CN215563780U - High-strength non-autoclaved aerated concrete block - Google Patents

Abstract

A high-strength non-autoclaved aerated concrete block relates to an aerated concrete block, which comprises a block main body and a filling block, wherein the block main body is made of non-autoclaved aerated concrete; a through filling groove is longitudinally arranged in the building block main body, a left connecting groove and a left connecting block are respectively arranged on the left side of the building block main body, a right connecting block matched with the left connecting groove is arranged on the right side of the building block main body at a position corresponding to the left connecting groove, and a right connecting groove matched with the left connecting block is arranged at a position corresponding to the left connecting block; the top end of the building block main body is provided with an upper connecting hole, and the bottom end of the building block main body is provided with a lower connecting block matched with the upper connecting hole at a position corresponding to the upper connecting hole; the filling block is arranged in a filling groove of the building block main body, and a through connecting hole communicated with the upper connecting hole is formed in the filling block. The utility model has the characteristics of high connection strength, good stability, later maintenance cost saving, construction cost saving, attractive appearance, convenient production and installation and the like, and is easy to popularize and apply.

Description

High-strength non-autoclaved aerated concrete block

Technical Field

The utility model relates to an aerated concrete block, in particular to a high-strength non-autoclaved aerated concrete block.

Background

The non-autoclaved aerated concrete block is prepared by using siliceous materials and calcareous materials, adding a proper amount of regulating materials and a small amount of gas generating materials, processing, mixing and stirring the raw materials, pouring the raw materials into a mold for gas generation and initial setting, then cutting the raw materials, and curing and stacking the raw materials for loading in a non-autoclaved steam curing manner. In the construction of the existing building engineering, the problems of insufficient strength and stability often occur in the aerated concrete wall, and the problems are particularly obvious when the aerated concrete wall is applied to an outer wall, such as interface seams generated at the joint of the aerated concrete and a beam column, vertical shrinkage cracks generated in the middle of the wall, dislocation of blocks and the like. The strength of each building block can not be effectively exerted, and a certain potential safety hazard is probably caused to the wall structure.

Disclosure of Invention

The technical problem to be solved by the utility model is as follows: the utility model provides a autoclaved aerated concrete block is exempted from to excel in to solve the not enough problem of joint strength and stability that prior art exists.

The technical scheme for solving the technical problems is as follows: a high-strength non-autoclaved aerated concrete block comprises a block body made of non-autoclaved aerated concrete and a filling block; a through filling groove is longitudinally arranged in the building block main body, a left connecting groove and a left connecting block are respectively arranged on the left side of the building block main body, a right connecting block matched with the left connecting groove is arranged on the right side of the building block main body at a position corresponding to the left connecting groove, and a right connecting groove matched with the left connecting block is arranged at a position corresponding to the left connecting block; the top end of the building block main body is provided with an upper connecting hole, and the bottom end of the building block main body is provided with a lower connecting block matched with the upper connecting hole at a position corresponding to the upper connecting hole; the filling block is arranged in a filling groove of the building block main body, and a through connecting hole communicated with the upper connecting hole is formed in the filling block.

The further technical scheme of the utility model is as follows: the building block main body and the filling blocks are cuboid blocks, and the filling grooves are cuboid spaces.

The further technical scheme of the utility model is as follows: the volume of the filling grooves is one fourth of the volume of the main body of the building block, the filling grooves are longitudinally arranged along the building block, the number of the filling grooves is three, the filling grooves are equal in distance from the main body of the building block, and the filling grooves are equal in distance.

The further technical scheme of the utility model is as follows: the left connecting block and the right connecting block are made of non-autoclaved aerated concrete, the right connecting block and the right connecting groove are respectively in a pair, the pair of right connecting blocks are symmetrically arranged on the upper part of the right side of the building block main body along the width of the building block main body, and the pair of right connecting grooves are symmetrically arranged on the lower part of the right side of the building block main body along the width of the building block main body; the left connecting blocks and the left connecting grooves are respectively in a pair, the left connecting blocks are symmetrically arranged on the lower portion of the left side of the building block body along the width of the building block body, and the left connecting grooves are symmetrically arranged on the upper portion of the left side of the building block body along the width of the building block body.

The utility model has the further technical scheme that: the left connecting block and the right connecting block are cylindrical, the diameter of the left connecting block is one sixth of the height of the building block main body, and the length of the left connecting block and the right connecting block is one fifth of the longitudinal length of the building block main body; the shape and the size of the left connecting groove and the right connecting groove are respectively matched with the right connecting block and the left connecting block.

The further technical scheme of the utility model is as follows: two upper connecting holes are uniformly arranged at the upper part of each filling groove along the longitudinal length; the maximum length of the lower connecting block is the distance from the upper surface of the building block main body to the bottom of the filling groove.

The further technical scheme of the utility model is as follows: the filling block is made of non-autoclaved aerated concrete.

Due to the adoption of the structure, compared with the prior art, the high-strength non-autoclaved aerated concrete block has the following beneficial effects:

1. high connection strength and good stability

The utility model comprises a building block main body and a filling block, wherein the building block main body is made of non-autoclaved aerated concrete; a through filling groove is longitudinally arranged in the building block main body, a left connecting groove and a left connecting block are respectively arranged on the left side of the building block main body, a right connecting block matched with the left connecting groove is arranged on the right side of the building block main body at a position corresponding to the left connecting groove, and a right connecting groove matched with the left connecting block is arranged at a position corresponding to the left connecting block; the top end of the building block main body is provided with an upper connecting hole, and the bottom end of the building block main body is provided with a lower connecting block matched with the upper connecting hole at a position corresponding to the upper connecting hole; the filling block is arranged in a filling groove of the building block main body, and a through connecting hole communicated with the upper connecting hole is formed in the filling block. When the concatenation, insert the right connecting groove of the adjacent building block in left side with the left connecting block of building block main part, insert the left connecting groove of the adjacent building block in right side with the right connecting block of building block main part, insert the last connecting hole of the adjacent building block in below and the through connection hole of intussuseption piece rather than lower connecting block to can make and to connect the synergism effectively between each building block. The building block has strong connection constraint at the upper, lower, left and right positions, so that the building block is tightly connected with the building block, the connection strength is high, and the stability is good.

2. Saving later maintenance cost

The utility model has strong connection constraint at the upper, lower, left and right positions, so that the building blocks are tightly connected with the building blocks, the connection strength is higher, the stability is better, the phenomena of interface seams at the joint of aerated concrete and a beam column, shrinkage cracks at the middle part of a wall body, dislocation between the building blocks and the like in the prior art are avoided, and the cost of later maintenance is greatly saved.

3. Saving construction cost

The wall body adopting the building block has certain connecting strength after being assembled, and the using amount of mortar can be greatly reduced during plastering, so that the construction cost is saved.

4. Has beautiful appearance

The wall body adopting the building blocks has good fixing effect on all the building blocks, so that the surface of the wall body is higher in flatness, and the shape is more attractive.

5. Convenient production and installation

The building block main body and the filling block are standard cuboid building blocks, and convenience is provided for production and installation.

The technical features of the high strength non-autoclaved aerated concrete block of the present invention will be further described with reference to the drawings and examples in the specification.

Drawings

FIG. 1: the utility model discloses a structural schematic diagram of a high-strength non-autoclaved aerated concrete block (not shown with filling blocks),

FIG. 2: in the top view of figure 1 of the drawings,

FIG. 3: embodiment one is a schematic structural diagram of the filling block;

FIG. 4: in the first embodiment, a schematic structural diagram (not shown with filling blocks) of five high-strength non-autoclaved aerated concrete blocks of the present invention is spliced together.

In the above drawings, the respective reference numerals are explained as follows:

1-building block main body, 2-filling groove, 3-filling block, 4-through connecting hole, 5-upper connecting hole,

6-lower connecting block, 7-left connecting groove, 8-left connecting block, 9-right connecting block and 10-right connecting groove.

Detailed Description

Example one

The utility model provides a autoclaved aerated concrete block is exempted from to excel in, includes building block main part 1, filling block 3, wherein:

the building block body 1 is a cuboid block, the building block body 1 is formed by processing, mixing and stirring raw materials, pouring the raw materials into a mould for gas generation and initial setting, cutting the raw materials and performing non-pressure steam curing by using a silicon material, a calcium material and a proper amount of regulating material and a small amount of gas generation material.

The building block is characterized in that a through filling groove 2 is longitudinally formed in the building block main body 1, the filling groove 2 is a cuboid space, the volume of the filling groove 2 is one fourth of the volume of the building block main body 1, the filling grooves 2 are longitudinally formed in the building block, the number of the filling grooves is three, the distances from the building block main body 1 to the top and the bottom are equal, and the distances between the filling grooves 2 are equal.

The left side of the building block main body 1 is provided with a left connecting groove 7 and a left connecting block 8 respectively, the right side of the building block main body 1 is provided with a right connecting block 9 matched with the left connecting groove 7 at a position corresponding to the left connecting groove 7, and a right connecting groove 10 matched with the left connecting block 8 is arranged at a position corresponding to the left connecting block 8. The number of the right connecting blocks 9 and the number of the right connecting grooves 10 are respectively a pair, the right connecting blocks 9 are symmetrically arranged at the upper part of the right side of the building block main body 1 along the width of the building block main body, and the right connecting grooves 10 are symmetrically arranged at the lower part of the right side of the building block main body 1 along the width of the building block main body; the number of the left connecting blocks 8 and the number of the left connecting grooves 7 are respectively a pair, the left connecting blocks 8 are symmetrically arranged on the lower portion of the left side of the building block main body 1 along the width of the building block main body, and the left connecting grooves 7 are symmetrically arranged on the upper portion of the left side of the building block main body along the width of the building block main body. The left connecting block 8 and the right connecting block 9 are made of non-autoclaved aerated concrete, the left connecting block 8 and the right connecting block 9 are cylindrical, the diameter of the left connecting block is one sixth of the height of the building block main body 1, and the length of the left connecting block is one fifth of the longitudinal length of the building block main body 1; the shape and the size of the left connecting groove 7 and the right connecting groove 10 are respectively matched with the right connecting block 9 and the left connecting block 8.

The top end of the building block main body 1 is provided with upper connecting holes 5, and the upper connecting holes 5 are longitudinally distributed on the upper part of each filling groove 2, so that the total number of the upper connecting holes 5 is six; a lower connecting block 6 matched with the upper connecting hole 5 is arranged at the bottom end of the building block main body 1 at a position corresponding to the upper connecting hole 5; the maximum length of the lower connecting block 6 is the distance from the upper surface of the building block main body 1 to the bottom of the filling groove 2.

The filling block 3 is made of non-autoclaved aerated concrete, the filling block 3 is a cuboid block and is arranged in the filling groove 2 of the block main body 1, and the filling block 3 is provided with a through connecting hole 4 communicated with the upper connecting hole 5.

During construction, as shown in fig. 4, when five high-strength non-autoclaved aerated concrete blocks are assembled, the filling blocks 3 are inserted into the filling grooves 2 of the block bodies 1, then the lower connecting blocks 6 of the blocks above are aligned and inserted into the upper connecting holes 5 of the middle blocks and the through connecting holes 4 of the filling blocks 3, and the blocks above are installed; then aligning and inserting the lower connecting block 6 of the middle building block into the upper connecting hole 5 of the lower building block and the through connecting hole 4 of the filling block 3, and finishing the installation of the lower main building block; when the left and right building blocks are connected, the left connecting block 8 of the middle building block is aligned to and inserted into the right connecting groove 10 of the left building block, the right connecting block 9 of the middle building block is aligned to and inserted into the left connecting groove 7 of the right building block, and the building blocks on the two sides are installed. Thus, the five building blocks can be tightly and stably connected together.

Claims (7)

1. The utility model provides a autoclaved aerated concrete block is exempted from to excel in, includes the building block main part of being made by exempting from autoclaved aerated concrete, its characterized in that: also comprises a filling block; a through filling groove is longitudinally arranged in the building block main body, a left connecting groove and a left connecting block are respectively arranged on the left side of the building block main body, a right connecting block matched with the left connecting groove is arranged on the right side of the building block main body at a position corresponding to the left connecting groove, and a right connecting groove matched with the left connecting block is arranged at a position corresponding to the left connecting block; the top end of the building block main body is provided with an upper connecting hole, and the bottom end of the building block main body is provided with a lower connecting block matched with the upper connecting hole at a position corresponding to the upper connecting hole; the filling block is arranged in a filling groove of the building block main body, and a through connecting hole communicated with the upper connecting hole is formed in the filling block.

2. The high-strength autoclaved aerated concrete block as claimed in claim 1, wherein: the building block main body and the filling blocks are cuboid blocks, and the filling grooves are cuboid spaces.

3. The high-strength autoclaved aerated concrete block as claimed in claim 1, wherein: the volume of the filling grooves is one fourth of the volume of the main body of the building block, the filling grooves are longitudinally arranged along the building block, the number of the filling grooves is three, the filling grooves are equal in distance from the main body of the building block, and the filling grooves are equal in distance.

4. The high-strength autoclaved aerated concrete block as claimed in claim 1, wherein: the left connecting block and the right connecting block are made of non-autoclaved aerated concrete, the right connecting block and the right connecting groove are respectively in a pair, the pair of right connecting blocks are symmetrically arranged on the upper part of the right side of the building block main body along the width of the building block main body, and the pair of right connecting grooves are symmetrically arranged on the lower part of the right side of the building block main body along the width of the building block main body; the left connecting blocks and the left connecting grooves are respectively in a pair, the left connecting blocks are symmetrically arranged on the lower portion of the left side of the building block body along the width of the building block body, and the left connecting grooves are symmetrically arranged on the upper portion of the left side of the building block body along the width of the building block body.

5. The high-strength autoclaved aerated concrete block as claimed in claim 4, wherein: the left connecting block and the right connecting block are cylindrical, the diameter of the left connecting block is one sixth of the height of the building block main body, and the length of the left connecting block and the right connecting block is one fifth of the longitudinal length of the building block main body; the shape and the size of the left connecting groove and the right connecting groove are respectively matched with the right connecting block and the left connecting block.

6. The high-strength autoclaved aerated concrete block as claimed in claim 1, wherein: two upper connecting holes are uniformly arranged at the upper part of each filling groove along the longitudinal length; the maximum length of the lower connecting block is the distance from the upper surface of the building block main body to the bottom of the filling groove.

7. The high strength autoclaved aerated concrete block according to any one of claims 1 to 6, wherein: the filling block is made of non-autoclaved aerated concrete.

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