CN210507834U - Aluminum alloy shear wall panel unit and building structural member - Google Patents

Abstract

The utility model belongs to the building field, in particular to an aluminum alloy shear wall panel unit and a building structure component, which comprises an aluminum alloy shear wall panel unit body, wherein a cavity is arranged in the aluminum alloy shear wall panel unit body, and a reinforcing mechanism is arranged in the cavity; and two ends of the aluminum alloy shear wall plate unit body extend outwards to form a connecting mechanism. The utility model discloses utilize the characteristics that the aluminum alloy can disposable extrusion, cancelled processes such as unloading, assemblage, welding in traditional metal processing. The aluminum alloy shear wallboard units can be produced in batch in a standardized manner, so that the production efficiency is improved, and the production cost is reduced. Meanwhile, the standardized connecting mechanism and the corresponding connecting piece can be used for rapid assembly and construction, and the assembly rate and the construction and assembly speed of the building are integrally improved.

Description

Aluminum alloy shear wall panel unit and building structural member

Technical Field

The utility model belongs to the building field, concretely relates to aluminum alloy shear force wallboard unit and building structure component.

Background

With the development of modern industrial technology, the building can be manufactured in batches like machine production, and only prefabricated building components are transported to a construction site to be assembled; the traditional shear wall structure is characterized in that a beam column in a frame structure is replaced by a reinforced concrete wallboard, internal force caused by various loads can be borne, and horizontal force of the structure can be effectively controlled.

Building structural members, in particular shear wall members, made of steel sheets or steel tube bundles have also appeared in the prior art, as known by the name of granted publication No. CN 205822507U: a steel plate composite shear wall: including wall and wall tip, its characterized in that: edge members are arranged at the end parts and the corners of the walls, steel plates are arranged on the two wall surfaces, and the end parts of the steel plates are mutually welded with the edge members; and a tie bar is connected between the two steel plates and is connected with the steel plates in a plug welding manner.

The prior art has the following technical problems: the steel plates or the steel pipe bundle units are connected by welding, and the processes such as blanking, assembling and welding are involved, so that certain manufacturing and processing costs are required. Especially, the quality of the welding seam and the welding deformation are difficult to control, and the risk of secondary cost increase or scrap exists.

To the technical problem, the utility model provides an aluminum alloy shear force wallboard unit and building structure component, the present case produces from this.

SUMMERY OF THE UTILITY MODEL

An object of the utility model is to provide an aluminum alloy shear force wallboard unit and building structure component that can mass production, and the combined cost is low, the interconnect of being convenient for.

In order to achieve the above object, the utility model particularly provides a technical scheme does: an aluminum alloy shear wall plate unit comprises an aluminum alloy shear wall plate unit body, wherein a cavity is arranged in the aluminum alloy shear wall plate unit body, and a reinforcing mechanism is arranged in the cavity.

The reinforcing mechanism is characterized in that a plurality of oblique inner baffles are distributed in the cavity, and the oblique inner baffles are connected with each other to form a wave structure. The wave structure can obviously increase the overall strength of the aluminum alloy shear wall panel unit body.

The reinforced mechanism is a vertical inner baffle and divides the cavity into a plurality of unit cavities, and oblique inner baffles are distributed in the unit cavities. Thereby further improving the strength of the aluminum alloy shear wall panel unit body.

Further, a plurality of stiffening ribs with locally enlarged end heads are distributed on the inner wall of the cavity of the aluminum alloy shear wallboard unit body, and the height of the stiffening ribs with locally enlarged end heads is smaller than the width of the cavity. The stiffening ribs with locally-enlarged ends are used for increasing the connection strength of the fillers in the cavity of the aluminum alloy shear wallboard unit body and the aluminum alloy shear wallboard unit body, so that the strength of the structure is improved

Further, reinforcing mechanisms formed by transverse inner baffles and vertical inner baffles are distributed in the aluminum alloy shear wall panel unit body.

Further, concrete is poured into the aluminum alloy shear wall panel unit body.

The reinforced mechanism is further arranged to be a vertical inner partition plate and divides the cavity into a plurality of unit cavities, and a plurality of unit micro-cavities enclosed by L-shaped inner partition plates are arranged at corners of the inner walls of the unit cavities. The unit micro-cavity body can divide the cavity space of the unit cavity, so that the strength of the aluminum alloy shear wall board unit body is increased, and the screw can be conveniently screwed in for installing the inner enclosure and the outer enclosure in the later period.

Further, a plurality of grooves which are concave towards the direction of the cavity are formed in the outer wall of the aluminum alloy shear wall plate unit body, and clamp bolts used for connecting the inner enclosure and the outer enclosure can be embedded into the grooves.

Further, two ends of the aluminum alloy shear wall plate unit body extend outwards to form a connecting mechanism.

Further setting, coupling mechanism is outside bellying, and outside bellying is the cuboid structure, the terminal surface is provided with the jagged matte about the bellying, is provided with spacing bead on the vertical terminal surface of the aluminum alloy shear force wallboard unit body of adjacent matte.

Further setting, coupling mechanism is outside bellying, and outside bellying is the cuboid structure, the terminal surface is provided with spacing bead about the bellying, is provided with spacing bead on the vertical terminal surface of adjacent aluminum alloy shear force wallboard unit body.

Further, a clamping groove is formed in the long end face of the protruding portion.

Further provided, the connecting mechanism boss is provided with a groove.

A building structural member comprising an aluminium alloy shear wall panel unit as described above.

The building structural member is a shear wall, and the shear wall is one of a straight-shaped wall body, an L-shaped wall body, a T-shaped wall body, a Z-shaped wall body, a U-shaped wall body and a cross-shaped wall body.

The utility model discloses beneficial effect: the utility model discloses utilize the characteristics that the aluminum alloy can disposable extrusion, cancelled processes such as unloading, assemblage, welding in traditional metal processing. The aluminum alloy shear wallboard units can be produced in batch in a standardized manner, so that the production efficiency is improved, and the production cost is reduced. Meanwhile, the standardized connecting mechanism and the corresponding connecting piece can be used for rapid assembly and construction, and the assembly rate and the construction and assembly speed of the building are integrally improved.

Drawings

Fig. 1 is a schematic structural diagram of an aluminum alloy shear wall panel unit body according to the present invention (embodiment one);

fig. 2 is a schematic structural diagram of the aluminum alloy shear wall panel unit body according to the present invention (embodiment one);

fig. 3 is a schematic structural diagram (embodiment one) of the aluminum alloy shear wall panel unit body of the present invention;

fig. 4 is a schematic structural diagram of the aluminum alloy shear wall panel unit body according to the present invention (embodiment one);

fig. 5 is a schematic structural diagram of the aluminum alloy shear wall panel unit body of the present invention (example two);

fig. 6 is a schematic structural diagram of the aluminum alloy shear wall panel unit body of the present invention (example two);

fig. 7 is a schematic structural diagram of the aluminum alloy shear wall panel unit body according to the present invention (example three);

fig. 8 is a schematic structural diagram of the aluminum alloy shear wall panel unit body according to the present invention (example three);

fig. 9 is a schematic structural diagram of the aluminum alloy shear wall panel unit body according to the present invention (example three);

fig. 10 is a schematic structural diagram of the aluminum alloy shear wall panel unit body according to the present invention (example four);

fig. 11 is a schematic structural view of the aluminum alloy shear wall panel unit body of the present invention (example five);

fig. 12 is a schematic structural view of the aluminum alloy shear wall panel unit body of the present invention (example five);

FIG. 13 is a diagram of a building structural member formed by connecting the aluminum alloy shear wall panel unit bodies of FIG. 1;

FIG. 14 is an assembly schematic view of building structural members formed by connecting the aluminum alloy shear wall panel unit bodies of FIG. 1;

FIG. 15 is a diagram of a building structural member formed by connecting the aluminum alloy shear wall panel unit bodies of FIG. 2;

FIG. 16 is an assembly schematic view of building structural members formed by connecting the aluminum alloy shear wall panel unit bodies of FIG. 2;

FIG. 17 is a diagram of a building structural member formed by connecting the aluminum alloy shear wall panel unit bodies of FIG. 3;

FIG. 18 is an assembly schematic view of building structural members formed by connecting the aluminum alloy shear wall panel unit bodies of FIG. 3;

FIG. 19 is a diagram of a building structural member formed by connecting the aluminum alloy shear wall panel unit bodies of FIG. 4;

FIG. 20 is an assembly schematic view of building structural members formed by connecting the aluminum alloy shear wall panel unit bodies of FIG. 4;

FIG. 21 is a diagram of a building structural member formed by connecting the aluminum alloy shear wall panel unit bodies of FIG. 3;

FIG. 22 is an assembly schematic view of building structural members formed by connecting the aluminum alloy shear wall panel unit bodies of FIG. 3.

Description of reference numerals: an aluminum alloy shear wall panel unit body 1; a cavity 2; a reinforcing mechanism 3; a connecting mechanism 4; a boss portion 5; a toothed press plate 6; a tapping screw 7; a cover plate 8; a seal strip 9; a platen 10; a shear key 11; concrete 12; a unit cavity 21;

a vertical inner partition plate 31; an oblique inner partition 32; a stiffener 33 with a partially enlarged end; a transverse inner partition 34; a vertical inner partition 35; an L-shaped inner partition 36; a unit micro-cavity 37;

a jagged rough surface 51; a stopper rib 52; a shear-resistant end face 53; a smooth surface 54; a card slot 55; a groove 56.

Detailed Description

In order to further understand the objects, structures, features and functions of the present application, the following embodiments are described in detail.

An aluminum alloy shear wall plate unit comprises an aluminum alloy shear wall plate unit body 1, wherein a cavity 2 is arranged in the aluminum alloy shear wall plate unit body 1, and a reinforcing mechanism 3 is arranged in the cavity; two ends of the aluminum alloy shear wall plate unit body 1 extend outwards to form a connecting mechanism 4.

The first embodiment is as follows:

as shown in fig. 1-4, the reinforcing mechanism 3 in this embodiment is implemented by disposing a vertical internal partition 31 and an oblique internal partition 32 in the cavity

As shown in fig. 1, the reinforcing mechanism 3 in fig. 1 is a vertical internal partition 31 and divides the cavity into a plurality of unit cavities 21, and a criss-cross oblique internal partition 32 is arranged in each unit cavity 21 to support and increase the strength of the aluminum alloy shear wall panel unit body 1.

As shown in fig. 2, the reinforcing mechanism in fig. 2 is a vertical internal partition plate 31 and divides the cavity into a plurality of unit cavities 21, and no oblique internal partition plate 32 is arranged in the unit cavities 21.

As shown in fig. 3, the reinforcing mechanism 3 is a wave structure formed by a plurality of oblique inner partition plates 32 distributed in the cavity 2 and connected with each other by the oblique inner partition plates 32.

As shown in fig. 4, the reinforcing mechanism 3 is a vertical internal partition 31 and divides the cavity 2 into a plurality of unit cavities 21, and a diagonal internal partition 32 is disposed in each unit cavity 21.

As shown in fig. 1 to 4, the connection mechanism 4 in the present embodiment is an outward protrusion 5, and the outward protrusion 5 has a rectangular parallelepiped structure.

As shown in fig. 1, the upper and lower end surfaces of the protruding portion 5 are saw-tooth-shaped rough surfaces 51, a limiting convex rib 52 is arranged on the vertical end surface of the aluminum alloy shear wall panel unit body 1 adjacent to the saw-tooth-shaped rough surfaces 51, and the outermost end surface of the protruding portion 5 is a shear end surface 53 for preventing relative displacement of the adjacent aluminum alloy shear wall panel unit bodies 1.

Referring to fig. 13-14, when the adjacent aluminum alloy shear wall panel units 1 are connected, the tooth-shaped pressing plates 6 are mounted on the two saw-tooth-shaped rough surfaces 51 of the protrusions 5, and the tooth-shaped pressing plates 6 and the protrusions 5 are fixed tightly by the tapping screws 7 to play a role in shearing resistance; the exposed end of the tapping screw 7 is covered with a cover plate 8, and the cover plate 8 can be tightly clamped with the limiting convex ribs 52; the anti-shearing end faces 53 of the adjacent aluminum alloy shear wall plate unit bodies 1 are also mutually occluded; and a sealing strip 9 is also arranged below the toothed pressing plate 6 to play a role in sealing.

As shown in fig. 2, the connecting mechanism is a boss 5, the boss 5 is of a cuboid structure, the upper end surface and the lower end surface of the boss 5 are provided with limiting convex ribs 52, the vertical end surfaces of adjacent aluminum alloy shear wall panel units 1 are provided with limiting convex ribs 52, and the outermost end surface is a smooth surface 54.

Referring to fig. 15-16, the adjacent aluminum alloy shear wall panel unit bodies 1 are connected in a manner similar to that shown in fig. 13-14, except that the pressure plates 10 are fixedly mounted on the spacing ribs 52 to play a role in shearing resistance.

As shown in fig. 3, the boss of fig. 3 is similar to that of fig. 1, and differs therefrom only in that: a snap groove 55 is provided on the outer end face of the boss of fig. 3.

As shown in connection with fig. 17-18, fig. 17-18 are connected in much the same manner as fig. 13-14, except that: the outer end faces of the protruding portions 5 of the adjacent aluminum alloy shear wall panel unit bodies 1 are provided with clamping grooves 55, shear keys 11 are installed in the clamping grooves 55, and the shear keys 11 are used for the adjacent aluminum alloy shear wall panel unit bodies 1. As shown in fig. 21-22, the shear key 11 and the upper and lower toothed press plates 6 are integrated, so that the shear integrity in both directions is good.

As shown in fig. 4, the boss 5 of fig. 4 is similar to that of fig. 1, and differs therefrom only in that: the outermost end surface in fig. 4 is a smooth surface 54 and the outermost end surface in fig. 1 is a shear-resistant end surface 53.

Referring to fig. 19-20, the connection manner of the adjacent aluminum alloy shear wall panel units of fig. 4 is the same as that of fig. 13-14, and therefore, the detailed description thereof is omitted.

Example two:

as shown in fig. 5-6, the reinforcing mechanism 3 in this embodiment is formed by dividing the cavity 2 into a plurality of unit cavities 21 by vertical internal partitions 31, and distributing stiffening ribs 33 with locally enlarged ends on the inner walls of the unit cavities 21, wherein the height of the stiffening rib 33 with locally enlarged ends is smaller than the width of the cavity 2, even the stiffening rib 33 with locally enlarged ends is slightly convex, so that the stiffening rib 33 with locally enlarged ends can be connected with the filler of the cavity 2 more tightly, thereby increasing the strength of the aluminum alloy shear wallboard unit body 1.

Referring to fig. 5, please refer to the description of fig. 3 in the first embodiment for the connection mechanism in fig. 5, and refer to the description of fig. 17 to 18 in the first embodiment for the connection method of the adjacent aluminum alloy shear wall panel unit bodies 1, so that the detailed description thereof is omitted.

Example three:

as shown in fig. 7-9, the reinforcing mechanism 3 in this embodiment is a reinforcing mechanism formed by dividing the cavity 2 into a plurality of unit cavities 21 by vertical internal partitions 21, and distributing horizontal internal partitions 34 and vertical internal partitions 35 in the aluminum alloy shear wall panel unit body 1; concrete 12 is poured into the aluminum alloy shear wall panel unit body 1.

Referring to fig. 7-9, please refer to the description of fig. 2 in the first embodiment for the connection mechanism in fig. 7-9, and refer to the description of fig. 15-16 in the first embodiment for the connection method of the adjacent aluminum alloy shear wall panel unit bodies 1, so that the detailed description thereof is omitted.

Example four:

as shown in fig. 10, the reinforcing mechanism 3 in this embodiment is a vertical internal partition plate 31 that divides the cavity 2 into a plurality of unit cavities 21, and a plurality of unit micro-cavities 37 surrounded by L-shaped internal partition plates 36 are disposed at corners of inner walls of the plurality of unit cavities 21.

As shown in fig. 10, please refer to the description of fig. 2 in the first embodiment for the connection mechanism 4 in the present embodiment, and refer to the description of fig. 15-16 in the first embodiment for the connection method for the adjacent aluminum alloy shear wall plate units, so that the detailed description thereof is omitted.

Example five:

as shown in fig. 11 to 12, the outer wall of the aluminum alloy shear wall plate unit body 1 is provided with a plurality of grooves 56 which are concave towards the cavity 2.

Referring to fig. 13-22, a building structural member comprising an aluminum alloy shear wall panel unit as described above; the building structural member may be a shear wall but is not limited thereto, and the shear wall is one of a one-shaped, L-shaped, T-shaped, Z-shaped, U-shaped, and cross-shaped profiled wall.

Claims (15)

1. An aluminum alloy shear wall panel unit characterized in that: the aluminum alloy shear wallboard comprises an aluminum alloy shear wallboard unit body, wherein a cavity is arranged in the aluminum alloy shear wallboard unit body, and a reinforcing mechanism is arranged in the cavity.

2. An aluminum alloy shear wall panel unit according to claim 1, wherein: the reinforcing mechanism is characterized in that a plurality of oblique inner baffles are distributed in the cavity and are connected with each other to form a wave structure.

3. An aluminum alloy shear wall panel unit according to claim 2, wherein: the reinforcing mechanism is a vertical inner partition plate and divides the cavity into a plurality of unit cavities, and oblique inner partition plates are distributed in the unit cavities.

4. An aluminum alloy shear wall panel unit according to claim 1, wherein: a plurality of stiffening ribs with locally enlarged end heads are distributed on the inner wall of the cavity of the aluminum alloy shear wallboard unit body, and the height of the stiffening ribs with locally enlarged end heads is smaller than the width of the cavity.

5. An aluminum alloy shear wall panel unit according to claim 1, wherein: reinforcing mechanisms formed by transverse inner baffles and vertical inner baffles are distributed in the aluminum alloy shear wall panel unit body.

6. An aluminum alloy shear wall panel unit according to claim 5, wherein: concrete is poured into the aluminum alloy shear wall panel unit body.

7. An aluminum alloy shear wall panel unit according to claim 1, wherein: the reinforcing mechanism is a vertical inner partition plate and divides the cavity into a plurality of unit cavities, and a plurality of unit micro-cavities enclosed by L-shaped inner partition plates are arranged at corners of the inner walls of the unit cavities.

8. An aluminum alloy shear wall panel unit according to claim 1, wherein: the outer wall of the aluminum alloy shear wallboard unit body is provided with a plurality of grooves which are concave towards the direction of the cavity.

9. An aluminum alloy shear wall panel unit according to claim 1, wherein: and two ends of the aluminum alloy shear wall plate unit body extend outwards to form a connecting mechanism.

10. An aluminum alloy shear wall panel unit according to claim 9, wherein: the connecting mechanism is an outward protruding portion which is of a cuboid structure, the upper end face and the lower end face of the protruding portion are provided with sawtooth-shaped rough faces, and limiting convex ribs are arranged on the vertical end faces of the aluminum alloy shear wall board unit bodies of the adjacent rough faces.

11. An aluminum alloy shear wall panel unit according to claim 9, wherein: the connecting mechanism is an outward protruding portion which is of a cuboid structure, the upper end face and the lower end face of the protruding portion are provided with limiting ribs, and the vertical end faces of adjacent aluminum alloy shear wall board unit bodies are provided with the limiting ribs.

12. An aluminium alloy shear wall panel unit according to any one of claims 10, 11, wherein: and a clamping groove is formed in the outer end face of the protruding portion.

13. An aluminum alloy shear wall panel unit according to claim 9, wherein: the protruding part of the connecting mechanism is provided with a groove.

14. A building structural member characterized by: the building structural member comprising an aluminium alloy shear wall panel unit according to any one of claims 1 to 13.

15. A building structural member according to claim 14 wherein: the building structural member is a shear wall, and the shear wall is one of a straight-line-shaped wall body, an L-shaped wall body, a T-shaped wall body, a Z-shaped wall body, a U-shaped wall body and a cross-shaped wall body.

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