214 and the second embedded groove 214, the core strips 212 are meshed with the hollow-out slots 32, the T-shaped side grooves 211 are matched with the T-shaped periphery 31, and after the installation is completed, the metal reinforcing ribs 3 in the first embedded groove 214 and the second embedded groove 214 are perpendicular to each other and do not intersect. And (3) coating wood adhesive on four sides of the first embedded groove 214 and the second embedded groove 214, wherein the width of the coated adhesive is kept about 30 mm.

The rock face 1 is adhered to the surface of the multilayer board 2, and needs to be gradually compacted from one end of the door board to the other end when pressed, so that internal air accumulation is prevented, and after compaction is guaranteed, the whole body is placed under a board splicing hydraulic press to be pressurized for 2-3 hours.

And finally, taking out the door plate, adhering the edge sealing strip 4 to the whole circumferential surface, and removing the excessive glue.

According to the novel rock plate door structure provided by the utility model, the metal reinforcing ribs 3 are inserted into the multilayer plate 2, the metal reinforcing ribs 3 abut against the internal structure of the multilayer plate 2 by using the rigidity of the metal reinforcing ribs, the multilayer plate 2 is prevented from warping and deformation, meanwhile, the metal reinforcing ribs 3 are arranged in the width direction and the length direction of the multilayer plate 2, the deformation of the interior of the multilayer plate 2 is inhibited from two directions, and meanwhile, the composite material is lighter and lighter compared with a rock plate material in the appearance direction while the rock plate is pasted on the outside to prevent water and deformation. This structure has improved among the prior art and has utilized rock plate and timber to carry out the problem that moisture absorption deformation appears easily in the material of complex, has improved among the prior art, and the rock plate only adopts the composite construction who glues with timber, has manufacturing simply, the advantage that anti deformability is strong.

The above description is only for the purpose of illustrating the preferred embodiments of the present invention and is not to be construed as limiting the utility model, but rather as the intention of all modifications, equivalents, improvements, and equivalents falling within the spirit and scope of the utility model.

Claims (5)

1. A novel rock panel door structure comprising: rock face (1), multiply wood (2), metal strengthening rib (3) and banding strip (4), its characterized in that, set up in multiply wood (2) and inlay groove (21), inlay groove (21) with metal strengthening rib (3) cooperation, metal strengthening rib (3) are inlayed and are established in multiply wood (2), rock face (1) fixed mounting is in plain noodles is seen in multiply wood (2), banding strip (4) fixed mounting be in rock face (1) with the whole circumference wall that multiply wood (2) are constituteed.

2. A new rock door structure according to claim 1, characterized in that the multilayer panel (2) is formed by laminating a plurality of wood layers (22) of the same or different types, the grain between the wood layers (22) being arranged along the same direction of extension.

3. A new rock plate door structure according to claim 2, characterized in that the embedding groove (21) comprises: t type limit groove (211) and core strip (212), set up in T type limit groove (211) core strip (212) both sides, core strip (212) central symmetry sets up T type limit groove (211) central point puts.

4. A novel rock plate door structure as claimed in claim 3, characterized in that the embedding grooves (21) are opened on the length direction side and the width direction side of the multilayer plate (2), and the first embedding groove (213) opened on the length direction side of the multilayer plate (2) and the second embedding groove (214) opened on the width direction side of the multilayer plate (2) are perpendicular to each other and do not intersect.

5. A new rock plate door structure according to claim 4, characterized in that the metal reinforcing bar (3) comprises: t type periphery (31) and fretwork slot (32), fretwork slot (32) are seted up in T type periphery (31) center department, just fretwork slot (32) with core strip (212) mesh mutually.

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