JP2022533659A - aluminum house structure - Google Patents

Abstract

It generates a house structure without using construction machinery, and consists of a set of parts that are used in various combinations according to the standards. This is possible because the parts are made entirely from aluminum alloys, resulting in weight savings and cost savings. An innovative system of assembly between parts ensures that only a few people can build the entire structure of your home in a practical and efficient manner. After construction of the structure, it is covered with staves of the same alloy that are attached to supports connected to the structure. All of this gives those who acquire this invention a legacy of quality, utility, aesthetics, and easy assembly at a low cost.

Description

Detailed description of the invention

[Technical field]
The present invention relates to a modular building system for houses working through a set of parts that make up the overall structure, which can be assembled by a few people without the need for heavy machinery and in a relatively short period of time. can be built with The structure is built around a "master" part that functions both vertically and horizontally and is fixed together with other parts that complete the structure. The invention applies to the construction industry.

[Background technology and technical problems to be solved]
The act of building a house has been around for a long time, but it has always required excessive labor, specialists, engineering expertise, cost, time, various materials, space, and maintenance of the house itself. Furthermore, these materials are impossible to use for most people who do not have the tools or the right knowledge, and ultimately all of these can take years to perfect and are self-explanatory. It is a big cost for a user who wants to build a house.

In recent years, the construction industry has attempted to combat this through prefabricated structures, usually made of concrete. However, it still requires specialized personnel, specific heavy machinery for assembly, time to prepare the parts, and curing of the materials. There is also the modular option for building buildings, but this usually requires the transportation of tons of material.

However, in recent years there has been a strong trend and movement in society for people to build their own, the famous 'Do It Yourself', which is best known in the furniture industry and requires no sophistication. This provided vast utility, greatly reduced transportation costs and low energy consumption, while maintaining the usefulness, quality and aesthetics of the object.

Similarly, we are trying to incorporate this trend into the assembly of mobile homes that are houses. Few people can build their own homes without knowledge or previous skills in the construction industry, in significantly less time, at a lower cost and with a higher quality than conventional systems. They are all made from materials that are easy to use, practical and deliverable to your home. In both, the use of aluminum throughout the structure prevents corrosion, reduces maintenance and is watertight, resulting in lower production times, lower weight in structure maneuverability, significantly more efficient durability and It is ideal for structural work with greatly reduced maintenance, etc., and can achieve all of these.

Applicant discloses a modular structural system via a grid structure consisting of multiple main parts, configured as beams and configured as pillars joined perpendicularly to each other by multiple joint parts. and among themselves constructs of very diverse nature from a series of parts that are easily manipulated and assembled by hand, without the need for heavy machinery, obtained from microconcrete or other similar moldable materials. 2018010566, which discloses a system that allows easy construction, so that the work is tasteless and requires no professional effort.

However, the construction of an aluminum house is more complex, inter alia, due to the need for water, energy, electrical and audio system services, which imposes more complexity on the house than a simple pavilion, which is ahead make it impossible for things to function as houses.

[Summary of Invention]
The structure of an aluminum house consists of an assembly of several parts, based on the main parts within the structure acting vertically as posts or columns and horizontally as beams, crossbars, ribs and/or curb chains. Invention. This main part is supported by several other parts assembled with other parts of the same type to reinforce the structure and keep expanding iteratively until the skeleton of the house is completed. After the structure is completed, two other parts are used with the rest of the structure to completely cover it and act as the facade of the house.

In the construction of an aluminum house, the part 1 or main part has four sides and rhomboidal corners, with four trapezoidal assemblies on each side, which can be fitted to the rest of the parts.

In aluminum house construction, the parts 1 or main parts are machined vertically as posts or columns and horizontally as beams, crossbars, ribs and/or curbs. This can be extended with the help of other parts to create a structural section larger than the original.

In the aluminum house construction, part 2 or vertical assemblies are joined at the corners and comprise two sides having a trapezoidal shape creating an angle of 90 degrees, both sides being fitted into the trapezoidal assemblies of the main part, Join two of them by their corners to create an "L" or "T" shape.

In aluminum house construction, part 2 or vertical assembly has two reinforcing parts on the inner surface, which create more pressure and stiffen the structure to avoid the main part from slipping.

In the construction of an aluminum house, the part 3 or transverse subassembly comprises two trapezoidal figures joined by its short sides, which weave together the two main parts transversely to produce a It also forms a larger structural section and can maintain more weight and pressure from the structure.

In the construction of an aluminum house, the part 4 or transverse assembly has a trapezoidal figure and is used to lengthen the structure by inserting it into the main part and joining them together.

In the construction of an aluminum house, the part 4 or side assembly can also act as a filler for the main part, thus eliminating the edges created by the trapezoidal assembly on each side of the main part.

In the construction of an aluminum house, the part 5 or transverse subassembly consists of two trapezoidal figures joined to their short sides in a transverse fashion, which are inserted into the main parts to join each other's main parts. Used to join with and form a vertical figure or cross. This prevents the part from sliding out and secures the part in place.

In aluminum house construction, the part 6 or cover part has a rectangular figure with three anchors on the back, two with flanges and the third straight. These tabs hold the first tab in place and mate with clamping pieces that create the facade of the house.

The aluminum house structure, part 6 or cover part creates the overall appearance of the house, makes it impermeable, gives great resistance to weather elements and greatly reduces maintenance costs.

In the construction of an aluminum house, the part 7 or clamping part has a rectangular shape and has two anchors on the front side where the cover part is placed.

In aluminum house construction, the part 7 or clamp part is placed with the rest of the structure and fixed to it through an anchor system without the need to hold it in place using heavy machinery.

In an aluminum house construction, the interior of the structure can be lined with staves of different materials that serve as walls and floors, these materials can be leather, wood, rock, marble, among others.

In aluminum house construction, the internal staves are set in place through a fastener system without the need for heavy machinery to hold them in place.

In aluminum house construction, all parts are aluminum, and in the almost perfect majority of which do not require screws for the assembly of the parts, so few people without qualifications or knowledge in the construction area can build heavy A house structure can be built completely without machines. This will allow them to complete the house in just a few months.

Finally, thanks to the fact that all the parts are part of the same construction for the aluminum house object of the invention, they are lightweight, easy to handle and can be packed into container boxes. Packaged, they can be easily shipped over roads, even to remote locations.

[Brief description of the drawing]
FIG. 1 shows a three-dimensional representation of a part 1 or main part from an isometric view.

2 shows part 1 or main part, seen in cross section; FIG.

FIG. 3 shows three-dimensionally the part 2 or vertical assembly from an isometric view.

FIG. 4 shows the part 2 or vertical assembly three-dimensionally from a second isometric perspective.

FIG. 5 shows three-dimensionally the part 2 or vertical assembly from a third isometric view.

FIG. 6 shows three-dimensionally the part 2 or the vertical assembly from the perspective of the fourth isometric.

FIG. 7 shows two-dimensionally the part 2 or vertical assembly from a rear view.

FIG. 8 shows two-dimensionally the part 2 or vertical assembly from a top view.

FIG. 9 shows two-dimensionally the part 2 or the vertical assembly, seen from the side, with the screws inserted into it.

FIG. 10 shows two-dimensionally the part 2 or vertical assembly seen from the front.

FIG. 11 shows two-dimensionally the part 2 or the vertical assembly seen from below.

FIG. 12 shows the trapezoidal shape of the corners of part 2 or vertical assembly, viewed in cross section.

FIG. 13 shows the internal contour of a corner of part 2 or a vertical assembly, viewed in cross section.

[Fig. 14] Two-dimensional representation of the shape of the inner surface of the part 2 or the vertical assembly, seen from the rear.

FIG. 15 shows the shape of the inner surface of the part 2 or the vertical assembly, seen in cross section, showing the spaces for the screws with the screws inserted into them.

FIG. 16 shows the inner contour of part 2 or vertical assembly, viewed from the front;

[FIG. 17] Shows the shape of the inner surface of the part 2 or the vertical assembly, viewed from the front, and the space for arranging the screws.

FIG. 18 shows the shape of the inner surface of the trapezoidal part of part 2 or vertical assembly, viewed from the front;

FIG. 19 shows two-dimensionally the shape of the inner surface of part 2 or vertical assembly from a lower perspective.

FIG. 20 shows three-dimensionally the part 3 or transverse assembly from an isometric view.

FIG. 21 shows part 3 or a transverse assembly from a transverse perspective;

FIG. 22 shows three-dimensionally the part 4 or transverse assembly from an isometric view.

FIG. 23 shows part 4 or a transverse assembly from a transverse perspective;

FIG. 24 shows a part 5 or cross-connected part three-dimensionally from an isometric view.

FIG. 25 shows part 5 or cross-connected part three-dimensionally from a second isometric view.

FIG. 26 shows three-dimensionally the part 5 or the cross-linked part from a third scale point of view.

Figure 27 shows the part 5 or cross-coupled part seen from above.

FIG. 28 shows the part 5 or cross-coupled part seen from the side;

Figure 29 shows the part 5 or cross-linked part seen from the second side;

Figure 30 shows the part 5 or the cross-linked part seen from the third side;

Figure 31 shows the part 5 or cross-connected part seen from the fourth side;

FIG. 32 shows the three dimensional assembly of part 1 or main part and part 2 or vertical assembly showing how they fit together vertically.

FIG. 33 shows the three-dimensional assembly of part 1 or main part and part 2 or vertical assembly, showing the already assembled parts and how they fit horizontally.

FIG. 34 shows part 1 or main part and part 2 or vertical assembly seen from above.

FIG. 35 shows part 1 or main part and part 2 or vertical assembly seen in transverse direction.

FIG. 36 shows part 1 or main part and part 2 or vertical assembly seen from the front.

FIG. 37 shows the three-dimensional assembly of part 1 or main part and part 3 or transverse assembly to show how they fit vertically.

FIG. 38 shows the two-dimensional assembly, viewed from above, of the central part 1 or main part, part 3 or transverse assembly and six part 4 or part 4 or side assemblies; .

FIG. 39 shows the three-dimensional assembly of part 1 or main part and part 4 or side assembly, showing how they fit longitudinally.

FIG. 40 shows the two-dimensional assembly of part 1 or main part and four parts 4 or side assemblies seen from above.

FIG. 41 shows the three-dimensional assembly of the two parts 1 or main part and part 5 or cross-connected parts and how they fit together.

FIG. 42 shows an x-ray view of the three-dimensional assembly of the two parts 1 or main part and part 5 or cross-connected part, showing how they fit together.

FIG. 43 shows the two-dimensional assembly of part 1 or main part and part 5 or cross-connected part seen from above.

FIG. 44 shows the two-dimensional assembly of part 1 or main part and part 5 or cross-connection part seen from the side.

FIG. 45 shows the two-dimensional assembly of part 1 or main part and part 5 or cross-connected part, viewed from the front.

FIG. 46 shows the part 6 or the cover part three-dimensionally from an isometric view.

FIG. 47 shows the part 7 or the clamping part three-dimensionally from an isometric view.

[Fig. 48] Two-dimensional side view of part 6 or cover part.

[Fig. 49] Two-dimensional side view of part 7 or clamping part.

FIG. 50 shows two-dimensionally how two parts 6 or cover parts are attached to two parts 7 or clamp parts. These are then fixed by screws to the insulator and part 1 or main part.

FIG. 51 shows two-dimensionally how the four parts 6 or cover parts are attached to the four parts 7 or clamp parts. These are then fixed by screws to the insulator and part 1 or main part and part 4 or side assembly.

FIG. 52 shows three-dimensionally how part 6 or cover part is fixed to part 7 or clamp part and how this is later placed on top of two parts 1 or main part. It also shows the final result of assembly.

Reference numbers in the drawings correspond to:
1 part 1 or main part 2 trapezoid assembly 3 diagonal face 4 straight face 5 diamond corner 6 inner support line 7 internal square hole 8 diamond square hole 9 part 2 or vertical assembly 10 trapezoid face connecting with trapezoid assembly 11 90 Degree angle 12 screw hole 13 side hole 14 square hole 15 screw viewed from side 16 vertical view of screw 17 x-ray view of screw hole 18 part 3 or transverse assembly 19 diagonal side 20 vertex 21 horizontal side 22 bond Line 23 Trapezoidal hole 24 Part 4 or side assembly 25 Diagonal side 26 Long horizontal surface 27 Short horizontal surface 28 Trapezoidal hole 29 Part 5 or cross-joint piece 30 Bottom surface 31 Top surface 32 Lower trapezoidal surface 33 Upper trapezoidal surface 34 Lower horizontal surface 35 Top horizontal surface 36 part 6 or cover part 37 rear upper anchor 38 rear upper clamp gap 39 rear lower anchor 40 rear lower clamp gap 41 rear straight tab 42 rear clamp slit 43 front tightening tab 44 part 7 or clamp part 45 upper tab 46 upper cleavage 47 bottom tab 48 bottom gap 49 clamp screw 50 insulator [Mode for Carrying Out the Invention]
As described and seen in the drawings, the object of the present invention is the construction of an aluminum house, which is made up of seven parts assembled by a system of assemblies of parts 1 or main parts, in this construction the columns or vertically as columns and horizontally as beams, crossbars, ribs and/or fencing chains. This forms the overall structure of the house, which is made entirely of aluminum. Due to their light weight, these parts can be shipped in containers for their storage while the structure is completed.

This system of aluminum house construction consists of a number of parts 1 or main parts (1), which have a rectangular shape with four sides, all of which are trapezoidal assemblies (2) and It has rhombus angles (5). The inner face of the part has inner support lines (6) which give the part greater rigidity and leave holes in both the inner face squares (7) and diamonds (8).

The trapezoidal assembly (2) is formed by two diagonal faces (3) and a straight face (4) with space for the fitting of the remaining parts.

To assemble the structure, the parts 1 or main parts (1) should be attached in the following way:
One or two parts 2 used to fix the trapezoidal assembly (2) or the vertical assembly (9) are used to create corners or to assemble in a vertical shape.

To form a structural section larger than the original, the part 3 or transverse assembly (18) must be fixed to the trapezoidal assembly (2).

The longitudinal joining of two parts 1 or main parts (1) requires the use of multiple parts 4 or transverse assemblies in the trapezoidal assembly (2).

Part 5 or cross-joint part (29) to join the two parts 1 or main part (1) vertically and mount one on top of the second part to prevent the part from slipping out of place must be used.

Part (2) or vertical assembly (9) has an "L" shape thanks to its 90 degree corner (11), it has two sides with a trapezoidal shape (10), which has been described above so that it is inserted into the trapezoidal assembly (2) of part 1 or main part (1). The vertical assembly has two holes (12) for screws that create more pressure to stiffen the structure. In addition, the part has four side holes (13) and one square hole (14) on each side of the part. Screws (15) and (16) are inserted into stud holes (12).

This allows holding multiple parts 1 or the main part (1) in different ways: horizontally vertically, horizontally horizontally and vice versa.

Part 3 or transverse assembly (18) has the shape of a rectangle with four concave sides (19) with vertices in the center (20) and two straight sides (21), from above: It is seen as two trapezoids (23) joined by its short sides (22).

This assembles the two parts 1 or main part (1) transversely to form a larger structural shape, placing part 3 or transverse assembly (18) within the lateral assembly (2). , which creates greater resistance, bearing capacity, and pressure resistance within the structure. These can be attached one by one to expand the structural form for the time required to produce the required shape.

The part 4 or side assembly (24) has a trapezoidal hollow shape (28) using its sides, two diagonals (25), one length (26) and one shortness (27) Enter trapezoidal assembly (2).

Part 4 or transverse assembly joins two parts 1 or main part (1) for different functions and allows the structure to grow vertically and horizontally, which means that these parts (24 ) into the lateral assembly (2).

The part 5 or cross-joint part (29) has the characteristic shape of two trapezoids similar to an ingot, the upper part 31 and the lower part 30 being joined by the middle of their rear faces. The upper surface (31) consists of its trapezoidal surface (33) with two recesses and two smooth side surfaces (35), the lower surface (30) with its smooth trapezoidal surface (32) and two recesses. its sides (34).

Part 5 or cross-joint part joins two parts 1 or main part vertically, leaving one above the other, giving a "T" or "L" shape when viewed from above. Each face, top (31) and bottom (30), is inserted and penetrated into the lateral assembly (2). This part not only puts in part 1 or the main part position, but also prevents the part from slipping out of place, thereby creating great stability in the structure.

To use part 1 or main part (1) vertically, either place it in a concrete donor (not shown in the drawing or numbered) that levels the part depending on where it is planned to be placed, or Or use part 2 or vertical assembly (9) through the side assembly (2) of the part. Those building the structure slide one or several parts 4 or side assemblies (24) on each side to give greater support to the new part 1 or main part (1) extending the structure. Let It is also possible to slide the part 2 or the vertical assembly (9) if it needs to be stretched in another direction.

To use part 1 or main part (1) horizontally, connect it to part 2 or vertical assembly (9) that allows the structure to start growing in that direction. Continued lengthening of the structural component requires the use of one or more components. In order for these parts to support the new part 1 or the main part (1) to a greater extent, among others four parts on each side or side assemblies (24) are used.

To use part 1 or main part (1) vertically, connect it to part 5 or cross-connecting part (29) that grows the structure in four opposite directions. In order to continue to extend the structural part, several parts must be used, among them part 4 or side assemblies to give greater support to the new part 1 or main part (1) (24) should be used for each face.

In order to use part 1 or main part (1) in the transverse direction, two of said parts must be put together with part 3 or transverse assembly (18), whereby the above mentioned Increasing the thickness of the structural forms that can be used vertically, horizontally or even vertically as in.

To fill the remaining side assembly (2) of the part 1 or main part (1), one or more parts 4 or side assemblies (24) must be placed on the inner surface of the assembly (2). This assembly must in turn produce a smooth finish.

Part 6 or cover part (36) has a rectangular shape and has perfectly smooth surfaces, except for a small front clamping flange (43) at the front. There are four protrusions on the dorsal side of the part, the first being the upper dorsal anchor (37) which creates a gap (38) followed by the lower dorsal anchor which also creates its own gap (40). (39) and the third projection is a clamping groove (42) into which the straight clamping flange (41) and the front clamping flange (43) fit.

Part 6 or cover part (36), when attached to part 7 or clamping part (44), passes through its upper part (37), lower part (39) to not only cover the insulator (50), but also straight It is used to completely cover the assembled structure while maintaining the distance to the shaped flange (41). Part 6 or cover part (36) protects the house from weather such as sun, rain, wind, and objects that can be blown away by the wind itself.

Part 7 or clamping part (44) has a characteristic rectangular shape with a top tab (45) followed by a cleave (46) and in front has a bottom tab 47 with a gap 48 formed therein. These tabs and gaps are for holding the part 6 or cover part (36) in place.

Part 7 or clamping part (44) is used to hold part 6 or cover part (36), upper posterior anchor (37) inserted into upper cleavage (46) and lower posterior anchor (39) to lower It is inserted into the gap (48). Then, via screws (49) passing through insulators (50) and other parts, generally part 1 or main part (1) and part 4 or side assembly (24), part 7 or clamping part (44). ) to the rest of the structure.

The exterior cladding of the house consists of a number of units of parts 6 or cover parts (36), parts 7 or clamp parts (44) and insulators (50), held in place using screws (49). to form a front face that holds all parts in place.

The interior cladding of the house consists of several panels (or parts not shown in the drawing) forming staves made of various materials (leather, wood, marble, bedrock, among others) and these parts are Fixed using screws.

Finally, the invention should not be limited to the embodiments seen herein. Persons of ordinary skill in the art may develop other embodiments based on the above description. For this reason the scope of the invention is found in the following claims.

From an isometric perspective, the part 1 or the main part is shown three-dimensionally. Figure 1 shows part 1 or the main part seen in cross section. From an isometric perspective, the part 2 or vertical assembly is shown three-dimensionally. Part 2 or vertical assembly is shown three-dimensionally from a second isometric view. Part 2 or vertical assembly is shown three-dimensionally from a third isometric view. Part 2 or vertical assembly is shown three-dimensionally from the perspective of the fourth isometric rectangle. 2D shows part 2 or a vertical assembly from a rear view. Part 2 or vertical assembly is shown two-dimensionally from a top perspective. Figure 2 shows part 2 or a vertical assembly two-dimensionally with screws inserted into it, seen from the side. 2D shows part 2 or a vertical assembly viewed from the front. 2D shows part 2 or a vertical assembly viewed from below. Figure 2 shows the trapezoidal shape of the corners of part 2 or the vertical assembly viewed in cross section. Fig. 2 shows the corner inner surface shape of part 2 or vertical assembly, viewed in cross section; Figure 2 shows two-dimensionally the shape of the inner surface of part 2 or a vertical assembly, viewed from the rear; Figure 2 shows the shape of the inner surface of the part 2 or vertical assembly seen in cross section and shows the spaces for the screws with the screws inserted into them. Figure 2 shows the inner surface profile of part 2 or vertical assembly, viewed from the front; Figure 2 shows the shape of the inner surface of part 2 or the vertical assembly and the space for arranging the screws, viewed from the front. Figure 2 shows the shape of the inner surface of the trapezoidal part of the part 2 or the vertical assembly seen from the front; From a lower perspective, the shape of the inner surface of part 2 or vertical assembly is shown two-dimensionally. From an isometric perspective, the part 3 or transverse assembly is shown three-dimensionally. From a transverse perspective, the part 3 or transverse assembly is shown. From an isometric perspective, the part 4 or transverse assembly is shown three-dimensionally. From a transverse perspective, a part 4 or a transverse assembly is shown. From an isometric view, the parts 5 or cross-connected parts are shown three-dimensionally. From a second isometric perspective, the parts 5 or cross-connected parts are shown three-dimensionally. From the perspective of a third scale, the parts 5 or cross-connected parts are shown three-dimensionally. Shown are parts 5 or cross-linked parts, viewed from above. Fig. 5 shows a part 5 or a cross-linked part seen from the side; Fig. 5 shows the part 5 or the cross-linked part seen from the second side; Fig. 5 shows the part 5 or the cross-linked part seen from the third side; Figure 4 shows part 5 or cross-connected part seen from the fourth side. Figure 3 shows the three dimensional assembly of part 1 or main part and part 2 or vertical assembly to show how they fit together vertically. Figure 3 shows the three-dimensional assembly of part 1 or main part and part 2 or vertical assembly, showing the already assembled parts and how they fit horizontally. Figure 1 shows part 1 or main part and part 2 or vertical assembly seen from above. Figure 1 shows part 1 or main part and part 2 or vertical assembly seen in transverse direction. Part 1 or main part and part 2 or vertical assembly are shown from the front. The three-dimensional assembly of part 1 or main part and part 3 or transverse assembly is shown to show how they fit vertically. 2D assembly, seen from above, of the central part 1 or main part, part 3 or transverse assembly and six part 4 or part 4 or side assemblies. Figure 3 shows the three-dimensional assembly of part 1 or main part and part 4 or side assembly and how they fit longitudinally. 2D assembly of part 1 or main part and four parts 4 or side assemblies seen from above. It shows the three-dimensional assembly of two parts 1 or main part and part 5 or cross-connected parts and shows how they fit together. Figure 3 shows an x-ray view of the three-dimensional assembly of the two parts 1 or main part and part 5 or cross-connected part, showing how they fit together. 2D assembly of part 1, or main part, and part 5, or cross-connected part, seen from above. Figure 2 shows the two-dimensional assembly of part 1 or main part and part 5 or cross-connected part seen from the side; 2D assembly of part 1, or main part, and part 5, or cross-connected part, viewed from the front. From an isometric perspective, the part 6 or cover part is shown three-dimensionally. From an isometric perspective, the part 7 or the clamping part is shown three-dimensionally. The side view of part 6 or cover part is shown two-dimensionally. A side view of the part 7 or clamping part is shown two-dimensionally. It shows two-dimensionally how two parts 6 or cover parts are attached to two parts 7 or clamp parts. These are then fixed by screws to the insulator and part 1 or main part. It shows two-dimensionally how the four parts 6 or cover parts are attached to the four parts 7 or clamp parts. These are then fixed by screws to the insulator and part 1 or main part and part 4 or side assembly. 3D shows how a part 6 or a cover part is fixed to a part 7 or a clamping part, which is later placed on top of the two parts 1 or main parts. It also shows the final result of assembly.

Claims (9)

Consists of a structure produced by multiple parts 1 or main parts (1) that can be used vertically as posts or columns and horizontally as beams, crossbars, ribs and/or fencing chains, trapezoidal subassemblies ( 2) the structure of the aluminum house joined together by the remaining parts fitted together, comprising:
All parts are made of aluminum alloy,
The various parts supporting part 1 or main part (1) are part 2 or transverse assembly (18), part 4 or side assembly (24), part 5 or cross-connection part (29), part 6 or covering part (36) and part 7 or clamping part (44),
less weight of parts
Easy to transport parts
An aluminum house structure characterized by: Aluminum house structure according to claim 1, in which the part 1 or main part (1), which is a rectangular part with four sides, has four trapezoidal assemblies (2) and four rhombic corners (5) and inside said parts internal support lines (6) to give said parts greater rigidity are provided leaving holes in both the internal squares (7) and diamonds (8). , aluminum house structure. Aluminum house construction according to claim 1, wherein the part 2 or vertical assembly (9) has an "L" shape due to the 90 degree corners (11) of said part, and as before: Part 1 or the trapezoidal assembly (2) of the main part (1), which has two sides with a trapezoidal shape (10) and is inserted into the part 2 or the vertical assembly (9), to reinforce the structure There are two holes (12) for screws that generate more pressure, and there are four holes (13) and one square hole (14) on both sides of the part, the structure Construction of an aluminum house in which a part (1) is cornered by holding it at right angles to another part (1) or the main part (1). Aluminum house construction according to claim 1, wherein the transverse assembly (18) has four concave sides (19) with apex at the center (20) and two straight sides (21). and from the top appear as two trapezoids (23) joined by shorter sides (22), the structure being divided into two parts 1 or An aluminum house structure provided to hold the main part (1). Aluminum house construction according to claim 1, wherein the part 4 or the side assembly (24) comprises the side of the part, two diagonals (25), one length (26) and one short Structure of an aluminum house with a trapezoidal hollow shape (28) holding two parts 1 or the main part (1) with (27) and allowing the structure to grow both vertically and/or horizontally. Aluminum house structure according to claim 1, wherein the part 5 or the cross-connecting part (29) has a characteristic shape of two trapezoids similar to an ingot, the upper part (31) and the lower part (30) , are joined in the middle of their rear surfaces, the upper surface (31) consisting of two recessed trapezoidal surfaces (33) and two smooth side surfaces (35), and the lower surface (30) being smooth trapezoidal. Composed of a face (32) and a side face (34) with two recesses, the structure holds the two parts 1 or main part (1) vertically, leaving one above the other and from above An aluminum house structure that, when viewed, takes the shape of a "T" or "L". Aluminum house construction according to claim 1, wherein the part 6 or cover part (36) has a rectangular shape and has a perfectly smooth surface except for a small front clamping flange (43) on the front. with four protrusions on the dorsal side of the part, the first being the upper dorsal anchor (37) which creates a gap (38) followed by the lower one which also creates its own gap (40) a rear anchor (39), the third projection being a straight clamping flange (41) and a clamping groove (42) in which the front clamping flange (43) fits, said projection comprising: An aluminum house construction provided to be fixed in part 7 or clamping part (44) through anchors in upper part (37) and lower part (39). Aluminum house construction according to claim 1, wherein the part 7 or clamp (44) has a characteristic rectangular shape with an upper tab (45) followed by a cleavage (46) and in front , has bottom tabs (47) with gaps (48) formed therein, these tabs and gaps are for holding the part 6 or the cover part (36) in place and the upper back anchors (37 ) is inserted into the upper cleavage (46), the lower dorsal anchor (39) is inserted into the lower gap (48), then part 7 or part of the clamping part (44) is threaded through the screw (49) into the rest of the structure. An aluminum house structure that is fixed to a portion of the Aluminum house construction according to claim 5, wherein the part 4 or side assembly (24) is used to fill the part 1 or said assembly (2) of the main part (1); The part 4 or side assembly (24) can be incorporated into the part 1 to be filled or the main part (1) to create a smooth finish in the construction of an aluminum house.

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