CN211286151U - Peripheral revetment body of assembled building - Google Patents

Abstract

The utility model relates to a heat preservation and decoration integration wallboard field, specific outer enclosure wall of prefabricated building that says so. The composite wall comprises a support member, a bearing balance beam and a plurality of composite walls hung on the bearing balance beam; the composite wall comprises a light composite board and a thin-wall steel keel fixed on the back side of the light composite board, wherein a connecting hanger used for hanging the upper part of the composite wall on a load-bearing balance beam is fixedly arranged on the thin-wall steel keel positioned on the upper part of the light composite board, the connecting hanger is in a hook shape, and the connecting hanger is fixed on the load-bearing balance beam through a first fixing bolt; and a pin hole plate used for fixing the lower part of the composite wall body on the load-bearing balance beam is fixedly arranged on the thin-wall steel keel positioned at the lower part of the light composite plate, and the pin hole plate is fixed on the load-bearing balance beam through a second fixing pin. The utility model discloses can realize batch production and the quick construction installation of job site, the wall body has commonality and interchangeability characteristics, improves production and assembly efficiency.

Description

Peripheral revetment body of assembled building

Technical Field

The utility model relates to a heat preservation and decoration integration wallboard field, specific outer enclosure wall of prefabricated building that says so.

Background

In the prior art, most building wall materials are reinforced concrete and light brick masonry structures, and are basically cast in situ or masonry. The building wall material has long construction period, high labor intensity and poor heat insulation performance. Prefabricated reinforced concrete walls for prefabricated buildings have also been developed in recent years. Although the field installation time of the reinforced concrete wall is shortened, the wall is heavy, the difficulty of the installation process is high, the danger is high, an additional insulating layer is needed to achieve the purpose of energy saving, and the reinforced concrete wall is only suitable for being used under the condition of a specific working condition period.

SUMMERY OF THE UTILITY MODEL

The utility model aims at providing an outer enclosure wall body of assembled building can realize batch production and the quick construction installation of job site, and the wall body has commonality and interchangeability characteristics, improves production and assembly efficiency.

In order to solve the technical problem, the utility model discloses a technical scheme be: an assembled building outer enclosure wall comprises a supporting member fixed on the outer side of the building wall, a plurality of load-bearing balance beams fixed on the supporting member and a composite wall body hung on the load-bearing balance beams; the composite wall comprises a light composite board and a thin-wall steel keel fixed on the back side of the light composite board, a connecting hanger for hanging the upper part of the composite wall on the load-bearing balance beam is fixedly arranged on the thin-wall steel keel positioned on the upper part of the light composite board, the connecting hanger is in a hook shape, the connecting hanger is fixed on the load-bearing balance beam through a first fixing bolt, and first pin holes for the first fixing bolt to be inserted and matched are formed in the connecting hanger and the load-bearing balance beam; and a pin hole plate used for fixing the lower part of the composite wall body on the bearing balance beam is fixedly arranged on the thin-wall steel keel positioned at the lower part of the light composite plate, the pin hole plate is fixed on the bearing balance beam through a second fixing bolt, and second pin holes for the second fixing pins to be inserted and matched are respectively formed in the pin hole plate and the bearing balance beam.

Preferably, a plurality of reinforcing grooves are formed in the back side of the light composite board at intervals in the longitudinal direction and the transverse direction, and round steel is filled in the reinforcing grooves in a pouring mode to serve as reinforcing members of the light composite board.

Preferably, the composite wall body comprises four thin-wall steel keels which are distributed in a rectangular shape and embedded in the back side of the light composite board, and angle-shaped connecting pieces used for connecting two adjacent thin-wall steel keels are respectively arranged at four corners of a rectangular structure formed by the four thin-wall steel keels.

Preferably, the angle-shaped connecting piece comprises a horizontal plate and a vertical plate which are welded and fixed with each other, and bolt holes for the angle-shaped connecting piece to be installed in a matched mode through bolts and the thin-wall steel keel are respectively formed in the horizontal plate and the vertical plate.

Preferably, the two angle-shaped connecting pieces above the composite wall are respectively fixedly welded with connecting hangers; and vertical plates in the two angle-shaped connecting pieces positioned below the composite wall body respectively form pin hole plates.

Preferably, a connecting plate corresponding to the pin hole plate is fixedly arranged on the load-bearing balance beam, and the second pin hole on the load-bearing balance beam is arranged on the connecting plate.

Preferably, two ends of the load-bearing balance beam are respectively installed on the supporting member through vertically distributed bolts in a matched mode, and two or more composite wall bodies are hung on any load-bearing balance beam.

Preferably, the load-bearing balance beam is provided with a strip bolt hole for connecting the load-bearing balance beam to the support member through a bolt.

Advantageous effects

The utility model discloses mainly can realize batch production and quick job site installation, construction cycle is short, and the installation is simple and convenient, reduces intensity of labour, and the light of wall body itself keeps warm, and is energy-conserving, is the outer enclosure wall body of assembled building of an ideal.

The utility model provides a compound wall body is the polylith so that production and construction, and arbitrary compound wall body mainly comprises light composite board, thin wall steel fossil fragments and the embedded round steel of light composite board. The thin-wall steel keels are arranged and combined to form a closed frame and are embedded into the light foaming composite board, the round steel embedded in the board is criss-cross and connected with the light foaming composite board and the thin-wall steel keels, and finally the grouting material is injected into the slot of the composite board and is condensed, so that the composite wall is obvious in lightening, the assembly difficulty of the composite wall on a supporting member is reduced, and the assembly efficiency is further improved.

The utility model provides an all compound wall bodies all fix on the supporting member through the bearing compensating beam. On one hand, the levelness of the composite wall body is convenient to adjust by adjusting the levelness of the load-bearing balance beam, and the distance between two adjacent composite wall bodies is convenient to adjust by adjusting the distance between the load-bearing balance beams; on the other hand, the load-bearing balance beam plays an important role in bearing the upper part and the lower part of the upper and lower composite wall bodies, and the load-bearing balance beam is connected with the upper and lower composite wall bodies through the fixing bolts respectively. The assembly process is very simple and convenient, and the assembly efficiency of the outer enclosure wall of the assembly type building is greatly improved.

Drawings

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

FIG. 2 is an enlarged view of a portion A of FIG. 1;

fig. 3 is a schematic structural view of a single composite wall of the present invention;

fig. 4 is a side view of the present invention;

FIG. 5 is an enlarged partial view of portion B of FIG. 4;

FIG. 6 is an enlarged partial view of portion C of FIG. 4;

the labels in the figure are: 1. the supporting member, 2, the load-bearing balance beam, 3, the composite wall body, 301, the light composite board, 302, the thin-wall steel keel, 303, the reinforcing groove, 4, the second pin hole, 5, the pin hole plate, 6, the angle-shaped connecting piece, 7, the connecting hanger, 8, the first pin hole, 9, the second fixing bolt, 10, the connecting plate, 11 and the first fixing bolt.

Detailed Description

As shown in fig. 1, the utility model discloses an outer enclosure wall of assembly type structure, bracing member 1 and hang a plurality of compound wall bodies 3 on bracing member 1 through bearing compensating beam 2. The supporting member 1 is of a frame type structure and is welded and fixed on an embedded part of a building or a coupling beam of a steel structure building. In the figure 1, two bearing balance beams 2 are fixedly arranged at the same height of the supporting member 1 at intervals, and two composite wall bodies 3 are hung and mounted on any one bearing balance beam 2. It should be noted that fig. 1 is only an embodiment of the present invention, and in the specific application of the present invention, the number of the load-bearing balance beams 2 and the composite wall 3 can be flexibly set according to the specification of the building wall. The number of the composite wall bodies 3 on the same load-bearing balance beam 2 can be one or two.

As shown in fig. 3, the composite wall 3 includes a lightweight composite board 301, round steel, and thin-walled steel keel 302. The light composite board 301 is a foamed composite board, and has excellent heat insulation performance in addition to meeting the requirement of light weight. A plurality of reinforcing grooves 303 are formed in the back side of the light composite board 301 at intervals in the longitudinal direction and the transverse direction, a plurality of round steels which are in lap joint with each other are filled in the reinforcing grooves 303 to serve as reinforcing pieces, and finally grouting materials are poured into the reinforcing grooves 303 and are condensed. The thin-wall steel keels 302 are arranged and combined to form a closed rectangular frame and are embedded into the light composite board 301. The four corners of the closed rectangular frame formed by the four thin-wall steel keels 302 are respectively provided with an angle-shaped connecting piece 6 which can reinforce the structure of the thin-wall steel keel 302. Any one of the angle-shaped connecting pieces 6 comprises a horizontal plate and a vertical plate which are fixed in a welding mode, and a plurality of threaded holes are formed in the horizontal plate and the vertical plate, so that the vertical plate is fixedly connected to the thin-wall steel keels 302 distributed in the vertical direction through bolts, and the horizontal plate is fixedly connected to the thin-wall steel keels 302 distributed in the horizontal direction through bolts.

In fig. 3, the horizontal plates of two angle-shaped connectors 6 corresponding to the upper part of the composite wall 3 are respectively provided with a connecting hanger 7. The connecting hanging piece 7 is used for hanging and fixing the upper part of the composite wall body 3 on the load-bearing balance beam 2 through first fixing bolts 11 distributed along the vertical direction. The connecting hanger 7 is provided with a first pin hole 8 matched with the first fixed bolt 11. The vertical plates of the two angle type connecting pieces 6 corresponding to the lower part of the composite wall body 3 respectively extend out of a rectangular frame formed by the thin-wall steel keels 302 to form a pin hole plate 5, the pin hole plate 5 is provided with a second pin hole 4, and the lower part of the composite wall body 3 can be hung and fixed on the bearing balance beam 2 through the matching of second fixing pins 9 and the second pin holes 4 which are distributed along the horizontal direction.

The above-mentioned connection hanger 7 and the load-bearing balance beam 2 are installed in a matching manner as shown in fig. 4 and 5, a first pin hole 8 (not shown in the figure) is correspondingly formed in the load-bearing balance beam 2, the connection hanger 7 is hung on the load-bearing balance beam 2, and after the two first pin holes 8 are compared, the first fixing pin 11 is inserted into the two first pin holes 8. The pin hole plate 5 and the load-bearing balance beam 2 are installed in a matching manner as shown in fig. 4, 6 and 2, a connecting plate 10 corresponding to the pin hole plate 5 is fixedly arranged on the load-bearing balance beam 2, one second pin hole 4 (not shown in the figure) corresponding to the second pin hole 4 on the pin hole plate 5 is formed in the connecting plate 10, and the second fixing bolt 9 is inserted into the two second pin holes 4 in a penetrating manner.

The load-bearing balance beam 2 plays an important role in bearing up and down in integral installation. Namely, any one load-bearing balance beam 2 positioned in the middle of the whole height direction is connected with a pin hole plate 5 at the lower part of the composite wall 3 at the upper part and is also connected with a connecting hanger 7 at the upper part of the composite wall 3 at the lower part, and only one load-bearing balance beam 2 at the topmost part and the bottommost part is used. The strip bolt holes used for connecting the bearing balance beam 2 on the supporting member 1 through bolts are formed in the two ends of the bearing balance beam 2 in the embodiment. On one hand, the levelness of the load-bearing balance beam 2 can be adjusted by adjusting the thickness of the gasket in the bolt connection process, so that the reference level adjustment of the composite wall 3 is achieved; on the other hand, the distance between two adjacent load-bearing balance beams 2 can be adjusted according to the horizontal direction of the long circular holes at the upper parts of the load-bearing balance beams 2, and further the gap between two adjacent composite wall bodies 3 on different load-bearing balance beams 2 is adjusted.

Claims (8)

1. The utility model provides an outer enclosure wall of prefabricated building which characterized in that: the composite wall comprises a supporting member (1) fixed on the outer side of a building wall body, a plurality of load-bearing balance beams (2) fixed on the supporting member (1) and a composite wall body (3) hung on the load-bearing balance beams (2); the composite wall (3) comprises a light composite board (301) and a thin-wall steel keel (302) fixed on the back side of the light composite board (301), a connecting hanger (7) used for hanging the upper part of the composite wall (3) on the load-bearing balance beam (2) is fixedly arranged on the thin-wall steel keel (302) positioned on the upper part of the light composite board (301), the connecting hanger (7) is hook-shaped, the connecting hanger (7) is fixed on the load-bearing balance beam (2) through a first fixing bolt (11), and first pin holes (8) for the first fixing bolts (11) to be inserted and matched are formed in the connecting hanger (7) and the load-bearing balance beam (2); the thin-wall steel keel (302) positioned at the lower part of the light composite board (301) is fixedly provided with a pin hole plate (5) used for fixing the lower part of the composite wall (3) on the bearing balance beam (2), the pin hole plate (5) is fixed on the bearing balance beam (2) through a second fixing bolt (9), and a second pin hole (4) for inserting and matching a second fixing pin is formed in the pin hole plate (5) and the bearing balance beam (2).

2. The exterior enclosure wall of a fabricated building of claim 1, wherein: a plurality of reinforcing grooves (303) are formed in the back side of the light composite board (301) at intervals in the longitudinal direction and the transverse direction, and round steel is filled in the reinforcing grooves (303) in a pouring mode to serve as reinforcing members of the light composite board (301).

3. The exterior enclosure wall of a fabricated building of claim 1, wherein: the composite wall body (3) comprises four thin-wall steel keels (302), the four thin-wall steel keels (302) are distributed in a rectangular shape and are embedded in the back side of the light composite plate (301), and angle-shaped connecting pieces (6) used for connecting two adjacent thin-wall steel keels (302) are arranged at four corners of a rectangular structure formed by the four thin-wall steel keels (302).

4. A fabricated building envelope wall as claimed in claim 3, wherein: the angle-shaped connecting piece (6) comprises a horizontal plate and a vertical plate which are mutually welded and fixed, and bolt holes for matching and installing the angle-shaped connecting piece (6) with the thin-wall steel keel (302) through bolts are respectively formed in the horizontal plate and the vertical plate.

5. The exterior enclosure wall of a fabricated building of claim 4, wherein: connecting hangers (7) are respectively fixedly welded on the two angle-shaped connecting pieces (6) positioned above the composite wall body (3); and vertical plates in two angle-shaped connecting pieces (6) positioned below the composite wall body (3) form pin hole plates (5) respectively.

6. The exterior enclosure wall of a fabricated building of claim 1, wherein: a connecting plate (10) corresponding to the pin hole plate (5) is fixedly arranged on the bearing balance beam (2), and a second pin hole (4) on the bearing balance beam (2) is arranged on the connecting plate (10).

7. The exterior enclosure wall of a fabricated building of claim 1, wherein: two ends of each bearing balance beam (2) are respectively installed on the supporting component (1) through vertically distributed bolts in a matched mode, and two or more composite wall bodies (3) are hung on any bearing balance beam (2).

8. The exterior enclosure wall of a fabricated building of claim 7, wherein: the bearing balance beam (2) is provided with a strip bolt hole for connecting the bearing balance beam (2) to the support member (1) through a bolt.

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