CN211229184U - Beam column structure of all-aluminum alloy house - Google Patents

Abstract

The utility model relates to a beam column structure in full aluminum alloy room, including I-shaped aluminium, first connecting plate, second connecting plate, first I-shaped aluminium stand, second I-shaped aluminium stand, I-shaped aluminium floorbar and I-shaped aluminium crossbeam. The middle support plate of the I-shaped aluminum is arranged between the upper side plate and the lower side plate, and the inner surfaces of the joints of the upper side plate, the lower side plate and the middle support plate are provided with plate slots which are positioned at two sides of the middle support plate. The first connecting plate is provided with an upper transverse plate and a straight plate, and an overhanging beam horizontally extends from the upper transverse plate at the connecting position of the upper transverse plate and the straight plate. The second connecting plate is a right-angle plate. The first I-shaped aluminum stand column and the second I-shaped aluminum stand column are respectively connected with the I-shaped aluminum cross beam and the I-shaped aluminum bottom beam through a first connecting plate and a second connecting plate, and the connecting plates are inserted into the I-shaped aluminum plate slots and are fastened by fixing bolts to form a beam column structure of the full aluminum alloy house. The utility model discloses higher bending resistance, antitorque performance, anti striking performance and whole steadiness have, the overall structure suitability is strong.

Description

Beam column structure of all-aluminum alloy house

Technical Field

The utility model belongs to the housing construction field, in particular to beam column structure in full aluminum alloy room.

Background

After the aluminum alloy material is welded, the mechanical strength of the aluminum alloy material is greatly reduced, so that bolt connection is mostly adopted for connection when manufacturing aluminum alloy structure houses. If need install railing or when the eaves of wafing, need to open a hole on the beam column and connect. The excessive beam column trompil can cause the reduction of beam column compressive strength, will guarantee not to reduce compressive strength, just must increase the vertical sectional area of material in order to improve the anti load capacity, and this has just increased the material volume, has increased the material use amount, causes manufacturing cost's increase.

In view of the above, those skilled in the art are dedicated to developing a novel beam-column structure of an aluminum alloy house to avoid the decrease of the load-resisting strength of the beam-column caused by the excessive bolt holes formed in the beam-column.

Disclosure of Invention

The utility model aims at providing a beam column structure in full aluminum alloy room, the I-shaped aluminium that adopts aluminum alloy extrusion manufacturing process to make passes through the novel structure that bolted connection formed with the connecting plate, through relevant adapting unit installation railing or the eaves that wafts on the cantilever beam, has avoided the beam column trompil too much and has influenced beam column intensity, has solved the problem that above-mentioned prior art exists.

The technical solution of the utility model is as follows:

a beam column structure of an all-aluminum alloy house comprises I-shaped aluminum, a first connecting plate, a second connecting plate, a first I-shaped aluminum upright post, a second I-shaped aluminum upright post, an I-shaped aluminum bottom beam and an I-shaped aluminum cross 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, 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, I-shaped aluminum plate slots are arranged on the inner surface of the I-shaped aluminum upper side plate at the joint of the I-shaped aluminum upper side plate and the upper end of the I-shaped aluminum middle support plate and are positioned on two sides of the I-shaped aluminum middle support plate, I-shaped aluminum plate slots are arranged on the inner surface of the I-shaped aluminum lower side plate at the joint of the I-shaped aluminum lower side plate and the lower end of the I-shaped aluminum middle support plate, and the I-shaped aluminum plate slots are;

the first connecting plate is provided with an upper transverse plate and a straight plate, and the upper transverse plate horizontally extends to form a cantilever beam at the connecting position of the upper transverse plate and the straight plate;

the second connecting plate is provided with a straight plate and a transverse plate to form a right-angle plate;

the first I-shaped aluminum upright is connected with the I-shaped aluminum cross beam through a first connecting plate, and the first connecting plate is inserted into I-shaped aluminum slots of the first I-shaped aluminum upright and the I-shaped aluminum cross beam and is fastened by a fixing bolt;

the first I-shaped aluminum upright column is connected with the I-shaped aluminum bottom beam through a second connecting plate, and the second connecting plate is inserted into the I-shaped aluminum plate slots of the first I-shaped aluminum upright column and the I-shaped aluminum bottom beam and is fastened by a fixing bolt;

the second I-shaped aluminum upright column is connected with the I-shaped aluminum cross beam through a first connecting plate, and the first connecting plate is inserted into I-shaped aluminum plate slots of the second I-shaped aluminum upright column and the I-shaped aluminum cross beam and is fastened by a fixing bolt;

the second I-shaped aluminum upright column is connected with the I-shaped aluminum bottom beam through a second connecting plate, and the second connecting plate is inserted into the I-shaped aluminum plate slots of the second I-shaped aluminum upright column and the I-shaped aluminum bottom beam and is fastened by a fixing bolt;

the first I-shaped aluminum upright column and the second I-shaped aluminum upright column are respectively connected with the I-shaped aluminum cross beam and the I-shaped aluminum bottom beam through the first connecting plate and the second connecting plate to form an I-shaped aluminum structure frame, and therefore the beam column structure of the all-aluminum alloy house is formed.

And a reinforcing plate is arranged at the slot position of the first I-shaped aluminum upright post plate.

And a reinforcing plate is arranged at the slot position of the second I-shaped aluminum upright post plate.

The utility model discloses a beam column structure in full aluminum alloy room is the I-shaped aluminium that adopts aluminum alloy extrusion manufacturing process to make and the novel structure through bolted connection with the connecting plate, through relevant adapting unit installation railing or the eaves that wafts on the cantilever beam, has avoided the beam column trompil too much and has influenced beam column intensity, has simultaneously that the bearing capacity is high, stability is good, sturdy and durable, anticorrosive, workable, easy installation, advantages such as easy maintenance, environmental protection.

The utility model provides an aluminum alloy I-shaped aluminium is connected the structure that forms with the connecting plate and has extremely strong stability ability and compressive property, and the cantilever beam of design has satisfied the railing of encorbelmenting on the connecting plate, has wafted eaves, the demand of diversified outside embellishment installation.

The I-shaped aluminum is provided with the plate slot, and according to different stress conditions, when the strength of the I-shaped aluminum is required to be enhanced or locally enhanced and the load capacity of the I-shaped aluminum is improved, the reinforcing plate can be added at the corresponding position of the I-shaped aluminum plate slot to enhance the strength of the I-shaped aluminum, improve the load of the I-shaped aluminum, meet the structural stress requirement and reduce the weight of the whole structure.

The I-shaped aluminum upright posts are connected with the I-shaped aluminum cross beam through the connecting plate, and the I-shaped aluminum upright posts are connected with the I-shaped aluminum bottom beam through the other connecting plate. The connecting plates are inserted into plate slots of the I-shaped aluminum upright columns, the I-shaped aluminum cross beams and the I-shaped aluminum bottom beams and are fixed by bolts to form the I-shaped aluminum structural frame.

Adopt the utility model discloses a beam column structure in full aluminum alloy room for full aluminum alloy room overall structure has higher bending resistance, antitorque performance, anti striking performance and whole steadiness, has that the structure suitability is strong, service life is long, characteristics such as product green, installation are simple, packaging efficiency height.

The utility model discloses a beam column structure's of full aluminum alloy room 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 a be aluminium alloy material that can regenerate after the beam column structure in full aluminium alloy room is dismantled, and the aluminium alloy material rate of recovery who pulls down reaches more than 90%, 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 building project.

Drawings

Fig. 1 is a schematic view of a beam column structure of an all aluminum alloy house of the present invention.

Fig. 2 is a schematic cross-sectional view of an i-shaped aluminum according to the present invention.

Fig. 3 is a schematic structural diagram of the first connecting plate of the present invention.

Fig. 4 is a schematic structural diagram of a second connecting plate in the present invention.

Fig. 5 is an enlarged partial schematic view of the detail a in fig. 1.

Fig. 6 is an enlarged partial schematic view of the detail B in fig. 1.

Reference numerals:

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

2, a first connecting plate, 21, a cantilever beam, 3, a first I-shaped aluminum upright post, 4, a second I-shaped aluminum upright post, 5, a second connecting plate, 6, an I-shaped aluminum bottom beam, 8 and 9, wherein the first connecting plate is a first connecting plate, the second connecting plate is a second connecting plate, the first I-shaped aluminum bottom beam is a first I-shaped aluminum bottom beam, and the first I-shaped aluminum bottom beam is a second;

a is local A of the aluminum alloy room, and B is local B of the aluminum alloy room.

Detailed Description

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

Referring to fig. 1 to 6, the utility model provides a beam column structure of full aluminum alloy room, it mainly comprises I-shaped aluminium 1, first connecting plate 2, second connecting plate 5, first I-shaped aluminium stand 3, second I-shaped aluminium stand 4, I-shaped aluminium floorbar 6 and I-shaped aluminium crossbeam 8.

As shown in fig. 2, 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 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 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, and the I-shaped aluminum plate slot 104' of the I-shaped aluminum upper side plate is located on two sides of the I-shaped aluminum middle support plate 103. An I-shaped aluminum plate slot 104 'is arranged on 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 lower end of the I-shaped aluminum middle support plate 103, and the I-shaped aluminum lower side plate I-shaped aluminum plate slot 104' is positioned on two sides of the I-shaped aluminum middle support plate 103.

As shown in fig. 3, the first link plate 2 is provided with an upper cross plate and a straight plate, and the upper cross plate extends a cantilever beam 21 in the horizontal direction at the connecting position of the upper cross plate and the straight plate.

As shown in fig. 4, the second connecting plate 5 is provided with a straight plate and a transverse plate and forms a right-angle plate.

As shown in fig. 5, the first i-shaped aluminum upright 3 is connected to the i-shaped aluminum cross beam 8 through the first connecting plate 2, and the first connecting plate 2 is inserted into the i-shaped aluminum plate slots 104 of the first i-shaped aluminum upright 3 and the i-shaped aluminum cross beam 8 and fastened by the fixing bolts 9. On the cantilever beam 21 of the first connection plate 2, a railing or a eaves can be mounted by means of the relevant connection parts.

The second I-shaped aluminum upright post 4 is connected with the I-shaped aluminum cross beam 8 through the first connecting plate 2, and the first connecting plate 2 is inserted into the I-shaped aluminum plate slots 104 of the second I-shaped aluminum upright post 4 and the I-shaped aluminum cross beam 8 and is fastened by the fixing bolt 9. On the cantilever beam 21 of the first connection plate 2, a railing or a eaves can be mounted by means of the relevant connection parts.

As shown in fig. 6, the first i-shaped aluminum upright 3 is connected with the i-shaped aluminum base beam 6 through the second connecting plate 5, and the second connecting plate 5 is inserted into the i-shaped aluminum plate slots 104 of the first i-shaped aluminum upright 3 and the i-shaped aluminum base beam 6 and is fastened by the fixing bolt 9.

The second I-shaped aluminum upright post 4 is connected with the I-shaped aluminum bottom beam 6 through a second connecting plate 5, and the second connecting plate 5 is inserted into the I-shaped aluminum plate slots 104 of the second I-shaped aluminum upright post 4 and the I-shaped aluminum bottom beam 6 and is fastened by the fixing bolt 9.

Referring to fig. 1 again, the first i-shaped aluminum upright 3 and the second i-shaped aluminum upright 4 are respectively connected with the i-shaped aluminum cross beam 8 and the i-shaped aluminum bottom beam 6 through the first connecting plate 2 and the second connecting plate 5 to form an i-shaped aluminum structural frame, so that a beam column structure of the all-aluminum alloy house is formed.

In order to strengthen the strength of the I-shaped aluminum upright column, a reinforcing plate is arranged at the position of a plate slot 3 of the first I-shaped aluminum upright column, and a reinforcing plate is also arranged at the position of a plate slot 4 of the second I-shaped aluminum upright column.

To sum up, the utility model discloses a beam column structure in full aluminum alloy room is the I-shaped aluminium that adopts aluminum alloy extrusion manufacturing process to make and the novel structure through bolted connection with the connecting plate, through relevant adapting unit installation railing or the eaves of wafing on the cantilever beam, has avoided the beam column trompil too much and has influenced beam column intensity, has simultaneously that the bearing capacity is high, stability is good, sturdy and durable, anticorrosive, workable, easy installation, advantage such as easy maintenance, environmental protection.

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 (3)

1. The utility model provides a beam column structure in full aluminum alloy room which characterized in that: the device comprises an I-shaped aluminum (1), a first connecting plate (2), a second connecting plate (5), a first I-shaped aluminum upright post (3), a second I-shaped aluminum upright post (4), an I-shaped aluminum bottom beam (6) and an I-shaped aluminum cross beam (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), 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) 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 slot (104 ') of the I-shaped aluminum upper side plate is positioned on two sides of the I-shaped aluminum middle support plate (103), an I-shaped aluminum plate slot (104 ') is arranged on 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 lower end of the I-shaped aluminum middle support plate (103), and the I-shaped aluminum plate;

the first connecting plate (2) is provided with an upper transverse plate and a straight plate, and the upper transverse plate horizontally extends to form a cantilever beam (21) at the connecting position of the upper transverse plate and the straight plate;

the second connecting plate (5) is provided with a straight plate and a transverse plate to form a right-angle plate;

the first I-shaped aluminum upright (3) is connected with the I-shaped aluminum cross beam (8) through a first connecting plate (2), and the first connecting plate (2) is inserted into I-shaped aluminum plate slots (104) of the first I-shaped aluminum upright (3) and the I-shaped aluminum cross beam (8) and is fastened by a fixing bolt (9);

the first I-shaped aluminum upright post (3) is connected with the I-shaped aluminum bottom beam (6) through a second connecting plate (5), and the second connecting plate (5) is inserted into an I-shaped aluminum plate slot (104) of the first I-shaped aluminum upright post (3) and the I-shaped aluminum bottom beam (6) and is fastened by a fixing bolt (9);

the second I-shaped aluminum upright post (4) is connected with the I-shaped aluminum cross beam (8) through a first connecting plate (2), and the first connecting plate (2) is inserted into an I-shaped aluminum plate slot (104) of the second I-shaped aluminum upright post (4) and the I-shaped aluminum cross beam (8) and is fastened by a fixing bolt (9);

the second I-shaped aluminum upright post (4) is connected with the I-shaped aluminum bottom beam (6) through a second connecting plate (5), and the second connecting plate (5) is inserted into an I-shaped aluminum plate slot (104) of the second I-shaped aluminum upright post (4) and the I-shaped aluminum bottom beam (6) and is fastened by a fixing bolt (9);

the first I-shaped aluminum upright post (3) and the second I-shaped aluminum upright post (4) are respectively connected with the I-shaped aluminum cross beam (8) and the I-shaped aluminum bottom beam (6) through the first connecting plate (2) and the second connecting plate (5) to form an I-shaped aluminum structure frame, and therefore a beam column structure of the all-aluminum alloy house is formed.

2. The beam column structure of the all-aluminum alloy house according to claim 1, wherein: and a reinforcing plate is arranged at the plate slot position of the first I-shaped aluminum upright post (3).

3. The beam column structure of the all-aluminum alloy house according to claim 1, wherein: and a reinforcing plate is arranged at the plate slot position of the second I-shaped aluminum upright post (4).

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