CN212613165U - Building heat preservation firebreak device - Google Patents

Abstract

The utility model discloses a building heat preservation firebreak device relates to the building wall field, including concrete wall, heated board, main part reinforcing bar, wire net piece and steel wire connecting piece, heated board, main part reinforcing bar and wire net piece set up inside concrete wall, and main part reinforcing bar and wire net piece set up in the relative both sides of heated board, and the steel wire connecting piece passes heated board and steel wire connecting piece's both ends respectively with wire net piece and main part steel bar connection, and the steel wire connecting piece includes inside steel wire framework and the plastic housing of cladding on steel wire framework surface. The utility model provides a heated board, main part reinforcing bar and wire net piece can connect through the steel wire connecting piece and form wholly, thereby make the utility model discloses an organic whole nature is good. Its inside steel wire framework of steel wire connecting piece, the structure of outside cladding plastic casing makes it have the bridge cut-off effect, can block and use the utility model discloses an indoor outer cold and hot bridge of building has strengthened the utility model discloses thermal-insulated heat retaining effect.

Description

Building heat preservation firebreak device

Technical Field

The utility model relates to a building wall's technical field particularly, indicates a building heat preservation firebreak device.

Background

With the development of society, people pay more attention to the energy consumption and safety level of buildings. At present, in order to reduce the energy consumption of buildings and improve the fireproof safety level of the buildings, the insulation boards are usually installed on the outer walls of the buildings, the insulation boards are used for wrapping the buildings so as to reduce the energy consumption of the buildings, and the fireproof performance of the buildings is improved by using the flame retardant property of the insulation boards.

Most of the existing fireproof heat-insulation structures are laid layer by layer, the stability is poor, the outer wall structure is easy to fall off, the property damage of personnel is caused, meanwhile, the structural integrity is poor, the construction difficulty is high, the cost is high, workers work high above the ground, the safety is low, and the heat insulation, fire prevention and safety performance of the wall body are greatly reduced.

SUMMERY OF THE UTILITY MODEL

In view of this, the utility model aims at overcoming the not enough of prior art, provide a building heat preservation firebreak device to solve the poor and complicated problem of structure of current thermal insulation wall body wholeness.

The utility model provides a technical scheme that its technical problem adopted is:

the utility model provides a building heat preservation firebreak device, including muddy earth wall body, heated board, main part reinforcing bar, wire mesh piece and steel wire connecting piece, heated board, main part reinforcing bar and wire mesh piece set up inside the concrete wall body, main part reinforcing bar and wire mesh piece set up the relative both sides of heated board, the steel wire connecting piece passes heated board and steel wire connecting piece's both ends respectively with wire mesh piece and main part steel bar connection, the steel wire connecting piece includes inside steel wire framework and cladding the plastic casing on steel wire framework surface.

On the basis of the technical scheme, the utility model discloses can also do following improvement.

Further, steel wire connecting piece one end has and is located the steel wire fixed part between heated board and the wire net piece, the one end of steel wire fixed part with the heated board butt, the other end of steel wire fixed part with wire net piece fixed connection.

Furthermore, the steel wire fixing part is a hollow rectangular block with an opening at one end, two opposite side surfaces of the steel wire fixing part are provided with first steel wire grooves which are oppositely arranged, the other two opposite side surfaces of the steel wire fixing part are provided with second steel wire grooves which are oppositely arranged, and one ends of the first steel wire grooves and the second steel wire grooves extend to the opening of the steel wire fixing part.

Furthermore, one ends, far away from the opening of the steel wire fixing part, of the first steel wire groove and the second steel wire groove are connected with steel wire limiting grooves, the width of the joint of the first steel wire groove and the steel wire limiting grooves is smaller than the outer diameter of the steel wires in the steel wire mesh, and the width of the joint of the second steel wire groove and the steel wire limiting grooves is also smaller than the outer diameter of the steel wires in the steel wire mesh.

Further, screw holes are formed in the end faces, abutted to the insulation board, of the steel wire fixing portions, pull rods penetrate through the screw holes, and penetrate through the insulation board and are in compression joint with the main reinforcing steel bars.

Further, a cushion block sleeved on the pull rod is arranged between the heat insulation plate and the main steel bar, and round holes are correspondingly formed in the steel wire fixing portion, the heat insulation plate and the cushion block.

Further, the one end that the steel wire fixed part was kept away from the wire net piece is connected with connecting block portion, connecting block portion passes heated board and connecting block portion are kept away from the one end of steel wire fixed part with the main part reinforcing bar is fixed.

Furthermore, a through hole is formed in one end, far away from the steel wire fixing portion, of the connecting block portion, and the steel bar in the main body steel bar can penetrate through the through hole.

Furthermore, one side of the steel wire mesh is provided with a mesh support for supporting and installing the steel wire mesh.

Furthermore, the surfaces of the steel wire mesh and the insulation board are provided with vibrating holes which are formed along the extending direction from the steel wire mesh to the insulation board in a concave mode.

Compared with the prior art, the utility model discloses the beneficial effect who has is:

the utility model provides a heated board has played thermal insulation wall's heat preservation effect, and main part reinforcing bar and wire net piece can guarantee the utility model discloses an intensity, heated board, main part reinforcing bar and wire net piece can connect through the steel wire connecting piece and form wholly, thereby make the utility model discloses an organic whole nature is good. Its inside steel wire framework of steel wire connecting piece, the structure of outside cladding plastic casing makes it have the bridge cut-off effect, can block and use the utility model discloses an indoor outer cold and hot bridge of building has strengthened the utility model discloses thermal-insulated heat retaining effect.

The through-hole department on the connecting block links with the reinforcing bar colludes, makes the whole and main part reinforcing bar formation wholeness of steel wire connecting piece be connected, and the round hole on the steel wire fixed part is worn to be equipped with ordinary steel wire in addition, plays to make heated board and main part reinforcing bar be connected and keep the interval effect, ensures main part reinforcing bar protective layer thickness.

Drawings

In order to more clearly illustrate the embodiments of the present invention or the technical solutions in the prior art, the drawings used in the description of the embodiments or the prior art will be briefly described below, it is obvious that the drawings in the following description are only some embodiments of the present invention, and for those skilled in the art, other drawings can be obtained according to these drawings without creative efforts.

Fig. 1 is a schematic view of embodiment 1 of the present invention;

fig. 2 is a schematic view of embodiment 2 of the present invention;

fig. 3 is a front view of the steel wire fixing part of the present invention;

fig. 4 is a side view of the wire fixing part of the present invention;

fig. 5 is a top view of the steel wire fixing part of the present invention;

fig. 6 is a front view of the present invention;

fig. 7 is a front view of the present invention;

fig. 8 is a front view of the present invention;

fig. 9 to 12 are schematic views of various forms of spacer blocks in the present invention;

FIG. 13 is a schematic view of a connecting block portion;

fig. 14 is a front view of the present invention.

Wherein the figures include the following reference numerals: 100-concrete wall, 200-insulation board, 210-vibration hole, 300-main body steel bar, 400-steel wire mesh, 410-mesh support, 500-steel wire connecting piece, 510-steel wire fixing part, 511-first steel wire groove, 512-second steel wire groove, 513-steel wire limiting groove, 514-round hole, 520-pull rod, 530-cushion block, 540-connecting block part and 541-through hole.

Detailed Description

In order to make the objects, technical solutions and advantages of the present invention clearer, the technical solutions of the present invention will be described in detail below. It is to be understood that the embodiments described are merely exemplary of the invention and are not intended to be exhaustive. Based on the embodiments of the present invention, all other embodiments obtained by a person skilled in the art without creative efforts belong to the protection scope of the present invention.

Example 1:

the utility model provides a building heat preservation firebreak device, as shown in fig. 1, 3, 4, 5, including concrete wall 100, heated board 200, main part reinforcing bar 300, wire mesh 400 and steel wire connecting piece 500, heated board 200, main part reinforcing bar 300 and wire mesh 400 set up inside concrete wall 100, and main part reinforcing bar 300 and wire mesh 400 set up in the relative both sides of heated board 200, and steel wire connecting piece 500 passes heated board 200 and steel wire connecting piece 500's both ends respectively with wire mesh 400 and main part reinforcing bar 300 are connected, and steel wire connecting piece 500 includes inside steel wire framework and the plastic housing of cladding on steel wire framework surface.

Heated board 200, main part reinforcing bar 300 and wire mesh 400 pass through steel wire connecting piece 500 fixed connection and form whole frame, and after the both ends face of the whole frame that above-mentioned four formed set up the template, thereby pour concrete in to the frame and formed concrete wall 100, heated board 200, main part reinforcing bar 300, wire mesh 400 and steel wire connecting piece 500 just are encapsulated in concrete wall 100, thereby form the utility model discloses an overall structure makes the utility model discloses the wholeness is strong. Its inside steel wire framework of steel wire connecting piece 500, the structure of outside cladding plastic casing makes it have the bridge cut-off effect, can block and use the utility model discloses an indoor outer cold and hot bridge of building has strengthened the utility model discloses thermal-insulated heat retaining effect.

In this embodiment, steel wire connecting piece 500 one end has the steel wire fixed part 510 that is located between heated board 200 and the steel mesh 400, the one end and the heated board 200 butt of steel wire fixed part 510, the other end and the steel mesh 400 fixed connection of steel wire fixed part 510.

Specifically, the wire fixing portion 510 is a hollow rectangular block with an opening at one end, two opposite side surfaces of the wire fixing portion 510 are provided with first wire grooves 511 which are arranged oppositely, the other two opposite side surfaces of the wire fixing portion 510 are provided with second wire grooves 512 which are arranged oppositely, and one ends of the first wire grooves 511 and the second wire grooves 512 extend to the opening of the wire fixing portion 510.

The steel wires of the steel mesh sheet 400 have two extending directions and the steel wires of the two extending directions are perpendicular to each other, so that the extending directions of the two first steel wire grooves 511 and the two second steel wire grooves 512 of the steel wire fixing part 510 are also perpendicular to each other, so as to cooperate with the steel wires of the two extending directions of the steel mesh sheet 400, so that the steel wires of the steel mesh sheet 400 can be embedded into the first steel wire grooves 511 and the second steel wire grooves 512. Specifically, the wire fixing portion 510 may be inserted into the steel wire mesh sheet 400 such that two extending direction wires of the steel wire mesh sheet 400 are respectively inserted into two first wire grooves 511 and two second wire grooves 512 which are oppositely disposed.

In this embodiment, the first wire groove 511 and the second wire groove 512 are connected to the wire limiting groove 513 at the end far away from the opening of the wire fixing portion 510, the width of the joint of the first wire groove 511 and the wire limiting groove 513 is smaller than the outer diameter of the wire in the steel wire mesh 400, and the width of the joint of the second wire groove 512 and the wire limiting groove 513 is also smaller than the outer diameter of the wire in the steel wire mesh 400.

Specifically, one end of the first wire groove 511 and one end of the second wire groove 512 are communicated with the opening of the wire fixing portion 510 so that the wires of the steel mesh sheet 400 can be inserted into the first wire groove 511 and the second wire groove 512, because the width of the joint of the steel wire limiting groove 513 and the first steel wire groove 511 is smaller than the outer diameter of the steel wires in the steel wire mesh 400, and the width of the joint of the steel wire limiting groove 513 and the second steel wire groove 511 is smaller than the outer diameter of the steel wires in the steel wire mesh 400, the steel wires can be prevented from entering the steel wire limiting groove 513, and the steel wire framework and the plastic shell structure of the steel wire fixing part 510 make it have certain elasticity, the width of the joint of the wire retaining groove 513 with the first and second wire grooves 511 and 512 can be increased to allow the wire to pass through and enter the wire retaining groove 513, the steel wire can be limited in the steel wire limiting groove 513 after the connection parts of the first steel wire groove 511, the second steel wire groove 512 and the steel wire limiting groove 513 are reset. The steel wires in the steel wire mesh sheet 400 are fixed in the steel wire limiting groove 513 in a welding mode, and the steel wire limiting groove 513 can play a role in fixing the steel wire mesh sheet 400, so that the steel wires of the steel wire mesh sheet 400 can be conveniently welded in the steel wire limiting groove 513.

In this embodiment, a screw hole is formed on the end surface of the steel wire fixing portion 510 abutting against the heat insulation board 200, a pull rod 520 is inserted into the screw hole, and the pull rod 520 penetrates through the heat insulation board 200 and is in compression joint with the main body steel bar 300.

The surface of pull rod 520 is provided with the internal thread fit that the external screw thread can with the screw of steel wire fixed part 510, make pull rod 520 and steel wire fixed part 510 have detachability, after steel wire fixed part 510 is fixed with steel wire mesh 400, the screw rod is worn to establish heated board 200 steel wire fixed part 510 and can be made steel wire mesh 400 and heated board 200 relatively fixed in order to form wholly, and the other end and the subject reinforcing bar crimping of pull rod 520 can make main part reinforcing bar 300 and heated board 200 and steel wire mesh 400 relatively fixed in order to form wholly simultaneously.

In this embodiment, a spacer 530 sleeved on the tie rod 520 is disposed between the heat insulation board 200 and the main body steel bar 300, the steel wire fixing portion 510, the heat insulation board 200 and the spacer 530 are provided with corresponding tie rod holes, and the spacer 530 can enable a certain gap to be formed between the main body steel bar 300 and the heat insulation board 200, thereby ensuring the thickness of the protective layer of the main body steel bar 300.

In this embodiment, one side of the steel wire mesh 400 is provided with a mesh support 410 for supporting and installing the steel wire mesh 400, and the mesh support 410 can support and fix the steel wire mesh 400 and can also enable a certain distance to be reserved between the heat preservation board 200 and the steel wire mesh 400.

In this embodiment, the surfaces of the steel mesh sheet 400 and the insulation board 200 have vibrating holes 210 formed by being recessed along the extending direction from the steel mesh sheet 400 to the insulation board 200. The utility model discloses it will to set up the template through the one side of keeping away from each other at wire mesh 400 and main part reinforcing bar 300 during manufacturing, makes through setting up hole 210 that vibrates the utility model discloses a concrete wall 100 can pour more conveniently, mixes earth and can more conveniently pour the region between two templates through hole 210 that vibrates.

Example 2:

the utility model provides a building heat preservation firebreak device, as shown in fig. 2, 3, 4, 5, 13 is shown, wherein the one end that steel wire net 400 was kept away from to steel wire fixed part 510 is connected with connecting block 540, connecting block 540 passes heated board 200 and connecting block 540 keeps away from the one end of steel wire fixed part 510 fixed with main reinforcing bar 300, it is specific, connecting block 540 keeps away from the one end of steel wire fixed part 510 and has seted up through-hole 541, through-hole 541 can make the reinforcing bar in the main reinforcing bar 300 pass, it can be fixed with connecting block 540 after the reinforcing bar in the main reinforcing bar 300 passes through-hole 541 of connecting block 540, thereby it is fixed with steel wire fixed part 510, and then make it can be fixed with steel wire net 400, heated board 200, main reinforcing bar 300, steel wire net.

In the present invention, fig. 6, 7, 8 and 14 are various embodiments of example 1, in which the structure of the spacer and the structure of the wire fixing portion have various modifications.

Fig. 9, 10, 11, 12 are schematic views of the same type of spacer.

The above description is only for the specific embodiments of the present invention, but the protection scope of the present invention is not limited thereto, and any person skilled in the art can easily think of the changes or substitutions within the technical scope of the present invention, and all should be covered within the protection scope of the present invention.

Claims (10)

1. The utility model provides a building heat preservation firebreak device, a serial communication port, including concrete wall (100), heated board (200), main part reinforcing bar (300), wire net piece (400) and steel wire connecting piece (500), heated board (200), main part reinforcing bar (300) and wire net piece (400) set up inside concrete wall (100), main part reinforcing bar (300) and wire net piece (400) set up the relative both sides of heated board (200), steel wire connecting piece (500) pass the both ends of heated board (200) and steel wire connecting piece (500) respectively with wire net piece (400) and main part reinforcing bar (300) are connected, steel wire connecting piece (500) include inside steel wire framework and the cladding be in the plastic housing on steel wire framework surface.

2. The building insulation fireproof device according to claim 1, wherein one end of the steel wire connecting piece (500) is provided with a steel wire fixing part (510) located between the insulation board (200) and the steel wire mesh (400), one end of the steel wire fixing part (510) is abutted to the insulation board (200), and the other end of the steel wire fixing part (510) is fixedly connected with the steel wire mesh (400).

3. The building insulation fire-proof device according to claim 2, wherein the wire fixing portion (510) is a rectangular block with an opening at one end, two opposite sides of the wire fixing portion (510) are provided with first wire grooves (511) which are oppositely arranged, the other two opposite sides of the wire fixing portion (510) are provided with second wire grooves (512) which are oppositely arranged, and one ends of the first wire grooves (511) and the second wire grooves (512) extend to the opening of the wire fixing portion (510).

4. The building heat-insulation fireproof device according to claim 3, wherein one ends of the first steel wire groove (511) and the second steel wire groove (512) far away from the opening of the steel wire fixing part (510) are connected with steel wire limiting grooves (513), the width of the joint of the first steel wire groove (511) and the steel wire limiting grooves (513) is smaller than the outer diameter of the steel wires in the steel wire mesh sheet (400), and the width of the joint of the second steel wire groove (512) and the steel wire limiting grooves (513) is also smaller than the outer diameter of the steel wires in the steel wire mesh sheet (400).

5. The building heat-insulation fireproof device according to claim 2, wherein a screw hole is formed on the end surface of the steel wire fixing part (510) abutting against the heat-insulation board (200), a pull rod (520) penetrates through the screw hole, and the pull rod (520) penetrates through the heat-insulation board (200) and is in compression joint with the main body steel bar (300).

6. The building heat-insulation fireproof device according to claim 5, wherein a cushion block (530) sleeved on the pull rod (520) is arranged between the heat-insulation board (200) and the main steel bar (300), and round holes (514) are correspondingly arranged on the steel wire fixing part (510), the heat-insulation board (200) and the cushion block (530).

7. The building insulation and fire prevention device of claim 2, wherein one end of the steel wire fixing part (510) far away from the steel wire mesh sheet (400) is connected with a connecting block part (540), the connecting block part (540) penetrates through the insulation board (200) and one end of the connecting block part (540) far away from the steel wire fixing part (510) is fixed with the main body steel bar (300).

8. The building heat-insulation fireproof device according to claim 7, wherein a through hole (541) is opened at one end of the connecting block part (540) far away from the steel wire fixing part (510), and the through hole (541) can allow the steel bar in the main steel bar (300) to pass through.

9. The building heat-insulation fireproof device according to claim 1, wherein one side of the steel mesh (400) is provided with a mesh support (410) for supporting and installing the steel mesh (400).

10. The building heat-insulation fireproof device according to claim 1, wherein the surfaces of the steel wire mesh (400) and the heat-insulation board (200) are provided with vibrating holes (210) formed by being concavely arranged along the extending direction of the steel wire mesh (400) to the heat-insulation board (200).

Images