CN212407227U - Improved generation aluminum alloy building I-shaped aluminium connection structure - Google Patents

Abstract

The utility model relates to an improved generation aluminum alloy building I-shaped aluminium connection structure, including I-shaped aluminium component more than two, triangle-shaped connecting plate, overlap joint board, end crossbeam and fixed connector. The triangular connecting plate is fixedly provided with an angular lap joint plate on a plane close to the root part of the connecting part, an upward connecting part of the triangular connecting plate is inserted into the I-shaped aluminum groove from the notched connecting end of the first I-shaped aluminum component for fixing, a transverse connecting part of the triangular connecting plate is inserted into the I-shaped aluminum groove from the notched connecting end of the second I-shaped aluminum component for fixing, the transverse connecting part is spliced into an angular shape, then a bottom cross beam is inserted laterally, and a long bolt is inserted into a side plate screw hole of the first I-shaped aluminum component, a bottom cross beam plate wall screw hole and a connecting plate screw hole at the other end of the lap joint plate for fixing. The utility model provides a problem of the integrative installation of X, Y, Z axle direction components, the two dimension that realizes the I-shaped aluminium component is connected and the three-dimensional connection, has extremely strong stability ability.

Description

Improved generation aluminum alloy building I-shaped aluminium connection structure

Technical Field

The utility model belongs to the housing construction field, in particular to improved generation aluminum alloy building I-shaped aluminium connection structure.

Background

In the practical application of aluminum alloy houses, wind load is the most important load of light buildings such as aluminum alloy houses. In areas with large wind pressure, the wind pressure acts on roofs and wall surfaces to form lateral force, and the stress of the house structure is greatly influenced. The conventional solution is to increase the diagonal bracing in the structure to enhance the structural resistance strength, and the increase of the diagonal bracing causes difficulty in utilizing prefabricated pipelines and pipelines between structural columns, which reduces the space utilization rate and the manufacturing and installation efficiency.

There is an I-shaped aluminum connection structure design of an aluminum alloy house, wherein three-dimensional connection plates are arranged at the connection positions of all members in the X, Y, Z axis direction, and the three-dimensional connection plates are obliquely arranged at an angle of 45 degrees relative to the connection members. As shown in fig. 1 and 2, fig. 1 shows an assembled structural state of the i-shaped aluminum connection structure, and fig. 2 shows an exploded state of each component of the i-shaped aluminum connection structure, wherein reference numeral 10 is a three-dimensional connection plate.

Although the i-shaped aluminum connection structure shown in fig. 1 and 2 has extremely strong stability and compression resistance, can transmit bending moment, is beneficial to resisting lateral force, reduces the use of connecting parts of columns and beams, reduces the manufacturing cost, and solves the problem of integrally mounting X, Y, Z axial direction members, the manufacturing process of the three-dimensional connection plate is relatively complex, and the construction and installation are troublesome due to more workpieces.

In view of the above, those skilled in the art are dedicated to develop an improved aluminum alloy i-shaped aluminum connection structure, so as to connect and mount each member in the building construction more quickly and reduce the production cost.

Disclosure of Invention

The utility model aims at providing an improved generation aluminum alloy building I-shaped aluminium connection structure, the component such as I-shaped aluminium and the triangle-shaped connecting plate that adopt aluminum alloy extrusion one shot forming manufacturing process to make forms connection structure, realizes the two dimension of I-shaped aluminium component and connects with three-dimensional, is favorable to resisting the yawing force, can transmit the moment of flexure, has solved the problem that above-mentioned prior art exists.

The technical solution of the utility model is as follows:

an improved I-shaped aluminum connection structure for aluminum alloy building comprises more than two I-shaped aluminum components, a triangular connecting plate, a lap joint plate, a bottom cross beam and a fixed connecting piece, wherein each I-shaped aluminum component comprises a first I-shaped aluminum component and a second I-shaped aluminum component;

the lower end of the first I-shaped aluminum component in the vertical shape is provided with an oblique notch as a connecting end, and the inner end of the second I-shaped aluminum component in the horizontal shape is provided with an oblique notch as a connecting end;

the triangular connecting plate is provided with an upward extending connecting part and a transverse extending connecting part, the root of the connecting part is in an angle shape, an angle-shaped lap joint plate is fixedly installed on a plane close to the root of the connecting part, the upward connecting part of the triangular connecting plate is inserted into the I-shaped aluminum groove from the notch connecting end of the first I-shaped aluminum member and is fastened by a fixing bolt, the transverse connecting part of the triangular connecting plate is inserted into the I-shaped aluminum groove from the notch connecting end of the second I-shaped aluminum member and is fastened by the fixing bolt, the notch connecting end of the first I-shaped aluminum member and the notch connecting end of the second I-shaped aluminum member are spliced into an angle shape, a bottom cross beam is inserted into the I-shaped aluminum groove at the splicing position of the angle shape in the lateral direction, and then a long bolt is inserted into a side plate screw hole of the first I-shaped aluminum member, a bottom cross beam plate.

The I-shaped aluminum component is provided with an I-shaped aluminum upper side plate, an I-shaped aluminum lower side plate and an I-shaped aluminum middle support plate, one end of the I-shaped aluminum upper side plate is provided with an I-shaped aluminum upper side plate baffle protruding downwards, one end of the I-shaped aluminum lower side plate is provided with an I-shaped aluminum lower side plate baffle protruding upwards, protruding positions of the I-shaped aluminum upper side plate baffle and the I-shaped aluminum lower side plate baffle correspond to each other, and the I-shaped aluminum middle support plate is arranged between the I-shaped aluminum upper side plate and the I-shaped aluminum lower side plate.

The bottom cross beam is a square tube with a slot opening.

The bottom cross beam is a section bar with a slot opening.

The utility model discloses an improved generation aluminum alloy building I-shaped aluminium connection structure is the connection structure that components such as the I-shaped aluminium that adopts aluminum alloy extrusion one shot forming manufacturing process to make and triangle-shaped connecting plate formed, realize the two dimension of I-shaped aluminium component and connect with three-dimensional, extremely strong stability can have, compressive property, can transmit the moment of flexure, be favorable to resisting the yawing force, overall structure is under the condition that does not set up the enhancement bearing diagonal, lateral displacement is less when receiving the yawing force effect, aluminum alloy building structure's resistance strength has been strengthened.

The utility model discloses an improved generation aluminum alloy building I-shaped aluminium connection structure design has I-shaped aluminium component, triangle-shaped connecting plate, overlap joint board, end beam and fixed connection spare, installs in the one side recess of two concatenation I-shaped aluminium components, also can install two sets of triangle-shaped connecting plates of symmetry simultaneously in the two-sided recess of two concatenation I-shaped aluminium components.

The utility model discloses an I-shaped aluminium component is used and is connected at I-shaped aluminium stand and I-shaped aluminium floorbar, I-shaped aluminium stand and I-shaped aluminium circle roof beam are connected, connects through triangle-shaped connecting plate, overlap joint board, end crossbeam and forms I-shaped aluminium structural framework. The ring beam and the bottom beam are inserted on the bottom cross beam of the I-shaped aluminum connecting structure connected with the I-shaped aluminum upright post, the I-shaped aluminum ring beam and the I-shaped aluminum bottom beam. The I-shaped aluminum connecting structure formed by the connecting pieces realizes simultaneous connection of the members in three different directions, can connect and install the members quickly, and improves the construction efficiency.

Adopt the utility model discloses an improved generation aluminum alloy building I-shaped aluminium connection structure has reduced post, the use of roof beam adapting unit, has reduced manufacturing cost, has solved the problem of the integrative installation of X, Y, Z axle direction components.

The utility model discloses an improved generation aluminum alloy building I-shaped aluminium connection structure's manufacturing process all accomplishes according to the requirement in the mill, so the scene need not carry out the secondary and tailor, cut, and job site environment is safe, clean and tidy, does not produce building rubbish, reaches green building construction standard completely.

The utility model discloses an improved generation aluminum alloy building I-shaped aluminium connection structure is aluminium alloy material that can regenerate after dismantling, and the aluminium alloy material rate of recovery who pulls down reaches more than 92%, and produced wastes material is few to resources are saved, reduce cost accords with energy-conservation, environmental protection, low carbon, the emission reduction regulation of country to the building project.

Drawings

Fig. 1 is a schematic view of a connection structure of an i-shaped aluminum member and a three-dimensional connecting plate in the prior art.

Fig. 2 is an exploded view of the respective components of the connection structure shown in fig. 1.

Fig. 3 is an installation schematic diagram of the improved aluminum alloy building i-shaped aluminum connection structure of the utility model.

Fig. 4 is an exploded view of the components of the connection structure shown in fig. 3.

Fig. 5 is a schematic cross-sectional view of an i-shaped aluminum member according to the present invention.

Fig. 6 is a perspective view of the i-shaped aluminum member of the present invention.

Fig. 7 is a schematic structural view of the i-shaped aluminum member of the present invention applied to the connection between the pillar and the bottom beam.

Fig. 8 is a schematic structural diagram of the i-shaped aluminum member of the present invention applied to the connection between the pillar and the ring beam.

Fig. 9 is a schematic structural view of the i-shaped aluminum member of the present invention applied to the connection between the middle pillar and the bottom beam.

Fig. 10 is a schematic structural view of the i-shaped aluminum member of the present invention applied to the connection between the middle pillar and the ring beam.

Reference numerals:

the structure comprises a first I-shaped aluminum component 1, a second I-shaped aluminum component 2, a triangular connecting plate 3, a lap joint plate 4, a bottom cross beam 5, a fixing bolt 6, a long bolt 7, a self-tapping screw 8 and a three-dimensional connecting plate 10 (in the prior art);

11 is an I-shaped aluminum upper side plate, 12 is an I-shaped aluminum lower side plate, 13 is an I-shaped aluminum middle support plate, 14 is an I-shaped aluminum upper side plate baffle, and 15 is an I-shaped aluminum lower side plate baffle;

21 is a column, 22 is a bottom beam, 23 is a ring beam, 24 is a middle column, 25 is a column bottom supporting aluminum plate, and 26 is a column top supporting aluminum plate.

Detailed Description

The present invention will be described in detail with reference to the accompanying drawings and examples.

Referring to fig. 3 to 6, the utility model provides an improved generation aluminum alloy building i-shaped aluminum connection structure, it mainly comprises two or more i-shaped aluminum components, triangle-shaped connecting plate 3, overlap joint plate 4, end beam 5 and fixed connection spare, wherein the i-shaped aluminum component has first i-shaped aluminum component 1 and second i-shaped aluminum component 2.

As shown in fig. 3 and 4, the first i-shaped aluminum member 1 has an oblique cut at its lower end in the vertical direction as a connection end, and the second i-shaped aluminum member 2 has an oblique cut at its inner end in the horizontal direction as a connection end.

The triangle-shaped connecting plate 3 sets up the connecting portion of upwards extending and the connecting portion of horizontal extension, and the root of connecting portion is the horn shape, fixed mounting horn shape overlap joint board 4 on the plane near the connecting portion root. The upward connecting part of the triangular connecting plate 3 is inserted into the I-shaped aluminum groove from the cut connecting end of the first I-shaped aluminum member 1 and is fastened by the fixing bolt 6, and the transverse connecting part of the triangular connecting plate 3 is inserted into the I-shaped aluminum groove from the cut connecting end of the second I-shaped aluminum member 2 and is fastened by the fixing bolt 6. The notch connecting end of the first I-shaped aluminum member 1 and the notch connecting end of the second I-shaped aluminum member 2 are spliced into an angle shape, a bottom cross beam 5 is inserted into the I-shaped aluminum groove at the splicing position of the angle shape in the side direction, and then a long bolt 7 is inserted into a side plate screw hole of the first I-shaped aluminum member 1, a plate wall screw hole of the bottom cross beam 5 and a connecting plate screw hole at the other end of the lap joint plate 4 and is fixed. The bottom cross beam 5 can be a square tube with slots, or a section bar with slots.

As shown in fig. 5 and 6, the i-shaped aluminum member is provided with an i-shaped aluminum upper side plate 11, an i-shaped aluminum lower side plate 12 and an i-shaped aluminum middle support plate 13. One end of the I-shaped aluminum upper side plate 11 is provided with an I-shaped aluminum upper side plate baffle 14 protruding downwards, one end of the I-shaped aluminum lower side plate 12 is provided with an I-shaped aluminum lower side plate baffle 15 protruding upwards, and the protruding positions of the I-shaped aluminum upper side plate baffle 14 and the I-shaped aluminum lower side plate baffle 15 correspond to each other. An I-shaped aluminum middle support plate 13 is arranged between the I-shaped aluminum upper side plate 11 and the I-shaped aluminum lower side plate 12.

Referring to fig. 7, the triangular connecting plate 3 is installed in the groove of the i-shaped aluminum member where the upright post 21 is connected with the bottom beam 22.

Referring to fig. 8, the triangular connecting plate 3 is installed in the groove of the i-shaped aluminum member where the upright post 21 is connected with the ring beam 23.

Referring to fig. 9, the triangular connecting plates 3 are installed in the grooves of the i-shaped aluminum members connecting the middle upright post 24 and the bottom beam 22, wherein the triangular connecting plates 3 are symmetrically arranged in two sets and installed in the grooves on both sides of the i-shaped aluminum members of the middle upright post 24, the two sets of triangular connecting plates 3 are clamped and fixed on the i-shaped aluminum middle support plate of the middle upright post 24 by the fixing bolts 6, the two sets of triangular connecting plates 3 are fixed on the i-shaped aluminum sideboard of the bottom beam 22 by the fixing bolts 6, and the upright post bottom support aluminum plate 25 is fixed on the i-shaped aluminum sideboard baffle of the bottom beam 22 by the self-tapping screws 8.

Referring to fig. 10, the triangular connecting plates 3 are installed in the grooves of the i-shaped aluminum members connecting the middle upright post 24 and the ring beam 23, wherein the triangular connecting plates 3 are symmetrically arranged in two sets and installed in the grooves on both sides of the i-shaped aluminum members of the middle upright post 24, the two sets of triangular connecting plates 3 are clamped and fixed on the i-shaped aluminum middle support plate of the middle upright post 24 by the fixing bolts 6, the two sets of triangular connecting plates 3 are fixed on the i-shaped aluminum sideboard of the ring beam 23 by the fixing bolts 6, and the upright post top support aluminum plate 26 is fixed on the i-shaped aluminum sideboard baffle of the ring beam 23 by the self-tapping screws 8.

To sum up, use the utility model discloses an improved generation aluminum alloy building I-shaped aluminium connection structure has solved the problem of the integrative installation of X, Y, Z axle direction components, through the I-shaped aluminium connection structure who forms by each connecting piece, realizes that the two dimension of I-shaped aluminium component is connected and three-dimensional connection, has extremely strong stability can, is favorable to resisting the yawing force, and reduction in production cost can connect each component of installation sooner, improves building construction efficiency.

Of course, those skilled in the art should recognize that the above-described embodiments are merely illustrative of the present invention and are not intended to be limiting, and that changes, modifications, etc. to the above-described embodiments are intended to fall within the scope of the appended claims, provided they fall within the true spirit of the present invention.

Claims (4)

1. The utility model provides an improved generation aluminum alloy building I-shaped aluminium connection structure which characterized in that: the I-shaped aluminum connecting structure comprises more than two I-shaped aluminum components, a triangular connecting plate (3), a lap joint plate (4), a bottom cross beam (5) and a fixed connecting piece, wherein each I-shaped aluminum component comprises a first I-shaped aluminum component (1) and a second I-shaped aluminum component (2);

the lower end of the first I-shaped aluminum component (1) in a vertical shape is provided with an oblique notch as a connecting end, and the inner end of the second I-shaped aluminum component (2) in a transverse shape is provided with an oblique notch as a connecting end;

the triangular connecting plate (3) is provided with an upward extending connecting part and a transverse extending connecting part, the root part of the connecting part is in an angle shape, an angle-shaped lap plate (4) is fixedly installed on a plane close to the root part of the connecting part, the upward connecting part of the triangular connecting plate (3) is inserted into an I-shaped aluminum groove from the cut connecting end of the first I-shaped aluminum member (1) and is fastened by a fixing bolt (6), the transverse connecting part of the triangular connecting plate (3) is inserted into the I-shaped aluminum groove from the cut connecting end of the second I-shaped aluminum member (2) and is fastened by the fixing bolt (6), the cut connecting end of the first I-shaped aluminum member (1) and the cut connecting end of the second I-shaped aluminum member (2) are spliced into an angle shape, a bottom cross beam (5) is inserted into the I-shaped aluminum groove at the angle-shaped splicing position in the side direction, and a long bolt (7) is inserted into a side plate screw hole of the, The plate wall screw hole of the bottom cross beam (5) is connected with the connecting plate screw hole at the other end of the lap joint plate (4) and fixed.

2. The improved aluminum alloy building i-aluminum connection structure of claim 1, wherein: the I-shaped aluminum component is provided with an I-shaped aluminum upper side plate (11), an I-shaped aluminum lower side plate (12) and an I-shaped aluminum middle support plate (13), one end of the I-shaped aluminum upper side plate (11) is provided with an I-shaped aluminum upper side plate baffle (14) protruding downwards, one end of the I-shaped aluminum lower side plate (12) is provided with an I-shaped aluminum lower side plate baffle (15) protruding upwards, the I-shaped aluminum upper side plate baffle (14) corresponds to the protruding position of the I-shaped aluminum lower side plate baffle (15) mutually, and the I-shaped aluminum upper side plate (11) and the I-shaped aluminum lower side plate (12) are arranged between the I-shaped aluminum upper side plate (11) and the I-shaped aluminum lower side plate.

3. The improved aluminum alloy building i-aluminum connection structure of claim 1, wherein: the bottom cross beam (5) is a square tube with a slot opening.

4. The improved aluminum alloy building i-aluminum connection structure of claim 1, wherein: the bottom cross beam (5) is a section bar with a slot opening.

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