CN216810449U - Cast-in-place tear-free composite form of concrete - Google Patents

Abstract

The utility model discloses a concrete cast-in-place disassembly-free composite template, and relates to the field of buildings. Comprises a concrete substrate; the heat-insulation composite layer is connected to the top end of the concrete substrate through the first bonded sand layer and comprises an inorganic heat-insulation block, an organic heat-insulation block and a partition rib, the inorganic heat-insulation block and the organic heat-insulation block are connected to the top end of the concrete substrate, and the partition rib is arranged between the inorganic heat-insulation block and the organic heat-insulation block; the first anchoring piece sequentially penetrates through the concrete substrate and the heat-preservation composite layer. The cast-in-place concrete disassembly-free composite template disclosed by the utility model has waterproof and heat preservation functions, is more stable in structure, longer in service life and very strong in practicability.

Description

Cast-in-place tear-free composite form of concrete

Technical Field

The utility model relates to the field of buildings, in particular to a concrete cast-in-place disassembly-free composite template.

Background

The wallboard, the name of furniture parts in ancient times, is located at the left and right sides of furniture, and the board which is a vertical surface is collectively called as a side board or a wallboard, which is a building material and is a house structure of a bearing system consisting of walls and floors.

The existing wall boards are mostly manufactured by adopting a concrete pouring mode, the construction process is complex, the construction period is long, the economic performance, the heat insulation performance and the like are not beneficial to the engineering, the potential safety hazard exists, and a dismantling-free template which can be well fused with a cast-in-place concrete structure into a whole is not available.

Therefore, it is necessary to provide a cast-in-place concrete non-dismantling composite formwork with stable structure and stronger thermal insulation performance.

SUMMERY OF THE UTILITY MODEL

In order to solve the technical problems, the utility model adopts the following technical scheme:

a cast-in-place concrete detaching-free composite template comprises:

a concrete substrate;

the heat-insulation composite layer is connected to the top end of the concrete substrate through a first bonded sand layer and comprises an inorganic heat-insulation block, an organic heat-insulation block and a warehouse-dividing rib, the inorganic heat-insulation block and the organic heat-insulation block are both connected to the top end of the concrete substrate, and the warehouse-dividing rib is arranged between the inorganic heat-insulation block and the organic heat-insulation block;

the first anchoring piece sequentially penetrates through the concrete substrate and the heat-preservation composite layer.

Furthermore, the waterproof layer is connected to the top end of the heat-insulation composite layer through a second bonded sand layer, and the first anchoring piece sequentially penetrates through the concrete substrate and the heat-insulation composite layer and extends to the interior of the waterproof layer.

Further, an inner surface layer is arranged at the top end of the waterproof layer, a glass fiber net is arranged on the inner surface layer, the glass fiber net is connected with the waterproof layer through a third anchoring part, and a third bonded sand layer is poured around the glass fiber net.

Furthermore, a settling tank is arranged on a third bonded sand layer on the upper side of the glass fiber net, and the third anchoring piece is installed in the settling tank.

Further, the third anchoring piece is made of one of high-strength molding plastic, nylon, steel materials or organic ribs.

Further, divide the storehouse rib to include division board and fourth bonding sand bed, two liang of equidistance settings of division board, the division board outer wall sets up the formation of fourth bonding sand bed divide the storehouse rib.

Further, the first anchoring piece is made of one of high-strength molding plastic, nylon, steel materials or organic ribs.

Further, the heat-preservation composite layer also comprises a second anchoring piece, and the second anchoring piece penetrates through the heat-preservation composite layer along the horizontal direction.

Further, the second anchoring piece is made of one of high-strength molding plastic, nylon, steel materials or organic ribs.

The utility model has the beneficial effects that:

according to the cast-in-place disassembly-free composite concrete formwork, the inorganic heat-insulation blocks and the organic heat-insulation blocks are combined by the bin-dividing ribs, so that the flame retardance of the wallboard is improved on the basis of improving the heat-insulation performance, the quality of the wallboard is reduced to a certain extent, and the service life of the wallboard is prolonged; and through setting up the waterproof layer, make the wallboard have heat preservation waterproof performance concurrently, improved the performance and the life of wallboard.

Drawings

FIG. 1 is a schematic view of a cast-in-place concrete disassembly-free composite formwork according to the present invention.

Wherein, in the figure:

1-a concrete substrate; 2-a first bonded sand layer; 3-heat preservation composite layer; 31-inorganic heat-insulating block; 32-organic insulating blocks; 33-bin-dividing ribs; 4-a second anchor; 5-waterproof layer; 6-glass fiber net; 7-leveling the mortar layer; 8-a first anchor; 9-a third anchor; 10-a second bonded sand layer; 11-third bonded sand layer.

Detailed Description

The technical solutions in the embodiments of the present invention will be clearly and completely described below with reference to fig. 1 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, which can be derived by a person skilled in the art from the embodiments given herein without making any creative effort, shall fall within the protection scope of the present invention.

Examples

The embodiment of fig. 1 provides a cast-in-place concrete disassembly-free composite formwork, which includes a concrete substrate 1, a heat insulation composite layer 3 and a first anchoring member 8, wherein the heat insulation composite layer 3 is connected to the top end of the concrete substrate 1 through a first bonding sand layer 2, the heat insulation composite layer 3 includes an inorganic heat insulation block 31, an organic heat insulation block 32 and a warehouse-dividing rib 33, the inorganic heat insulation block 31 and the organic heat insulation block 32 are both connected to the top end of the concrete substrate 1 through the first bonding sand layer 2, and the warehouse-dividing rib 33 is arranged between the inorganic heat insulation block 31 and the organic heat insulation block 32; the first anchoring piece 8 penetrates through the concrete substrate 1 and the heat-preservation composite layer 3 in sequence.

Further, the concrete heat-insulation composite layer structure further comprises a waterproof layer 5, the waterproof layer 5 is connected to the top end of the heat-insulation composite layer 3 through a second bonding sand layer 10, and the first anchoring piece 8 penetrates through the concrete substrate 1 and the heat-insulation composite layer 3 in sequence and extends into the waterproof layer 5.

Although the organic heat insulation block 32 has high heat insulation performance, the bonding compressive strength of the organic heat insulation block with a cement base is poor, the organic heat insulation block is easy to fall off, a fire retardant needs to be added when the wallboard is manufactured, the product quality of the inorganic heat insulation block is light, the bonding degree is high, and the characteristics of heat insulation and fire retardation are achieved.

The inorganic heat insulation block 31 is a perlite composite heat insulation block or a vitrified microsphere composite heat insulation block or a foam concrete block or a foam glass block or a rock wool block, and the inorganic heat insulation block 31 of the embodiment adopts a perlite composite heat insulation block; the organic heat-insulating block 32 is a phenolic foam block or an expanded polystyrene block or an extruded polystyrene block or a polystyrene particle composite heat-insulating block, and the organic heat-insulating block 32 of the embodiment is a phenolic foam block.

The first anchoring member 8 is made of one of high-strength molding plastic, nylon, steel material or organic ribs, and the embodiment adopts the high-strength molding plastic.

Further, an inner surface layer is arranged at the top end of the waterproof layer 5, a glass fiber net 6 is arranged inside the inner surface layer, the glass fiber net 6 is connected with the waterproof layer 5 through a third anchoring part 9, a third bonding sand layer 11 is poured around the glass fiber net 6, and the strength of the wallboard is improved by utilizing the reinforcing effect of the third anchoring part 9; the third bonded sand layer 11 on the upper side of the glass fiber net 6 is provided with a sinking groove, and the third anchoring piece 9 is installed in the sinking groove.

Further, the third anchoring member 9 is made of one of high-strength molding plastic, nylon, steel material or organic ribs, and the third anchoring member 9 of the present embodiment is made of high-strength molding plastic.

Divide storehouse rib 33 to include division board and fourth bonding sand bed (not shown in the figure), two liang of equidistance settings of division board, the division board outer wall sets up the fourth bonding sand bed and forms divide storehouse rib 33.

As optimization, the heat-insulating composite layer 3 further comprises a second anchoring piece 4, and the second anchoring piece 4 penetrates through the heat-insulating composite layer 3 along the horizontal direction, so that the structure of the heat-insulating composite layer is more stable, and the separation effect of the cabin-dividing ribs is enhanced.

The second anchoring member 4 is made of one of high-strength molding plastic, nylon, steel material or organic ribs, and the second anchoring member of the embodiment is made of high-strength molding plastic.

As a further optimization of the embodiment, a floating mortar layer 7 is arranged at the top end of the third bonded sand layer 11 of the inner surface layer, so that the wallboard can be conveniently subjected to further decoration work.

The previous description of the disclosed embodiments is provided to enable any person skilled in the art to make or use the present invention. Various modifications to the above-described embodiments will be readily apparent to those skilled in the art, and the generic principles defined herein may be applied to other embodiments without departing from the spirit or scope of the utility model. Thus, the present invention is not intended to be limited to the embodiments shown herein but is to be accorded the widest scope consistent with the principles and novel features disclosed herein.

Claims (9)

1. The utility model provides a cast-in-place tear-off free composite forms of concrete which characterized in that includes:

a concrete substrate;

the heat-insulation composite layer is connected to the top end of the concrete substrate through a first bonded sand layer and comprises an inorganic heat-insulation block, an organic heat-insulation block and a warehouse-dividing rib, the inorganic heat-insulation block and the organic heat-insulation block are both connected to the top end of the concrete substrate, and the warehouse-dividing rib is arranged between the inorganic heat-insulation block and the organic heat-insulation block;

the first anchoring piece sequentially penetrates through the concrete substrate and the heat-preservation composite layer.

2. The cast-in-place concrete disassembly-free composite formwork according to claim 1, further comprising a waterproof layer, wherein the waterproof layer is connected to the top end of the heat-insulating composite layer through a second bonded sand layer, and the first anchoring member sequentially penetrates through the concrete substrate and the heat-insulating composite layer and extends into the waterproof layer.

3. The cast-in-place concrete disassembly-free composite formwork according to claim 2, wherein an inner surface layer is arranged at the top end of the waterproof layer, a glass fiber net is arranged on the inner surface layer, the glass fiber net is connected with the waterproof layer through a third anchoring part, and a third bonding sand layer is poured around the glass fiber net.

4. The cast-in-place concrete disassembly-free composite formwork of claim 3, wherein the third bonded sand layer on the upper side of the glass fiber net is provided with a sinking groove, and the third anchoring member is installed in the sinking groove.

5. The cast-in-place concrete disassembly-free composite formwork of claim 3, wherein the third anchoring member is made of one of high-strength molding plastic, nylon, steel material or organic ribs.

6. The cast-in-place concrete disassembly-free composite formwork according to claim 1, wherein the warehouse-dividing ribs comprise partition plates and fourth bonded sand layers, the partition plates are arranged at equal intervals in pairs, and the fourth bonded sand layers are arranged on the outer walls of the partition plates to form the warehouse-dividing ribs.

7. The cast-in-place concrete disassembly-free composite template according to claim 1, wherein the first anchoring member is made of one of high-strength molding plastic, nylon, steel material or organic ribs.

8. The cast-in-place concrete disassembly-free composite formwork of claim 1, wherein the heat-insulating composite layer further comprises a second anchoring member, and the second anchoring member penetrates through the heat-insulating composite layer along the horizontal direction.

9. The cast-in-place concrete disassembly-free composite formwork of claim 8, wherein the second anchoring member is made of one of high-strength molding plastic, nylon, steel material or organic ribs.

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