CN109024923B

CN109024923B - Quick mounting structure of aluminum alloy modularization house

Info

Publication number: CN109024923B
Application number: CN201810905360.4A
Authority: CN
Inventors: 邝海峰
Original assignee: Aluhouse Technology Gd Co ltd
Current assignee: Aluhouse Technology Gd Co ltd
Priority date: 2018-08-10
Filing date: 2018-08-10
Publication date: 2024-03-08
Anticipated expiration: 2038-08-10
Also published as: CN109024923A

Abstract

The invention relates to a rapid installation structure of an aluminum alloy modularized house, which comprises a module A, a module B and more than one middle module C, wherein the modules are connected through splicing materials. The splice material is an arcuate body, the upper and lower sides of the arcuate body are respectively provided with an upper locking rib and a lower locking rib, the upper locking rib is provided with an upper connecting rib, a position, close to the upper locking rib, on the upper connecting rib is provided with a stop block, the rear parts of the upper and lower sides of the arcuate body are provided with reinforcing ribs, and the middle part of the arcuate body is provided with a bolt hole. The module A and the middle module C are connected at the joint of the top and the bottom through splicing materials, and an aluminum roof board is installed above the splicing materials. The middle module C and the module B are connected at the joint of the top and the bottom through splicing materials, and an aluminum roof board is installed above the splicing materials. The invention divides the large-area aluminum alloy house into a plurality of module houses, the size of the house module is controlled in a transportable range, and the problem of integral transportation of the large-area aluminum alloy house is solved.

Description

Quick mounting structure of aluminum alloy modularization house

Technical Field

The invention belongs to the field of building structures, and particularly relates to a quick installation structure of an aluminum alloy modularized house.

Background

The aluminum alloy house has high anti-seismic and wind resistance, good corrosion resistance, fire resistance, water resistance and moisture resistance, fashionable house shape and stable structure, and is rapidly developed in the assembled building industry. However, the aluminum alloy houses with large area and large volume cannot be transported as a whole due to the requirements of national transportation regulations and the limitations of transportation means.

For this reason, those skilled in the art have been working to develop a quick installation structure of an aluminum alloy house modular house to solve the problems existing in the prior art.

Disclosure of Invention

The invention aims to provide a rapid installation structure of an aluminum alloy modularized house, which divides an aluminum alloy house with a larger area into a plurality of module houses, controls the size of house modules in a transportable range, solves the problem of integral transportation of the larger aluminum alloy house, meets the requirements of aluminum alloy houses with different areas in a flexible assembly mode, can assemble one middle module house according to the different requirements of the areas, and can also assemble a plurality of middle module houses to meet the use requirements of users.

The technical scheme of the invention is as follows:

a rapid installation structure of an aluminum alloy modularized house comprises a module A, a module B and more than one middle module C, wherein the modules are connected through a splicing material I;

the splicing material I is an arch body, an upper locking rib and a lower locking rib are respectively arranged on the upper side and the lower side of the arch body, an upper connecting rib is arranged on the upper locking rib, a supporting block is arranged on the upper connecting rib close to the upper locking rib, reinforcing ribs are arranged at the rear parts of the upper side and the lower side of the arch body, and bolt holes are formed in the middle part of the arch body;

the module A is connected with the middle module C at the joint of the top through a first splicing material, the first splicing material is arranged among the module beam, the upright post, the secondary beam and the beam, locking ribs on the upper side and the lower side of the first splicing material are buckled on the secondary beam and are fixed on the secondary beam by screws on the upper locking ribs, meanwhile, the module beam, the upright post, the secondary beam and the beam are connected and fixed by bolts, and an aluminum roof panel I and an aluminum roof panel II are arranged above the first splicing material;

the module A is connected with the middle module C at the bottom joint through a first splicing material, the first splicing material is arranged among the module bottom beam, the upright post, the secondary bottom beam and the bottom beam, locking ribs on the upper side and the lower side of the first splicing material are buckled on the secondary bottom beam, and the module bottom beam, the upright post, the secondary bottom beam and the bottom beam are fixedly connected through bolts;

the middle module C is connected with the module B at the joint of the top through a first splicing material, the first splicing material is arranged among the module beam, the upright post, the secondary beam and the beam, locking ribs on the upper side and the lower side of the first splicing material are buckled on the secondary beam and are fixed on the secondary beam by screws on the upper locking ribs, meanwhile, the module beam, the upright post, the secondary beam and the beam are fixedly connected by bolts, and an aluminum roof panel II and an aluminum roof panel I are arranged above the first splicing material;

the middle module C is connected with the module B at the joint of the bottom through a first splicing material, the first splicing material is arranged between the module bottom beam, the upright post, the secondary bottom beam and the bottom beam, locking ribs on the upper side and the lower side of the first splicing material are buckled on the secondary bottom beam, and the module bottom beam is fixedly connected with the upright post, the secondary bottom beam and the bottom beam through bolts.

The aluminum alloy modularized house rapid installation structure further comprises a second splicing material;

the splicing material II is an arch body, an upper locking rib and a lower locking rib are respectively arranged on the upper side and the lower side of the arch body, an upper connecting rib is arranged on the upper connecting rib, a supporting block is arranged at a position close to the upper locking rib, rib connecting parts of the upper locking rib and the lower locking rib are respectively arranged in a protruding mode towards the middle, a boss is formed at the joint of the rib connecting parts and the rib supporting parts, reinforcing ribs are arranged at the rear parts of the upper side and the lower side of the arch body, and bolt holes are formed in the middle part of the arch body;

the middle module C is connected with the middle module C at the top through a first splicing material and a second splicing material, the first splicing material and the second splicing material are arranged between a module beam, an upright post, a secondary beam and a beam, locking ribs on the upper side and the lower side of the first splicing material are buckled on one side of the secondary beam, locking ribs on the upper side and the lower side of the second splicing material are buckled on the other side of the secondary beam, so that the upper locking rib and the lower locking rib of the first splicing material are respectively pressed on the upper locking rib and the lower locking rib of the second splicing material, the upper locking rib of the first splicing material, the lower locking rib of the second splicing material and the lower locking rib of the second splicing material are respectively connected and fixed on the secondary beam by bolts, and meanwhile, the module beam is fixedly connected with the upright post and the secondary beam by bolts, and an aluminum panel II and an aluminum roof panel I are arranged above the first splicing material and the second splicing material;

the middle module C is connected with the middle module C at the bottom joint through two first splicing materials, the first splicing materials are arranged on two sides of the secondary bottom beam, locking ribs on the upper side and the lower side of the first splicing materials are buckled on the secondary bottom beam, and the module bottom beam, the upright post and the secondary bottom beam are connected and fixed through bolts.

And a waterproof material group is arranged between the first aluminum roof plate and the second aluminum roof plate.

The waterproof material group is a foam sealing strip, silicone adhesive and an aluminum alloy layering.

The aluminum alloy modularized house rapid installation structure divides an aluminum alloy house with a larger area into a plurality of modular houses, and the size of the house modules is controlled in a transportable range. All modules are manufactured in factories and are assembled in advance and then sent to a construction site for installation, so that the site does not need to be cut, cut or re-drilled again, the construction environment is safe, clean and tidy, and the environment meets the green assembly type building construction standard.

The splicing mode of the splicing structure of the aluminum alloy modularized house is flexible and convenient, the connecting rigidity is high after splicing, the water and moisture proofing are realized, waterproof material groups such as foam sealing strips, silicone adhesive and aluminum alloy battens are adopted in the splicing seam of the roof, the waterproof capacity of the roof is improved, and the water tightness of the roof is ensured.

The flexible assembling mode of the aluminum alloy modularized house meets the requirements of aluminum alloy houses with different areas, one middle module house can be assembled according to the different requirements of the areas, and a plurality of middle module houses can be assembled to meet the use requirements of users.

Drawings

Fig. 1 is a schematic view of a quick installation structure of an aluminum alloy modular house according to the present invention.

Fig. 2 is an enlarged schematic view of the structure of fig. 1A.

Fig. 3 is an enlarged schematic view of the structure of fig. 1B.

Fig. 4 is an enlarged schematic view of the structure of fig. 1C.

Fig. 5 is an enlarged schematic view of the structure of fig. 1D.

Fig. 6 is an enlarged schematic view of the structure of fig. 1E.

Fig. 7 is an enlarged schematic view of the structure of fig. 1F.

Fig. 8 is a schematic structural view of a splice one.

Fig. 9 is a schematic structural diagram of a second splice.

Reference numerals:

1 is a stand column, 2 is a cross beam, 3 is a secondary cross beam, 4 is a bottom beam, 5 is a secondary bottom beam, 6 is a bolt, 7 is a screw, 8 is a module beam, and 9 is a module bottom beam;

10 is a splicing material I, 101 is an upper locking rib, 102 is a lower locking rib, 103 is an upper connecting rib, 104 is a reinforcing rib, 105 is a bolt hole, and 106 is a stop block;

11 is a splicing material II, 111 is an upper locking rib, 112 is a lower locking rib, 113 is an upper connecting rib, 114 is a reinforcing rib, 115 is a bolt hole, and 116 is a stop block;

12 is an aluminum roof panel I or an aluminum decorative board I, 13 is an aluminum roof panel II or an aluminum decorative board II, and 14 is a waterproof material group;

a is a module A, B is a module B, C1 is an intermediate module I, C2 is an intermediate module II, and C3 is an intermediate module III.

Detailed Description

The invention is described in detail below with reference to the drawings and examples.

Referring to fig. 1 to 7, the invention provides a quick installation structure of an aluminum alloy modularized house, which mainly comprises a module A, a module B and a middle module C, wherein the middle module C can be divided into a middle module C1, a middle module C2 and a middle module C3, and the modules are connected through a splicing material I10.

Referring to fig. 8, the first splicing material 10 is an arcuate body, and an upper locking rib 101 and a lower locking rib 102 are respectively arranged on the upper side and the lower side of the arcuate body. The upper locking rib 101 is provided with an upper connecting rib 103, and a stop block 106 is arranged on the upper connecting rib 103 close to the upper locking rib 101. The rear parts of the upper side and the lower side of the bow are provided with reinforcing ribs 104. The middle portion of the arcuate body is provided with a bolt hole 105.

As shown in fig. 2, the top connection of the module a and the middle module C in fig. 1 is connected by a first splice material 10, and the first splice material 10 is installed among the module beam 8, the upright 1, the secondary cross beam 3 and the cross beam 2. The upper and lower side locking ribs of the first splicing material 10 are buckled on the secondary cross beam 3, the upper locking rib 101 is fixed on the secondary cross beam 3 through the screw 7, and meanwhile, the module beam 8 is fixedly connected with the upright post 1, the secondary cross beam 3 and the cross beam 2 through the bolts 6. An aluminum roof board I12 and an aluminum roof board II 13 are arranged above the splicing material I10, and a waterproof material group 14 is arranged between the aluminum roof board I12 and the aluminum roof board II 13. The waterproof material group 14 is a foam sealing strip, silicone adhesive and an aluminum alloy layering, so that the waterproof capacity of the roof can be improved, and the roof can be ensured to be watertight.

As shown in fig. 3, the bottom connection of the module a and the middle module C in the position B in fig. 1 is connected by a first splice material 10, and the first splice material 10 is installed between the module bottom beam 9, the upright post 1, the secondary bottom beam 5 and the bottom beam 4. The upper side and the lower side of the first splicing material 10 are buckled on the secondary bottom beam 5, and the module bottom beam 9 is fixedly connected with the upright column 1, the secondary bottom beam 5 and the bottom beam 4 by bolts 6.

As shown in fig. 6, the top connection of the middle module C and the module B in fig. 1E is connected by a first splice material 10, and the first splice material 10 is installed between the module beam 8, the upright 1, the secondary cross beam 3 and the cross beam 2. The upper and lower side locking ribs of the first splicing material 10 are buckled on the secondary cross beam 3, the upper locking rib 101 is fixed on the secondary cross beam 3 through the screw 7, and meanwhile, the module beam 8 is fixedly connected with the upright post 1, the secondary cross beam 3 and the cross beam 2 through the bolts 6. An aluminum roof board II 13 and an aluminum roof board I12 are arranged above the first splicing material 10, and a waterproof material group 14 is arranged between the aluminum roof board I12 and the aluminum roof board II 13.

As shown in fig. 7, the bottom connection of the middle module C and the module B at the position F in fig. 1 is connected by a first splice material 10, and the first splice material 10 is installed between the module bottom beam 9, the upright post 1, the secondary bottom beam 5 and the bottom beam 4. The upper side and the lower side of the first splicing material 10 are buckled on the secondary bottom beam 5, and the module bottom beam 9 is fixedly connected with the upright column 1, the secondary bottom beam 5 and the bottom beam 4 by bolts 6.

Referring to fig. 9, the aluminum alloy modularized house rapid installation structure is further provided with a second splicing material 11. The second splicing material 11 is an arch body, and an upper locking rib 111 and a lower locking rib 112 are respectively arranged on the upper side and the lower side of the arch body. The upper locking rib 111 is provided with an upper connecting rib 113, and a stop block 116 is arranged on the upper connecting rib 113 near the upper locking rib 111. As shown in fig. 9, the rib connecting portions of the upper and lower locking ribs 111 and 112 are each provided to protrude toward the middle such that the rib connecting portions and the rib supporting portions form bosses at the junctions. The upper and lower sides of the arch are provided with reinforcing ribs 114 at the rear. The middle portion of the arcuate body is provided with a bolt hole 115.

As shown in fig. 4, the connection part of the top of the middle module C1 and the middle module C2 in the position C in fig. 1 is connected through a first splicing material 10 and a second splicing material 11, and the first splicing material 10 and the second splicing material 11 are installed among the module beam 8, the upright post 1, the secondary cross beam 3 and the cross beam 2. When the first splicing material 10 is connected with the second splicing material 11, the locking ribs on the upper side and the lower side of the first splicing material 10 are buckled on one side of the secondary cross beam 3, the locking ribs on the upper side and the lower side of the second splicing material 11 are buckled on the other side of the secondary cross beam 3, so that the upper locking rib 101 and the lower locking rib 102 of the first splicing material 10 are respectively pressed on the upper locking rib 111 and the lower locking rib 112 of the second splicing material 11, the upper locking rib 101 of the first splicing material, the upper locking rib 111 of the second splicing material, the lower locking rib 102 of the splicing material and the lower locking rib 112 of the second splicing material are respectively connected and fixed on the secondary cross beam 3 through bolts 6, and meanwhile, the module beam 8 is connected and fixed with the upright 1 and the secondary cross beam 3. An aluminum roof board II 13 and an aluminum roof board I12 are arranged above the splicing material I10 and the splicing material II 11, and a waterproof material group 14 is arranged between the aluminum roof board I12 and the aluminum roof board II 13.

As shown in fig. 5, the bottom connection part of the middle module C1 and the middle module C2 in the position D in fig. 1 is connected by two first splicing materials 10, the first two splicing materials 10 are installed on two sides of the secondary bottom beam 5, locking ribs on the upper side and the lower side of the first two splicing materials 10 are buckled on the secondary bottom beam 5, and the module bottom beam 9 is connected and fixed with the upright column 1 and the secondary bottom beam 5 by bolts 6.

The aluminum alloy modularized house quick installation mode provided by the invention is as follows:

when the module is installed from right to left, the module A is fixed first, the needed middle modules C are installed in sequence, and the module B is installed finally. The module house is connected and fixed with the secondary beam and the secondary bottom beam by bolts, and the aluminum roof panel or the aluminum decorative plate is connected and fixed with the secondary beam by screws.

When the module is installed from left to right, the module B is fixed first, the required middle modules C are installed in sequence, and the module A is installed finally. The module house is connected and fixed with the secondary beam and the secondary bottom beam by bolts, and the aluminum roof panel or the aluminum decorative plate is connected and fixed with the secondary beam by screws.

In summary, the aluminum alloy modularized house quick installation structure divides an aluminum alloy house with a larger area into a plurality of module houses, the size of the house module is controlled in a transportable range, the problem of integral transportation of the larger aluminum alloy house is solved, the flexible assembly mode meets the requirements of aluminum alloy houses with different areas, one middle module house can be assembled according to the different requirements of the areas, and a plurality of middle module houses can be assembled to meet the use requirements of users.

Of course, those skilled in the art will recognize that the above-described embodiments are for illustrative purposes only and are not meant to be limiting, as variations, modifications, etc. of the above-described embodiments will fall within the scope of the appended claims, as long as they are within the true spirit of the invention.

Claims

1. An aluminum alloy modularization house swiftly mounting structure which characterized in that: the device comprises a module A, a module B and more than one middle module C, wherein the modules are connected through a splicing material I (10);

the splicing material I (10) is an arch body, an upper locking rib (101) and a lower locking rib (102) are respectively arranged on the upper side and the lower side of the arch body, an upper connecting rib (103) is arranged on the upper locking rib (101), a supporting block (106) is arranged on the upper connecting rib (103) close to the upper locking rib (101), reinforcing ribs (104) are arranged at the rear parts of the upper side and the lower side of the arch body, and bolt holes (105) are formed in the middle part of the arch body;

the module A is connected with the middle module C at the top through a first splicing material (10), the first splicing material (10) is arranged between the module beam (8), the upright post (1) and the secondary beam (3) and the beam (2), locking ribs on the upper side and the lower side of the first splicing material (10) are buckled on the secondary beam (3), the upper locking rib (101) is fixed on the secondary beam (3) through a screw (7), the module beam (8) is connected and fixed with the upright post (1), the secondary beam (3) and the beam (2) through a screw (6), and an aluminum roof panel I (12) and an aluminum roof panel II (13) are arranged above the first splicing material (10);

the module A is connected with the middle module C at the bottom joint through a first splicing material (10), the first splicing material (10) is arranged between the module bottom beam (9), the upright post (1), the secondary bottom beam (5) and the bottom beam (4), locking ribs on the upper side and the lower side of the first splicing material (10) are buckled on the secondary bottom beam (5), and the module bottom beam (9) is fixedly connected with the upright post (1), the secondary bottom beam (5) and the bottom beam (4) through bolts (6);

the middle module C is connected with the module B at the joint of the top through a first splicing material (10), the first splicing material (10) is arranged between the module beam (8), the upright post (1) and the secondary beam (3) and the beam (2), locking ribs on the upper side and the lower side of the first splicing material (10) are buckled on the secondary beam (3), the upper locking rib (101) is fixed on the secondary beam (3) through a screw (7), the module beam (8) is connected and fixed with the upright post (1), the secondary beam (3) and the beam (2) through a screw (6), and an aluminum roof panel II (13) and an aluminum roof panel I (12) are arranged above the first splicing material (10);

the middle module C is connected with the module B at the bottom joint through a first splicing material (10), the first splicing material (10) is arranged between the module bottom beam (9), the upright post (1), the secondary bottom beam (5) and the bottom beam (4), locking ribs on the upper side and the lower side of the first splicing material (10) are buckled on the secondary bottom beam (5), and the module bottom beam (9) is fixedly connected with the upright post (1), the secondary bottom beam (5) and the bottom beam (4) through bolts (6);

the aluminum alloy modularized house rapid installation structure further comprises a second splicing material (11);

the splicing material II (11) is an arch body, an upper locking rib (111) and a lower locking rib (112) are respectively arranged on the upper side and the lower side of the arch body, an upper connecting rib (113) is arranged on the upper locking rib (111), a supporting block (116) is arranged on the upper connecting rib (113) close to the upper locking rib (111), rib connecting parts of the upper locking rib (111) and the lower locking rib (112) are respectively arranged in a protruding mode towards the middle, a boss is formed at the joint of the rib connecting parts and the rib supporting parts, reinforcing ribs (114) are arranged at the rear portions of the upper side and the lower side of the arch body, and bolt holes (115) are formed in the middle of the arch body;

the middle module C is connected with the middle module C at the top through a first splicing material (10) and a second splicing material (11), the first splicing material (10) and the second splicing material (11) are arranged between a module beam (8), an upright post (1) and a secondary cross beam (3), the upper side and the lower side of the first splicing material (10) are buckled on one side of the secondary cross beam (3), the upper side and the lower side of the second splicing material (11) are buckled on the other side of the secondary cross beam (3), so that the upper locking rib (101) and the lower locking rib (102) of the first splicing material (10) are respectively pressed on the upper locking rib (111) and the lower locking rib (112) of the second splicing material (11), the first splicing material upper locking rib (101), the second splicing material upper locking rib (111) and the second splicing material lower locking rib (102) are respectively connected and fixed on the secondary cross beam (3) through bolts (6), and the module beam (8) is connected with the upright post (1) and the second splicing material lower locking rib (112) and the aluminum panel (12) is fixedly arranged on the first splicing material and the second aluminum panel (11);

the middle module C is connected with the middle module C at the bottom joint through two first splicing materials (10), the two first splicing materials (10) are arranged on two sides of the secondary bottom beam (5), locking ribs on the upper side and the lower side of the two first splicing materials (10) are buckled on the secondary bottom beam (5), and the module bottom beam (9) is fixedly connected with the upright post (1) and the secondary bottom beam (5) through bolts (6).

2. The aluminum alloy modular house quick-mounting structure according to claim 1, wherein: a waterproof material group (14) is arranged between the first aluminum roof panel (12) and the second aluminum roof panel (13).

3. The aluminum alloy modular house quick-mounting structure according to claim 2, wherein: the waterproof material group (14) is a foam sealing strip, silicone adhesive and an aluminum alloy layering.