CN201241417Y - Brick - Google Patents

Abstract

The utility model discloses a brick, comprising a brick body with a cuboid structure; a straight-through groove 1 is arranged on the top surface of the brick body along the length direction, a rib 1 the number of which is corresponding to that of the straight-through grooves 1 is arranged on the bottom surface of the brick body, the shapes of the rib 1 and the straight-through groove 1 are a bonding structure; a straight-through groove 2 arranged along vertical direction is arranged at the left end surface of the brick body, a rib 2, the number of which is corresponding to that of the straight-through grooves 2 is arranged at the right end surface of the brick body, the shapes of the rib 2 and the straight-through groove 2 are a bonding structure. Little cement sand mix is only needed to be coated on the end surface where the straight-through grooves are arranged when building a wall, and then the brick bodies are bonded according to the positions of the ribs and the straight-through grooves without detecting and controlling whether the verticality and the horizontal direction are at the same straight line in a real time manner, thus being capable of greatly accelerating the construction progress, improving the stability of the wall body and saving the construction cost.

Description

A kind of brick

Technical field

The utility model relates to constructional materials, is specifically related to a kind of brick.

Background technology

Known building a wall with brick is rectangular, and its six surfaces are the plane, its usually and cement mortar be used.The brick of this known configurations need be determined its verticality by plumb line when building a wall, determine that by horizontal guy horizontal direction is in same straight line, thereby influence construction speed.Above-mentioned in addition common brick adopts cement mortar to realize mutual being fastenedly connected, and the cement mortar consumption is bigger, thereby the making of cement mortar, the quality that provides also can firmly affecting greatly construction speed and body of wall.

The utility model content

Technical problem to be solved in the utility model just provides a kind of brick, accelerating construction progress greatly, and it is firm to improve body of wall, and the cement mortar consumption is few, saves construction cost.

For solving the problems of the technologies described above, the utility model adopts following technical scheme: a kind of brick, the brick body that comprises rectangular structure, it is characterized in that: the end face at the brick body is provided with at least one conduction through concave trough one that is provided with along its length, be provided with and the corresponding fin one of described conduction through concave trough one quantity in the bottom surface of brick body, described fin one shape and described conduction through concave trough one are shaped as the structure that can bond mutually.

Improved, be at described brick body on the left side of conduction through concave trough one longitudinal direction trend and be provided with at least one conduction through concave trough two that vertically is provided with, be at described brick body on the right side of conduction through concave trough one longitudinal direction trend and be provided with and the corresponding fin two of described conduction through concave trough two quantity, described fin two shapes and described conduction through concave trough two are shaped as the structure that can bond mutually.

Preferably, described conduction through concave trough one and fin one are one or two.

Preferably, described conduction through concave trough two and fin two are one or two.

Preferably, described conduction through concave trough one is a trapezium structure, corresponding, described fin one is a trapezium structure.

Preferably, described conduction through concave trough two is a trapezium structure, corresponding, described fin two is a trapezium structure.

Preferably, the plane parallel at the plane at described conduction through concave trough one and fin one place and conduction through concave trough two and fin two places.This structure can make stressed staggered and more even, making the connection of bonding mutually between the brick body more firm.

The utility model is owing to adopted technique scheme, only need when building a wall to spread the small amount of cement mortar on the end face of conduction through concave trough being provided with, according to the position of fin and conduction through concave trough the brick body is bonded mutually then and get final product, whether inspection that need not be real-time control verticality and horizontal direction be on same straight line, accelerating construction progress greatly, it is firm to improve body of wall, saves construction cost.

Description of drawings

Below in conjunction with the drawings and specific embodiments the utility model is further described:

Fig. 1 is the preferred structure schematic diagram of a kind of brick of the utility model;

Fig. 2 bows to view for Fig. 1's;

Fig. 3 is the connection diagram of four adjacent bricks.

The specific embodiment

As Fig. 1, shown in Figure 2, be a kind of brick of the present utility model, the brick body 5 that comprises rectangular structure, end face 1 at brick body 5 is provided with a conduction through concave trough 1 that is provided with along its length, be provided with and the corresponding fin 1 of described conduction through concave trough one 11 quantity in the bottom surface 2 of brick body 5, described fin one shape and described conduction through concave trough one are shaped as the structure that can bond mutually, be at described brick body on the left side 3 of conduction through concave trough one longitudinal direction trend and be provided with a conduction through concave trough 2 31 that vertically is provided with, be at described brick body on the right side 4 of conduction through concave trough one longitudinal direction trend and be provided with a fin 2 41, described fin two shapes and described conduction through concave trough two are shaped as the structure that can bond mutually.The plane parallel at the plane at described conduction through concave trough one and fin one place and conduction through concave trough two and fin two places, described conduction through concave trough one and conduction through concave trough two are trapezium structure, corresponding, described fin one closes fin two and also is trapezium structure.As Fig. 3, when building a wall, the utility model only needs to spread the small amount of cement mortar on the end face of conduction through concave trough being provided with, according to the position of fin and conduction through concave trough the brick body is bonded mutually then and get final product, whether inspection that need not be real-time control verticality and horizontal direction be on same straight line, accelerating construction progress greatly, it is firm to improve body of wall, saves construction cost.

Claims (8)

1, a kind of brick, the brick body that comprises rectangular structure, it is characterized in that: the end face at the brick body is provided with at least one conduction through concave trough one that is provided with along its length, be provided with and the corresponding fin one of described conduction through concave trough one quantity in the bottom surface of brick body, described fin one shape and described conduction through concave trough one are shaped as the structure that can bond mutually.

2, brick according to claim 1, it is characterized in that: be at described brick body on the left side of conduction through concave trough one longitudinal direction trend and be provided with at least one conduction through concave trough two that vertically is provided with, be at described brick body on the right side of conduction through concave trough one longitudinal direction trend and be provided with and the corresponding fin two of described conduction through concave trough two quantity, described fin two shapes and described conduction through concave trough two are shaped as the structure that can bond mutually.

3, brick according to claim 1 is characterized in that: described conduction through concave trough one and fin one are one or two.

4, brick according to claim 2 is characterized in that: described conduction through concave trough two and fin two are one or two.

5, according to claim 1 or 3 described bricks, it is characterized in that: described conduction through concave trough one is trapezium structure, corresponding, described fin one is a trapezium structure.

6, according to claim 2 or 4 described bricks, it is characterized in that: described conduction through concave trough two is trapezium structure, corresponding, described fin two is a trapezium structure.

7, according to claim 1,2,3 or 4 described bricks, it is characterized in that: the plane parallel at the plane at described conduction through concave trough one and fin one place and conduction through concave trough two and fin two places.

8, brick according to claim 5 is characterized in that: the plane parallel at the plane at described conduction through concave trough one and fin one place and conduction through concave trough two and fin two places.

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