CN203145297U - Self-thermal-insulation cordwood building block - Google Patents

Abstract

The utility model relates to a self-thermal-insulation cordwood building block which comprises a brick body; the brick body is sequentially provided with a first clamping block, a second clamping block, a third clamping block and a fourth clamping block from the inside out; connecting ribs are arranged between the second clamping block and the third clamping block; the connecting ribs form a thermal insulation groove formed in a hollow space between the first clamping block and the third clamping block; clamping structures formed at the left side surfaces of the first clamping block and the second clamping block are mutually adaptive to clamping structures formed at the right side surfaces of the first clamping block and the second clamping block; clamping structures formed at the left side surfaces of the third clamping block and the fourth clamping block are mutually adaptive to clamping structures formed at the right side surfaces of the third clamping block and the fourth clamping block; a fifth clamping block and a sixth clamping block are arranged between the third clamping block and the fourth clamping block; clamping structures formed at the left side surfaces of the fifth clamping block and the sixth clamping block are mutually adaptive to clamping structures formed at the right side surfaces of the fifth clamping block and the sixth clamping block; and the right side surface of the fifth clamping block protrudes toward the right side surface of the sixth clamping block. The connecting surface of the brick body is large, and connecting intensity is high.

Description

The building block of self-heat conserving building blocks

Technical field

The utility model relates to insulation and lays bricks the building block of especially a kind of self-heat conserving building blocks.

Background technology

In order to reduce energy consumption, modern building brick body will increase insulating usually.Be incubated the inner fill insulant material of laying bricks, as polystyrene foam.The insulation of prior art is laid bricks and is comprised the brick body, the brick body has been disposed in order first fixture block from the inside to the outside, second fixture block, the 3rd fixture block and the 4th fixture block, between second fixture block and the 3rd fixture block, be provided with dowel, the hollow space of dowel between second fixture block and the 3rd fixture block forms the insulation groove, first fixture block, interface arrangment and first fixture block that the second fixture block left-hand face forms, the interface arrangment that the second fixture block right lateral surface forms is suitable, the 3rd fixture block, interface arrangment and the 3rd fixture block that the 4th fixture block left-hand face forms, the interface arrangment that the 4th fixture block right lateral surface forms is suitable.Because insulating brick has been set up insulation layer, so thickness is generally thicker, the interface arrangment bonding strength of brick body is had relatively high expectations.And the clamping syndeton that arranges on the brick body of prior art only is arranged on the external side of brick, causes between the brick body bonding strength lower.

The utility model content

Technical problem to be solved in the utility model is: provide a kind of bonding strength high self-heat conserving building blocks building block.

The technical scheme that its technical problem that solves the utility model adopts is: the building block of self-heat conserving building blocks, comprise the brick body, described brick body has been disposed in order first fixture block from the inside to the outside, second fixture block, the 3rd fixture block and the 4th fixture block, between second fixture block and the 3rd fixture block, be provided with dowel, the hollow space of described dowel between second fixture block and the 3rd fixture block forms the insulation groove, first fixture block, interface arrangment and first fixture block that the second fixture block left-hand face forms, the interface arrangment that the second fixture block right lateral surface forms is suitable, the 3rd fixture block, interface arrangment and the 3rd fixture block that the 4th fixture block left-hand face forms, the interface arrangment that the 4th fixture block right lateral surface forms is suitable, be provided with the 5th fixture block and the 6th fixture block between described second fixture block and the 3rd fixture block, described the 5th fixture block, interface arrangment and the 5th fixture block that the left-hand face of the 6th fixture block forms, the interface arrangment that the 6th fixture block right lateral surface forms is suitable, and the right lateral surface of the 5th fixture block protrudes from the right lateral surface of the 6th fixture block.

Described insulation groove has six, comprises the first insulation groove, the second insulation groove, the 3rd insulation groove, the 4th insulation groove, the 5th insulation groove, the 6th insulation groove, and the described first insulation groove is between second fixture block and the 5th fixture block; The second insulation groove is between the 3rd fixture block and the 6th fixture block; Described the 3rd insulation groove is positioned at the first insulation groove left side; The 5th insulation groove is positioned at the first insulation groove right side; The 4th insulation groove is positioned at the second insulation groove left side; The 6th insulation groove is positioned at the second insulation groove right side.

The right lateral surface of described first fixture block protrudes from the right lateral surface of second fixture block; The right lateral surface of the 4th fixture block protrudes from the right lateral surface of the 3rd fixture block; The right lateral surface of first fixture block protrudes from the right lateral surface of the 4th fixture block.

The right lateral surface of described the 5th fixture block is concordant with the right lateral surface of first fixture block.

The right lateral surface of described the 5th fixture block protrudes from the right lateral surface of first fixture block.

The upper and lower surface of the dowel between described second fixture block and the 3rd fixture block, the 5th fixture block and the 6th fixture block is to the isosceles trapezoid groove of brick body indent.

The upper surface of the dowel between described second fixture block and the 3rd fixture block, the 5th fixture block and the 6th fixture block is the circular arc projection to outer lug, and soffit is the arc groove that concaves.

Described second fixture block, the 3rd fixture block, the 5th fixture block, the 6th fixture block are concordant plane with the upper surface of dowel, and soffit is the isosceles trapezoid groove to brick body indent.

The beneficial effects of the utility model are: the utility model has increased the 5th fixture block and the 6th fixture block between second fixture block and the 3rd fixture block, has increased the connection area of brick body, thereby has increased the bonding strength of brick body.

Description of drawings

Fig. 1 is the vertical view of first kind of embodiment;

Fig. 2 is the left view of first kind of embodiment;

Fig. 3 is the installation vertical view of first kind of embodiment;

Fig. 4 is the vertical view of second kind of embodiment;

Fig. 5 is the left view of second kind of embodiment;

Fig. 6 is the vertical view of the third embodiment;

Fig. 7 is the left view of the third embodiment;

Mark among the figure: 11-first fixture block, 12-second fixture block, 13-the 3rd fixture block 14-the 4th fixture block, 15-the 5th fixture block, 16-the 6th fixture block, 2-dowel, the 31-first insulation groove, the 32-second insulation groove, 33-the 3rd insulation groove, 34-the 4th insulation groove, 35-the 5th insulation groove, 36-the 6th insulation groove, 4-isosceles trapezoid groove.

The specific embodiment

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

As Fig. 1,2,4,5,6, shown in 7, the building block of self-heat conserving building blocks, comprise the brick body, described brick body has been disposed in order first fixture block 11 from the inside to the outside, second fixture block 12, the 3rd fixture block 13 and the 4th fixture block 14, between second fixture block 12 and the 3rd fixture block 13, be provided with dowel 2, the hollow space of described dowel 2 between second fixture block 12 and the 3rd fixture block 13 forms the insulation groove, first fixture block 11, interface arrangment and first fixture block 11 that second fixture block, 12 left-hand face form, the interface arrangment that second fixture block, 12 right lateral surface form is suitable, the 3rd fixture block 13, interface arrangment and the 3rd fixture block 13 that the 4th fixture block 14 left-hand face form, the interface arrangment that the 4th fixture block 14 right lateral surface form is suitable, be provided with the 5th fixture block 15 and the 6th fixture block 16 between described second fixture block 12 and the 3rd fixture block 13, described the 5th fixture block 15, interface arrangment and the 5th fixture block 15 that the left-hand face of the 6th fixture block 16 forms, the interface arrangment that the 6th fixture block 16 right lateral surface form is suitable, and the right lateral surface of the 5th fixture block 15 protrudes from the right lateral surface of the 6th fixture block 16.

The said left-hand face of present embodiment and right lateral surface refer to after the brick body installs, the side that connects about the brick body, about be to connect sides in order to distinguish two, in the practical application, the left and right side is interchangeable.Increase the 5th fixture block 15 and the 6th fixture block 16 between second fixture block 12 and the 3rd fixture block 13, increased the connection area of brick body, thereby increased the bonding strength of brick body.

A plurality of insulation grooves form multi-layer heat preserving at the thickness direction of brick body, better heat preservation.Shown in Fig. 1,4,6, described insulation groove has six, comprise the first insulation groove 31, the second insulation groove 32, the 3rd insulation groove 33, the 4th insulation groove 34, the 5th insulation groove 35, the 6th insulation groove 36, the described first insulation groove 31 is between second fixture block 12 and the 5th fixture block 15; The second insulation groove 32 is between the 3rd fixture block 13 and the 6th fixture block 16; Described the 3rd insulation groove 33 is positioned at the first insulation groove, 31 left sides; The 5th insulation groove 35 is positioned at the first insulation groove, 31 right sides; The 4th insulation groove 34 is positioned at the second insulation groove, 32 left sides; The 6th insulation groove 36 is positioned at the second insulation groove, 32 right sides.The left-hand face of a brick body is with after the right lateral surface of another one brick body is connected, the 5th insulation groove 35 of one of them brick body and the 3rd insulation groove 33 of another one brick body form a big insulation groove A, and the 6th insulation groove 36 and the 4th of the another one brick body of one of them brick body is incubated groove 34 and forms a big insulation groove B.As shown in Figure 4.

After the insulation groove of above-mentioned embodiment is set, if insulation groove proper alignment on brick body thickness direction forms cold bridge easily on the brick body.For this situation, preferably allow insulation groove and insulation groove stagger, so as preferred embodiment, shown in Fig. 1,4,6, the right lateral surface of described first fixture block 11 protrudes from the right lateral surface of second fixture block 12; The right lateral surface of the 4th fixture block 14 protrudes from the right lateral surface of the 3rd fixture block 13; The right lateral surface of first fixture block 11 protrudes from the right lateral surface of the 4th fixture block 14.

The manufacturing of model for convenience, as preferred embodiment, as shown in Figure 1, the right lateral surface of described the 5th fixture block 15 is concordant with the right lateral surface of first fixture block 11.

The right lateral surface of the 5th fixture block 15 can be the same concordant to above-mentioned embodiment with the right lateral surface of first fixture block 11, but for more a step increases the connection area, as preferred embodiment, as shown in Figure 6, the right lateral surface of described the 5th fixture block 15 protrudes from the right lateral surface of first fixture block 11.

The upper and lower surface of brick body can be made plane or other shapes, it is too small that the plane connects area, bonding strength is low up and down for the brick body, in order to increase the bonding strength of brick body up and down, as preferred embodiment, as shown in Figure 2, the upper and lower surface of the dowel 2 between described second fixture block 12 and the 3rd fixture block 13, the 5th fixture block 15 and the 6th fixture block 16 is to the isosceles trapezoid groove 4 of brick body 1 indent.When the brick body connected up and down, the contact area between the soffit of the soffit of last brick body and following brick body was bigger, and bonding strength is higher between the brick body.

The upper and lower surface of brick body can be made the isosceles trapezoid groove 4 of above-mentioned embodiment.But isosceles trapezoid groove 4 can form region of stress concentration, thereby damage the brick body, reduce brick body application life, in order to increase brick body application life, as shown in Figure 5, the upper surface of the dowel 2 between described second fixture block 12 and the 3rd fixture block 13, the 5th fixture block 15 and the 6th fixture block 16 is the circular arc projection to outer lug, and soffit is the arc groove that concaves.

Because also contain more water behind the brick body mould unloading, quality is softer, if the fixture block of brick body upper and lower surface protrudes, fragile fixture block behind the brick body mould unloading, but if upper and lower surface is all made the plane, can reduce the connection area of brick body up and down again.So as preferred embodiment, as shown in Figure 7, described second fixture block 12, the 3rd fixture block 13, the 5th fixture block 15, the 6th fixture block 16 are concordant plane with the upper surface of dowel 2, soffit is the isosceles trapezoid groove to brick body 1 indent.

Claims (8)

1. self-heat conserving building blocks building block, comprise the brick body, described brick body has been disposed in order first fixture block (11) from the inside to the outside, second fixture block (12), the 3rd fixture block (13) and the 4th fixture block (14), between second fixture block (12) and the 3rd fixture block (13), be provided with dowel (2), the hollow space of described dowel (2) between second fixture block (12) and the 3rd fixture block (13) forms the insulation groove, first fixture block (11), interface arrangment and first fixture block (11) that second fixture block (12) left-hand face forms, the interface arrangment that second fixture block (12) right lateral surface forms is suitable, the 3rd fixture block (13), interface arrangment and the 3rd fixture block (13) that the 4th fixture block (14) left-hand face forms, the interface arrangment that the 4th fixture block (14) right lateral surface forms is suitable, it is characterized in that: be provided with the 5th fixture block (15) and the 6th fixture block (16) between described second fixture block (12) and the 3rd fixture block (13), described the 5th fixture block (15), interface arrangment and the 5th fixture block (15) that the left-hand face of the 6th fixture block (16) forms, the interface arrangment that the 6th fixture block (16) right lateral surface forms is suitable, and the right lateral surface of the 5th fixture block (15) protrudes from the right lateral surface of the 6th fixture block (16).

2. self-heat conserving building blocks as claimed in claim 1 building block, it is characterized in that: described insulation groove has six, comprise the first insulation groove (31), the second insulation groove (32), the 3rd insulation groove (33), the 4th insulation groove (34), the 5th insulation groove (35), the 6th insulation groove (36), the described first insulation groove (31) is positioned between second fixture block (12) and the 5th fixture block (15); The second insulation groove (32) is positioned between the 3rd fixture block (13) and the 6th fixture block (16); Described the 3rd insulation groove (33) is positioned at first insulation groove (31) left side; The 5th insulation groove (35) is positioned at first insulation groove (31) right side; The 4th insulation groove (34) is positioned at second insulation groove (32) left side; The 6th insulation groove (36) is positioned at second insulation groove (32) right side.

3. self-heat conserving building blocks as claimed in claim 2 building block is characterized in that: the right lateral surface of described first fixture block (11) protrudes from the right lateral surface of second fixture block (12); The right lateral surface of the 4th fixture block (14) protrudes from the right lateral surface of the 3rd fixture block (13); The right lateral surface of first fixture block (11) protrudes from the right lateral surface of the 4th fixture block (14).

4. self-heat conserving building blocks as claimed in claim 3 building block is characterized in that: the right lateral surface of described the 5th fixture block (15) is concordant with the right lateral surface of first fixture block (11).

5. self-heat conserving building blocks as claimed in claim 3 building block is characterized in that: the right lateral surface of described the 5th fixture block (15) protrudes from the right lateral surface of first fixture block (11).

6. self-heat conserving building blocks as claimed in claim 4 building block is characterized in that: the dowel (2) between described second fixture block (12) and the 3rd fixture block (13), the 5th fixture block (15) are to the isosceles trapezoid groove (4) of brick body (1) indent with the upper and lower surface of the 6th fixture block (16).

7. self-heat conserving building blocks as claimed in claim 4 building block, it is characterized in that: the dowel (2) between described second fixture block (12) and the 3rd fixture block (13), the 5th fixture block (15) are the circular arc projection to outer lug with the upper surface of the 6th fixture block (16), and soffit is the arc groove that concaves.

8. self-heat conserving building blocks as claimed in claim 5 building block, it is characterized in that: described second fixture block (12), the 3rd fixture block (13), the 5th fixture block (15), the 6th fixture block (16) are concordant plane with the upper surface of dowel (2), and soffit is the isosceles trapezoid groove to brick body (1) indent.

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