CN212176185U - Vertical connection structure of heat preservation assembled arrangement of reinforcement brickwork wall - Google Patents

Abstract

The utility model discloses a vertical connection structure of heat preservation assembled reinforcement masonry wall, including upper wall, middle level wall and lower floor's wall, upper wall and lower floor's wall are built futilely by a plurality of insulation block and are constituteed, be equipped with the hole in the insulation block, and adjacent insulation block staggered joint overlap joint and the hole aligns, first vertical distribution reinforcing bar has been arranged in the insulation block hole of upper wall, second vertical distribution reinforcing bar has been arranged in the insulation block hole of lower floor's wall; the utility model discloses when the wall body is irritated and is built the irritated hole concrete, the intraductal irritated and build the irritated hole concrete of steel wire netting, after the wall body installation takes one's place, first vertical distribution reinforcing bar and the intraductal overlap joint of second vertical distribution reinforcing bar at the steel wire netting, then through irritating the mouth to the intraductal concreting of steel wire netting, make the wall body fuse into whole, solved the reinforcement brickwork on the wall the connection problem of lower floor, improve site operation's speed.

Description

Vertical connection structure of heat preservation assembled arrangement of reinforcement brickwork wall

Technical Field

The utility model relates to an assembly type structure technical field especially relates to a vertical connection structure of heat preservation assembled arrangement of reinforcement brickwork wall.

Background

The shear wall with the reinforced masonry structure is applied to medium and small high-rise houses, has the characteristics of steel bar saving, low manufacturing cost and the like, and the reinforced masonry wall of the heat-insulation building block does not need to be additionally provided with a heat-insulation layer due to the self-heat-insulation performance of the building block, so that the falling problem of the external heat insulation is avoided, and the building is safer.

If the arrangement of reinforcement brickwork wall of insulation block can realize prefabricating in the mill, to the on-the-spot installation of building site, will further reduce on-the-spot wet work volume, improve site operation's speed, wherein, the connection problem of insulation block's arrangement of reinforcement brickwork wall lower floor is the technical problem that the urgent need was solved, consequently, the utility model provides a vertical connection structure of heat preservation assembled arrangement of reinforcement brickwork wall is in order to solve the problem that exists among the prior art.

SUMMERY OF THE UTILITY MODEL

To the above problem, an object of the utility model is to provide a vertical connection structure of heat preservation assembled reinforcement brickwork wall, this heat preservation assembled reinforcement brickwork wall's vertical connection structure has solved the connection problem of lower floor on the reinforcement brickwork wall, improves site operation's speed.

For realizing the purpose of the utility model, the utility model discloses a following technical scheme realizes: the utility model provides a vertical connection structure of heat preservation assembled arrangement of reinforcement brickwork wall, includes upper wall body, middle level wall body and lower floor's wall body, upper wall body and lower floor's wall body are built futilely by a plurality of insulation block and are constituteed, be equipped with the hole in the insulation block, and adjacent insulation block staggered joint overlap joint and hole align, first vertical distribution reinforcing bar has been arranged in the insulation block hole of upper wall body, second vertical distribution reinforcing bar has been arranged in the insulation block hole of lower floor's wall body, horizontal distribution reinforcing bar has transversely been arranged between the insulation block of upper wall body and lower floor's wall body, first vertical distribution reinforcing bar extend to in the lower floor's wall body and with second vertical distribution reinforcing bar overlap joint, and the overlap joint department be equipped with the wire net sleeve pipe in the insulation block hole.

The further improvement lies in that: the middle-layer wall body is arranged between the upper-layer wall body and the lower-layer wall body and is formed by overlapping a plurality of open heat-insulation building blocks in a staggered mode, holes are formed in the open heat-insulation building blocks, and the upper portions of overlapping ranges of the first vertically-distributed reinforcing steel bars and the second vertically-distributed reinforcing steel bars are located in the holes of the open heat-insulation building blocks.

The further improvement lies in that: and hole filling concrete is poured into the holes of the heat insulation building blocks and the holes of the opening heat insulation building blocks.

The further improvement lies in that: the front of the opening heat-insulation building block is provided with a pouring opening, the pouring opening is communicated with the steel wire mesh casing pipe, and the steel wire mesh casing pipe is poured with pouring hole concrete through the pouring opening.

The further improvement lies in that: the position of the open heat-insulation building block is 3-5 heat-insulation building blocks away from the bottom of the lower-layer wall body.

The utility model has the advantages that: the utility model discloses dry the insulation block earlier when the mill preparation, make the building block staggered joint overlap joint, align the hole of building block, make upper wall body and lower floor's wall body, arrange first vertical distribution reinforcing bar and second vertical distribution reinforcing bar respectively again and be used for the overlap joint, and set up the wire net sleeve pipe in the insulation block hole of overlap joint department, upper portion position in the overlap joint scope sets up opening insulation block, when the wall body is poured the concreting, the intraductal grouted hole concrete that does not pour of wire net sleeve, after taking one's place at the wall body erection, first vertical distribution reinforcing bar and second vertical distribution reinforcing bar overlap joint in the wire net sleeve pipe, then pour the concrete into to the intraductal grouted of wire net sleeve through the mouth of pouring, make the wall body fuse, the connection problem of lower floor on the reinforced masonry wall has been solved, the speed of site operation is improved.

Drawings

Fig. 1 is a front view of the present invention;

fig. 2 is a side cross-sectional view of the present invention;

FIG. 3 is a schematic view of the heat-insulating block of the present invention;

fig. 4 is a schematic view of the open heat-insulating building block of the present invention.

Wherein: 1. heat-insulating building blocks; 2. first vertically distributed reinforcing steel bars; 3. second vertically distributed reinforcing steel bars; 4. horizontally distributing steel bars; 5. a steel wire mesh sleeve; 6. opening heat preservation building blocks; 7. pouring hole concrete; 8. and (4) filling the opening.

Detailed Description

In order to deepen the understanding of the present invention, the following embodiments will be combined to make the present invention do further details, and the present embodiment is only used for explaining the present invention, and does not constitute the limitation of the protection scope of the present invention.

According to fig. 1, 2, 3 and 4, the embodiment provides a vertical connecting structure of a heat-preservation assembled reinforced masonry wall, which comprises an upper wall body, a middle wall body and a lower wall body, the upper layer wall body and the lower layer wall body are both formed by dry stacking a plurality of heat insulation building blocks 1, holes are arranged in the heat insulation building blocks 1, and the adjacent heat-insulating building blocks 1 are in staggered joint and aligned with each other, first vertical distribution steel bars 2 are arranged in the holes of the heat-insulating building blocks 1 of the upper-layer wall body, second vertical distribution reinforcing steel bars 3 are arranged in the holes of the heat-insulation building blocks 1 of the lower wall body, horizontal distribution reinforcing steel bars 4 are transversely arranged between the heat-insulation building blocks 1 of the upper wall body and the lower wall body, first vertical distribution reinforcing bar 2 extend to in the lower floor's wall body and with 3 overlap joints of second vertical distribution reinforcing bar, and the overlap joint department be equipped with wire net sleeve pipe 5 in 1 hole of insulation block.

The middle-layer wall body is arranged between the upper-layer wall body and the lower-layer wall body and is formed by overlapping a plurality of opening heat-insulation building blocks 6 in a staggered mode, holes are formed in the opening heat-insulation building blocks 6, and the upper portions of overlapping ranges of the first vertical distribution reinforcing steel bars 2 and the second vertical distribution reinforcing steel bars 3 are located in the holes of the opening heat-insulation building blocks 6. During the assembly, dry the insulation block 1 earlier when the mill preparation, make the building block staggered joint overlap joint, align the hole of building block, make upper wall body and lower floor's wall body, the first vertical distribution reinforcing bar 2 of redistribution and second vertical distribution reinforcing bar 3 are used for the overlap joint respectively to set up wire net sleeve pipe 5 in 1 hole of insulation block of overlap joint department, set up opening insulation block 6 in the upper portion position of overlap joint scope.

And hole filling concrete 7 is poured into the holes of the heat insulation building block 1 and the opening heat insulation building block 6.

The front surface of the opening heat-insulation building block 6 is provided with a pouring opening 8, the pouring opening 8 is communicated with the steel wire mesh casing pipe 5, and the steel wire mesh casing pipe 5 is poured with pouring hole concrete 7 through the pouring opening 8. When the hole-pouring concrete 7 is poured on the wall body, the hole-pouring concrete 7 is not poured in the steel wire mesh sleeve 5, after the wall body is installed in place, the first vertically-distributed reinforcing steel bars 2 and the second vertically-distributed reinforcing steel bars 3 are lapped in the steel wire mesh sleeve 5, and then the concrete is poured into the steel wire mesh sleeve 5 through the pouring opening 8, so that the wall body is connected into a whole.

The position of the opening heat-insulation building block 6 is away from the bottom of the lower-layer wall body by the height of 3 heat-insulation building blocks 1.

The vertical connecting structure of the heat-preservation assembled reinforced masonry wall is firstly dry-built with heat-preservation building blocks 1 when being manufactured in a factory, so that the building blocks are in staggered joint, aligning the holes of the building blocks to manufacture an upper wall body and a lower wall body, respectively arranging a first vertical distribution reinforcing steel bar 2 and a second vertical distribution reinforcing steel bar 3 for lap joint, arranging a steel wire mesh sleeve 5 in the hole of the heat-insulating building block 1 at the lap joint, an opening heat-insulating block 6 is arranged at the upper part of the lap joint range, when the hole-pouring concrete 7 is poured on the wall body, the hole-pouring concrete 7 is not poured in the steel wire mesh casing pipe 5, after the wall body is installed in place, the first vertical distribution reinforcing steel bars 2 and the second vertical distribution reinforcing steel bars 3 are lapped in the steel wire mesh sleeve 5, then concrete is poured into the steel wire mesh casing pipe 5 through the pouring opening 8, so that the wall bodies are connected into a whole, the problem of connection of the lower layer on the reinforced masonry wall is solved, and the speed of field construction is improved.

The foregoing illustrates and describes the principles, general features, and advantages of the present invention. It will be understood by those skilled in the art that the present invention is not limited to the above embodiments, and that the foregoing embodiments and descriptions are provided only to illustrate the principles of the present invention without departing from the spirit and scope of the present invention. The scope of the invention is defined by the appended claims and equivalents thereof.

Claims (5)

1. The utility model provides a vertical connection structure of heat preservation assembled arrangement of reinforcement brickwork wall, includes upper wall body, middle level wall body and lower floor's wall body, its characterized in that: upper wall body and lower floor's wall body are built by a plurality of insulation block (1) futilely and are constituteed, be equipped with the hole in insulation block (1), and adjacent insulation block (1) staggered joint overlap joint and hole align, first vertical distribution reinforcing bar (2) have been arranged in insulation block (1) hole of upper wall body, second vertical distribution reinforcing bar (3) have been arranged in insulation block (1) hole of lower floor's wall body, transversely arranged between insulation block (1) of upper wall body and lower floor's wall body horizontal distribution reinforcing bar (4), first vertical distribution reinforcing bar (2) extend to in the lower floor's wall body and with second vertical distribution reinforcing bar (3) overlap joint, and the overlap joint be equipped with wire net sleeve pipe (5) in insulation block (1) hole.

2. The vertical connecting structure of the heat-preservation assembled reinforced masonry wall according to claim 1, characterized in that: the middle-layer wall body is arranged between the upper-layer wall body and the lower-layer wall body and is formed by overlapping a plurality of opening heat-insulation building blocks (6) in a staggered mode, holes are formed in the opening heat-insulation building blocks (6), and the upper portions of the overlapping ranges of the first vertical distribution reinforcing steel bars (2) and the second vertical distribution reinforcing steel bars (3) are located in the holes of the opening heat-insulation building blocks (6).

3. The vertical connecting structure of the heat-preservation assembled reinforced masonry wall according to claim 2, characterized in that: and hole-filling concrete (7) is poured into the holes of the heat-insulating building blocks (1) and the holes of the opening heat-insulating building blocks (6).

4. The vertical connecting structure of the heat-preservation assembled reinforced masonry wall according to claim 3, characterized in that: the front surface of the opening heat-insulation building block (6) is provided with a pouring opening (8), the pouring opening (8) is communicated with the steel wire mesh casing pipe (5), and the steel wire mesh casing pipe (5) is poured with pouring hole concrete (7) through the pouring opening (8).

5. The vertical connecting structure of the heat-preservation assembled reinforced masonry wall according to claim 2, characterized in that: the position of the open heat-insulation building block (6) is 3-5 heat-insulation building blocks (1) away from the bottom of the lower-layer wall body.

Images