CN102776976A - Construction brick capable of absorbing infrared rays, and manufacturing method thereof - Google Patents

Abstract

The invention provides a construction brick capable of absorbing infrared rays, and a manufacturing method thereof. The brick comprises a brick structure comprising a first surface and a second surface on an opposite side, and an infrared ray absorbing layer formed by a sintered blue glass material paved on the first surface of the brick structure. When the brick structure is adhered to the outer side surface of a wall body, a heat dissipating structure layer can be formed, such that heat insulation performance of the building can be improved, and sun radiation heat energy is prevented from pouring into indoor environments. When the brick structure is adhered to the inner side surface of the wall body, a heat insulation structure layer can be formed, and heat source from indoor can be prevented from being dissipated to the outer side of the building.

Description

Can absorb ultrared building brick body and manufacturing approach thereof

Technical field

The invention relates to a kind of field of constructional materials; Particularly about a kind of ultrared building brick body and manufacturing approach thereof of absorbing.

Background technology

Because the wall body structure of existing building itself can't stop infrared rays or radiant heat, therefore interim when summer, from solar radiant heat or other thermals source of outside, just can see through wall body structure and get into the interior space, temperature is risen, heat radiation is difficult for.Otherwise when facing winter, indoor is warming also outdoor through the wall body structure effusion easily with thermal source, and interior temperature is descended, and insulation is difficult.

Summary of the invention

The objective of the invention is to be to provide a kind of ability can absorb ultrared building brick body and manufacturing approach thereof.

In view of this, the present invention proposes a kind of ultrared building brick body that absorbs, and comprising: a brick laying structure has a first surface and is positioned at a second surface of opposition side; And an infrared ray absorbing layer, form by the smalt material sintering that is layed on the first surface of this brick laying structure.The present invention also proposes a kind of manufacturing approach that absorbs ultrared building brick body in addition, comprising: a brick laying structure is provided, has a first surface and be positioned at a second surface of opposition side; Lay the smalt material on the first surface of this brick laying structure: and this smalt material of sintering is to form an infrared ray absorbing layer on the first surface of this brick laying structure.

Wherein in one embodiment, the second surface of brick laying structure fits on the outer surface of a body of wall, to form a radiator structure layer.The brick laying structure of present embodiment can improve the heat-proof quality of building, to block in a large amount of solar radiation heat energy inlet chambers in the environment.

In another embodiment, the second surface of brick laying structure fits on the inner surface of a body of wall, to form an insulation construction layer.The brick laying structure of present embodiment can form a heat insulator, to stop from indoor thermal source to construction wall outside loss.

In addition, in one embodiment, this building brick body more comprises a topping, to cover the infrared ray absorbing layer.This topping can be a glaze layer or another brick laying structure.

And in another embodiment, above-mentioned smalt material can be the aluminum oxide phosphate glass material.

Description of drawings

Following accompanying drawing only is intended to the present invention is done schematic illustration and explanation, not delimit the scope of the invention.Wherein:

Fig. 1 is for showing the ultrared building brick body structure sketch map that absorbs of the embodiment of the invention.

Fig. 2 is for showing the ultrared building brick body structure sketch map that absorbs of another embodiment of the present invention.

The critical element label declaration:

Structure trunk structure 30; Smallpox flaggy 34; Floor layer 33; Wall body structure 32; The sun 10; Solar radiant heat 12; Brick laying structure 20; Outer surface 20a, 20d; Inner surface 20b, 20c; Infrared ray absorbing layer 22; Hot-fluid conducting path 14; Hot-fluid conducting path 16; Topping 24.

The specific embodiment

To understand in order technical characterictic of the present invention, purpose and effect being had more clearly, to contrast the description of drawings specific embodiment of the present invention at present.

Please refer to Fig. 1, it shows in one embodiment of the invention, is used for the ultrared building brick body of absorbing of building.This structure trunk structure 30 generally comprise a garret or smallpox flaggy 34 and be positioned at the below floor layer 33, between the two then by a wall body structure 32 center ons to form an interior space.

And the heat requirement main source of structure trunk structure 30 comprises the solar radiant heat 12 that is produced and got into through body construction 30 by the sun 10, and infrared rays wherein then can directly penetrate body construction such as wall body structure 32 and get into the interior space and interior temperature is risen.Therefore in order to save the electric power of energy consumption equipment such as air-conditioning system, the brick laying structure of present embodiment is in order to improving the heat-proof quality of building, to block in a large amount of solar radiation heat energy inlet chambers in the environment.

The brick laying structure 20 of present embodiment comprises one towards the surperficial 20a in the building outside and the surperficial 20b of opposition side thereof, and wherein the surperficial 20a outside building is towards plane of illumination or other radiant heat source of the sun.The surperficial 20b of opposition side is then towards the interior space.

In this example, an infrared ray absorbing layer 22 is formed by the ultrared smalt material sintering that absorbs that is layed on the outer surface 20a of brick laying structure, and in one embodiment, the main composition of smalt material can comprise an aluminum oxide phosphate glass.Wherein the inner surface 20b of this brick laying structure fits on the outer surface of body of wall 32; And will be absorbed in this infrared ray absorbing layer 22 from the radiant heat 12 of the sun; In this example; Because the thickness of wall body structure 32 is much larger than the thickness of brick body and infrared ray absorbing layer 22, therefore above-mentioned wall body structure 32 is just as in a heat insulator, and most hot-fluid 12 will be advanced and taken away by outside air from infrared ray absorbing layer 22 through hot-fluid conducting path 14 laterally; Only have the type of thermal communication superheat flow conducting path 16 of unusual minority to get in the wall body structures 32, thereby above-mentioned infrared ray absorbing layer 22 can be used as a radiator structure layer.

Please refer to Fig. 2, it shows in the another embodiment of the present invention, is used for the ultrared building brick body of absorbing of building.In this example, infrared ray absorbing layer 22 is to be formed by the ultrared smalt material sintering that absorbs that is layed on the inner surface 20c of brick laying structure 20, and in one embodiment, the main composition of smalt material can comprise an aluminum oxide phosphate glass.Wherein the outer surface 20d of this brick laying structure 20 fits on the surface of wall body structure 32; And will be absorbed in this infrared ray absorbing layer 22 from the radiant heat 12 that indoor thermal source causes; Wherein since the thickness of wall body structure much larger than the thickness of brick body and infrared ray absorbing layer 22; Therefore above-mentioned wall body structure 32 is just as in a heat insulator; Most hot-fluid will only have the type of thermal communication superheat flow conducting path 16 of unusual minority to get in the wall body structures 32, thereby above-mentioned infrared ray absorbing layer 22 can be used as an insulation construction layer through hot-fluid conducting path 14 and from infrared ray absorbing layer 22 in indoor entering air.

In addition, like Fig. 1 and shown in Figure 2, for avoiding infrared ray absorbing layer 22 to come off or destroying, can cover one deck thin protective layer 24 in its surface, for example be a glaze layer or another brick laying structure.For example, brick laying structure generally comprises ceramic ceramic tile (ceramic tiles), stone matter ceramic tile (natural stones) or porcelain ceramic tile (porcelain tile).The material of ceramic tile is clay (clay), and clay can add glaze (glazing) this moment to form topping through forming brick laying structure after weathering, pulverizing, mixing, system embryo, drying, the klining production processes such as (firing).

Below in explanation one embodiment of the invention, it discloses a kind of manufacturing approach that absorbs ultrared building brick body.At first as shown in Figure 1, a brick laying structure 20 is provided, comprise an inner surface 20b and be positioned at the outer surface 20a of opposition side.Secondly, lay smalt material such as aluminum oxide phosphate glass equably on the outer surface 20a of brick laying structure 20.Carry out sintering then to form an infrared ray absorbing layer 22.Can this brick laying structure be fitted on the construction wall outside then, to isolate radiant heat from the sun.

In addition, in another embodiment of the present invention, it discloses the another kind of manufacturing approach that can absorb ultrared building brick body.At first as shown in Figure 2, a brick laying structure 20 is provided, comprise an inner surface 20c and be positioned at the outer surface 20d of opposition side.Secondly, lay smalt material such as aluminum oxide phosphate glass equably on the inner surface 20c of brick laying structure 20.Carry out sintering then to form an infrared ray absorbing layer 22.Can this brick laying structure be fitted on construction wall 32 inboards then, to stop from indoor thermal source to construction wall outside loss.

In the above-described embodiments; See through and lay the smalt material on the surface of brick laying structure 20 equably; Utilizing the high temperature of sintering then for example is that aluminum oxide phosphate glass and the surperficial pore of brick laying structure are combined closely with the smalt material, and therefore above-mentioned infrared ray absorbing layer 22 will can not produce the slit and let radiant heat pass through.

The above is merely the schematic specific embodiment of the present invention, is not in order to limit scope of the present invention.Any those skilled in the art, equivalent variations and the modification under the prerequisite that does not break away from design of the present invention and principle, done all should belong to the scope that the present invention protects.

Claims (12)

1. one kind can absorb ultrared building brick body, it is characterized in that, this can absorb ultrared building brick body and comprise:

One brick laying structure comprises a first surface and is positioned at a second surface of opposition side; And

One infrared ray absorbing layer is formed by the smalt material sintering that is layed on the first surface of this brick laying structure.

2. as claimed in claim 1ly absorb ultrared building brick body, it is characterized in that the second surface of this brick laying structure fits on the outer surface of a body of wall, to form a radiator structure layer.

3. as claimed in claim 1ly absorb ultrared building brick body, it is characterized in that the second surface of this brick laying structure fits on the inner surface of a body of wall, to form an insulation construction layer.

4. as claimed in claim 1ly absorb ultrared building brick body, it more comprises a topping, to cover this infrared ray absorbing layer.

5. as claimed in claim 4ly absorb ultrared building brick body, it is characterized in that this topping comprises a glaze layer.

6. as claimed in claim 4ly absorb ultrared building brick body, it is characterized in that this topping comprises a brick laying structure.

7. as claimed in claim 1ly absorb ultrared building brick body, it is characterized in that this smalt material comprises aluminum oxide phosphate glass.

8. the manufacturing approach that can absorb ultrared building brick body is characterized in that, this manufacturing approach that can absorb ultrared building brick body comprises:

One brick laying structure is provided, comprises a first surface and be positioned at a second surface of opposition side;

Lay the smalt material on the first surface of this brick laying structure: and

This smalt material of sintering is to form an infrared ray absorbing layer on the first surface of this brick laying structure.

9. the manufacturing approach that absorbs ultrared building brick body as claimed in claim 8 is characterized in that, it comprises that more the second surface with this brick laying structure fits on the outer surface of a body of wall, to form a radiator structure layer.

10. the manufacturing approach that absorbs ultrared building brick body as claimed in claim 8 is characterized in that, it comprises that more the second surface with this brick laying structure fits on the inner surface of a body of wall, to form an insulation construction layer.

11. the manufacturing approach that absorbs ultrared building brick body as claimed in claim 8 is characterized in that, it comprises that more covering one topping is on this infrared ray absorbing layer.

12. the manufacturing approach that absorbs ultrared building brick body as claimed in claim 8 is characterized in that, this smalt material comprises aluminum oxide phosphate glass.

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