CN201762877U - Composite thermal insulation building block of light aggregate concrete - Google Patents

Abstract

The utility model discloses a light aggregate concrete composite thermal insulation block, which comprises a rectangular block body (1), a through hole (2) is arranged in the middle of the block body, and two A hole (3) is arranged on the side, and the hole is filled with a polystyrene foam board (4), and the polystyrene foam board (4) is in close contact with the inner wall of the hole (3). Pores are added on both sides of the block body. Since the polystyrene foam board itself has the function of heat preservation, it can be used indirectly by filling in the pores. , it can make the cement mortar joints between the blocks connected to the inside and outside disconnected during the construction of the wall, so that the through holes and grooves form a closed space, even if there is rainwater leakage on the outside of the building, the leaking rainwater can only enter In the confined space formed by the through holes and grooves, it is no longer possible to enter the inner side of the building through the wall, which solves the problem of leakage from the outer wall of the building.

Description

Light aggregate concrete composite insulation block

technical field

The utility model relates to a block, in particular to a light aggregate concrete composite thermal insulation block.

Background technique

The quality of the hollow blocks is light, so the total mass of the building walls built with them is light and the stability is good, so it is widely used in construction. However, the small hollow blocks in the current construction market are due to the consideration of construction. The convenience of the wall is generally provided with a blind hole above it, so that it is convenient to add cement mortar between the blocks to connect them into four outer walls and then form a building, but this will make it easier for the rainwater on the outside of the building to pass through the blocks If the mortar joints formed by the cement mortar in the space enter the inner side of the building, there will be leakage of the outer wall of the building, and its thermal insulation performance is also weak. In view of the aforementioned defects, although the exterior walls of buildings built with shale porous insulation bricks have certain thermal insulation properties, they also have two major disadvantages. One is that the use of standard coal in the production process will emit a large amount of carbon dioxide and cause environmental damage. Second, the rainwater on the outside of the building will still enter the inside of the building through the gray joints formed by the cement mortar between the blocks. Therefore, the outer wall of the building built with shale porous insulation bricks still cannot prevent rainwater from leaking. question.

Utility model content

The purpose of the utility model is to solve the above-mentioned shortcomings, and provide a light aggregate concrete composite thermal insulation block with thermal insulation performance and wall leakage prevention.

In order to solve the above-mentioned technical problems, the utility model adopts the following technical solutions:

The light aggregate concrete composite thermal insulation block of the utility model comprises a rectangular block body, a through hole is arranged in the middle of the block body, pores are arranged on both sides of the block body, and polystyrene is filled in the hole foam board, and the polystyrene foam board is in close contact with the inner wall of the pore.

A further technical solution is: two holes are provided on both sides of the block body.

A further technical solution is: the two ends of the block body are also provided with grooves, and the grooves run through the upper and lower sides of the block body.

Compared with the prior art, the beneficial effect of the utility model is that: the two sides of the block body increase the pores, because the polystyrene foam board itself has the function of heat preservation, and the block body can be used indirectly by filling in the pores, which also has the effect of heat preservation. The middle through hole of the block body and its two ends are provided with grooves, which can disconnect the cement mortar joints between the blocks when building walls, so that the through holes and grooves form a closed space, even if the building There is rainwater leakage on the outside, and the leaking rainwater can only enter the confined space formed by the through holes and grooves, and can no longer enter the inside of the building through the wall, which solves the problem of leakage on the outer wall of the building question. At the same time, the lightweight aggregate concrete composite thermal insulation block of the utility model has a simple structure and a small volume, is suitable for industrial production, and is easy to popularize.

Description of drawings

Fig. 1 is the structural representation of the utility model.

Detailed ways

Below in conjunction with accompanying drawing, the utility model is further elaborated.

As shown in Figure 1, the lightweight aggregate concrete composite thermal insulation block of the present invention includes a rectangular block body 1, and a through hole 2 is arranged in the middle of the block body, and both sides of the block body 1 are respectively There are two pores, the four pores are filled with polystyrene foam board 3, and the polystyrene foam board 3 is in close contact with the inner wall of the hole, the two ends of the block body 1 are also provided with grooves 4, the concave The groove 4 runs through the upper and lower sides of the block body 1 .

Through testing, the lightweight aggregate concrete composite thermal insulation block of the utility model has good thermal insulation performance, and the heat transfer coefficient of the wall built by it is 1.17w/m2k; the thermal energy resistance as a single component is 0.66m2k/w, and the compressive strength It is 5.0mpa.

Claims (3)

1. A light aggregate concrete composite thermal insulation block, comprising a rectangular block body (1), the middle of the block body is provided with a through hole (2), characterized in that: the block body (1) Pores are arranged on both sides, and polystyrene foam boards (3) are filled in the pores, and the polystyrene foam boards (3) are in close contact with the inner walls of the pores. 2. The lightweight aggregate concrete composite thermal insulation block according to claim 1, characterized in that two holes are respectively provided on both sides of the block body (1). 3. The lightweight aggregate concrete composite thermal insulation block according to claim 1 or 2, characterized in that: the two ends of the block body (1) are also provided with grooves (4), the grooves (4) It runs through the upper and lower sides of the block body (1).

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