CN203334512U - Novel heat preservation building block - Google Patents

Abstract

The utility model discloses a novel thermal insulation block. The structure includes a block body. The block body is provided with at least two rows of thermal insulation holes in the transverse direction. The number of thermal insulation holes in each row is at least two. The width of the thermal insulation holes is the same; Ribs are arranged between adjacent heat-retaining holes, and there is no intersection between the projection relationship of every two of the ribs in the vertical direction; at least one groove is respectively arranged on both sides of the block; the heat-retaining hole It is filled with thermal insulation material; the distance between every two adjacent thermal insulation holes is equal to the distance from the thermal insulation hole to the edge of the block; the beneficial effects produced by the utility model are: the new thermal insulation block has scientific structure, The special distribution design of insulation holes and ribs will not reduce the strength of the insulation block itself, but at the same time enhance the insulation effect, effectively solve the production cost and reduce the energy consumption in daily life.

Description

A new type of insulation block

technical field

The utility model relates to the technical field of building engineering materials, in particular to a novel thermal insulation block.

Background technique

At present, building energy consumption is one of the industries with the largest energy consumption in various industries in my country. In order to reduce energy consumption, the existing bricks adopt a hollow brick structure to reduce the quality of the building. The existing thermal insulation blocks are complex and diverse, and the hollow structure reduces the thermal resistance, resulting in a decrease in the thermal performance of the building.

Although heat-insulating bricks are also arranged in the prior art, the structure of the heat-insulating layer of general heat-insulating bricks is unreasonable, and the heat-insulating effect is relatively poor, causing the waste of a large amount of energy in the heating and cooling process. For example, the utility model patent "self-insulation block" with the patent number of 201120347151.6, its structure adopts too many hollow structures, which reduces the filling of insulation materials, reduces the insulation effect, and its strength cannot reach the general building standards.

Utility model content

In order to overcome the above-mentioned technical defects, the utility model provides a novel thermal insulation block.

The technical solution adopted by the utility model to solve the technical problem is that the structure of the new thermal insulation block includes a block body, and the block body is provided with at least two rows of thermal insulation holes in the transverse direction, and the number of thermal insulation holes in each row is at least two. The widths of the heat preservation holes are the same; ribs are arranged between the horizontally adjacent heat preservation holes, and there is no intersection between the projection relationship of each two of the ribs in the vertical direction; A groove; the insulation material is filled in the insulation hole; the distance between every two adjacent insulation holes is equal to the distance from the insulation hole to the edge of the block;

Further, the width of the heat preservation hole is 35mm-55mm;

Further, the distance between every two adjacent thermal insulation holes and the distance from the thermal insulation hole to the edge of the block is 25mm-30mm;

Further, the groove is a trapezoidal structure;

Further, the length of the block is 190mm-390mm, the width is 230mm-270mm, and the height is 90mm-190mm;

Further, the thermal insulation material may be benzene board, extruded polystyrene board, foamed cement, polyurethane, phenolic or rock wool.

The beneficial effects produced by the utility model are: the new thermal insulation block has a scientific structure, and adopts a special distribution design of thermal insulation holes and ribs, which will neither reduce the strength of the thermal insulation block itself, but also enhance the thermal insulation effect, effectively solving the problem of Production costs, reducing energy consumption in daily life.

Description of drawings

As shown in the figure is the structural representation of the utility model

Fig. 1 is that the utility model is provided with three rows of thermal insulation hole structural diagrams

Fig. 2 is that the utility model is provided with two rows of thermal insulation hole structural diagrams

In the figure, 1, block 2, insulation hole 3, rib 4, groove

Detailed ways

Below in conjunction with accompanying drawing and example, the utility model is further described

As shown in the figure, a new type of thermal insulation block has a structure including a block body 1. The block body 1 is provided with at least two rows of thermal insulation holes 2 in the transverse direction, and the number of thermal insulation holes 2 in each row is at least two. The thermal insulation holes 2 The same width; ribs 3 are provided between the horizontally adjacent heat preservation holes 2, and there is no intersection between the projection relationship of every two ribs 3 in the vertical direction; the two sides of the block 1 are respectively provided with At least one groove 4; the thermal insulation hole 2 is filled with thermal insulation material; the distance between every two adjacent thermal insulation holes 2 is equal to the distance from the thermal insulation hole 2 to the edge of the block 1;

The width of the heat preservation hole 2 is 35mm-55mm;

The distance between every two adjacent thermal insulation holes 2 and the distance from the thermal insulation hole 2 to the edge of the block is 25mm-30mm;

The groove 4 is a trapezoidal structure;

The block 1 has a length of 190mm-390mm, a width of 230mm-270mm, and a height of 90mm-190mm;

The thermal insulation material can be benzene board, extruded polystyrene board, foamed cement, polyurethane, phenolic or rock wool.

The utility model is not limited to the above-mentioned embodiment, and anyone should know that the structural changes made under the enlightenment of the utility model, all technical solutions that are the same as or similar to the utility model, all fall within the scope of protection of the utility model Inside.

The technologies, shapes and construction parts not described in detail in the utility model are all known technologies.

Claims (6)

1. a New Insulation Building Block, structure comprises block, it is characterized in that, and described block laterally is provided with at least two row's insulation holes, and the quantity that every row is incubated hole is at least two, and the width in described insulation hole is identical; Laterally between adjacent described insulation hole, be provided with rib, there is not intersection in the projection relation of every two described rib in the vertical directions; Described block both sides are respectively equipped with at least one groove; Fill insulant material in described insulation hole; Distance between every two adjacent described insulation holes equates with the distance of insulation hole to the block edge.

2. New Insulation Building Block according to claim 1, is characterized in that, the width in described insulation hole is 35mm-55mm.

3. New Insulation Building Block according to claim 1, is characterized in that, the distance between every two adjacent described insulation holes is all 25mm-30mm with the distance that the block edge is arrived in the insulation hole.

4. New Insulation Building Block according to claim 1, is characterized in that, described groove is trapezium structure.

5. New Insulation Building Block according to claim 1, is characterized in that, described block long for 190mm-390mm, wide be 230mm-270mm, the high 90mm-190mm of being.

6. New Insulation Building Block according to claim 1, is characterized in that, described heat insulating material can be benzene plate, extruded polystyrene board, foam cement, polyurethane, phenolic aldehyde or rock wool.

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