CN103256474A - Energy-saving strengthened three-dimensional mesh board and assembling method thereof - Google Patents

Abstract

The invention discloses an energy-saving strengthened three-dimensional mesh board and an assembling method of the energy-saving strengthened three-dimensional mesh board and relates to the field of energy-saving sheet materials, in particular to the energy-saving strengthened three-dimensional mesh board, raw materials are once-forming through a mold, the energy-saving strengthened three-dimensional mesh board is provided with a three-dimensional mesh board body of a three-dimensional mesh frame structure. Large concave holes are formed in the upper surface and the lower surface of the three-dimensional mesh board body, and the large concave holes formed in the upper surface and the lower surface are arranged in a staggered mode at equal intervals, supporting columns are arranged between the large concave holes formed in the upper surface and the large concave holes formed in the lower surface, and therefore the three-dimensional mesh frame structure is formed. Half concave holes are evenly arranged in the inner circle of four sides of the lower surface of the three-dimensional mesh board body. A mall concave hole is formed among every four adjacent large concave holes formed in the upper surface and in the lower surface. Upper inner plane reinforced ribs are arranged in the upper surface of the three-dimensional mesh board body and the surfaces of the supporting columns, and lower inner place reinforced ribs are arranged in the lower surface of the three-dimensional mesh board body and the surfaces of the supporting columns. Concave holes are formed in the outer side of the periphery of the three-dimensional mesh board body, and each protruding column is arranged between every two adjacent concave holes.

Description

A kind of energy-conservation enhancing tri-dimensional screen and assembly method thereof

Technical field

A kind of energy-conservation enhancing tri-dimensional screen of the present invention and assembly method thereof relate to the energy-conserving plate material field, particularly a kind of raw material by the one-time formed energy-conservation enhancing tri-dimensional screen of mould, thereby have tri-dimensional screen body and the assembly method thereof of solid netted frame structure.

Background technique

Existing various energy-conserving plate materials on the present Domestic market, save the sheet material raw material as need, make sheet material reach the intensity of use again, must increase stiffening rib density and just can reach the requirement of sheet material working strength when the sheet material attenuate, this just means must increase the raw-material cost of sheet material.

The another kind of method that energy-conserving plate material will reach intensity is to increase to fill auxiliary material in the middle of sheet material, in order to increase sheet metal thickness, can also adopt honeycomb core to increase sheet metal thickness, increasing packing material and honeycomb core in the middle of the energy-conserving plate material need produce with a large amount of glue bonding process, middle filling core material and honeycomb core self are not have intensity, cover the requirement that the decorating material board method of attaching reaches the energy-conserving plate material working strength thereby fill central layer by top and bottom.

At present, the bonding production method of filling the core material employing in energy-conserving plate material all is to use a large amount of glue Bonds, energy-conserving plate material is produced thus to bring in environmental pollution and the energy-conserving plate material use and is not reached environmental requirement, filling central layer and decorating material board in addition is being subjected to ambient humidity and variation of ambient temperature rising-heat contracting-cold inconsistent with bonding glue, cause the come unstuck scarce limit of cracking of energy-conserving plate material distortion, influence sheet material working life.

The energy-conserving plate material market demand should energy-conservation environmental protection again, also wants indeformable the cracking that the energy-conserving plate material of intensity more will be arranged.

Summary of the invention

The objective of the invention is provides a kind of energy-conservation enhancing tri-dimensional screen and assembly method thereof at above-mentioned deficiency, tri-dimensional screen body with solid netted frame structure, evenly be arranged into the big shrinkage pool of array at tri-dimensional screen body upper surface and lower surface, the big shrinkage pool dislocation of the big shrinkage pool of upper surface and lower surface is arranged, between the big shrinkage pool of upper surface and the equidistant array arrangement of lower surface, be provided with supporting post, support upper surface and lower surface and form solid netted frame structure; Be provided with inner plane stiffening rib and following inner plane stiffening rib at supporting post and upper inner surface with following internal surface; Between four of upper surface and lower surface adjacent big shrinkage pools, be equipped with diameter less than the little shrinkage pool of big shrinkage pool; Raw material form the energy-conservation enhancing tri-dimensional screen with solid netted frame structure by the mould once-through.Face the consistent flower-shaped pattern of a kind of array arrangement in length and breadth of formation from this tri-dimensional screen upper surface and lower surface.

A kind of energy-conservation enhancing tri-dimensional screen of the present invention and assembly method thereof take following technological scheme to realize:

A kind of energy-conservation enhancing tri-dimensional screen has the tri-dimensional screen body of solid netted frame structure, have the big shrinkage pool that evenly is arranged into array at tri-dimensional screen body upper surface and lower surface, the arrangement that equidistantly misplaces of described big shrinkage pool internal diameter size unanimity, the big shrinkage pool of upper surface and lower surface; Between the big shrinkage pool of the big shrinkage pool of upper surface and lower surface, be provided with supporting post, in order to supporting upper surface and lower surface, thereby form solid netted frame structure; Described tri-dimensional screen body upper surface is faced with lower surface and is formed the consistent flower-shaped pattern of a kind of array arrangement in length and breadth;

Described tri-dimensional screen body lower surface encloses uniform arrangement half shrinkage pool in four limits, with the arrangement that equidistantly misplaces of the big shrinkage pool of realizing upper surface and lower surface.

Between four of described upper surface and lower surface adjacent big shrinkage pools, be equipped with diameter less than the little shrinkage pool of big shrinkage pool.

Be provided with the inner plane stiffening rib in the described tri-dimensional screen body upper surface and between the supporting post cylinder, be provided with inner plane stiffening rib down in tri-dimensional screen body lower surface and between the supporting post cylinder, in order to increase the intensity of tri-dimensional screen body.

The shrinkage pool that the outside has evenly, is intervally arranged around the described tri-dimensional screen body is provided with projection between two adjacent shrinkage pools, the external diameter of projection is identical with the internal diameter of shrinkage pool, is convenient to energy-conservation enhancing tri-dimensional screen and other sheet material and assembles.

The sectional shape of described supporting post is four jiaos of stars or triangle star, is used for supporting plane and lower plane on the energy-conservation enhancing tri-dimensional screen, and the described inner plane stiffening rib of going up is right-angled triangle with following inner plane stiffening rib.

Described big shrinkage pool is circle, hexagon or octagon etc., and the flower-shaped pattern of formation is respectively circular floral pattern, hexagon floral pattern or octagon floral pattern.

Described energy-conservation enhancing tri-dimensional screen adopts raw material by the mould once-through, described raw material comprise plastic resin, synthetic resin and fiber-reinforced resin, synthetic resin and fiber-reinforced resin and non-ferrous metal, and molding mode comprises molding and forming, thermosetting property moulding, extrusion modling and die cast.

The internal diameter size of described big shrinkage pool is 4 ~ 200 millimeters, and energy-conservation enhancing tri-dimensional screen length and width be combination in any as required, and energy-conservation enhancing tri-dimensional screen thickness is 2 ~ 200 millimeters.

Described energy-conservation enhancing tri-dimensional screen can be according to the raw material quality usage requirement of various environment place, and the plate of material made from plastic resin, synthetic resin, fibre resin, non-ferrous metal, rock material, stupalith, glass material, bamboo and wood materials, lamination coating makes up the assembling use mutually.

A kind of assembly method of energy-conservation enhancing tri-dimensional screen comprises the steps:

1) the little shrinkage pool on the small convex rib post that the first-class matrix of the mating face of upper plate surface decorating material board row are arranged and big convex tendon post and the energy-conservation enhancing tri-dimensional screen carries out concavo-convex assembling with shrinkage pool greatly and is connected;

2) the small convex rib post that the first-class matrix of the mating face of lower face decorating material board row are arranged and and big dome muscle post and web plate body on little shrinkage pool and shrinkage pool greatly carry out concaveconvex structure and assemble and be connected.

After the energy-conservation enhancing tri-dimensional screen assembling of 3 ﹚, energy-conservation enhancing tri-dimensional screen and upper plate surface decorating material board and lower face decorating material board three plate one have improved energy-conservation enhancing tri-dimensional screen load capacity and deformation force, have strengthened working strength and rigidity requirement again.

When a kind of energy-conservation enhancing tri-dimensional screen of the present invention assembles, the shrinkage pool that the outside evenly is intervally arranged around the energy-conservation enhancing tri-dimensional screen, between two adjacent shrinkage pools, be provided with projection, the consistent energy-conservation enhancing tri-dimensional screen and energy-conservation enhancing tri-dimensional screen and other sheet material concaveconvex structure of carrying out with the internal diameter size of shrinkage pool of the outside dimension of projection is connected, and solved the middle packing material of energy-conserving plate material and used a large amount of glue bondings to produce the environmental pollution that brings and use not environmental issue; Overcome sheet material that the filling central layer of energy-conserving plate material and decorative sheet use a large amount of glue bondings and be subjected to ambient humidity and ambient temperature effect rising-heat contracting-cold stress inconsistent, caused the yielding defective of easily coming unstuck; Energy-conservation enhancing tri-dimensional screen is compared with equivalent weight and equal quality material sheet and is improved tens times of rigidity; Energy-conservation enhancing tri-dimensional screen condition of equivalent thickness and equal quality material are compared and are saved 70% ~ 80% raw material.

Description of drawings

The invention will be further described below with reference to accompanying drawing:

Fig. 1 is the plan view of the energy-conservation enhancing tri-dimensional screen of the present invention.

Fig. 2 is the left view of Fig. 1.

Fig. 3 is the rear view of the energy-conservation enhancing tri-dimensional screen of the present invention.

Fig. 4 is the A-A sectional view of Fig. 3.

Fig. 5 is the perspective view of the energy-conservation enhancing tri-dimensional screen of the present invention.

Fig. 6 is the assembling schematic representation of the energy-conservation enhancing tri-dimensional screen of the present invention and decorative sheet.

Among the figure: 1, tri-dimensional screen body, 2, big shrinkage pool, 3, supporting post, 4, little shrinkage pool, 5, go up the inner plane stiffening rib, 6, inner plane stiffening rib down, 7, shrinkage pool, 8, projection, 9, the upper plate surface decorating material board, 10, the lower face decorating material board, 11, small convex rib post, 12, big dome muscle post, 13, half shrinkage pool, 14, flower-shaped pattern.

Embodiment

With reference to accompanying drawing 1 ~ 6, a kind of energy-conservation enhancing tri-dimensional screen has the tri-dimensional screen body 1 of solid netted frame structure, have the big shrinkage pool 2 that evenly is arranged into array at tri-dimensional screen body 1 upper surface and lower surface, described big shrinkage pool 2 internal diameter size unanimities, the big shrinkage pool 2 equidistant dislocation of upper surface and lower surface are arranged; Between the big shrinkage pool 2 of the big shrinkage pool 2 of upper surface and lower surface, be provided with supporting post 3, in order to supporting upper surface and lower surface, thereby form solid netted frame structure; Described tri-dimensional screen body 1 upper surface is faced with lower surface and is formed the consistent flower-shaped pattern 14 of a kind of array arrangement in length and breadth;

Described tri-dimensional screen body 1 lower surface encloses uniform arrangement half shrinkage pool 13 in four limits, arranges with the big shrinkage pool 2 equidistant dislocation that realize upper surface and lower surface.

Between four of described upper surface and lower surface adjacent big shrinkage pools 2, be equipped with diameter less than the little shrinkage pool 4 of big shrinkage pool.

Be provided with inner plane stiffening rib 5 in described tri-dimensional screen body 1 upper surface and between supporting post 3 cylinders, be provided with inner plane stiffening rib 6 down in tri-dimensional screen body 1 lower surface and between supporting post 3 cylinders, in order to increase the intensity of tri-dimensional screen body.

The shrinkage pool 7 that the outside has evenly, is intervally arranged around the described tri-dimensional screen body 1 is provided with projection 8 between two adjacent shrinkage pools 7, the external diameter of projection 8 is identical with the internal diameter of shrinkage pool 7, is convenient to energy-conservation enhancing tri-dimensional screen and other sheet material and assembles.

The sectional shape of described supporting post 3 is four jiaos of stars or triangle star, is used for supporting plane and lower plane on the energy-conservation enhancing tri-dimensional screen, and the described inner plane stiffening rib 5 of going up is right-angled triangle with following inner plane stiffening rib 6.

Described big shrinkage pool 2 is circle, hexagon or octagon etc., and the flower-shaped pattern of formation is respectively circular floral pattern, hexagon floral pattern or octagon floral pattern.

Described energy-conservation enhancing tri-dimensional screen adopts raw material by the mould once-through, described raw material comprise plastic resin, synthetic resin and fiber-reinforced resin, synthetic resin and fiber-reinforced resin and non-ferrous metal, and molding mode comprises molding and forming, thermosetting property moulding, extrusion modling and die cast.

The internal diameter size of described big shrinkage pool 2 is 4 ~ 200 millimeters, and energy-conservation enhancing tri-dimensional screen length and width be combination in any as required, and energy-conservation enhancing tri-dimensional screen thickness is 2 ~ 200 millimeters.

Described energy-conservation enhancing tri-dimensional screen can be according to the raw material quality usage requirement of various environment place, and the plate of material made from plastic resin, synthetic resin, fibre resin, non-ferrous metal, rock material, stupalith, glass material, bamboo and wood materials, lamination coating makes up the assembling use mutually.

A kind of assembly method of energy-conservation enhancing tri-dimensional screen comprises the steps:

1) the little shrinkage pool 4 on the small convex rib post 11 that the first-class matrix of the mating face of upper plate surface decorating material board 9 row are arranged and big convex tendon post 12 and the energy-conservation enhancing tri-dimensional screen carries out concavo-convex assembling with shrinkage pool 2 greatly and is connected;

2) the small convex rib post 11 that the first-class matrix of the mating face of lower face decorating material board 10 row are arranged and and big dome muscle post 12 and web plate body 1 on little shrinkage pool 4 and shrinkage pool 2 greatly carry out concaveconvex structure and assemble and be connected.

After the energy-conservation enhancing tri-dimensional screen assembling of 3 ﹚, energy-conservation enhancing tri-dimensional screen and upper plate surface decorating material board 9 and lower face decorating material board 10 3 plate one have improved energy-conservation enhancing tri-dimensional screen load capacity and deformation force, have strengthened working strength and rigidity requirement again.

Claims (7)

1. energy-conservation enhancing tri-dimensional screen, it is characterized in that: the tri-dimensional screen body with solid netted frame structure, have the big shrinkage pool that evenly is arranged into array at tri-dimensional screen body upper surface and lower surface, the arrangement that equidistantly misplaces of described big shrinkage pool internal diameter size unanimity, the big shrinkage pool of upper surface and lower surface; Between the big shrinkage pool of the big shrinkage pool of upper surface and lower surface, be provided with supporting post, in order to supporting upper surface and lower surface, thereby form solid netted frame structure; Described tri-dimensional screen body upper surface is faced with lower surface and is formed the consistent flower-shaped pattern of a kind of array arrangement in length and breadth;

Described tri-dimensional screen body lower surface encloses uniform arrangement half shrinkage pool in four limits, with the arrangement that equidistantly misplaces of the big shrinkage pool of realizing upper surface and lower surface;

Between four of described upper surface and lower surface adjacent big shrinkage pools, be equipped with diameter less than the little shrinkage pool of big shrinkage pool;

Be provided with the inner plane stiffening rib in the described tri-dimensional screen body upper surface and between the supporting post cylinder, be provided with inner plane stiffening rib down in tri-dimensional screen body lower surface and between the supporting post cylinder, in order to increase the intensity of tri-dimensional screen body;

The shrinkage pool that the outside has evenly, is intervally arranged around the described tri-dimensional screen body is provided with projection between two adjacent shrinkage pools, the external diameter of projection is identical with the internal diameter of shrinkage pool.

2. a kind of energy-conservation enhancing tri-dimensional screen according to claim 1, it is characterized in that: the sectional shape of described supporting post is four jiaos of stars or triangle star, describedly goes up the inner plane stiffening rib and following inner plane stiffening rib is right-angled triangle.

3. a kind of energy-conservation enhancing tri-dimensional screen according to claim 1 is characterized in that: described big shrinkage pool is circular, hexagon or octagon, and the flower-shaped pattern of formation is respectively circular floral pattern, hexagon floral pattern or octagon floral pattern.

4. according to the described a kind of energy-conservation enhancing tri-dimensional screen of claim 1, it is characterized in that; Described energy-conservation enhancing tri-dimensional screen adopts raw material by the mould once-through, described raw material comprise plastic resin, synthetic resin and fiber-reinforced resin, synthetic resin and fiber-reinforced resin and non-ferrous metal, and molding mode comprises molding and forming, thermosetting property moulding, extrusion modling and die cast.

5. a kind of energy-conservation enhancing tri-dimensional screen according to claim 1, it is characterized in that: the internal diameter size of described big shrinkage pool is 4 ~ 200 millimeters, energy-conservation enhancing tri-dimensional screen thickness is 2 ~ 200 millimeters.

6. a kind of energy-conservation enhancing tri-dimensional screen according to claim 1 is characterized in that: the plate of material that described energy-conservation enhancing tri-dimensional screen and plastic resin, synthetic resin, fibre resin, non-ferrous metal, rock material, stupalith, glass material, bamboo and wood materials, lamination coating are made makes up assembling mutually and uses.

7. described a kind of energy-conservation enhancing tri-dimensional screen assembly method following steps of claim 1:

1) the little shrinkage pool on the small convex rib post that the first-class matrix of the mating face of upper plate surface decorating material board row are arranged and big convex tendon post and the energy-conservation enhancing tri-dimensional screen carries out concavo-convex assembling with shrinkage pool greatly and is connected;

2) the small convex rib post that the first-class matrix of the mating face of lower face decorating material board row are arranged and and big dome muscle post and web plate body on little shrinkage pool and shrinkage pool greatly carry out concaveconvex structure and assemble and be connected.

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