CN210086630U - Energy-saving insulating brick for house building - Google Patents

Abstract

The utility model relates to an energy-conserving insulating brick of housing construction, including the brick body, the relative both sides side of brick body on all seted up the hollow hole, the brick body set up the side of hollow hole for the face of punching, the hollow hole is the blind hole, at the embedded reinforcement that is equipped with of hollow hole, the cross section of reinforcement equals with the cross section size of hollow hole, the length of hollow hole is less than between two sides that the brick body seted up hollow hole apart from half length. The length of hollow hole is less than half of brick body width, makes the part in the middle of the brick body still be a whole, and the structure to the brick body that can be fine supports, and the structure is firm. Later through inlaying the reinforcement to the hollow hole, carry out further support to the structure of the brick body, the structure of reinforcement can be installed according to actual need to this reaches good heat preservation soundproof effect. And the structure is simpler, and the production and the assembly are convenient.

Description

Energy-saving insulating brick for house building

Technical Field

The utility model relates to a technical field of heat preservation building materials especially relates to an energy-conserving insulating brick of housing construction.

Background

In the past, most of buildings in China adopt solid clay bricks, and firing of the clay bricks destroys a large amount of cultivated land. At present, hollow energy-saving heat-insulating bricks are used for construction in many places. The brick blocks with the functions of energy saving and heat preservation are provided with rectangular cavities, and heat preservation materials are filled in the cavities to achieve the heat preservation effect, but after the cavities are arranged in the brick bodies, the structures of the brick bodies are changed, the structural compactness of the brick bodies is reduced, the pressure resistance of the brick bodies is reduced, and the strength of buildings is seriously influenced.

Chinese patent that is CN208184057U if the publication of granting discloses an energy-conserving insulating brick of housing construction, including the brick body, the heat preservation chamber has been seted up to the internal portion of brick, the mid-mounting in heat preservation chamber has the support column of vertical setting, the top of support column, the bottom all with the roof and the diapire fixed connection of heat preservation wall, install the first dead lever and the second dead lever that the level set up on the left and right sides wall of support column respectively, the left end of first dead lever and the right-hand member of second dead lever all fix with the lateral wall of heat preservation wall on, the inside wall in heat preservation chamber is provided with the metal back up coat, the heat preservation intracavity is filled there is insulation material. When it has the heat preservation effect, consolidate the structure of the brick body through support column and two fixed columns, make the building of building out more firm. However, the structure is formed by installation, so that the bricks are inevitably jolted easily in the transportation process, the first fixing rod, the second fixing rod and the reinforcing column which are installed inside are prone to falling off in the jolting process, reinstallation is troublesome after falling off, and the manufacturing cost is high.

SUMMERY OF THE UTILITY MODEL

The utility model aims at providing a housing construction energy-saving insulating brick, when it has the firm and heat retaining effect of structure, be convenient for install and make.

The above object of the present invention can be achieved by the following technical solutions: the utility model provides an energy-conserving insulating brick of housing construction, includes the brick body, the relative both sides side of the brick body on all seted up the hollow hole, the brick body the side of seting up the hollow hole for the face of punching, the hollow hole is the blind hole, at the embedded reinforcement that is equipped with of hollow hole, the cross section of reinforcement equals with the cross section size of hollow hole, the length of hollow hole is less than the brick body and sets up half length of distance between two sides of hollow hole.

Through adopting above-mentioned technical scheme, the length of hollow hole is less than half of brick body width, makes the part in the middle of the brick body still be a whole, and the structure to the brick body that can be fine supports, and the structure is firm. Later through inlaying the reinforcement to the hollow hole, carry out further support to the structure of the brick body, the structure of reinforcement can be installed according to actual need to this reaches good heat preservation soundproof effect. And the structure is simpler, and the production and the assembly are convenient.

The utility model discloses further set up to: the reinforcing part comprises a shaping cylinder, supporting blocks and heat-insulating materials, the cross sections of the shaping cylinder, the hollow hole and the supporting blocks are equal in size, three supporting blocks are embedded in one shaping cylinder and are respectively located in the middle of the shaping cylinder and at two ends of the shaping cylinder, the heat-insulating materials are filled in the shaping cylinder and are located between two adjacent supporting blocks, and the length of the reinforcing part is smaller than the depth of the hollow hole.

Through adopting above-mentioned technical scheme, three supporting shoe can effectually support hollow hole both ends and hollow hole middle part, strengthens the steadiness of this brick body, and the position that the hollow hole was seted up to the difficult appearance brick body sinks the phenomenon of damage.

The utility model discloses further set up to: the shaping cylinder is made of a steel wire mesh, the length of the steel wire mesh is larger than the perimeter of the shaping cylinder, and the width of the steel wire mesh is larger than the height of the shaping cylinder.

Through adopting above-mentioned technical scheme, the wire net is when the batching is a shaping section of thick bamboo, and change shape that can be convenient is rolled up comparatively easily, and the material obtains on the workplace easily, is convenient for make and subsequent installation. After the steel wire mesh is rolled into a cylinder shape, at least one part of the steel wire mesh is overlapped, and the structure is stable. The two ends of the steel wire mesh rolled into the cylinder shape are bent and flattened, so that the positions of the heat-insulating material and the supporting block inside the shaping cylinder are covered, and the supporting block is not easy to fall off from the shaping cylinder.

The utility model discloses further set up to: the cross section of the hollow hole is square.

Through adopting above-mentioned technical scheme, square hollow hole when arranging, can guarantee the support brick body that lateral wall thickness between two adjacent hollow holes can be fine, big with the hollow hole is seted up as far as, make material saving more.

The utility model discloses further set up to: the hollow hole in be provided with the parallel enhancement strip of hollow hole axis, strengthen in four hollow holes that the strip is located the face of punching closest to this side edge, and a hollow downthehole enhancement strip that is provided with, should strengthen the strip and be located the contained angle department of the face edge that punches closest to in this hollow hole.

Through adopting above-mentioned technical scheme, will strengthen the fixed edge that sets up the closest brick body edge department in the hollow hole of face four corners department that punches of strip, increase the holistic structural stability of the brick body, make the brick body can bear heavier weight.

The utility model discloses further set up to: the hollow holes on the same punching surface are provided with at least two rows, and the two adjacent rows of hollow holes are arranged in a staggered manner.

Through adopting above-mentioned technical scheme, with crisscross setting between the hollow hole, bearing structure is more firm, and the brick body can bear heavier weight.

The utility model discloses further set up to: the brick is characterized in that two punching surfaces of the brick body are provided with connecting grooves and connecting bulges, the connecting grooves and the connecting bulges are annular, the edges of the punching surfaces are arranged, one punching surface is fixedly provided with the connecting bulges, and the other punching surface is provided with the connecting groove.

Through adopting above-mentioned technical scheme, when laminating the face of punching of two brick bodies each other, connect the arch and inlay and establish in the spread groove, it is more convenient when assembling and piling up, and very firm.

The utility model discloses further set up to: the brick body on all seted up anti-skidding groove on four sides of hollow hole, anti-skidding groove perpendicular to face of punching, anti-skidding groove is arranged along this side array, the interval between two adjacent anti-skidding grooves equals.

Through adopting above-mentioned technical scheme, when piling up the brick body or piling up, the antiskid groove forms anti-skidding stripe, makes the difficult gliding phenomenon that appears of the brick body, is convenient for transport and piles up.

To sum up, the utility model discloses a beneficial technological effect does:

1. the insulating brick has a stable structure and a good insulating effect, and is convenient to produce and assemble;

2. when piling up or piling up the brick body, the brick body is difficult for sliding, is convenient for transport and piles up.

Drawings

Fig. 1 is a schematic structural diagram of the present invention;

FIG. 2 is a schematic view of the installation of the reinforcement;

fig. 3 is a schematic structural diagram of the present invention after hiding a half structure.

Reference numerals: 1. a brick body; 11. punching a hole surface; 12. a hollow bore; 2. a reinforcement; 21. shaping the cylinder; 22. a support block; 23. a thermal insulation material; 3. a reinforcing strip; 31. connecting grooves; 32. a connecting projection; 33. and (4) an anti-slip groove.

Detailed Description

The present invention will be described in further detail with reference to the accompanying drawings.

As shown in figures 1 and 2, the energy-saving insulating brick for the house construction comprises a brick body 1 in a cubic shape. Relative two sides set up to the face of punching 11 in the 1 lateral surface of brick body, have seted up hollow hole 12 on the face of punching 11, and hollow hole 12 is the blind hole, and the degree of depth of hollow hole 12 is less than the brick body 1 and has seted up half of the distance between two sides of hollow hole 12. The cross section of the hollow hole 12 is square, three hollow holes 12 are arranged on one side face of the brick body 1, and two adjacent rows of hollow holes 12 are arranged in a staggered mode. Through such setting, under the prerequisite of seting up hollow hole 12, make the part in the middle of the brick body 1 still be a whole to support the internal structure of the brick body 1, make the brick body 1 structure more firm.

As shown in fig. 2 and 3, the reinforcing member 2 is embedded in the hollow hole 12, the reinforcing member 2 includes a shaping cylinder 21, a supporting block 22 and a heat insulating material 23, and the cross sections of the supporting block 22, the shaping cylinder 21 and the hollow hole 12 are equal in size. The shaping cylinder 21 is made by rolling up a steel wire mesh, the length of the shaping cylinder 21 is slightly smaller than that of the hollow hole 12, the length of the steel wire mesh is larger than the perimeter of the shaping cylinder 21, and the width of the steel wire bar is larger than the height of the shaping cylinder 21. The supporting blocks 22 are provided with three blocks, two ends and the middle of the shaping cylinder 21 are respectively provided with one block, and the supporting blocks 22 are wrapped in the shaping cylinder 21. The thermal insulation material 23 is made of asbestos and is filled between two adjacent supporting blocks 22. Through to the embedded reinforcement 2 that establishes of hollow hole 12, be provided with the supporting shoe 22 that further supports the structure of the brick body 1 in the reinforcement 2, and be provided with the insulation material 23 that the asbestos made between two supporting shoes 22 to this reaches good heat preservation effect, and the asbestos still has certain syllable-dividing effect. Such structure is also comparatively simple, and production and equipment are all very convenient, even in the transportation, the brick body 1 receives vibrations because of jolting, leads to reinforcement 2 from hollow hole 12 internal roll-off, also can be convenient make into reinforcement 2 with wire net and supporting shoe 22 again.

As shown in fig. 1 and 3, the reinforcing bars 3 are integrally formed in the hollow holes 12 located at four corners in the punching surface 11, and the reinforcing bars 3 are located at the corners of the hollow holes 12 closest to the corner where the reinforcing bars are located. The length of the reinforcing bar 3 is equal to the length of the hollow hole 12, and the reinforcing bar 3 is parallel to the axis of the hollow hole 12. The reinforcing strips 3 can increase the overall stability of the brick body 1, so that the brick body 1 can bear heavier weight. The punching surface 11 of the brick body 1 is provided with a connecting groove 31 and a connecting bulge 32 which are integrally formed. The connecting protrusion 32 is located on one of the punched surfaces 11, and the connecting groove 31 is located on the other punched surface 11. The cross sections of the connecting protrusion 32 and the connecting groove 31 are equal and are both annular, and the connecting protrusion 32 and the connecting groove 31 are both arranged along the edge of the side surface where the connecting protrusion is located. When using this brick body 1 to pile up, two adjacent brick bodies 1 can be amalgamated each other to in will connecting the arch 32 embedding spread groove 31, make the building structure of building out more stable. All seted up a plurality of antiskid grooves 33 on the side of the hollow hole 12 is not seted up to the brick body 1, and two faces 11 of holing of antiskid groove 33 perpendicular to, the interval between two adjacent antiskid grooves 33 equals. When piling up or piling up the brick body 1, the antiskid groove 33 makes the brick body 1 be difficult for appearing gliding phenomenon, is convenient for transport and piles up.

The embodiment of this specific implementation mode is the preferred embodiment of the present invention, not limit according to this the utility model discloses a protection scope, so: all equivalent changes made according to the structure, shape and principle of the utility model are covered within the protection scope of the utility model.

Claims (8)

1. The utility model provides a housing construction energy-saving insulating brick, includes the brick body (1), the brick body (1) relative both sides side on all seted up hollow hole (12), its characterized in that: the brick body (1) the side of seting up hollow hole (12) be for holing face (11), hollow hole (12) are the blind hole, at the embedded reinforcement (2) that is equipped with in hollow hole (12), the cross section of reinforcement (2) equals with the cross section size of hollow hole (12), the length of hollow hole (12) is less than the brick body (1) and sets up half length of distance between two sides of hollow hole (12).

2. The energy-saving insulating brick for house buildings according to claim 1, characterized in that: the reinforcing piece (2) comprises a shaping cylinder (21), supporting blocks (22) and heat-insulating materials (23), the cross sections of the shaping cylinder (21), the hollow hole (12) and the supporting blocks (22) are equal in size, three supporting blocks (22) are embedded in one shaping cylinder (21), the three supporting blocks (22) are respectively located in the middle of the shaping cylinder (21) and at two ends of the shaping cylinder (21), the heat-insulating materials (23) are filled in the shaping cylinder (21) and located between the two adjacent supporting blocks (22), and the length of the reinforcing piece (2) is smaller than the depth of the hollow hole (12).

3. The energy-saving insulating brick for house buildings according to claim 2, characterized in that: the shaping cylinder (21) is made of a steel wire mesh, the length of the steel wire mesh is larger than the circumference of the shaping cylinder (21), and the width of the steel wire mesh is larger than the height of the shaping cylinder (21).

4. The energy-saving insulating brick for house buildings according to claim 1, characterized in that: the cross section of the hollow hole (12) is square.

5. The energy-saving insulating brick for house buildings according to claim 4, characterized in that: hollow hole (12) in be provided with the parallel enhancement strip (3) of hollow hole (12) axis, strengthen in strip (3) are arranged in four hollow holes (12) of the face of perforating (11) nearest this side edge, and be provided with one in one hollow hole (12) and strengthen strip (3), should strengthen strip (3) and be arranged in this hollow hole (12) nearest the contained angle department of face of perforating (11) edge.

6. The energy-saving insulating brick for house buildings according to claim 1, characterized in that: the hollow holes (12) on the same drilling surface (11) are provided with at least two rows, and the adjacent two rows of hollow holes (12) are arranged in a staggered manner.

7. The energy-saving insulating brick for house buildings according to claim 1, characterized in that: be provided with spread groove (31) and connect arch (32) on two face of punching (11) of the brick body (1), spread groove (31) and connect arch (32) all be the annular, and set up along the edge of face of punching (11), fixed being provided with on one of them face of punching (11) connects arch (32), has seted up spread groove (31) on another face of punching (11).

8. The energy-saving insulating brick for house buildings according to claim 1, characterized in that: the brick body (1) do not seted up on four sides of hollow hole (12) and all seted up anti-skidding groove (33), anti-skidding groove (33) perpendicular to face (11) that punch, anti-skidding groove (33) are arranged along this side array, and the interval between two adjacent anti-skidding grooves (33) equals.

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