CN216075575U - Bracket device for ultra-low energy consumption building heat preservation and structure integrated system - Google Patents

Abstract

The utility model discloses a bracket device for an ultra-low energy consumption building heat preservation and structure integration system, which comprises a bracket component and a reinforcing clapboard, wherein the bracket component comprises a bearing plate and a mounting plate, one end of the mounting plate is connected with the bearing plate, the other end of the mounting plate extends outwards along the thickness direction of the bearing plate, the mounting plate and the bearing plate are in a T shape, the bearing plate is divided into a connecting part and a bearing part by two sides of the mounting plate, the connecting part is used for being connected with a wall body, the bearing part is used for erecting a heat preservation plate, and the reinforcing clapboard is vertically arranged with the mounting plate and the bearing part and is connected with the mounting plate and the bearing part. The connection strength is effectively enhanced; the stability of bracket device is further effectively improved and the security of the heat preservation after the heat preservation that satisfies the building heat preservation demand of ultralow energy consumption and thicken.

Description

Bracket device for ultra-low energy consumption building heat preservation and structure integrated system

Technical Field

The utility model relates to the technical field of engineering, in particular to a bracket device for an ultra-low energy consumption building heat preservation and structure integrated system.

Background

Because the construction of heat preservation belongs to the secondary construction for traditional external wall insulation, the back adheres to the heat preservation on the building basic unit wall body, the armor coat in the heat preservation outside and the finish coat in the outside and uses the operating mode to take place quality problems such as fracture, infiltration, hollowing, droing often. Aiming at the problems, a building heat preservation and structure integrated system is produced. With the gradual increase of the demand of building energy conservation, the ultra-low energy consumption building concept is gradually applied under the large trend of energy conservation and emission reduction by the characteristic of near zero energy consumption.

For realizing the ultralow energy consumption effect of building, the means that generally adopts in the building heat preservation field is that further thickening the heat preservation on the basis of original heat preservation thickness reaches 2 ~ 3 times of traditional heat preservation thickness. The thickened heat insulation material also meets the construction of a heat insulation and structure integrated system, and a solution of erecting a bracket L-shaped metal bracket is often adopted to ensure the safety. Although this method is simple and easy to operate, it has obvious drawbacks: firstly, the bearing capacity is insufficient, and the safety requirement is difficult to achieve; secondly, the heat transfer coefficient is large, and a large number of heat bridges are easily formed after being installed, which is not allowed by the energy-saving design requirement of the ultra-low energy consumption building; thirdly, the bracket is not effectively connected with the heat insulation material, and the effect of supporting can be achieved only.

SUMMERY OF THE UTILITY MODEL

The utility model aims to overcome the defects in the prior art, and provides a bracket device for an ultra-low energy consumption building heat preservation and structure integrated system.

The utility model is realized by the following technical scheme:

the utility model provides a bracket device that is used for ultralow energy consumption building heat preservation and structure integration system, its includes the bracket component and strengthens the baffle, the bracket component includes bearing board and mounting panel, the one end of mounting panel connect in the bearing board, the other end of mounting panel is followed the outside extension of bearing board thickness direction, just the mounting panel with shape between the bearing board is "T" shape, the both sides of mounting panel will the bearing board is cut apart into coupling part and bearing part, coupling part is used for being connected with the wall body, bearing part is used for erectting the heated board, strengthen the baffle all with the mounting panel bearing part set up perpendicularly and with the mounting panel bearing part is connected.

Further, the bracket device for the ultra-low energy consumption building heat preservation and structure integration system further comprises a protruding connecting piece, one end of the protruding connecting piece is connected to the reinforced partition plate, and the other end of the protruding connecting piece extends outwards along the thickness direction of the reinforced partition plate and is used for being connected with the heat preservation plate.

Furthermore, the number of the protruding connecting pieces is two, and the two protruding connecting pieces are respectively located on two sides of the reinforcing partition plate.

Further, the two protruding connecting pieces are integrally formed and penetrate through the reinforcing partition plate.

Furthermore, the length of the supporting part extending along the thickness direction of the mounting plate is smaller than the thickness of the heat insulation plate, so that the supporting part is located in the heat insulation plate and does not extend out of the outer surface of the heat insulation plate.

Further, the outer surfaces of the bracket member and the reinforcing spacer are provided with a heat insulating coating.

Further, the bracket member is integrally formed with the reinforcing spacer;

alternatively, the bracket member and the reinforcing spacer are welded to each other.

Further, the mounting plate is provided with a first mounting hole;

and/or the bearing plate is provided with a second mounting hole.

Further, the bracket member may be shaped as a lath or "L".

Further, the material of the bracket member and the reinforcing spacer is metal.

The utility model has the beneficial effects that: the bracket member is respectively connected with the wall body and the heat-insulation plate through the connecting part and the bearing part, so that the connecting strength is effectively enhanced; through the setting of strengthening the baffle, further effectively improve the stability of bracket device and satisfy the security of the heat preservation after the ultralow energy consumption building heat preservation demand and the thickening.

Drawings

Fig. 1 is a schematic structural diagram of a bracket device for an ultra-low energy consumption building insulation and structure integration system according to embodiment 1 of the present invention.

Fig. 2 is a schematic front view of a bracket device for an ultra-low energy consumption building insulation and structure integration system according to embodiment 1 of the present invention.

Fig. 3 is a left side view schematically illustrating a bracket device for an ultra-low energy consumption building insulation and structure integration system according to embodiment 1 of the present invention.

Fig. 4 is a schematic structural view of a bracket device for an ultra-low energy consumption building insulation and structure integration system according to embodiment 1 of the present invention, when connected to an insulation board.

Fig. 5 is a schematic structural diagram of a bracket device for an ultra-low energy consumption building insulation and structure integration system in an embodiment 1 of the utility model when in use.

Fig. 6 is a schematic structural diagram of a bracket device for an ultra-low energy consumption building insulation and structure integration system according to embodiment 2 of the present invention.

Description of reference numerals:

bracket component 1

Bearing plate 11

Supporting part 111

Connecting portion 112

Mounting plate 12

First mounting hole 121

Reinforced separator plate 2

Male connecting part 3

Thermal insulation board 10

Reinforcement cage 20

Inner formwork 30

Detailed Description

The following description of the embodiments refers to the accompanying drawings, which are included to illustrate specific embodiments in which the utility model may be practiced.

Example 1

As shown in fig. 1, 2, 3, 4 and 5, the present embodiment discloses a bracket device for an ultra-low energy consumption building insulation and structure integration system, the bracket device for the ultra-low energy consumption building heat preservation and structure integration system comprises a bracket component 1 and a reinforcing clapboard 2, wherein the bracket component 1 comprises a bearing plate 11 and a mounting plate 12, one end of the mounting plate 12 is connected with the bearing plate 11, the other end of the mounting plate 12 extends outwards along the thickness direction of the bearing plate 11, the mounting plate 12 and the supporting plate 11 are in a T shape, the supporting plate 11 is divided into a connecting portion 112 and a supporting portion 111 by two sides of the mounting plate 12, the connecting portion 112 is used for being connected with a wall, the supporting portion 111 is used for erecting the heat-insulating plate 10, and the reinforcing partition plate 2 is perpendicular to the mounting plate 12 and the supporting portion 111 and is connected with the mounting plate 12 and the supporting portion 111.

In this embodiment, the wall includes a reinforcement cage 20 and concrete poured on the reinforcement cage 20. The bracket member 1 is connected to the wall body and the insulation board 10 through the connection part 112 and the holding part 111, respectively, thereby effectively enhancing the connection strength between the insulation board 10 and the wall body. Through the setting of strengthening baffle 2, further effectively improve the stability of bracket device and satisfy the security of the heat preservation after the ultralow energy consumption building heat preservation demand and the thickening.

The bracket device for the ultra-low energy consumption building heat preservation and structure integration system further comprises a protruding connecting piece 3, one end of the protruding connecting piece 3 is connected to the reinforcing partition plate 2, and the other end of the protruding connecting piece 3 extends outwards along the thickness direction of the reinforcing partition plate 2 and is used for being connected with the heat preservation plate 10. Be connected with enhancement baffle 2 and heated board 10 through protrusion connecting piece 3, effectively play being connected of bracket device and heated board 10, prevent the possibility that the hollowing takes place to drop in the later stage use, further improved the safety and stability that is used for the bracket device of ultralow energy consumption building heat preservation and structure integration system.

In the present embodiment, the number of the projecting connectors 3 is two, and the two projecting connectors 3 are respectively located on both sides of the reinforcing partition 2. Two projecting connectors 3 are integrally formed and penetrate the reinforcing partition 2. The two adjacent insulation boards 10 are effectively connected through the two convex connecting pieces 3, and the safety and stability are further improved.

The length of the supporting portion 111 extending along the thickness direction of the mounting plate 12 is smaller than the thickness of the insulation board 10, so that the supporting portion 111 is located in the insulation board 10 and does not extend out of the outer surface of the insulation board 10. The width through bearing part 111 is less than the thickness of heated board 10 for bearing board 11 is located heated board 10 and does not expose outside heated board 10, thereby reduces the heat bridge that the bracket device can produce, effectively reduces the heat bridge effect.

The outer surfaces of the bracket member 1 and the reinforcing partition 2 are provided with a heat insulating coating. The whole outer side of the bracket device can be provided with the heat insulation coating, so that the possible heat bridge problem is further reduced, and the heat bridge effect is effectively reduced.

In the present embodiment, the bracket member 1 is integrally formed with the reinforcing spacer 2. The processing and manufacturing are very convenient, the overall structure is high in strength, and the safety and stability are high. Of course, in other embodiments, the bracket member 1 and the reinforcing partition 2 may be welded to each other. Wherein, the materials of the bracket member 1 and the reinforcing baffle plate 2 are both metal. The bracket component 1 and the reinforcing clapboard 2 are made of metal materials, and can be integrally cast or manufactured by welding connection at the later stage of split casting.

The mounting plate 12 has a first mounting hole 121 formed therein. Mounting panel 12 is connected with steel reinforcement cage 20 through first mounting hole 121 to effectively improved the stability of bracket device and satisfied the security of the heat preservation after the ultralow energy consumption building heat preservation demand and the thickening. Of course, the support plate 11 may have a second mounting hole. In the present embodiment, the bracket member 1 may be shaped like a lath.

When the bracket device for the ultra-low energy consumption building heat preservation and structure integration system is used in construction, firstly, the connecting part 112 on the supporting plate 11 is connected with a wall structure through the second mounting hole, so that the bracket device is firmly connected with the wall structure; then the mounting plate 12 is connected with the reinforcement cage 20 through the first mounting hole 121; secondly, two adjacent heat insulation plates 10 are respectively installed on two sides of a reinforcing partition plate 2 on a bearing part 111 of a bearing plate 11, and the heat insulation plates 10 are inserted into the side surfaces of the heat insulation plates 10 through protruding connecting pieces 3 arranged on two sides of the reinforcing partition plate 2; then, according to the construction process of the non-dismantling heat preservation formwork of the ultra-low energy consumption building heat preservation and structure integrated system, the non-dismantling heat preservation formwork connecting piece, the inner formwork 30, the split bolt and the two-side supporting system are installed, and then concrete is poured. After maintenance, the supporting system and the inner formwork 30 on the two sides are dismantled, the split bolt holes are processed, and then construction of the outer side protective surface layer and the facing layer is carried out.

Example 2

As shown in fig. 6, the same parts of the bracket device for the ultra-low energy consumption building insulation and structure integration system as those of embodiment 1 are not repeated, and only the differences will be described. In the present embodiment 2, the shape of the bracket member 1 is "L" shaped. The bracket device can be arranged at the external corner of the wall structure, and the application range is wide.

The above disclosure is only for the purpose of illustrating the preferred embodiments of the present invention, and it is therefore to be understood that the utility model is not limited by the scope of the appended claims.

Claims (10)

1. The utility model provides a bracket device that is used for ultralow energy consumption building heat preservation and structure integration system, its characterized in that, it includes the bracket component and strengthens the baffle, the bracket component includes bearing board and mounting panel, the one end of mounting panel connect in the bearing board, the other end of mounting panel is followed the outside extension of bearing board thickness direction, just the mounting panel with shape between the bearing board is "T" shape, the both sides of mounting panel will the bearing board is cut apart into coupling part and bearing part, coupling part is used for being connected with the wall body, the bearing part is used for erectting the heated board, strengthen the baffle all with the mounting panel the bearing part set up perpendicularly and with the mounting panel the bearing part is connected.

2. The bracket device for an ultra-low energy building insulation and structure integration system according to claim 1, further comprising a protruding connector, one end of which is connected to the reinforced partition, and the other end of which extends outward in a thickness direction of the reinforced partition and is used to be connected to an insulation board.

3. The bracket device for an ultra-low energy building insulation and structural integration system according to claim 2, wherein the number of the protruding connection members is two, and the two protruding connection members are respectively located at both sides of the reinforcement partition.

4. The bracket device for an ultra-low energy building insulation and structural integration system of claim 3, wherein two of the protruding connectors are integrally formed and penetrate the reinforcement spacer.

5. The bracket device for an ultra-low energy building insulation and structural integration system of claim 1, wherein the length of the support portion extending in the thickness direction of the mounting plate is less than the thickness of the insulation plate, so that the support portion is located within the insulation plate and does not extend beyond the outer surface of the insulation plate.

6. The tray apparatus for ultra low energy building insulation and structural integration system of claim 1 wherein the outer surface of said tray member and said reinforcing spacer is provided with a thermal insulating coating.

7. The bracket device for an ultra-low energy building insulation and structural integration system of claim 1, wherein the bracket member is integrally formed with the reinforcement spacer;

alternatively, the bracket member and the reinforcing spacer are welded to each other.

8. The bracket device for an ultra-low energy building insulation and structural integration system according to claim 1, wherein the mounting plate has a first mounting hole;

and/or the bearing plate is provided with a second mounting hole.

9. The bracket device for ultra-low energy building insulation and structural integration system as claimed in claim 1, wherein the bracket member is shaped as a lath or "L".

10. The bracket device for an ultra-low energy building insulation and structural integration system of claim 1, wherein the bracket member and the reinforcing spacer are both made of metal.

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