CN110593407A - I-shaped aluminum connection structure of aluminum alloy room - Google Patents

Abstract

The invention relates to an I-shaped aluminum connection structure of an aluminum alloy house, including a bottom beam, a ring beam, a fixed bracket for floating eaves or railings, an I-shaped aluminum, a three-dimensional connecting plate, an I-shaped aluminum column, an I-shaped aluminum bottom beam and an I-shaped aluminum frame. Aluminum beams. The I-shaped aluminum is equipped with an upper side plate, a lower side plate and a middle support plate, a baffle is set at one end of the upper side plate, a middle support plate is placed between the upper side plate and the lower side plate, and a plate slot is set on the inner surface of the joint. The three-dimensional connection plate is provided with convex grooves and several bolt connection holes. Two I-shaped aluminum columns are connected with I-shaped aluminum beams and I-shaped aluminum bottom beams through three-dimensional connecting plates to form an I-shaped aluminum structure frame. The beam and the I-shaped aluminum bottom beam are connected on the convex groove of the three-dimensional connecting plate, thus forming the I-shaped aluminum connection structure of the aluminum alloy room. The invention is beneficial to resist lateral force, has good stability, high bearing capacity and strong compression resistance.

Description

I-shaped aluminum connection structure of aluminum alloy room

technical field

The invention belongs to the field of house construction, in particular to an I-shaped aluminum connection structure for an aluminum alloy house.

Background technique

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 high wind pressure, the wind pressure acts on the roof and walls to form lateral forces, which have a greater impact on the force of the building structure. The conventional solution is to add oblique supports to the structure to enhance the structural resistance strength, but the increase of oblique supports makes it difficult to use prefabricated pipelines and pipelines between structural columns, which reduces the space utilization rate and reduces the efficiency of fabrication and installation.

In view of this, technicians in this field are devoting themselves to the research and development of I-shaped aluminum connection structures for aluminum alloy houses, and try not to use oblique supports to strengthen the resistance strength of aluminum alloy house structures.

Contents of the invention

The task of the present invention is to provide an I-shaped aluminum connection structure for an aluminum alloy room. The connection structure formed by the I-shaped aluminum and the three-dimensional connecting plate made by the aluminum alloy extrusion one-time forming manufacturing process is conducive to resisting lateral force. When the lateral force acts, the lateral displacement is small, the bending moment can be transmitted, and the above-mentioned problems in the prior art are solved.

Technical solution of the present invention is as follows:

An I-shaped aluminum connection structure for an aluminum alloy room, which includes bottom beams, ring beams, floating eaves or railing fixing brackets, and also includes I-shaped aluminum, three-dimensional connecting plates, I-shaped aluminum columns, I-shaped aluminum bottom beams and I-shaped aluminum word aluminum beam;

The I-shaped aluminum 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 The I-shaped aluminum middle support plate is placed between the lower side plates, and the I-shaped aluminum plate slot is arranged on the inner surface of the I-shaped aluminum upper side plate at the junction of the I-shaped aluminum upper side plate and the I-shaped aluminum middle support plate. The I-shaped aluminum plate slot is located at On both sides of the I-shaped aluminum middle support plate, an I-shaped aluminum plate slot is set on the inner surface of the I-shaped aluminum lower side plate where the I-shaped aluminum lower side plate and the lower end of the I-shaped aluminum middle support plate meet. Both sides of the middle support plate;

The three-dimensional connecting plate is provided with a straight plate of the three-dimensional connecting plate and a horizontal plate of the three-dimensional connecting plate to form a right-angled plate, and a convex groove of the three-dimensional connecting plate is arranged on the inner corner of the right-angled plate, and several Bolt connection holes;

The bottom beam is provided with a right-angled groove, and the right-angled groove of the bottom beam is connected with the convex groove of the three-dimensional connecting plate;

The ring beam is provided with a right-angled groove, and the right-angled groove of the ring beam is connected with the convex groove of the three-dimensional connecting plate;

When the I-shaped aluminum column is connected with the ring beam and the floating eaves or the fixed bracket of the railing, the three-dimensional connecting plate is installed on the inner corner of the I-shaped aluminum column and the ring beam, and is fastened by fixing bolts;

When the I-shaped aluminum column is connected to the bottom beam, the three-dimensional connecting plate is installed on the inner corner where the I-shaped aluminum column and the bottom beam are connected, and is fastened by fixing bolts;

When the I-shaped aluminum column is connected with the I-shaped aluminum beam, the three-dimensional connecting plate is installed and connected with the straight plate of the three-dimensional connecting plate and the horizontal plate of the three-dimensional connecting plate, and then fastened by fixing bolts;

When the I-shaped aluminum column is connected to the I-shaped aluminum bottom beam, the three-dimensional connecting plate is installed and connected with the straight plate of the three-dimensional connecting plate and the horizontal plate of the three-dimensional connecting plate, and then fastened by fixing bolts;

Two I-shaped aluminum columns are connected with I-shaped aluminum beams and I-shaped aluminum bottom beams through three-dimensional connecting plates to form an I-shaped aluminum structure frame. The beam and the I-shaped aluminum bottom beam are connected on the convex groove of the three-dimensional connecting plate, thus forming the I-shaped aluminum connection structure of the aluminum alloy room.

A reinforced backboard is arranged in the slot of the I-shaped aluminum column board.

The I-shaped aluminum connection structure of an aluminum alloy room according to the present invention is a connection structure formed of I-shaped aluminum and three-dimensional connecting plates produced by the aluminum alloy extrusion one-time forming manufacturing process, which has extremely strong stability and compression resistance, and can Transmitting bending moment is beneficial to resisting lateral force, and the overall structure has a small lateral displacement when subjected to lateral force without setting up reinforced oblique supports.

The I-shaped aluminum of the present invention is designed with plate slots and contact surfaces. According to different force conditions, when it is necessary to strengthen or partially strengthen the strength of the I-shaped aluminum, a reinforcing plate can be added at the position of the plate slot to meet the force requirements and reduce overall structural weight.

The design of the three-dimensional connecting plate of the present invention reduces the use of column and beam connecting parts and reduces the manufacturing cost. The three-dimensional connecting plate design solves the problem of integral installation of components in the X, Y, and Z directions.

The connection between the I-shaped aluminum column and the I-shaped aluminum beam, and the I-shaped aluminum column and the I-shaped aluminum bottom beam of the present invention is connected through the connection plane of the three-dimensional connecting plate to form the I-shaped aluminum structure frame. The ring beam and the bottom beam are inserted into the convex grooves of the three-dimensional connecting plate connected with the I-shaped aluminum column, the I-shaped aluminum beam and the I-shaped aluminum bottom beam. The I-shaped aluminum connection structure formed by each connecting piece realizes the simultaneous connection of three components in different directions. The bolts no longer play the role of force-bearing parts but only play the role of connecting and fixing, reducing the amount of bolts used.

The I-shaped aluminum connection structure of the aluminum alloy room of the present invention is used to form an aluminum alloy room with aluminum wall panels and roof panels, so that the overall structure of the aluminum alloy room has strong wind pressure resistance, high bending resistance, torsion resistance, Impact resistance and overall stability, with strong structural applicability, high bearing capacity, strong compression resistance, durability, long service life, anti-corrosion, easy processing, easy installation, easy maintenance, green products, simple installation, assembly efficiency Advanced advantages.

The manufacturing and processing of the I-shaped aluminum connection structure of the aluminum alloy house of the present invention are all completed in the factory according to the requirements, so there is no need for secondary cutting and cutting on site, and the construction site environment is safe, clean and tidy, and no construction waste is generated, fully achieving Green building construction standards.

The I-shaped aluminum connection structure of the aluminum alloy room of the present invention is all renewable aluminum alloy materials after disassembly, and the recovery rate of the dismantled aluminum alloy materials is over 87%, and the waste generated is very little, thereby saving resources and reducing costs. It complies with the national regulations on energy saving, environmental protection, low carbon and emission reduction for construction projects.

Description of drawings

Fig. 1 is a structural schematic diagram of an aluminum alloy house manufactured by applying the H-shaped aluminum connection structure of the present invention.

Fig. 2 is II sectional view among Fig. 1.

Figure 3 is a schematic cross-sectional view of the I-shaped aluminum.

Fig. 4 is a perspective view of the I-shaped aluminum structure.

Fig. 5 is a schematic cross-sectional view of a bottom beam or a ring beam.

Fig. 6 is a schematic structural diagram of a three-dimensional connecting plate.

Fig. 7 is a schematic diagram of the connection between the bottom beam and the three-dimensional connecting plate.

Fig. 8 is a structural schematic diagram of the connection between the ring beam and the three-dimensional connecting plate.

FIG. 9 is an enlarged schematic diagram of part A in FIG. 1 .

FIG. 10 is an enlarged schematic diagram of part B in FIG. 1 .

FIG. 11 is an enlarged schematic diagram of part C in FIG. 1 .

Fig. 12 is an enlarged partial right view of part A in Fig. 1 .

Fig. 13 is an enlarged right view of part B and part C in Fig. 1 .

Fig. 14 is an enlarged partial left view of part C in Fig. 1 .

Reference signs:

1 is the I-shaped aluminum plate, 101 is the I-shaped aluminum upper side plate, 102 is the I-shaped aluminum lower side plate, 103 is the I-shaped aluminum middle support plate, 104 is the I-shaped aluminum plate slot, and 105 is the I-shaped aluminum upper side plate baffle;

2 is the bottom beam, 3 is the ring beam, 4 is the I-shaped aluminum column, 5 is the fixed bracket of the floating eaves or railing, 6 is the I-shaped aluminum bottom beam, 8 is the I-shaped aluminum beam, 9 is the three-dimensional connecting plate, and 10 is the reinforcement Back plate, 11 is a fixing bolt, 14 is a convex groove of a three-dimensional connecting plate, 15 is a straight plate of a three-dimensional connecting plate, 16 is a bolt connecting hole, and 17 is a horizontal plate of a three-dimensional connecting plate;

A is part A of the aluminum alloy room, B is part B of the aluminum alloy room, and C is part C of the aluminum alloy room.

Detailed ways

The present invention will be described in detail below in conjunction with the accompanying drawings and embodiments.

Referring to Figures 1 to 6, the present invention provides an I-shaped aluminum connection structure for an aluminum alloy room, which mainly consists of I-shaped aluminum 1, bottom beam 2, ring beam 3, floating eaves or railing fixing bracket 5, and three-dimensional connecting plate 9 , I-shaped aluminum columns 4, I-shaped aluminum bottom beams 6 and I-shaped aluminum beams 8.

As shown in Figure 3 and Figure 4, the I-shaped aluminum 1 is provided with an I-shaped aluminum upper side plate 101, an I-shaped aluminum lower side plate 102 and an I-shaped aluminum middle support plate 103, and one end of the I-shaped aluminum upper side plate 101 is provided with an I-shaped aluminum upper side plate. Plate 105, the I-shaped aluminum middle support plate 103 is arranged between the I-shaped aluminum upper side plate 101 and the I-shaped aluminum lower side plate 102. An I-shaped aluminum plate slot 104 is arranged on the inner surface of the I-shaped aluminum upper side plate 101 where the upper end of the I-shaped aluminum upper side plate 101 and the upper end of the I-shaped aluminum middle support plate 103 meet. sides. An I-shaped aluminum plate slot 104 is arranged on the inner surface of the I-shaped aluminum lower side plate 102 where the I-shaped aluminum lower side plate 102 and the lower end of the I-shaped aluminum middle support plate 103 meet, and the I-shaped aluminum plate slot 104 is located at the I-shaped aluminum middle support plate 103 sides.

As shown in Figure 6, the three-dimensional connecting plate 9 is provided with a three-dimensional connecting plate straight plate 15 and a three-dimensional connecting plate horizontal plate 17 and constitutes a right-angled plate, and the inner corner of the right-angled plate is provided with a three-dimensional connecting plate convex groove 14, and the three-dimensional connecting plate convex groove 14 is a line Convex, located above the tip of the inner corner of the right-angled plate. Several bolt connection holes 16 are arranged on the surface of the straight plate 15 of the three-dimensional connecting plate and the horizontal plate 17 of the three-dimensional connecting plate.

Referring to FIG. 7 , the bottom beam 2 is provided with a right-angled groove, and the right-angled groove of the bottom beam is connected with the convex groove 14 of the three-dimensional connecting plate 9 .

Referring to FIG. 8 , the ring beam 3 is provided with a right-angled groove, and the right-angled groove of the ring beam is connected with the convex groove 14 of the three-dimensional connecting plate 9 .

Referring to Fig. 9, when the I-shaped aluminum column 4 is connected with the ring beam 3 and the floating eaves or railing fixing bracket 5, the three-dimensional connecting plate 9 is installed on the inner corner of the I-shaped aluminum column 4 and the ring beam 3, and fixed by the fixing bolt 11 Fasten.

Referring to FIG. 10 , when the I-shaped aluminum column 4 is connected to the bottom beam 2 , the three-dimensional connecting plate 9 is installed on the inner corner of the I-shaped aluminum column 4 and the bottom beam 2 , and is fastened by fixing bolts 11 . In order to strengthen the strength of the I-shaped aluminum column 4, a reinforced backboard 10 is installed in the slot of the I-shaped aluminum column 4.

Referring to Figure 11, the bottom beam 2 is connected to both sides of the I-shaped aluminum column 4, and the three-dimensional connecting plates 9 on both sides are respectively installed in the slots of the inner corners of the I-shaped aluminum column 4 and the bottom beam 2, and fixed bolts 11 Fasten.

Referring to Fig. 12, when the I-shaped aluminum column 4 is connected with the I-shaped aluminum beam 8, the three-dimensional connecting plate 9 is installed and connected with the three-dimensional connecting plate straight plate 15 and the three-dimensional connecting plate horizontal plate 17, and then tightened by the fixing bolt 11.

Referring to Figure 13, when the I-shaped aluminum column 4 is connected to the left I-shaped aluminum bottom beam 6, the three-dimensional connecting plate 9 is installed and connected with the straight plate 15 of the three-dimensional connecting plate and the horizontal plate 17 of the three-dimensional connecting plate, and then fastened by fixing bolts 11 .

Referring to Figure 14, when the I-shaped aluminum column 4 is connected to the right I-shaped aluminum bottom beam 6, the three-dimensional connecting plate 9 is installed and connected with the straight plate 15 of the three-dimensional connecting plate and the horizontal plate 17 of the three-dimensional connecting plate, and then fastened by fixing bolts 11 .

The two I-shaped aluminum columns 4 are connected with the I-shaped aluminum beam 8 and the I-shaped aluminum bottom beam 6 through the three-dimensional connecting plate 9 to form an I-shaped aluminum structure frame. The ring beam 3 and the bottom beam 2 are socketed in the The aluminum column 4, the I-shaped aluminum beam 8, and the I-shaped aluminum bottom beam 6 are connected to the three-dimensional connecting plate 9 on the convex groove 14, thereby forming the I-shaped aluminum connection structure of the aluminum alloy room.

Because the design and application of the three-dimensional connecting plate in the present invention solves the problem of integral installation of components in the directions of X, Y and Z axes, reduces the use of connecting parts for columns and beams, and reduces the manufacturing cost. Through the I-shaped aluminum connection structure formed by each connecting piece, the simultaneous connection of three components in different directions is realized, and then fixed by bolts, so it has high overall stability.

In summary, the I-shaped aluminum connection structure of the aluminum alloy room of the present invention adopts a connection structure composed of I-shaped aluminum, three-dimensional connecting plates and other components, which is beneficial to resist lateral force, and has strong structural applicability, high bearing capacity, and Strong pressure, durable, long service life, anti-corrosion, easy processing, easy installation, easy maintenance, green products, simple installation, high assembly efficiency, etc.

Of course, those skilled in the art should recognize that the above-mentioned embodiments are only used to illustrate the present invention, rather than to limit the present invention. , modification, etc. will all fall within the scope of the claims of the present invention.

Claims (2)

1. The utility model provides an I-shaped aluminium connection structure in aluminum alloy room, it includes floorbar (2), circle roof beam (3), eaves or railing fixed bolster (5), its characterized in that wafts: the structure also comprises an I-shaped aluminum (1), a three-dimensional connecting plate (9), I-shaped aluminum upright posts (4), I-shaped aluminum bottom beams (6) and I-shaped aluminum cross beams (8);

the I-shaped aluminum (1) is provided with an I-shaped aluminum upper side plate (101), an I-shaped aluminum lower side plate (102) and an I-shaped aluminum middle support plate (103), one end of the I-shaped aluminum upper side plate (101) is provided with an I-shaped aluminum upper side plate baffle (105), an I-shaped aluminum middle support plate (103) is arranged between the I-shaped aluminum upper side plate (101) and the I-shaped aluminum lower side plate (102), I-shaped aluminum plate slots (104) are formed in the inner surface of the I-shaped aluminum upper side plate (101) at the joint of the I-shaped aluminum upper side plate (101) and the upper end of the I-shaped aluminum middle support plate (103), the I-shaped aluminum plate slots (104) are formed in two sides of the I-shaped aluminum middle support plate (103), I-shaped aluminum plate slots (104) are formed in the inner surface of the I-shaped aluminum lower side plate (102) at the joint of the I-shaped aluminum lower side plate (102) and the I-shaped aluminum middle support plate (103), and the I-shaped;

the three-dimensional connecting plate (9) is provided with a three-dimensional connecting plate straight plate (15) and a three-dimensional connecting plate transverse plate (17) to form a right-angle plate, a three-dimensional connecting plate convex groove (14) is arranged at the inner corner of the right-angle plate, and a plurality of bolt connecting holes (16) are arranged on the surfaces of the three-dimensional connecting plate straight plate (15) and the three-dimensional connecting plate transverse plate (17);

the bottom beam (2) is provided with a right-angle groove which is connected with a convex groove (14) of the three-dimensional connecting plate (9);

the ring beam (3) is provided with a right-angle groove which is connected with a convex groove (14) of the three-dimensional connecting plate (9);

when the I-shaped aluminum upright post (4) is connected with the ring beam (3) and the eave or railing fixing bracket (5), the three-dimensional connecting plate (9) is arranged at the inner corner part of the I-shaped aluminum upright post (4) connected with the ring beam (3) and is fastened by the fixing bolt (11);

when the I-shaped aluminum upright post (4) is connected with the bottom beam (2), the three-dimensional connecting plate (9) is arranged at the inner corner part where the I-shaped aluminum upright post (4) is connected with the bottom beam (2) and is fastened by a fixing bolt (11);

when the I-shaped aluminum upright columns (4) are connected with the I-shaped aluminum cross beams (8), the I-shaped aluminum upright columns are connected with the three-dimensional connecting plate straight plates (15) and the three-dimensional connecting plate transverse plates (17) by mounting the three-dimensional connecting plates (9) and are fastened by fixing bolts (11);

when the I-shaped aluminum upright posts (4) are connected with the I-shaped aluminum bottom beam (6), the I-shaped aluminum upright posts are connected with a three-dimensional connecting plate straight plate (15) and a three-dimensional connecting plate transverse plate (17) by mounting a three-dimensional connecting plate (9), and then are fastened by fixing bolts (11);

two I-shaped aluminum upright posts (4) are connected with an I-shaped aluminum cross beam (8) and an I-shaped aluminum bottom beam (6) through a three-dimensional connecting plate (9) to form an I-shaped aluminum structure frame, and a ring beam (3) and the bottom beam (2) are inserted on a convex groove (14) of the three-dimensional connecting plate (9) connected with the I-shaped aluminum upright posts (4), the I-shaped aluminum cross beam (8) and the I-shaped aluminum bottom beam (6) to form an I-shaped aluminum connecting structure of an aluminum alloy house.

2. The i-shaped aluminum connection structure of an aluminum alloy room according to claim 1, characterized in that: and a reinforcing back plate (10) is arranged in the plate slot of the I-shaped aluminum upright post (4).