CN217871382U - Rib sandwich all-light concrete grid plate - Google Patents

Abstract

The utility model discloses a full light concrete lattice board of close rib sandwich, include panel, top panel down and be located two light layers between panel and the top panel, the light layer includes light layer and lower light layer, light layer includes down the light filling block down, goes up the light layer and includes the light filling block, four sides of going up the light filling block set up convex contact edge, it pastes mutually to go up the contact edge between the light filling block, light filling block and last light filling block are located by down among panel, top panel, vertical rib beam and the cavity that horizontal rib beam formed down, the utility model provides an inside two light layers that set up of close rib sandwich full light concrete lattice board, the light filling block of light in situ portion is the cystosepiment, can alleviate the dead weight of plate body greatly, and the contact edge of going up the light filling block can improve the thermal insulation performance of vertical rib beam and horizontal rib beam department, promotes the heat preservation effect of plate body.

Description

Rib sandwich all-light concrete grid plate

Technical Field

The utility model relates to an assembly type structure technical field especially relates to a full light concrete grid plate of close rib with filling.

Background

With the development of modern industrial technology, the assembly type building gradually replaces a common building system in the prior art with the advantages of high construction speed, small restriction by climatic conditions, labor saving and the like. The common wall plate is a concrete solid plate, which has high production cost, heavy weight and poor heat insulation effect.

SUMMERY OF THE UTILITY MODEL

The utility model aims at solving the problems of self weight and poor heat preservation effect of the wallboard in the prior art, and providing a multi-ribbed sandwich all-light concrete grid plate.

In order to achieve the above purpose, the utility model adopts the following technical scheme:

a multi-ribbed sandwich all-light concrete grid plate comprises a lower panel, an upper panel and two light layers positioned between the lower panel and the upper panel, wherein the light layers comprise an upper light layer and a lower light layer, so that the dead weight of a bridge plate can be greatly reduced.

Specifically, the lower light layer comprises a lower light filling block, the upper light layer comprises an upper light filling block, the upper light filling block is located above the lower light filling block and attached to the lower light filling block, protruding contact edges are arranged on four side faces of the upper light filling block, the contact edges between the upper light filling block are attached to each other, and the lower light filling block and the upper light filling block are located in a cavity formed by the lower panel, the upper panel, the longitudinal rib beam and the transverse rib beam.

Further, the longitudinal ribs comprise a lower longitudinal rib and an upper longitudinal rib, and the transverse ribs comprise a lower transverse rib and an upper transverse rib. The lower longitudinal and transverse ribs are located between the contact edge and the lower panel, and the upper longitudinal and transverse ribs are located between the upper panel and the contact edge. And an upright post is arranged between the contact edges and is used for connecting an upper rib beam and a lower rib beam and keeping the integrity of the plate body.

Preferably, the inside of panel and top panel down sets up the wire net respectively, improves the toughness and the support intensity of plate body.

Preferably, the materials of the lower panel, the upper panel, the longitudinal ribs and the transverse ribs adopt the bulk density of less than 1200kg/m ³ The lightweight aggregate structural concrete with the thermal conductivity coefficient less than 0.5W/(m.k) and the strength greater than 10Mpa has light weight, reduces the thermal bridge effect at the edges and the crossed columns of the plate body, and improves the heat preservation effect of the plate body.

Preferably, the lower light filling block and the upper light filling block adopt a material with a thermal conductivity of less than 0.05W/(m.k) and a volume weight of less than 50kg/m ³ Light weight, light weight and heat preservation effect, such as polystyrene foam board. The two light filling blocks are matched, so that the heat insulation performance of the plate body can be greatly improved, and the contact edges of the upper light filling blocks are used for improving the heat insulation performance of the longitudinal rib beams and the transverse rib beams.

The manufacturing method of the ribbed sandwich all-light concrete grid plate comprises the following steps:

step S1: laying a lower panel containing a steel wire mesh in the mould;

step S2: paving the lower light filling block on the lower panel;

and step S3: pouring lower longitudinal rib beams and lower transverse rib beams between the lower light filling blocks;

and step S4: laying an upper light filling block above the lower light filling block;

step S5: pouring upright posts, upper longitudinal ribs and upper transverse ribs among the upper light filling blocks, wherein the upright posts are positioned among the contact edges, and the upper longitudinal ribs and the upper transverse ribs are positioned in the upper spaces of the contact edges among the upper light filling blocks;

step S6: and an upper panel containing a steel wire mesh is laid above the upper light layer.

Compared with the prior art, the beneficial effects of the utility model are that:

1. this close rib with filling all light concrete grid plate is inside to set up two light layers, and the inside light filling block in light layer is the cystosepiment, can lighten the dead weight of plate body greatly, goes up the contact edge of light filling block and can improve the thermal insulation performance of vertical rib roof beam and horizontal rib roof beam department, promotes the heat preservation effect of plate body.

2. The steel wire meshes are arranged in the lower panel and the upper panel of the multi-ribbed sandwich all-light concrete grid plate, the lower panel, the upper panel, the longitudinal rib beams, the transverse rib beams and the stand columns adopt light aggregate structural concrete, and the light filling blocks are light in weight and have a heat preservation effect, so that the dead weight of the plate body is light, the heat preservation performance is good, and the structural strength is high.

Drawings

FIG. 1 is a schematic structural view of the ribbed sandwich all-light concrete grid plate;

FIG. 2 is a schematic structural view of a longitudinal section of the multi-ribbed sandwich all-light concrete grid plate;

FIG. 3 is a schematic structural diagram of a light filling block on the multi-ribbed sandwich all-light concrete grid plate;

FIG. 4 is a schematic structural view of a transverse section of a light filling block on the multi-ribbed sandwich all-light concrete grid plate;

FIG. 5 is a schematic structural view of the close-rib sandwich all-light concrete grid plate light filling blocks attached to each other;

FIG. 6 is a schematic structural view of a light filling block under the multi-ribbed sandwich all-light concrete grid plate.

In the figure: 11. a lower panel; 12. an upper panel; 13. a longitudinal rib; 14. a transverse rib; 15. a lower light filling block; 16. filling light filling blocks; 131. a lower longitudinal rib; 17. steel wire mesh; 132. an upper longitudinal rib; 141. a lower transverse rib; 142. an upper transverse rib; 161. a contact edge; 162. and (7) a vertical column.

Detailed Description

The technical solutions in the embodiments of the present invention will be described clearly and completely with reference to the accompanying drawings in the embodiments of the present invention, and it is obvious that the described embodiments are only some embodiments of the present invention, not all embodiments.

Example 1

Referring to fig. 1-2, a multi-ribbed sandwich all-light concrete grid plate comprises a lower panel 11, an upper panel 12 and two light layers positioned between the lower panel 11 and the upper panel 12, wherein the light layers comprise an upper light layer and a lower light layer, and the dead weight of a bridge plate can be greatly reduced.

Specifically, the lower lightweight layer comprises lower lightweight filling blocks 15, the upper lightweight layer comprises upper lightweight filling blocks 16, the upper lightweight filling blocks 16 are located above the lower lightweight filling blocks 15 and attached to the lower lightweight filling blocks 15, protruding contact edges 161 are arranged on four side faces of the upper lightweight filling blocks 16, the contact edges 161 between the upper lightweight filling blocks 16 are attached to each other, and the lower lightweight filling blocks 15 and the upper lightweight filling blocks 16 are located in a cavity formed by the lower panel 11, the upper panel 12, the longitudinal rib beams 13 and the transverse rib beams 14.

Further, the longitudinal rib 13 includes a lower longitudinal rib 131 and an upper longitudinal rib 132, and the transverse rib 14 includes a lower transverse rib 141 and an upper transverse rib 142. The lower longitudinal rib 131 and the lower transverse rib 141 are located between the contact edge 161 and the lower panel 11, and the upper longitudinal rib 132 and the upper transverse rib 142 are located between the upper panel 12 and the contact edge 161. Between the contact edges 161, there are pillars 162, and the pillars 162 are used to connect the upper and lower ribs to maintain the integrity of the plate.

In this embodiment, the inside of lower panel 11 and upper panel 12 sets up wire net 17 respectively, improves the toughness and the support strength of plate body.

In this embodiment, the lower light-weight filling block 15 and the upper light-weight filling block 16 have a thermal conductivity of less than 0.05W/(m.k) and a volume weight of less than 50kg/m ³ Light weight, light weight and heat preservation effect, such as polystyrene foam board.

In this embodiment, two light weight layers are arranged inside the multi-ribbed sandwich all-light-weight concrete grid plate, the light filling blocks inside the light weight layers are all foam plates, the dead weight of the plate body can be greatly reduced, the contact edges 161 of the upper light filling blocks 16 can improve the heat insulation performance of the longitudinal rib beams 13 and the transverse rib beams 14, and the heat insulation effect of the plate body is improved.

Example 2

Unlike embodiment 1, the lower panel 11, the upper panel 12, the longitudinal ribs 13 and the transverse ribs 14 are made of a material having a bulk density of less than 1200kg/m ³ The lightweight aggregate structural concrete with the thermal conductivity coefficient less than 0.5W/(m.k) and the strength greater than 10Mpa has light weight, reduces the thermal bridge effect at the edges and the crossed columns of the plate body, and improves the heat preservation effect of the plate body.

In the embodiment, the lower panel 11, the upper panel 12, the longitudinal rib beams 13, the transverse rib beams 14 and the upright posts 162 of the multi-ribbed sandwich all-light concrete grid plate adopt light aggregate structural concrete, and the light filling blocks are light in weight and have a heat preservation effect, so that the plate body is light in self weight, good in heat preservation performance and large in structural strength.

Example 3

The embodiment provides a method for manufacturing a multi-ribbed sandwich all-light concrete grid plate in the embodiment 1, which comprises the following steps:

step S1: laying a lower panel 11 containing a steel wire mesh 17 in the mould;

step S2: laying a lower light filling block 15 on the lower panel 11;

and step S3: pouring lower longitudinal rib beams 131 and lower transverse rib beams 141 between the lower lightweight filling blocks 15;

and step S4: laying an upper light filling block 16 above the lower light filling block 15, wherein the upper light filling block 16 can be directly placed between the lower longitudinal rib beam 131 and the lower transverse rib beam 141 when being laid;

step S5: pouring the columns 162, the upper longitudinal ribs 132 and the upper transverse ribs 142 between the upper light-weight fillers 16, the columns 162 being located between the contact edges 161, the upper longitudinal ribs 132 and the upper transverse ribs 142 being located in the upper spaces of the contact edges 161 between the upper light-weight fillers 16;

step S7: above the upper lightweight layer is laid an upper panel 12 comprising a steel mesh 17.

The above, only be the concrete implementation of the preferred embodiment of the present invention, but the protection scope of the present invention is not limited thereto, and any person skilled in the art is in the technical scope of the present invention, according to the technical solution of the present invention and the utility model, the concept of which is equivalent to replace or change, should be covered within the protection scope of the present invention.

Claims (5)

1. The multi-ribbed sandwich all-light concrete grid plate is characterized by comprising a lower panel (11), an upper panel (12) and two light layers positioned between the lower panel (11) and the upper panel (12), wherein the light layers comprise an upper light layer and a lower light layer;

the lower light layer comprises lower light filling blocks (15), the upper light layer comprises upper light filling blocks (16), the upper light filling blocks (16) are positioned above the lower light filling blocks (15) and attached to the lower light filling blocks (15), convex contact edges (161) are arranged on four side surfaces of the upper light filling blocks (16), the contact edges (161) between the upper light filling blocks (16) are attached to each other, and upright columns (162) are arranged between the contact edges (161);

the lower lightweight filling blocks (15) and the upper lightweight filling blocks (16) are located in cavities formed by the lower panel (11), the upper panel (12), the longitudinal ribs (13) and the transverse ribs (14).

2. The multi-ribbed sandwich all-light concrete grid plate according to claim 1, wherein the longitudinal rib beams (13) comprise lower longitudinal rib beams (131) and upper longitudinal rib beams (132), and the transverse rib beams (14) comprise lower transverse rib beams (141) and upper transverse rib beams (142);

the lower longitudinal rib (131) and the lower transverse rib (141) are located between the contact edge (161) and the lower panel (11), and the upper longitudinal rib (132) and the upper transverse rib (142) are located between the upper panel (12) and the contact edge (161).

3. The multi-rib sandwich all-light concrete grid plate according to claim 2, wherein the lower panel (11) and the upper panel (12) are internally provided with a steel wire mesh (17) respectively.

4. The multi-ribbed sandwich all-light-weight concrete grid plate according to claim 1, 2 or 3, characterized in that the materials of the lower face plate (11), the upper face plate (12), the longitudinal ribs (13) and the transverse ribs (14) adopt the bulk density of less than 1200kg/m ³ The heat conductivity coefficient is less than 0.5W/(m.k), and the strength is greater than 10 Mpa.

5. The multi-ribbed sandwich all-light concrete grid plate according to claim 4, wherein the lower light filling blocks (15) and the upper light filling blocks (16) adopt the materials with the thermal conductivity coefficient of less than 0.05W/(m-k) and the volume weight of less than 50kg/m ³ A lightweight material.

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