CN211229153U - Rear plug-in type injection molding sandwich composite heat insulation building block - Google Patents

Abstract

The utility model discloses a rear plug-in type injection molding sandwich composite heat insulation building block, which consists of a concrete outer leaf block 1, an injection molding heat insulation board 2, a concrete inner leaf block 3 and a concrete rear plug-in block 4; the top surface of the outer blade block 1 is provided with a plurality of strip-shaped blind holes 8, a large surface is provided with a plurality of dovetail-shaped grooves 6, and two end surfaces are respectively provided with a semicircular vertical groove 14; a plurality of dovetail-shaped bosses 5 are arranged on one large surface of the heat insulation board 2, a plurality of dovetail-shaped grooves 6 are arranged on the other large surface of the heat insulation board, a small vertical boss 10 is arranged on one end surface, a large vertical boss 11 is arranged on the other end surface, a boss 15 is arranged on the bottom surface, a semicircular boss 12 is arranged below the boss, and a semicircular groove 13 is arranged on the top surface; the top surface of the inner blade block 3 is provided with a plurality of semi-blind holes 7, the two large surfaces are respectively provided with a plurality of dovetail bosses 5 and dovetail grooves 6, wherein the top surfaces of the two dovetail bosses 5 are provided with isosceles trapezoid bosses 9, and the two end surfaces are provided with a plurality of semi-circular vertical grooves 14; a plurality of dovetail-shaped bosses 5 are arranged on one large surface of the concrete rear insertion block 4.

Description

Rear plug-in type injection molding sandwich composite heat insulation building block

Technical Field

The utility model relates to a back cartridge formula injection moulding presss from both sides core composite insulation block belongs to building energy-conservation and energy-conserving walling field.

Background

In a high-rise shear wall building system, wall thickness requirements of different parts of a building outer wall are different, and as filling building blocks used in holes of the wall with different thicknesses, a plurality of sandwich heat-insulating building blocks with the thicknesses matched with the wall thickness requirements are required, so that manufacturers of the sandwich composite heat-insulating building blocks are required to produce the heat-insulating building blocks with different thicknesses; the building engineering practice proves that the method not only brings great difficulty to the manufacturers of the heat-insulating building blocks, but also brings great inconvenience to the construction enterprises; in order to overcome the defects, how to design a plug-in combined sandwich composite insulation block consisting of a sandwich composite insulation block basic block and a rear plug-in concrete block; when the thickness of the outer wall is small, the basic blocks of the sandwich composite heat-insulating building blocks are adopted for building, and when the thickness of the outer wall is large, the basic blocks of the sandwich heat-insulating building blocks and the rear inserted concrete blocks 4 are inserted and combined to form combined building blocks for building, which is an important subject to be solved in the field of building material energy conservation.

SUMMERY OF THE UTILITY MODEL

The utility model aims to provide a: on the premise of ensuring the thickness requirement of the building outer wall and the building energy-saving standard, the types of the sandwich composite heat-insulating building blocks are reduced as much as possible, and the rear plug-in type injection molding sandwich composite heat-insulating building block is provided.

The technical scheme of the utility model is realized like this: a rear plug-in type injection molding sandwich composite heat insulation building block is composed of a concrete outer leaf block 1, an injection molding heat insulation board 2, a concrete inner leaf block 3 and a concrete rear plug-in block 4; the top surface of the concrete outer blade block 1 is provided with a plurality of strip-shaped blind holes 8, a large surface is provided with a plurality of dovetail-shaped grooves 6, and two end surfaces are respectively provided with a semicircular vertical groove 14; a plurality of dovetail-shaped bosses 5 are arranged on one large surface of the injection molding insulation board 2, a plurality of dovetail-shaped grooves 6 are arranged on the other large surface, a small vertical boss 10 is arranged on one end surface, a large vertical boss 11 is arranged on the other end surface, a bottom boss 15 is arranged on the bottom surface, a semicircular boss 12 is arranged below the bottom boss, and a semicircular groove 13 is arranged on the top surface; the top surface of the concrete inner blade block 3 is provided with a plurality of semi-blind holes 7, a plurality of dovetail-shaped bosses 5 and a plurality of dovetail-shaped grooves 6 are respectively arranged on the two large surfaces, isosceles trapezoid bosses 9 are arranged on the top surfaces of the two dovetail-shaped bosses 5, and a plurality of semicircular vertical grooves 14 are arranged on the two end surfaces; a plurality of dovetail-shaped bosses 5 are arranged on one large surface of the concrete rear plug-in block 4; the concrete outer blade block 1 is positioned on the left side of the injection molding insulation board 2, the concrete inner blade block 3 is positioned on the right side of the injection molding insulation board 2, and the concrete outer blade block, the concrete inner blade block and the injection molding insulation board are connected through a dovetail-shaped boss 5 and a dovetail-shaped groove 6; the concrete rear plug-in block 4 is positioned on the right side of the concrete inner blade block 3, and the concrete rear plug-in block and the concrete inner blade block are connected through a dovetail-shaped boss 5 and a dovetail-shaped groove 6.

Description of the drawings:

fig. 1 is a perspective view of the present invention;

fig. 2 is a schematic perspective view of the positions and structures of the concrete outer leaf block 1, the injection molding insulation board 2 and the concrete inner leaf block 3 of the present invention;

fig. 3 is a schematic front view of the positions and structures of the concrete outer leaf block 1, the injection molding insulation board 2 and the concrete inner leaf block 3 of the present invention;

fig. 4 is a left side view schematic diagram of the positions and structures of the concrete outer leaf block 1, the injection molding insulation board 2 and the concrete inner leaf block 3 of the present invention;

fig. 5 is a schematic perspective view of the structure of the injection-molded insulation board 2 of the present invention;

fig. 6 is a schematic perspective view of the injection-molded insulation board 2 of the present invention (after being vertically rotated by 180 °);

fig. 7 is a schematic perspective view of the structure of the concrete inner blade block 3 of the present invention;

fig. 8 is a schematic perspective view of the structure of the concrete outer leaf block 1 of the present invention;

fig. 9 is a schematic perspective view of the structure of the rear concrete insertion block 4 of the present invention;

in the figure: 1 is a concrete outer leaf block

2 is an injection molding insulation board

3 is a concrete inner leaf block

4 is a concrete rear plug-in block

5 is a dovetail boss

6 is a dovetail groove

7 is a semi-blind hole

8 is a strip blind hole

9 is an isosceles trapezoid boss

10 is a vertical small boss

11 is a vertical big boss

12 is a semicircular lug boss

13 is a semicircular groove

14 are semicircular vertical grooves

15 is a bottom boss

Detailed Description

The utility model is realized in the following, the description is further made by combining the attached drawings 1-9: a rear plug-in type injection molding sandwich composite heat insulation building block is composed of a concrete outer leaf block 1, an injection molding heat insulation board 2, a concrete inner leaf block 3 and a concrete rear plug-in block 4; the top surface of the concrete outer blade block 1 is provided with a plurality of strip-shaped blind holes 8, a large surface is provided with a plurality of dovetail-shaped grooves 6, and two end surfaces are respectively provided with a semicircular vertical groove 14; a plurality of dovetail-shaped bosses 5 are arranged on one large surface of the injection molding insulation board 2, a plurality of dovetail-shaped grooves 6 are arranged on the other large surface, a small vertical boss 10 is arranged on one end surface, a large vertical boss 11 is arranged on the other end surface, a bottom boss 15 is arranged on the bottom surface, a semicircular boss 12 is arranged below the bottom boss, and a semicircular groove 13 is arranged on the top surface; the top surface of the concrete inner blade block 3 is provided with a plurality of semi-blind holes 7, a plurality of dovetail-shaped bosses 5 and a plurality of dovetail-shaped grooves 6 are respectively arranged on the two large surfaces, isosceles trapezoid bosses 9 are arranged on the top surfaces of the two dovetail-shaped bosses 5, and a plurality of semicircular vertical grooves 14 are arranged on the two end surfaces; a plurality of dovetail-shaped bosses 5 are arranged on one large surface of the concrete rear plug-in block 4; the concrete outer blade block 1 is positioned on the left side of the injection molding insulation board 2, the concrete inner blade block 3 is positioned on the right side of the injection molding insulation board 2, and the concrete outer blade block, the concrete inner blade block and the injection molding insulation board are connected through a dovetail-shaped boss 5 and a dovetail-shaped groove 6; the concrete rear plug-in block 4 is positioned on the right side of the concrete inner blade block 3, and the concrete rear plug-in block and the concrete inner blade block are connected through a dovetail-shaped boss 5 and a dovetail-shaped groove 6.

The utility model relates to a production of back cartridge formula injection moulding presss from both sides core composite insulation block is realized like this:

1) feeding the prepared concrete mixture into a concrete block forming machine to produce a concrete outer leaf block 1, a concrete inner leaf block 2 and a concrete rear plug-in block 3, and feeding the concrete outer leaf block, the concrete inner leaf block and the concrete rear plug-in block into a curing kiln for curing;

2) placing a plurality of cured concrete outer leaf blocks 1 and a plurality of cured concrete inner leaf blocks 3 into a molding machine for injection molding of the insulation board through a manipulator, processing the insulation board 2, and connecting the concrete outer leaf blocks 1 and the concrete inner leaf blocks 3 into a whole through dovetail-shaped bosses 5 and dovetail-shaped grooves 6 on two large surfaces of the insulation board 2;

3) clamping the injection-molded sandwich heat-insulation building block out of the mold by a manipulator, and placing the sandwich heat-insulation building block on a conveying belt;

4) conveying the concrete post-inserting block to the next inserting station by a conveying belt, and inserting the concrete post-inserting block 4 on the large outer side of the concrete inner leaf block 3 of the sandwich insulation block by a manipulator to manufacture a post-inserting type injection molding sandwich composite insulation block;

5) the manufactured rear plug-in type injection molding sandwich composite heat insulation building block is taken off line;

6) inspecting the post-plug-in type injection molding sandwich composite heat-insulating building block, and packaging and warehousing qualified products.

Claims (1)

1. The utility model provides a back cartridge formula injection moulding presss from both sides core composite insulation block which characterized in that: the concrete heat-insulation board is composed of a concrete outer leaf block (1), an injection molding heat-insulation board (2), a concrete inner leaf block (3) and a concrete rear insertion block (4); a plurality of strip-shaped blind holes (8) are arranged on the top surface of the concrete outer blade block (1), a plurality of dovetail-shaped grooves (6) are arranged on one large surface, and semicircular vertical grooves (14) are respectively arranged on two end surfaces; a large face of the injection molding insulation board (2) is provided with a plurality of dovetail-shaped bosses (5), the other large face is provided with a plurality of dovetail-shaped grooves (6), one end face is provided with a small vertical boss (10), the other end face is provided with a large vertical boss (11), the bottom face is provided with a bottom boss (15), a semicircular boss (12) is arranged below the bottom face, and the top face is provided with a semicircular groove (13); the top surface of the concrete inner blade block (3) is provided with a plurality of semi-blind holes (7), a plurality of dovetail-shaped bosses (5) and a plurality of dovetail-shaped grooves (6) are respectively arranged on the two large surfaces, isosceles trapezoid bosses (9) are arranged on the top surfaces of the two dovetail-shaped bosses (5), and a plurality of semi-circular vertical grooves (14) are arranged on the two end surfaces; a plurality of dovetail-shaped bosses (5) are arranged on one large surface of the concrete rear insertion block (4); the concrete outer blade block (1) is positioned on the left side of the injection molding insulation board (2), the concrete inner blade block (3) is positioned on the right side of the injection molding insulation board (2), and the concrete outer blade block, the concrete inner blade block and the concrete inner blade block are connected through a dovetail-shaped boss (5) and a dovetail-shaped groove (6); the concrete rear plug-in block (4) is positioned on the right side of the concrete inner blade block (3) and is connected with the dovetail groove (6) through a dovetail boss (5).

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