CN215253565U - Built-in heat preservation structure suitable for low energy consumption - Google Patents

Abstract

The utility model belongs to the technical field of building energy conservation, in particular to a built-in heat preservation structure suitable for low energy consumption, which aims at the problem of poor installation stability of a heat preservation plate when the heat preservation plate and a building wall body are integrally cast and molded; the utility model discloses in locate fastening screw's surface with the gasket cover, rotation through the locking swivel nut, make the protection network install with a plurality of fastening screw and handle, rotation through locking bolt, the position sleeve fastens the installation to the inside and outside surface of heated board respectively with the fixed disk, accomplish the installation between and the base plate through standing groove and draw-in groove respectively with heated board and protection network this moment, thereby improve the installation stability to the heated board, and lock the installation to fastening screw through stirrup and strengthening rib, thereby further improve the stability of heated board when pouring the shaping.

Description

Built-in heat preservation structure suitable for low energy consumption

Technical Field

The utility model relates to a building energy saving technology field especially relates to a built-in heat preservation structure suitable for low energy consumption.

Background

At present, the built-in heat insulation of building walls is a domestic accepted building energy-saving technology, has the advantages of same service life with buildings, no maintenance for life and the like, and is widely adopted.

At present heat retaining mode is carried out to building wall usually paste or build by laying bricks or stones cubic heated board at the wall body (if inflation pearlite board, cement polyphenyl board, aerated concrete piece, EPS board, XPS board etc.), and smear the protective layer (if cement mortar or polymer cement mortar etc.) on the surface, in order to reach and carry out heat preservation to building wall, this kind of processing mode has very big limitation, for solving this problem, carry out the integral type with heated board and building wall and pour the shaping usually, carry out installation treatment with the heated board through fastener and building wall's reinforcing bar this moment, pour the shaping processing then to it, this moment is then especially important to the stable erection of heated board.

Therefore, a built-in heat insulation structure suitable for low energy consumption is needed to solve the problem of poor installation stability of the heat insulation board when the heat insulation board and the building wall are integrally cast and formed.

SUMMERY OF THE UTILITY MODEL

The utility model provides a built-in heat preservation structure suitable for low energy consumption has solved the relatively poor problem of heated board installation stability when carrying out the shaping processing of integrative pouring to heated board and building wall.

In order to achieve the above purpose, the utility model adopts the following technical scheme: a built-in heat preservation structure suitable for low energy consumption comprises a substrate and a heat preservation layer

The main rib assemblies are provided with a plurality of groups, the main rib assemblies are uniformly distributed and fixed on the base plate, and a plurality of symmetrically distributed stirrups are arranged on the outer surface of each main rib assembly;

the insulation board is located in the outer side of the main rib assembly, a placing groove is formed in the top surface of the base plate, the bottom end of the insulation board is located in the placing groove, a protective net connected with the base plate is installed on the outer side of the insulation board, and a plurality of locking assemblies which are evenly distributed are arranged between the protective net and the main rib assembly.

Preferably, the locking assembly comprises

The fastening screw penetrates through the heat insulation board, a gasket is inserted into the outer surface of the protective net, the gasket is sleeved on the outer surface of the fastening screw in a sliding mode, a locking threaded sleeve in threaded connection with the fastening screw is installed on the inner surface of the protective net, and a fixed disc is fixed on one side of the locking threaded sleeve;

the positioning sleeve is arranged on the outer surface of the fastening screw and located on the inner surface of the heat insulation board, and a locking bolt in threaded connection with the fastening screw is arranged on one side of the positioning sleeve.

Preferably, the cross section of the gasket is in a convex shape, and the size of the gasket is consistent with the aperture size of the protective net.

Preferably, the inner end of the fastening screw extends out of the outer side of the stirrup, and the outer surface of the fastening screw is in contact with the bottom surface of the stirrup.

Preferably, reinforcing ribs are fixed at two ends of the main rib assembly, and the distance between each reinforcing rib and the adjacent hoop rib is consistent with the diameter of the fastening screw.

Preferably, the protective net is a steel wire protective net, the top surface of the base plate is provided with a clamping groove, and the bottom end of the protective net is the inside of the clamping groove.

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

1. in the utility model, the gasket is sleeved on the outer surface of the fastening screw, the protective net and a plurality of fastening screws are installed and processed through the rotation of the locking screw sleeve, the positioning sleeve and the fixed disc are respectively fastened and installed on the inner surface and the outer surface of the heat-insulating plate through the rotation of the locking bolt, at the moment, the heat-insulating plate and the protective net are respectively installed with the base plate through the placing groove and the clamping groove, thereby improving the installation stability of the heat insulation board, installing a plurality of reinforcing ribs on the outer surface of the main rib assembly, is used for supporting the fastening screw and installing the fastening screw and the reinforcing rib through iron wires, and then, the stirrups are installed at the tops of the fastening screws, and are in contact with the fastening screws, so that the installation effect of the fastening screws, the main reinforcement assembly, the reinforcing ribs and the stirrups is enhanced, and the stability of the heat insulation board and the protective screening during pouring forming is improved.

2. The utility model discloses well fastening screw length's setting for it is spacing that the stirrup carries out the top to fastening screw, prevents that the heated board fastening screw from taking place the skew when pouring, thereby improves its intensity of wall body when pouring the shaping, and supports fastening screw through the strengthening rib, and makes fastening screw lock the installation with the stirrup respectively and strengthen police through the iron wire, thereby further improves fastening screw's stability.

Drawings

Fig. 1 is a schematic view of the overall structure of a built-in thermal insulation structure suitable for low energy consumption according to the present invention;

fig. 2 is a schematic structural view of a heat-insulating board with a built-in heat-insulating structure suitable for low energy consumption provided by the present invention;

fig. 3 is a schematic structural view of a main bar assembly of a built-in thermal insulation structure suitable for low energy consumption;

fig. 4 is a schematic view of a partial structure at a slot of a built-in thermal insulation structure suitable for low energy consumption according to the present invention;

fig. 5 is a schematic view of a local structure at the locking assembly of the built-in thermal insulation structure suitable for low energy consumption.

In the figure: 1. a substrate; 2. a main bar assembly; 3. hooping; 4. a thermal insulation board; 5. a placement groove; 6. a protective net; 7. a locking assembly; 71. fastening screws; 72. a gasket; 73. locking the threaded sleeve; 74. fixing the disc; 75. a positioning sleeve; 76. locking the bolt; 8. reinforcing ribs; 9. a clamping groove.

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.

Referring to fig. 1-5, a built-in heat preservation structure suitable for low energy consumption comprises a substrate 1, the substrate 1 further comprises a main rib assembly 2, the main rib assembly 2 is provided with a plurality of groups, the main rib assemblies 2 are uniformly distributed and fixed on the substrate 1, and a plurality of symmetrically distributed stirrups 3 are mounted on the outer surface of the main rib assembly 2; heated board 4, heated board 4 is located the outside of main muscle assembly 2, standing groove 5 has been seted up to base plate 1's top surface, the bottom of heated board 4 is located standing groove 5's inside, the protection network 6 of being connected with base plate 1 is installed in the outside of heated board 4, be provided with a plurality of locking Assembly 7 that are evenly distributed between protection network 6 and the main muscle assembly 2, concretely, main muscle assembly 2 comprises four reinforcing bars that are the symmetric distribution, be used for strengthening the intensity of heated board 4 when integrative pouring shaping is handled, heated board 4 adopts the extrusion molding polyphenyl board, standing groove 5's setting, be used for the joint installation to heated board 4, and the effect of cooperation locking Assembly 7, improve the protection network 6, the installation stability between heated board 4 and the main muscle assembly 2.

The locking assembly 7 comprises a fastening screw 71, the fastening screw 71 penetrates through the heat insulation board 4, a gasket 72 is inserted into the outer surface of the protective net 6, the gasket 72 is sleeved on the outer surface of the fastening screw 71 in a sliding mode, a locking threaded sleeve 73 in threaded connection with the fastening screw 71 is installed on the inner surface of the protective net 6, and a fixed disc 74 is fixed on one side of the locking threaded sleeve 73; the locating sleeve 75, the locating sleeve 75 sets up in fastening screw 71's surface, and the locating sleeve 75 is located the internal surface of heated board 4, and one side of locating sleeve 75 is provided with the locking bolt 76 with fastening screw 71 threaded connection, and is concrete, carries out the contact location through fixed disk 74 and locating sleeve 75 to the surface and the internal surface of heated board 4 to improve the installation stability to fastening screw 71 and heated board 4.

The cross section of the gasket 72 is in a convex shape, the size of the gasket 72 is consistent with the aperture size of the protective net 6, specifically, the gasket 72 is clamped and installed inside the protective net 6, and the installation stability of the fastening screw 71 and the protective net 6 is improved, so that the installation stability of the gasket and the base plate 1 is improved.

The inner of fastening screw 71 with extend the outside of stirrup 3, the surface of fastening screw 71 contacts with the bottom surface of stirrup 3, specifically, the setting of fastening screw 71 length for stirrup 3 carries out the top spacing to fastening screw 71, prevents that heated board 4 fastening screw 71 from taking place the skew when pouring, thereby improves its intensity of wall body when pouring the shaping.

Both ends of main muscle assembly 2 all are fixed with strengthening rib 8, and the distance between strengthening rib 8 and the adjacent stirrup 3 is unanimous with fastening screw 71's diameter size, and is concrete, supports fastening screw 71 through strengthening rib 8 to make fastening screw 71 respectively with stirrup 3 with strengthen police locking installation through the iron wire, thereby further improve fastening screw 71's stability.

The protective net 6 is a steel wire protective net 6, the top surface of the base plate 1 is provided with a clamping groove 9, the bottom end of the protective net 6 is arranged inside the clamping groove 9, and the arrangement of the steel wire protective net 6 effectively improves the stress dispersion of the heat-insulating plate 4 during pouring forming, can effectively avoid stress concentration or deformation, and effectively reduces the construction difficulty; the setting of draw-in groove 9 improves the stability of protection network 6 installation on base plate 1 to cooperate the joint installation effect of heated board 4 in standing groove 5, thereby make heated board 4 and protection network 6 in the stability of pouring the shaping.

The working principle is as follows: when the building wall is poured and installed, firstly, the base plate 1 is poured and molded, then, a plurality of gaskets 72 are sequentially sleeved on the outer surfaces of a plurality of fastening screws 71 respectively, the protective net 6 and the plurality of fastening screws 71 are installed through rotation of locking screw sleeves 73, then, the plurality of fastening screws 71 penetrate through the heat insulation plate 4, the positioning sleeves 75 and the fixing discs 74 are enabled to fasten and install the inner and outer surfaces of the heat insulation plate 4 respectively through rotation of the locking bolts 76, at the moment, the heat insulation plate 4 and the protective net 6 are installed with the base plate 1 through the placing grooves 5 and the clamping grooves 9 respectively, so that the installation stability of the heat insulation plate 4 is improved, when the protective net 6, the heat insulation plate 4 and the base plate 1 are stably installed, at the moment, a plurality of reinforcing ribs 8 are installed on the outer surface of the main rib assembly 2 and used for supporting the fastening screws 71, and the reinforcing ribs 8 are installed through iron wires, and then, the stirrups 3 are installed at the tops of the fastening screws 71, the stirrups 3 are in contact with the fastening screws 71 and are fixed through iron wires, the installation effect of the fastening screws 71, the main reinforcement assembly 2, the reinforcing ribs 8 and the stirrups 3 is enhanced, and therefore the stability of the heat insulation board 4 and the protective net 6 during pouring forming is improved.

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 design of the present invention, equivalent replacement or change should be covered within the protection scope of the present invention.

Claims (6)

1. A built-in heat preservation structure suitable for low energy consumption comprises a substrate (1), and is characterized in that the substrate (1) further comprises

The main reinforcement assembly (2) is provided with a plurality of groups, the main reinforcement assemblies (2) are uniformly distributed and fixed on the base plate (1), and a plurality of symmetrically distributed stirrups (3) are arranged on the outer surface of the main reinforcement assembly (2);

heated board (4), heated board (4) are located the outside of main muscle assembly (2), standing groove (5) have been seted up to the top surface of base plate (1), the bottom of heated board (4) is located the inside of standing groove (5), the outside of heated board (4) install with protection network (6) that base plate (1) are connected, protection network (6) with be provided with a plurality of locking Assembly (7) that are evenly distributed between main muscle assembly (2).

2. Construction with built-in insulation, adapted for low energy consumption, according to claim 1, characterized in that said locking assembly (7) comprises

The fastening screw (71) penetrates through the heat insulation plate (4), a gasket (72) is inserted into the outer surface of the protective net (6), the gasket (72) is sleeved on the outer surface of the fastening screw (71) in a sliding mode, a locking threaded sleeve (73) in threaded connection with the fastening screw (71) is installed on the inner surface of the protective net (6), and a fixed disc (74) is fixed on one side of the locking threaded sleeve (73);

the insulation board comprises a positioning sleeve (75), wherein the positioning sleeve (75) is arranged on the outer surface of a fastening screw (71), the positioning sleeve (75) is located on the inner surface of the insulation board (4), and a locking bolt (76) in threaded connection with the fastening screw (71) is arranged on one side of the positioning sleeve (75).

3. The built-in heat preservation structure suitable for low energy consumption according to claim 2 is characterized in that the cross section of the gasket (72) is in a convex shape, and the size of the gasket (72) is consistent with the pore size of the protective net (6).

4. The built-in insulation structure suitable for low energy consumption of claim 2, characterized in that the inner end of the fastening screw (71) extends outside the stirrup (3), and the outer surface of the fastening screw (71) is in contact with the bottom surface of the stirrup (3).

5. The built-in heat preservation structure suitable for low energy consumption of claim 4 is characterized in that reinforcing ribs (8) are fixed at two ends of the main rib assembly (2), and the distance between each reinforcing rib (8) and the adjacent hoop rib (3) is consistent with the diameter of the fastening screw (71).

6. The built-in heat preservation structure suitable for low energy consumption of claim 2, wherein the protection net (6) is a steel wire protection net (6), the top surface of the base plate (1) is provided with a clamping groove (9), and the bottom end of the protection net (6) is inside the clamping groove (9).

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