CN201016194Y - Eight-square combined energy-saving block - Google Patents

Abstract

The utility model relates to an eight-directionally assembled energy-saving building block, belonging to the technical field of building fixation and used for the constructive components for wall building. The utility model is characterized in that: the building block consists of six rectangular surfaces and two L-shaped surfaces, with the six rectangular surfaces forming a plurality of L-shaped building blocks through connection and the two L-shaped surfaces being the two end faces of the building blocks. The building block is provided with a corrugated slot on the horizontal surface. The building block body is provided with a plurality of through holes or dead holes with the shapes of square, rectangle, semi circle and circle. The utility model adopts a wall body which is provided with a plurality of discharge holes, can be molded and has various thicknesses, and also adopts the coordinate use of a heat insulating material and the simple production technique, so that the building block is quick in production, high-yield, small in shapes, light, quick in construction and relatively high in the vertical and horizontal loading capability, thus providing a simple, easy and reliable condition for the requirement of 50 percent energy saving during the construction of an external wall.

Description

Combination energy-saving building block from all directions

One, technical field:

The utility model relates to the combination energy-saving building block of a kind of all directions, belongs to the building unit that technical field of fixed buildings is used to build wall.

Two, background technology:

At present, the member overwhelming majority that is used to build still is common brick, and a part is coagulation porous brick or building block.Common brick need be used clay, the serious waste land resources.The shortcoming of coagulation porous brick or building block is that the measured price of matter is higher than common brick, ropy effect is not as good as common brick, hidden danger of quality such as shrinkage cracking, seepage often appear, let alone heat insulation heat preservation energy-saving, common building block specification is many, being not good at set of variations builds, production mould is many, and it is standby to increase equipment investment, and feel was heavy when product was built by laying bricks or stones, the piece type is many, influences speed of application.

Three, summary of the invention:

The purpose of this utility model is to provide a kind of comprehensive substitute combination energy-saving building block from all directions one by one that is better than common brick and other rectangle building block.

The technical solution of the utility model is: the combination energy-saving building block of a kind of all directions is characterized in that: building block is made of 6 rectangular planes and 2 L shaped planes, and 6 rectangular planes are 3 rectangle horizontal planes and 3 rectangle vertical planes; On 3 rectangle horizontal planes, be provided with wave groove; 3 rectangle horizontal planes and 3 rectangle vertical planes are interconnected to form L shaped building block, and 2 L shaped planes are 2 end faces of building block.

Ripple translot on the horizontal plane of the present utility model is horizontal or longitudinal wave groove.

Be provided with horizontal through hole or horizontal blind hole in the building block entity of the present utility model.

A kind of block of the present utility model can be organized the body of wall that is built into multiple different-thickness.Highly versatile, speed of application is fast, and for no matter enclosure wall and interior wall reach building energy conservation 50% a kind of reliable inexpensive way is provided at present, can stay the respective air space when promptly group is built for placing or filling with insulation material, more otherwise to make things convenient for, save the body of wall holding time, also improve the soundproof effect of building block simultaneously.

Four, description of drawings:

Fig. 1 is the utility model schematic diagram;

Fig. 2 is provided with a rectangular through-hole or blind hole schematic diagram in the utility model building block entity;

Fig. 3 is provided with a semi-circular through hole or blind hole schematic diagram in the utility model building block entity;

Fig. 4 is provided with a manhole or blind hole schematic diagram in the utility model building block entity;

Fig. 5 is provided with two manholes or blind hole schematic diagram in the utility model building block entity;

Fig. 6 is provided with two square through holes or blind hole schematic diagram in the utility model building block entity;

Fig. 7 is provided with bar shaped, rectangular through-hole or blind hole schematic diagram in the utility model building block entity;

Fig. 8 is provided with bar shaped, semi-circular through hole or blind hole schematic diagram in the utility model building block entity;

Fig. 9 is provided with bar shaped, manhole or blind hole schematic diagram in the utility model building block entity;

Figure 10 is provided with a plurality of manholes or blind hole schematic diagram in the utility model building block entity;

Figure 11 is provided with a plurality of square through holes or blind hole schematic diagram in the utility model building block entity;

Figure 12 is provided with rectangle, strip or manhole or blind hole schematic diagram in the utility model building block entity;

Figure 13 is provided with longitudinal wave groove schematic diagram for the utility model building block entity horizontal plane.

Among the figure: 1, back facade; 2, go up the plane; 3, neutral surface; 4, midplane; 5, preceding facade; 6, baseplane; 7, left side; 8, right side; 9, rectangular through-hole or blind hole; 10, semi-circular through hole or blind hole; 11, manhole or blind hole; 12, square through hole or blind hole; 13, strip through-hole or blind hole; 14, wave groove.

Five, the specific embodiment:

Embodiment 1: as shown in Figure 1, the utility model is made of 6 rectangular planes and 2 L shaped planes; Wherein, be interconnected to form 1 L shaped building block by back facade 1, neutral surface 3,5 three rectangle vertical planes of preceding facade and last plane 2, midplane 4,6 three the rectangle horizontal planes in baseplane, the left side 7 of building block and right side 8 are L shaped vertical plane; Wherein go up plane 2, midplane 4 and baseplane 6 and be provided with wave groove 14,, after group is built, can reach energy-conservation 50% effect, so be called combination energy-saving building block from all directions because of building block is made up of 8 planes.

Embodiment 2: as shown in Figure 2, the utility model is formed 1 L shaped building block by back facade 1, last plane 2, neutral surface 3, midplane 4, preceding facade 5, baseplane 6, left side 7, right side 8, and passing through in the horizontal cuboid of building block is provided with 1 rectangular through-hole or blind hole 9.

Embodiment 3: as shown in Figure 3, the utility model is formed 1 L shaped building block by back facade 1, last plane 2, neutral surface 3, midplane 4, preceding facade 5, baseplane 6, left side 7, right side 8, and passing through in the horizontal cuboid of building block is provided with 1 semi-circular through hole or blind hole 10.

Embodiment 4: as shown in Figure 4, the utility model is formed 1 L shaped building block by back facade 1, last plane 2, neutral surface 3, midplane 4, preceding facade 5, baseplane 6, left side 7, right side 8, and passing through in the horizontal cuboid of building block is provided with 1 manhole or blind hole 11.

Embodiment 5: as shown in Figure 5, the utility model is formed 1 L shaped building block by back facade 1, last plane 2, neutral surface 3, midplane 4, preceding facade 5, baseplane 6, left side 7, right side 8, and passing through in the horizontal cuboid of building block is provided with 2 manholes or blind hole 11.

Embodiment 6: as shown in Figure 6, the utility model is formed 1 L shaped building block by back facade 1, last plane 2, neutral surface 3, midplane 4, preceding facade 5, baseplane 6, left side 7, right side 8, and passing through in the horizontal cuboid of building block is provided with 2 square through holes or blind hole 12.

Embodiment 7: as shown in Figure 7, the utility model is formed 1 L shaped building block by back facade 1, last plane 2, neutral surface 3, midplane 4, preceding facade 5, baseplane 6, left side 7, right side 8, passing through in the horizontal cuboid of building block is provided with 1 rectangular through-hole or blind hole 9, and passing through in the vertical cuboid of building block is provided with 1 strip through hole or blind hole 13.

Embodiment 8: as shown in Figure 8, the utility model is formed 1 L shaped building block by back facade 1, last plane 2, neutral surface 3, midplane 4, preceding facade 5, baseplane 6, left side 7, right side 8, passing through in the horizontal cuboid of building block is provided with 1 semi-circular through hole or blind hole 10, and passing through in the vertical cuboid of building block is provided with 1 strip through hole or blind hole 13.

Embodiment 9: as shown in Figure 9, the utility model is formed 1 L shaped building block by back facade 1, last plane 2, neutral surface 3, midplane 4, preceding facade 5, baseplane 6, left side 7, right side 8, passing through in the horizontal cuboid of building block is provided with 1 manhole or blind hole 11, and passing through in the vertical cuboid of building block is provided with 1 strip through hole or blind hole 13.

Embodiment 10: as shown in figure 10, the utility model is formed 1 L shaped building block by back facade 1, last plane 2, neutral surface 3, midplane 4, preceding facade 5, baseplane 6, left side 7, right side 8, and passing through in the horizontal cuboid of building block is provided with 5 manholes or blind hole 11.

Embodiment 11: as shown in figure 11, the utility model is formed 1 L shaped building block by back facade 1, last plane 2, neutral surface 3, midplane 4, preceding facade 5, baseplane 6, left side 7, right side 8, and passing through in the horizontal cuboid of building block is provided with 5 square through holes or blind hole 12.

Embodiment 12: as shown in figure 12, the utility model is formed 1 L shaped building block by back facade 1, last plane 2, neutral surface 3, midplane 4, preceding facade 5, baseplane 6, left side 7, right side 8, and passing through in the horizontal cuboid of building block is provided with manhole or blind hole 11, rectangular through-hole or blind hole 9 and strip through-hole or blind hole 13.

Claims (5)

1. combination energy-saving building block from all directions, it is characterized in that: building block is made of 6 rectangular planes and 2 L shaped planes, and 6 rectangular planes are 3 rectangle horizontal planes and 3 rectangle vertical planes; On 3 rectangle horizontal planes, be provided with wave groove; 3 rectangle horizontal planes and 3 rectangle vertical planes are interconnected to form L shaped building block, and 2 L shaped planes are 2 end faces of building block.

2. all directions according to claim 1 combination energy-saving building block is characterized in that: the wave groove on the horizontal plane is horizontal or longitudinal wave groove.

3. all directions according to claim 1 combination energy-saving building block is characterized in that: be provided with horizontal through hole or horizontal blind hole in the building block entity.

4. all directions according to claim 2 combination energy-saving building block is characterized in that: the horizontal through hole in the building block entity is semicircle circular or the square or strip through hole of rectangle.

5. all directions according to claim 2 combination energy-saving building block is characterized in that: the horizontal blind hole in the building block entity is semicircle circular or the square or strip blind hole of rectangle.

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