CN212317285U - Energy-saving heat-insulating anti-cracking aerated concrete block - Google Patents

Abstract

The utility model discloses an anti aerated concrete block that splits of energy-conserving heat preservation, including block body, block body is the cuboid structure, block body lower fixation is equipped with quantity and is four arch, block body upper end set up quantity be four with protruding assorted recess, block body sets up quantity at the middle part and is four subtract the material hole, subtract the material downthehole fixed steel pipe that is equipped with, the steel pipe intussuseption is filled with polyurethane foam filler, block body is close to the fixed first reinforcing bar net that is equipped with in upper end just first reinforcing bar net is located subtract material hole top. Has the advantages that: can increase the bearing capacity of building block body to the material is few, and the quality is light, difficult fracture and energy-conserving, and the spacing through arch and recess can conveniently be piled up neatly between the building block body moreover, thereby can reduce the operation degree of difficulty of building a wall.

Description

Energy-saving heat-insulating anti-cracking aerated concrete block

Technical Field

The utility model relates to a concrete block field particularly, relates to an anti aerated concrete block that splits of energy-conserving heat preservation.

Background

With the rapid development of the building industry, the demand of building materials is increasing day by day, and the common clay bricks used at present destroy a large amount of cultivated land and fertile farmland in the firing process, have serious water and soil loss and have serious pollution phenomena. The production of the common clay brick obviously does not meet the requirements of energy conservation, emission reduction, low carbon and environmental protection, and also has the defects of complex construction process, long construction period, more common engineering quality and the like. Market demand has not been met. At present, the building industry generally adopts hollow blocks made of various materials to replace common clay bricks, although the hollow blocks are more energy-saving and environment-friendly, the bearing capacity of the hollow blocks is unsatisfactory, the existing blocks are poor in heat insulation performance, certain technology and experience are needed for leveling the swing between the blocks when a wall is built, and the operation difficulty is high.

An effective solution to the problems in the related art has not been proposed yet.

SUMMERY OF THE UTILITY MODEL

The utility model aims at providing an anti aerated concrete block that splits of energy-conserving heat preservation to solve the problem that proposes in the above-mentioned background art.

In order to achieve the above object, the utility model provides a following technical scheme: the utility model provides an energy-conserving anti aerated concrete block that splits that keeps warm includes block body, block body is the cuboid structure, block body lower fixation is equipped with quantity for four arch, block body upper end set up quantity be four with protruding assorted recess, block body middle part sets up quantity be four subtract the material hole, subtract the downthehole steel pipe that is equipped with of material, the steel pipe intussuseption is filled with polyurethane foam filler, block body is close to the fixed first reinforcing bar net that is equipped with in upper end just first reinforcing bar net is located subtract material hole top, block body is close to the fixed second reinforcing bar net that is equipped with of lower extreme just the second reinforcing bar net is located subtract material hole below.

Furthermore, the lower ends of the protrusions and the grooves are arranged in a shrinking state.

Furthermore, the upper surface of the building block body is provided with a longitudinal pipe groove and a transverse pipe groove, the longitudinal pipe groove and the transverse pipe groove are vertically arranged, the tangent planes of the longitudinal pipe groove and the transverse pipe groove are of semicircular structures, the two ends of the upper surface of the building block body are provided with splicing pipe grooves, and the cross sections of the splicing pipe grooves are of quarter-circle structures.

Furthermore, buckle grooves are formed in two ends of the building block body.

Furthermore, a rubber pad is fixedly arranged on the inner wall of the buckling groove.

Further, the building block body is made of aerated concrete.

Compared with the prior art, the utility model discloses following beneficial effect has:

(1) the utility model discloses a set up building block body, arch, recess, subtract material hole, steel pipe, polyurethane foam filling agent, first reinforcing bar net and second reinforcing bar net, can increase building block body's bearing capacity to the materials are few, and the quality is light, difficult fracture and energy-conserving, and it is neat to pile up between the building block body through protruding spacing with the recess moreover, thereby can reduce the operation degree of difficulty of building a wall.

(2) The utility model discloses a lower extreme setting with arch and recess is the situation of dwindling, can conveniently inject the arch in the recess.

(3) The utility model discloses a set up vertical chase, horizontal chase and concatenation chase, can form the wire casing that is used for the wiring on the wall body of building into to can make things convenient for the interior wiring of wall body.

(4) The utility model discloses a set up catching groove and rubber pad, can be convenient for remove building block body, the rubber pad can increase the non-skid property of catching groove and can protect porter's finger.

(5) The utility model discloses a make building block body with aerated concrete, can make building block body have good quality such as matter is light, heat preservation, sound insulation, impervious, antidetonation.

Drawings

In order to more clearly illustrate the embodiments of the present invention or the technical solutions in the prior art, the drawings required to be used in the embodiments will be briefly described below, and it is obvious that the drawings in the following description are only some embodiments of the present invention, and for those skilled in the art, other drawings can be obtained according to these drawings without creative efforts.

FIG. 1 is a front view of an energy-saving, heat-preserving and anti-cracking aerated concrete block according to an embodiment of the present invention;

fig. 2 is a side view of an energy-saving, heat-preserving, anti-cracking aerated concrete block according to an embodiment of the present invention;

fig. 3 is a top view of an energy-saving, heat-preserving and anti-cracking aerated concrete block according to an embodiment of the utility model.

Reference numerals:

1. a block body; 2. a protrusion; 3. a groove; 4. a material reducing hole; 5. a steel pipe; 6. a polyurethane foam filler; 7. a first reinforcing mesh; 8. a second reinforcing mesh; 9. a longitudinal pipe groove; 10. a transverse pipe groove; 11. splicing the pipe grooves; 12. buckling grooves; 13. and (7) a rubber pad.

Detailed Description

The following, with reference to the drawings and the detailed description, further description of the present invention is made:

the first embodiment is as follows:

referring to fig. 1-3, according to the embodiment of the present invention, an energy-saving thermal insulation anti-cracking aerated concrete block includes a block body 1, the block body 1 is a rectangular structure, four protrusions 2 are fixed below the block body 1, four grooves 3 matched with the protrusions 2 are formed in the upper end of the block body 1, four material reducing holes 4 are formed in the middle of the block body 1, a steel pipe 5 is fixed in each material reducing hole 4, a polyurethane foaming filler 6 is filled in each steel pipe 5, a first reinforcing mesh 7 is fixed near the upper end of the block body 1, the first reinforcing mesh 7 is located above the material reducing holes 4, a second reinforcing mesh 8 is fixed near the lower end of the block body 1, and the second reinforcing mesh 8 is located below the material reducing holes 4.

Through the above technical scheme of the utility model, can increase block body 1's bearing capacity to the materials are few, and the quality is light, difficult fracture and energy-conserving, and spacing through arch 2 and recess 3 can conveniently be piled up between block body 1 neatly moreover, thereby can reduce the operation degree of difficulty of building a wall.

Example two:

referring to fig. 1-3, for the protrusion 2 and the groove 3, the lower ends of the protrusion 2 and the groove 3 are both disposed in a reduced state; for the building block body 1, the upper surface of the building block body 1 is provided with a longitudinal pipe groove 9 and a transverse pipe groove 10, the longitudinal pipe groove 9 and the transverse pipe groove 10 are vertically arranged, the tangent planes of the longitudinal pipe groove 9 and the transverse pipe groove 10 are both in a semicircular structure, the two ends of the upper surface of the building block body 1 are both provided with splicing pipe grooves 11, and the cross sections of the splicing pipe grooves 11 are both in a quarter-circle structure.

Through the above technical scheme of the utility model, can conveniently inject protruding 2 in the recess 3, vertical chase 9, horizontal chase 10 and concatenation chase 11 can form the wire casing that is used for the wiring on the wall body of building into to can make things convenient for the interior wiring of wall body.

Example three:

referring to fig. 1, for a block body 1, two ends of the block body 1 are both provided with a catching groove 12; for the catching groove 12, a rubber pad 13 is fixedly arranged on the inner wall of the catching groove 12; for the block body 1, the block body 1 is made of aerated concrete.

Through the above technical scheme of the utility model, catching groove 12 can be convenient for remove building block body 1, and rubber pad 13 can increase catching groove 12's non-slip property and can protect porter's finger, makes building block body 1 through making with aerated concrete and can make building block body 1 have the good quality such as matter is light, heat preservation, sound insulation, impervious, antidetonation.

For the convenience of understanding the technical solution of the present invention, the following detailed description is made on the working principle or the operation mode of the present invention in the practical process.

In practical application, when a wall is built, firstly, a layer of bonding cement is coated on the next building block body 1, then the protrusions 2 of the upper building block body 1 are inserted into the grooves 3 of the lower building block body 1, so that the building block bodies 1 can be ensured to be orderly, the operation difficulty of building the wall can be reduced, the firmness of connection between the building block bodies 1 can be improved, the first reinforcing mesh 7 and the second reinforcing mesh 8 can improve the bearing capacity of the building block body 1, the building block body 1 is not easy to crack, material reducing holes 4 are formed, the material consumption can be reduced, the overall quality is light and energy-saving, the protrusions 2 can be conveniently inserted into the grooves 3, the longitudinal pipe grooves 9, the transverse pipe grooves 10 and the splicing pipe grooves 11 can form wire grooves for wiring on the built wall body, the wiring in the wall body can be facilitated, the buckle grooves 12 can facilitate the removal of the building block bodies 1, rubber pad 13 can increase the non-skid property of catching groove 12 and can protect the transport personnel's finger, can make building block body 1 have the good quality such as matter is light, heat preservation, syllable-dividing, impervious, antidetonation through making building block body 1 with aerated concrete.

Although embodiments of the present invention have been shown and described, it will be appreciated by those skilled in the art that changes, modifications, substitutions and alterations can be made in these embodiments without departing from the principles and spirit of the invention, the scope of which is defined in the appended claims and their equivalents.

Claims (6)

1. An energy-saving heat-insulating anti-cracking aerated concrete block is characterized by comprising a block body (1), the building block body (1) is of a cuboid structure, four bulges (2) are fixedly arranged below the building block body (1), the upper end of the block body (1) is provided with four grooves (3) which are matched with the bulges (2), the middle part of the block body (1) is provided with four material reducing holes (4), a steel pipe (5) is fixedly arranged in the material reducing hole (4), a polyurethane foaming filler (6) is filled in the steel pipe (5), a first reinforcing mesh (7) is fixedly arranged on the building block body (1) close to the upper end, the first reinforcing mesh (7) is positioned above the material reducing hole (4), and a second reinforcing mesh (8) is fixedly arranged on the building block body (1) close to the lower end, and the second reinforcing mesh (8) is positioned below the material reducing hole (4).

2. The energy-saving heat-insulating anti-cracking aerated concrete block as claimed in claim 1, wherein the lower ends of the protrusions (2) and the grooves (3) are arranged in a reduced state.

3. The energy-saving heat-insulating anti-cracking aerated concrete block according to claim 1, wherein a longitudinal pipe groove (9) and a transverse pipe groove (10) are formed in the upper surface of the block body (1), the longitudinal pipe groove (9) and the transverse pipe groove (10) are vertically arranged, the sections of the longitudinal pipe groove (9) and the transverse pipe groove (10) are of semicircular structures, splicing pipe grooves (11) are formed in two ends of the upper surface of the block body (1), and the sections of the splicing pipe grooves (11) are of quarter-circle structures.

4. The energy-saving heat-insulating anti-cracking aerated concrete block as claimed in claim 1, wherein two ends of the block body (1) are provided with catching grooves (12).

5. The energy-saving heat-insulating anti-cracking aerated concrete block as claimed in claim 4, wherein a rubber pad (13) is fixedly arranged on the inner wall of the buckling groove (12).

6. The energy-saving heat-insulating anti-cracking aerated concrete block according to claim 1, wherein the block body (1) is made of aerated concrete.

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