CN210482595U - Aluminum alloy shear wall structure, prefabricated component and building unit - Google Patents

Abstract

The utility model relates to a shear force wall field especially relates to an aluminum alloy shear force wall structure and prefabricated component and building monomer, including the frame, the tip of frame extends outwards and forms the connector link, has seted up the bolt on the connector link and has passed through chamber one, and the face of seting up the bolt on the connector link and passing through chamber one is profile of tooth face one, leaves the clearance between profile of tooth face one and the frame side, and the side of frame extends to connector link one side and forms the card strip; the utility model has the advantages that: the connection of the aluminum alloy shear walls is realized by arranging the connecting keys in various structural forms, so that the adjacent aluminum alloy shear walls are effectively prevented from deviating during connection or construction, and the construction efficiency and the construction quality of the shear walls are improved; meanwhile, reinforcing structures such as an inner container and poured concrete are additionally arranged in the aluminum alloy shear wall, so that the bending resistance and the shearing resistance of the shear wall are further improved.

Description

Aluminum alloy shear wall structure, prefabricated component and building unit

Technical Field

The utility model relates to a shear force wall field especially relates to an aluminum alloy shear force wall structure and prefabricated component and building monomer.

Background

Shear force wall is as building structure's important component, mainly undertakes the effect of anti-shear bending resistance, shear force wall's prefabricated component basic unit mainly is steel sheet shear force wall, among the prior art, the connection between the adjacent steel sheet shear force wall mainly relies on welding or bolted connection, when chooseing for use bolted connection, directly splice back connecting bolt by the opposite face of two steel sheet shear force walls, for convenient operation, the plane is often chooseed for use to the opposite face, easily take place the skew between the two-sided steel sheet shear force wall when leading to connecting for shear force wall's anti-shear bending ability descends.

Based on this, the present case arises from this.

SUMMERY OF THE UTILITY MODEL

An object of the utility model is to provide an aluminum alloy shear wall structure has the advantage that connection convenience, joint strength are high.

In order to achieve the purpose, the technical scheme is as follows:

the utility model provides an aluminum alloy shear wall structure, includes the frame, and the tip of frame outwards extends and forms the connector link, has seted up the bolt on the connector link and has passed through chamber one, and the face of seting up the bolt on the connector link and passing through chamber one is profile of tooth face one, leaves the clearance between profile of tooth face one and the frame side, and the side of frame extends to connector link one side and forms the card strip.

Furthermore, the connecting key is a convex first extending part, the bolt is arranged on the lower portion of the first extending part through the first cavity, and a second bolt passing cavity parallel to the first bolt passing cavity is arranged on the upper portion of the first extending part.

Furthermore, the connecting key is a concave extending part II, and the bolt is arranged on the upper part of the extending part II through the cavity I.

Furthermore, one end part of the outer frame is stepped, the steps have four steps, and the connecting key comprises a third extending part positioned on the stepped end part of the outer frame and a fourth extending part which is in a shape of a Chinese character 'tu' and positioned on the other end part of the outer frame; the extension part III comprises a first convex part positioned on the highest step and a second convex part positioned on the third high step, the bolt is arranged at the lower part of the extension part IV and on the first convex part through a first cavity, and a third bolt through cavity parallel to the first bolt through cavity is arranged at the upper part of the extension part IV; one side of the first convex part is flush with the starting end of the highest step, the distance from the other side to the tail end of the highest step is the same as the width of the tread surface of the lowest step, the width of the second convex part is equal to the width of the step with the third height, a bolt passing cavity IV is formed in the second convex part, and a tooth-shaped surface II is formed in the surface of the second convex part, provided with the bolt passing cavity IV.

Furthermore, one end part of the outer frame is stepped, the steps have four steps, and the connecting key comprises an extension part five positioned on the stepped end part of the outer frame and a concave extension part six positioned on the other end part of the outer frame; the extension part V comprises a convex part III positioned on the highest step and a convex part IV positioned on the third high step, and the bolt is arranged on the upper part of the extension part V and the convex part III through the cavity I; one side of the third convex part is flush with the starting end of the highest step, the distance from the other side to the tail end of the highest step is the same as the width of the tread surface of the lowest step, the width of the fourth convex part is equal to the width of the step with the third height, a fifth bolt passing cavity is formed in the fourth convex part, and a third tooth-shaped surface is formed in the surface, provided with the fifth bolt passing cavity, of the fourth convex part.

Furthermore, any one of the steel pipe bundles is in a straight shape, a triangle shape, an L shape or a cross shape.

Further, include with the inner bag of frame grafting, the inner bag includes a plurality of inside casing, connects through the baffle between the adjacent inside casing, and it has the stiffening rib to run through behind the baffle cutting strip seam, is equipped with the arch with adjacent inside casing butt on the stiffening rib, and the both ends of stiffening rib are equipped with the frame inner wall connection to embracing L shape stiffening rib, form by two L type stiffening ribs to embracing the connection to embracing L shape stiffening rib.

Furthermore, the inner wall and the outer wall of the outer frame or the inner frame are provided with concave line grooves or convex line strips.

The utility model discloses a second of purpose lies in: a prefabricated part is provided, and the prefabricated part comprises the aluminum alloy shear wall structure.

The third purpose of the utility model is that: a building unit is provided, and the building unit comprises the aluminum alloy shear wall structure.

The utility model has the advantages that: the connection of the aluminum alloy shear walls is realized by arranging the connecting keys in various structural forms, so that the adjacent aluminum alloy shear walls are effectively prevented from deviating during connection or construction, and the construction efficiency and the construction quality of the shear walls are improved; meanwhile, an inner container or a reinforced structure such as pouring concrete or reinforced concrete is additionally arranged in the aluminum alloy shear wall, so that the bending resistance and the shearing resistance of the shear wall are further improved.

Drawings

FIG. 1 is a schematic view of the outer frame structure of an aluminum alloy shear wall in example 1;

FIG. 2 is a schematic view of the structure of an inner container for reinforcing an aluminum alloy shear wall in example 1;

FIG. 3 is a schematic view of the assembly structure of the aluminum alloy shear wall and the inner container in example 1;

FIG. 4 is a schematic view of the outer frame structure of the aluminum alloy shear wall in example 2;

FIG. 5 is a schematic view of the structure of an inner container for reinforcing an aluminum alloy shear wall in embodiment 2;

FIG. 6 is a schematic view of the assembly structure of the aluminum alloy shear wall and the inner container in example 2;

FIG. 7 is a schematic view showing the construction of a precast member in example 3;

FIG. 8 is a schematic view of the connection of adjacent aluminum alloy shear walls in the prefabricated component of example 3;

FIG. 9 is a schematic view of the outer frame structure of the aluminum alloy shear wall in example 4;

FIG. 10 is a schematic view of the structure of an inner container for reinforcing an aluminum alloy shear wall in example 4;

FIG. 11 is a schematic view of the assembly structure of the aluminum alloy shear wall and the inner container in example 4;

FIG. 12 is a schematic view of the outer frame structure of an aluminum alloy shear wall in example 5;

FIG. 13 is a schematic view showing the structure of an inner container for reinforcing an aluminum alloy shear wall in example 5;

FIG. 14 is a schematic view of the combined structure of the aluminum alloy shear wall and the inner container in example 5;

FIG. 15 is a schematic view showing the construction of a precast member in example 6;

description of the reference symbols

The bolt-passing structure comprises an outer frame 1, an inner container 2, a first bolt-passing cavity 3, a second bolt-passing cavity 4, a third bolt-passing cavity 5, a fourth bolt-passing cavity 6, a first convex part 7, a second convex part 8, a third convex part 9, a fourth convex part 10, a first tooth-shaped surface 11, a second tooth-shaped surface 12, a third tooth-shaped surface 13, a clamping strip 14, a partition plate 15, a stiffening rib 16, a protrusion 17, an oppositely-holding L-shaped stiffening rib 18, a concave line groove 19, a convex line 20, a cover plate 21, a bolt 22, a tooth-shaped pressing plate 23, a sealing strip 24, a clamping groove 25 and a fifth bolt.

Detailed Description

The present invention will be described in further detail with reference to examples.

Example 1:

this embodiment provides an aluminum alloy shear wall structure, and the aluminum alloy shear wall in this embodiment is a style of calligraphy aluminum alloy shear wall, as shown in fig. 1 to 3, including frame 1, frame 1 is embedded to have inner bag 2, and frame 1 and inner bag 2 are the aluminum alloy material, have the shaping convenience, advantage that the preparation precision is high. Inner bag 2 comprises four inside casings, connects through two baffles 15 that are parallel to each other and perpendicular to inside casing outer wall between the adjacent inside casing, runs through behind the 15 cutting strip seams of baffle have with 1 inner wall connection's of frame stiffening rib 16, be equipped with on the stiffening rib 16 with the arch 17 of adjacent inside casing butt for effective contact has improved the ability of shearing of aluminum alloy shear force wall between frame 1 and the inside casing through setting up protruding 17. Meanwhile, in order to improve the connection strength between the stiffening rib 16 and the outer frame 1, the aluminum alloy shear wall of the embodiment further comprises an L-shaped stiffening rib 18 which is in opposite embracing, the L-shaped stiffening rib 18 is formed by connecting two L-shaped stiffening ribs in opposite embracing mode, the stiffening rib 16 and the outer frame 1 are connected through the L-shaped stiffening rib 18 which is in opposite embracing mode, each end of the stiffening rib 16 is provided with the L-shaped stiffening rib which is in opposite embracing mode, a square opening is formed between the L-shaped stiffening ribs 18 which are in opposite embracing mode and used for screwing in a self-tapping screw, and concrete or reinforced concrete is poured in a cavity of the aluminum alloy.

In the embodiment, the inner wall of the outer frame 1 of the aluminum alloy shear wall is provided with the convex lines 20, the outer wall of the outer frame is provided with the concave line grooves 19, meanwhile, the inner wall of the inner container 2 is provided with the convex lines 20, the outer wall of the inner container is provided with the concave line grooves 19, and through the arrangement of the convex lines 20 and the concave line grooves 19, the friction force between the aluminum alloy shear wall and concrete is increased, so that the connection between the concrete and the aluminum alloy shear wall is firmer, and the stability and the compressive strength of the shear wall made of the aluminum alloy shear wall are further improved; secondly, when the shear wall is prefabricated, self-tapping screws need to be driven into the outer frame 1, and the concave wire grooves 19 can pre-position the self-tapping screws so as to prevent the self-tapping screws from sliding.

In the embodiment, the connecting key is a convex first extending part, the lower part of the first extending part is provided with a first bolt passing cavity 3, the surface of the first extending part, which is provided with the first bolt passing cavity 3, is a first tooth-shaped surface 11, a gap is reserved between the first tooth-shaped surface 11 and the side edge of the outer frame 1, the gap is used for accommodating a screw cap and a tooth-shaped pressing plate 23 of a screw 22, the side edge of the outer frame 1 extends to one side of the extending part to form a clamping strip 14, and the clamping strip 14 is used for clamping a cover plate 21 of the screw cap of the sealing screw 22; and the upper part of the first extension part is provided with a bolt passing cavity II 4 parallel to the bolt passing cavity I3.

Example 2:

the present embodiment provides an aluminum alloy shear wall structure, which has a similar structure to that of embodiment 1, and as shown in fig. 4 to 6, the difference is that two end portions of an outer frame 1 of the aluminum alloy shear wall of the present embodiment extend outward to form a connection key, the connection key is a second extension portion in a shape of a Chinese character 'ao', and a first bolt passing cavity 3 is formed at an upper portion of the second extension portion. The convex portion in embodiment 1 can be fitted with the concave portion in this embodiment by plugging.

Example 3:

the embodiment proposes a prefabricated part, as shown in fig. 7 and 8, which is formed by connecting an aluminum alloy shear wall in embodiment 1 and an aluminum alloy shear wall in embodiment 2 by screws 22, specifically: the first extension part is inserted into the second extension part, a bolt of the second extension part is communicated with a bolt of the first extension part through a cavity II 4 through a cavity I3, a tooth-shaped surface I11 between the two extension parts is mutually occluded, a sealing strip 24 is additionally arranged at a connecting seam during connection, a tooth-shaped pressing plate 23 is pressed on the sealing strip 24, and tooth parts of the tooth-shaped pressing plate 23 are respectively mutually occluded with the tooth-shaped surfaces I11 of the first extension part and the second extension part. The sealing strip 24 is used for sealing a gap between the two aluminum alloy shear walls and has an airtight and watertight effect, and the toothed pressing plate 23 is used for compacting the sealing strip 24 on one hand and is used as a gasket for the screw 22 on the other hand. In order to optimize the structure, a cover plate 21 is further arranged above the screw 22, and clamping grooves 25 matched with the clamping strips 14 are formed in two sides of the cover plate 21.

Example 4:

the present embodiment proposes an aluminum alloy shear wall structure, which is similar to embodiment 1 in structure, as shown in fig. 9 to 11, except that one end of the aluminum alloy shear wall outer frame 1 of the present embodiment is stepped, the step has four steps, and the connecting key includes an extending portion three located at the stepped end of the outer frame 1 and a protruding extending portion four located at the other end of the outer frame 1; the extension part III comprises a first convex part 7 positioned on the highest step and a second convex part 8 positioned on the third high step, the bolt is arranged on the lower part of the extension part IV and the first convex part 7 through the cavity I3, and the upper part of the extension part IV is provided with a third bolt passing cavity 5 parallel to the first bolt passing cavity 3; one side of the first convex part 7 is flush with the starting end of the highest step, the distance from the other side to the tail end of the highest step is the same as the width of the tread surface of the lowest step, the width of the second convex part 8 is equal to the width of the step with the third height, a bolt passing cavity IV 6 is formed in the second convex part 8, and the surface of the second convex part 8, provided with the bolt passing cavity IV 6, is a tooth-shaped surface II 12.

Example 5:

this embodiment proposes an aluminum alloy shear wall structure, which is similar in construction to embodiment 1, except that one end of the outer frame 1 is stepped, the steps have four steps, and the connection key includes an extension portion five located at the stepped end of the outer frame 1 and a female-type extension portion six located at the other end of the outer frame 1; the extension part five comprises a convex part three 9 positioned on the highest step and a convex part four 10 positioned on the third high step, and the bolt is arranged on the upper part of the extension part six and the convex part three 9 through the cavity one 3; one side of the convex part III 9 is flush with the starting end of the highest step, the distance from the other side to the tail end of the highest step is the same as the width of the tread surface of the lowest step, the width of the convex part IV 10 is equal to the width of the step with the third height, a bolt passing cavity V26 is formed in the convex part IV 10, and the surface of the convex part IV 10, provided with the bolt passing cavity V26, is a tooth-shaped surface III 13.

Example 6:

in this embodiment, as shown in fig. 15, a prefabricated member is provided, which is formed by connecting the aluminum alloy shear wall in example 4 and the aluminum alloy shear wall in example 5 by screws 22, the step ends of the two aluminum alloy shear walls are symmetrical and can be attached to each other, and the fixing manner between the two steps is the same as that of example 3, which will not be described herein too much.

Claims (10)

1. An aluminum alloy shear wall structure which characterized in that: including the frame, the tip of frame outwards extends and forms the connector link, has seted up the bolt on the connector link and has passed through chamber one, and the face of seting up the bolt on the connector link and passing through chamber one is profile of tooth face one, leaves the clearance between profile of tooth face one and the frame side, and the side of frame extends to connector link one side and forms the card strip.

2. The aluminum alloy shear wall structure of claim 1, wherein: the connecting key is a convex first extending part, the bolt is arranged on the lower portion of the first extending part through the first cavity, and a second bolt passing cavity parallel to the first bolt passing cavity is arranged on the upper portion of the first extending part.

3. The aluminum alloy shear wall structure of claim 1, wherein: the connecting key is a concave extending part II, and the bolt is arranged on the upper part of the extending part II through the cavity I.

4. The aluminum alloy shear wall structure of claim 1, wherein: the end part of one end of the outer frame is stepped, the steps have four steps, and the connecting key comprises a third extending part positioned on the stepped end part of the outer frame and a fourth extending part which is in a shape of a Chinese character 'tu' positioned on the end part of the outer frame; the extension part III comprises a first convex part positioned on the highest step and a second convex part positioned on the third high step, the bolt is arranged at the lower part of the extension part IV and on the first convex part through a first cavity, and a third bolt through cavity parallel to the first bolt through cavity is arranged at the upper part of the extension part IV; one side of the first convex part is flush with the starting end of the highest step, the distance from the other side to the tail end of the highest step is the same as the width of the tread surface of the lowest step, the width of the second convex part is equal to the width of the step with the third height, a bolt passing cavity IV is formed in the second convex part, and a tooth-shaped surface II is formed in the surface of the second convex part, provided with the bolt passing cavity IV.

5. The aluminum alloy shear wall structure of claim 1, wherein: the end part of one end of the outer frame is stepped, the steps have four steps, and the connecting key comprises an extension part five positioned on the stepped end part of the outer frame and a concave extension part six positioned on the end part of the outer frame; the extension part V comprises a convex part III positioned on the highest step and a convex part IV positioned on the third high step, and the bolt is arranged on the upper part of the extension part V and the convex part III through the cavity I; one side of the third convex part is flush with the starting end of the highest step, the distance from the other side to the tail end of the highest step is the same as the width of the tread surface of the lowest step, the width of the fourth convex part is equal to the width of the step with the third height, a fifth bolt passing cavity is formed in the fourth convex part, and a third tooth-shaped surface is formed in the surface, provided with the fifth bolt passing cavity, of the fourth convex part.

6. An aluminum alloy shear wall structure according to any one of claims 1 to 5, wherein: the aluminum alloy shear wall structure is in a straight shape, a triangular shape, an L shape or a cross shape.

7. An aluminum alloy shear wall structure as defined in claim 6, wherein: include with the inner bag of frame grafting, the inner bag includes a plurality of inside casing, connects through the baffle between the adjacent inside casing, and the baffle cuts and runs through behind the seam and has the stiffening rib, be equipped with on the stiffening rib with the arch of adjacent inside casing butt, the both ends of stiffening rib be equipped with the frame inner wall connection to embracing L shape stiffening rib, form by two L type stiffening ribs to embracing the connection to embracing L shape stiffening rib.

8. An aluminum alloy shear wall structure as defined in claim 7, wherein: and the inner wall and the outer wall of the outer frame or the inner frame are provided with concave line grooves or convex line strips.

9. A prefabricated component characterized in that: comprising the aluminum alloy shear wall structure of any one of claims 1 to 5 or 7 to 8.

10. A building unit, characterized in that: comprising the aluminum alloy shear wall structure of any one of claims 1 to 5 or 7 to 8.

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