RO133883A0 - Modular construction - Google Patents

Abstract

The invention relates to a detachable, convertible and transportable modular construction meant for civil constructions or buildings with socio-cultural, administrative, commercial, industrial or agricultural destination. According to the invention, the construction consists of frames, beams and thermo-insulating panels, starting from the universal constant f = 1.618, length per width ratio, and establishing ratios of 5/3, 8/5 or 6.5/4 between the constructive elements and the final resulting dimensions of the built space, the construction consisting of several dimensionally standardized metallic modules (M), each module being made of some interchangeable component elements (1, 2 and 3) mechanically connected to each other on the Ox, Oy and Oz axes, a module (M) consisting of two frames (A) connected through some connecting beams (4) and making up a volume which is the building built space, determining a length (p) (L:1.618) used to generate the built space of the building, a developed built surface being defined as a multiple of (s), with a span (d), a multiple of (d) (L:1.618) and with a height (h) as a multiple of (h) (L).

Description

The invention relates to a modular, demountable, transformable and transportable construction, intended for the realization of civil constructions or buildings with sociocultural, administrative, commercial, industrial or agricultural destinations. The dimensions and proportions of the constructive elements start from a universal constant f = 1.61, which is also the basis for establishing proportions between the constructive elements and the final resulting dimensions of the built space.

At present, in most cases, the buildings are permanently linked to the land on which they are located, their relocation to another location being impossible or very difficult, and the release of the land is done with irreparable loss or destruction. They are generally part of the category of demolition buildings.

There is also the possibility of modular housing, which offers the possibility to be moved from one location to another. But these housings, made of modules, do not allow a disassembly and components and for placement and assembly, due to the high volume and weight, special equipment is needed for assembly, placement, loading or unloading. As a result, such buildings cannot be transported.

Another category of buildings is rigid buildings. They are made of standard construction elements that do not allow the increase or decrease of the built-up area built, by adding or removing construction parts, a subsequent superimposition or a subdivision.

RO 120982 discloses a set of elements for the construction of a modular construction with a steel load-bearing frame, comprising four columns and four horizontal load-bearing elements, made of sheet metal profiles, connecting elements, connecting corners of the pillars and support, mounted with screws ,.

RO 132720 discloses a prefabricated cell unit on a structure made of metal profiles for constructions composed of a metal structure consisting of independent panels for each face, respectively floor, ceiling and side faces, panels made of steel sheet profiles and type profiles U, type C and braces fixed to each other with screws.

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04/09/2019 in document RO 132927 is presented a structure for constructions, removable from plastic pipes and tubes, joined by sockets, assembled by inserting the elements into each other.

These types of structures do not respect a universal constant in establishing proportions between the constructive elements and the final resulting dimensions of the built space, do not present an increased resistance specific to a civil or industrial building and do not allow a transformation through the interchangeability of components.

The containers presented in DE 2907397 and GB 2252986 are made of metal components, rigidly fixed by clamping elements or by welding, which can no longer be dismantled and which do not make it possible to increase or decrease the construction area by relocating or removing elements. components.

These types of constructions do not allow them to be dismantled into standard components, the construction can allow the transformation and repositioning of components, totally or partially modifying the building plan by repositioning components and exchanging standardized elements, and last but not least disassemble and store temporarily in containers or for the transport and relocation of that construction.

The technical problem solved by the invention consists in the realization of a modular construction starting from the universal constant f - 1,618 (ratio between length and width) in establishing proportions of 5/3, 8/5 or 6,5 / 4, between the elements construction and the resulting dimensions, final of the built space, the component elements being interchangeable, mechanically connected to each other on the axes Ox, Oy and Oz, directly on the location of the building that can be dismantled, transformed, transported and reassembled in other locations.

The modular construction according to the claimed invention solves the proposed technical problem, in that it starts from the universal constant f - 1,618 (ratio between length and width) and to the establishment of proportions of 5/3, 8/5 or 6,5 / 4 between the elements construction and the resulting dimensions, final of the built space, construction consisting of several dimensionally standardized metal modules, each module being made of 2019 00533

04/09/2019 of interchangeable components, mechanically connected to each other on the axes Ox, Oy and Oz, a module being composed of two frames connected by connecting beams and determining a volume that constitutes the built space of the building, determining a step with which generates the built-up space of the building, a developed built-up area s, defined as a multiple of s, with an opening d, a multiple of d and a height h, as a multiple of h, a frame consisting of a pair of beams, a pair of pillars and some L-shaped joints, which interact with the inside of the beams and pillars, two frames being connected by connecting beams to form a module, closed on the outside and inside with thermal insulation panels supported by a secondary structure forming the floor and ventilated facades the roof structure being made of thermal insulation panels between which are mounted alternately slabs and ridges.

The modular construction has the following advantages:

- consists of standardized components;

- does not require complex assembly technologies;

- reduction of production costs;

- optimizing the necessary materials;

- involves the use of automated means of production.

The following is an embodiment of the invention in connection with figures 1 ... 31, which represent:

Fig. 1 Beam or pillar view;

Fig. 2 Joint view;

Fig. 3 View of the joint;

Fig. 4 Joint joint view with a beam and a pillar;

Fig. 5 View module;

Fig. 6 Detail of fastening and fixing connecting beams between two frames;

Fig. 7 Floating floor view and connecting beams;

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Fig. 8 Floating floor detail;

Fig. 9 Foundation element view;

Fig.10 Module clamping view on the foundation elements;

Fig.11 View of floor mounting and floor panels in a module;

Fig.12 closing the module with light exterior panels;

Fig.13 View of secondary structure;

Fig.14 Roof strength structure;

Fig.15 Mounting the resistance structure on a module;

Fig. 16 Roof structure;

Fig.17 Arrangement of mounds and ridges in the roof structure;

Fig.18 View of ventilated walls;

Fig.19 Connection board between two adjacent modules;

Fig.20 Principle of framework formation;

Fig.21 Principle of module formation;

Fig.22 Horizontal and vertical module connection

Fig.23 closing the module with panels;

Fig.24 Secondary structure arrangement

Fig.25 closure with panels arranged on the secondary structure;

Fig.26 Braces;

Fjg.27 closing module, inside with panels;

Fjg.28 View ventilated walls;

Fig.29 Ventilated facades;

Fig.30 Interchangeability of elements on a module;

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Fig.31 The proportions of a module and the interior space;

The modular construction is composed of components that form the resistance structure, beams, pillars, braces, joints and fasteners, which by joining form a frame A that takes over all the static and dynamic loads of the construction and is calculated and dimensioned from the point of view. view of the strength depending on the material, dimensions and destination of the construction. An important role in the calculation of strength will also have the geographical area in which the construction will be located.

A frame A consists of a pair of beams 1 and a pair of columns 2, joined together by joints 3. A beam 1 is made of rectangular welded rolled steel pipe, with dimensions: 100 mm x 200 mm, thickness 6 mm or 4 mm and will have a length of L x 1,618 preferably a length of 5,000 mm.

A column 2 has a length equal to L so that the construction according to the invention starts from the universal constant f - 1,618 (ratio between length and width) and to the establishment of proportions between the constructive elements and the final resulting dimensions of the built space, for example 5/3 , 8/5 or 6.5 / 4. The beam is made of rectangular rolled steel pipe, welded with dimensions: 100 mm x 150 mm, thickness 5 mm and will preferably have a length of 3,000 mm.

Materials that can be used are: laminated wood, rectangular steel or aluminum pipe, type I profiles, profiles that are cold rolled, firm, composite profiles, galvanized, painted or primed. The materials will be chosen according to the destination of the construction: civil, industrial, agricultural.

A beam 1 is made of rectangular rolled steel pipe, welded which has a different thickness depending on its positioning in the upper or lower frame A. Preferably, the beams 1 arranged at the top are made of 6 mm thick pipe and those arranged at the bottom of the 4 mm thick pipe.

The posts 2 are also made of rectangular pipe made of rolled steel, welded with a thickness preferably of 5 mm.

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The joints 3 have the shape of the letter L and are made of two sheets of 3 'rolled steel sheet, joined together by 3 "pipe elements, welded and arranged four on each side of the joint. The beams 1 have on the inner surfaces, welded some AP fins, provided with holes, to catch the rest of the components of the construction. Joints 3 participate in the stiffening of frame A functioning as bracing elements. The assembly is mechanical and is done with screws and nuts of appropriate lengths, not shown.

By connecting two frames A through connecting beams 4 supported by the fins AP, a structural module M is defined which determines a volume and which can constitute the built space of the building, determining the step p (L: l, 618) with which the built space is generated of the building. The developed built area will be defined as a multiple of s, the opening as a multiple of d (Lxl, 618) and the height as a multiple of h (L).

Two or more modules M can be connected to each other in any direction x, y, z. The connection of the M modules on the x and z axes is made by PC connection boards at the level of the frame joints.

Connecting the structural modules M on the y axis is the way to generate the built space that becomes the volume of the building. It goes without saying that this volume can be closed and compartmentalized. The other types of connections, on the x or z axis, are used to model the building according to the needs, destination and urban coefficients of the site.

The resistance calculation will take into account the coefficients for a single module, which will also be valid if several structural modules are connected, the only exception being the situation where the modules are connected on the z axis, the limit being a maximum of three modules. .

Light panels T can be used to close a structural module M, which can be the thermal insulation and the waterproofing itself. Panels 6 can be special for walls, roof, glazed panels or panels for access doors.

The panels are fixed to the M module by classical mechanical systems.

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The T-panels are identical in size and fastening system to the structure of the M module, and can be changed between them. Panels containing glazed surfaces, movable glazing, fixed glazing or access doors shall have the same dimensions as the closing panels or with a multiple of 2 and 3 in height. In this way, a glazed area can be replaced with wall-type panels and vice versa, without the need for other modifications, apart from the assembly-disassembly operations.

A closed modular structure with panels with various functions, will offer flexibility to the buildings made on the construction system disclosed in the present invention.

The modular building according to the invention also has a secondary structure 7.

It has only the role of supporting the closing panels T, it has no structural role, being able to be arranged in several positions depending on the solutions adopted for closing, as shown in Fig. 13.

An M module also has bracing 8. These are standardized elements and their number and arrangement will be defined according to the strength design of each building. The position of these bracing 8 can only be done through a new resistance project.

The floating floor P of an M module completely eliminates the need for classic solutions: concrete, screeds, boards, etc. The floating floor P is secured to the resistance structure by main and secondary connecting beams 9 and mechanical fasteners. The beams 9 are arranged so as to form a grid. Thus the vibration and elasticity of the floor is very low.

On the outside, the floor P is closed with thermal insulation panels T with polyurethane foam and inside with the same type of panels with a smooth face, over which can be mounted the floor finish or an intermediate layer of material resistant to concentrated loads, to avoid layer deformation of thermal insulation panel. The air between the two panels is an additional insulating layer.

Inside, the structure of a module M is closed with thermal insulation panels T arranged preferably horizontally and / or vertically, obtaining flat surfaces either on the floor, ceiling or walls, so as to allow easy installation of 2019 00533

04/09/2019 to any type of conventional finish, such as laminate flooring, flooring, fiber cement boards, drywall, paneling, ceramic wall and floor tiles, natural stone tiles, etc. Depending on the panels chosen for closure, they can remain with their own finish, for example polyurethane foam panels with a smooth face and hidden joint, electrostatically painted in different RAL colors.

the closing of the ceiling is made on a light structure SU mounted perimeter on the walls and supported centrally by flanges B fixed on the beams 9.

The finishes applied to the interior closing panels are prefabricated, they are made in a controlled environment, where all the technological processes recommended by the supplier can be followed and applied, so that the quality of the chosen finishing solution can be guaranteed. Thus, the construction offers almost all the possibilities of personalizing a home, making it possible to use unconventional finishing materials or interior design solutions for ceilings and light box walls, decorating with stickers, etc.

The fastening of the thermal insulation panels T is of mechanical type with self-tapping screws on the lightweight SU structure made of cold profiled galvanized sheet metal profiles or directly on the main structure.

The closing system of the structure with thermal insulation panels T both outside and inside is designed to maximize the efficiency of the thermal insulation capacity of the panels, adding a volume of air generated by the space in which the structure is contained. This volume of air is insulated from the outside in a controlled manner by means of G vents.

G-type adjustable drawer vents can be arranged at the bottom and top of the construction. Thus, the space between the thermal insulation panels T can be completely closed in winter but forcibly recirculated, creating a circuit from the floor P to the ceiling reducing the heat transfer to the outside through the phenomenon of washing radiant surfaces or can be opened in summer , capturing cooler air from under the building and removing it as it heats up on the roof.

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04/09/2019 in any of the situations, heating or cooling the construction according to the invention, on the principle of double walls forming an air cushion, significantly reduces energy consumption.

The space between the exterior and interior panels that enclose and comprise the resistance structure of the construction according to the invention are also intended for the installation of INS water supply and electricity installations, as well as for the discharge of wastewater. All of these are placed above the ceiling closing panels where they are arranged horizontally, then being lowered vertically exactly in the position in which the sanitary objects, the lighting objects or the sockets are positioned. This way of locating the installations will allow the access to them to be made easy, without destroying the finishes and in a very short time.

The ventilated facade F has the role of exterior finishing and a functional role, namely that of protecting the thermal insulation panels T from water and solar radiation, thus increasing the life of the components of the building. At the same time, it prevents the heating of the panels exposed to the sun by shading them and ventilating the air between the ventilated facade system F and the T panels.

The finishes of the ventilated facade F are multiple: fiber cement boards, thin plasters, ceramic tiles, HDF, treated wood, stone, electrostatically painted sheet metal, alucobond, mesh, glass, hard PVC tiles or other materials.

Depending on the chosen variant of covering the modular construction according to the invention, the waterproofing is made of thermal insulation panels TA for roof with prominent ribs n arranged transversely which are mounted under a slope of min 7%, on a resistance structure SA1 and SA2 made of pipe rectangular U-shaped welded steel, with free wings ul and u2, of different heights, wings ul with heights of up to 350 mm, for example, and wings u2 with lower heights, for example of 100 mm. The wings ul are provided with flat strips 10 for mechanical attachment to the structure of the module.

between two SA1 resistance structures arranged diametrically opposite, two SA2 structures are mounted between the latter, being mounted under the roof panels TA, dolia D which takes the water and directs it to the sides of the building, for evacuation.

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Dolia D is designed as a gutter and does not need a slope and its waterproofing is done with pvc metering liner, especially for waterproofing.

When several M modules are connected to the side, ridges C are mounted over the TA roof panels. The space between the interior closure and the TA roof panels comprises a volume of air that acts as a thermal insulator and can be easily controlled by recirculation.

Cold profiled sheet metal enclosures will be installed on all sides of the building to connect the waterproofing between the T-type wall panels and the TA roof panels. These elements are standardized and are mounted with self-tapping screws.

The compartmentalization of the construction is made with thermal insulation panels T, mounted in each of the desired compartment and in certain situations between the two T panels a sound insulation layer of specific sound-absorbing materials can be used.

The fixing on the ground of the frames A, respectively of the formed M modules is adapted to the field situation. in the case of a concrete platform, the fixing is done by means of PP steel blocks that are anchored in concrete, in the situation when a concrete screed type foundation is desired or recommended.

For a ground with normal grounding ground, AF grounding anchors can be used. For situations in which the geo study and the resistance project recommend other solutions, a variety of foundations or foundation elements already known can be adapted: perimeters, glasses, pillars, etc.

Given the rather low mass of the construction according to the invention, compared to the conventional ones, the most convenient solution for anchoring the structure in the ground, described in this embodiment and shown in Figures 9-11, is the use of AF anchors that can be assembled and disassembled, respectively can be recovered and reused. AF anchors support weights of more than 3.5 tonnes in compression or pull-out, per element. The foundation depth exceeds 1 m, the current norm for soil freezing limit. the load on each frame A can be distributed on 3 to 5 elements. The anchors are protected against rust with successive layers of paint or bitumen and have a very long life, not being exposed to water and air.

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The embodiment of the modular construction according to the invention applies to several types of materials. Variants and combinations of materials are merely applications of the invention as defined above and do not limit the scope of the invention.

For the resistance structure can be used materials such as: laminated wood, steel or aluminum-rectangular pipe, type I profiles, cold rolled profiles, trusses, composite profiles, galvanized, painted or primed.

For closures you can use: polyurethane foam or basalt mineral wool panels, polystyrene panels, coffered panels, painted or galvanized sheet, fiber cement boards, OSB boards, TEGO boards, plywood, drywall, PVC boards, etc.

For the ventilated facade can be used: ceramic tiles, fiber cement tiles, thin plasters, HDF, treated wood, stone, electrostatically painted sheet, alucobond, aluminum sheet, expanded sheet, mesh, painted glass, PVC tiles, etc.

The principle of realization of the modular construction is declined in several design solutions, depending on the destination, civil, industrial or agricultural and generates various solutions for the components, closures, waterproofing, finishes, also unlimited.

The construction system of the modular house according to the invention allows the transformation of the facades, the partitioning and the developed developed surfaces. When the function of a space changes, so does the ergonomics. It can be optimally adapted to the new function by organizing traffic, access, natural lighting, resizing the surface.

Interchangeability allows the adaptation of space to needs and not the other way around, ie the adaptation of needs to a given space.

The components of the modular construction are calculated from a dimensional point of view so as to occupy a small volume in order to make their transport and handling more efficient. in the case of a relocation of the construction, no special equipment for loading-unloading-assembly is required, the transport is not oversized and can be done by truck or container, substantially reducing costs.

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The components of the modular construction may be stored in whole or in part in a 20 ft. Container, the smallest usual cargo container.

The construction according to the invention has a great capacity to adapt to almost any type of terrain, being possible to modulate both horizontally and in situations of sloping terrain or terraces. At the same time, it allows obtaining functional areas connected and developed in plan but also compact constructions. Using the same components for structures, terraces, pergolas, semi-open spaces, balconies, awnings, bay windows can be generated, elements that can be attached, added to the construction at any time. Due to their modularity, they can be repositioned later, in almost any desired configuration.

The modular construction is designed for proportions and dimensions starting from the size of the human body and the human need for certain dimensions of a space with a certain function, offering flexibility, modeled on human needs, which do not remain the same throughout life.

Claims (8)

1. Modular construction consisting of frames, beams, joints and thermal insulation panels, characterized in that it starts from the universal constant f = 1,618 (ratio between length and width) and in establishing proportions of 5/3, 8/5 or 6, 5/4 between the constructive elements and the resulting dimensions, final of the built space, construction formed by several dimensionally standardized metal (M) modules, each module being made of interchangeable component elements (1, 2, 3) mechanically connected to each other on the Ox axes , Oy and Oz, a module being composed of two frames (A) connected by some connecting beams (4) and determining a volume that constitutes the constructed space of the building, determining a step (p) (L: l, 618) with which the constructed space of the building is generated, a developed built-up area (s) being defined as a multiple of (s), with an opening (d) multiple of (d) (Lxl, 618) and with a height (h) as a multiple of ( h) ( IT). Modular construction according to Claim 1, characterized in that a frame (A) consists of a pair of beams (1), where each beam has a length (Lx1, 618) and a pair of columns (2) , each column having a length (L) and joints (3) having the shape of the letter L, consisting of two sheets of sheet (3 ') of rolled steel, joined together by pipe elements (3'), welded and arranged four on each side of the joint, the free ends of the joints interacting with the inside of the beams (1) and the pillars (2). Modular construction according to claims 1 and 2, characterized in that on one of the surfaces of the beams (1) are welded fins (AP) provided with holes, for attaching by means of classical mechanical systems not shown a secondary structure (7), braces (8) and connecting beams (9), arranged in a grid, to form the floor (P) of the module (M). Modular construction according to claims 1, 2 and 3, characterized in that the outer and inner closure of the module (M) is made with thermal insulation panels (T) arranged horizontally or vertically, which maximizes the efficiency of the thermal insulation capacity by adding a volume of air generated by the space in which the structure is contained. Volume of air insulated from the outside in 2019 00533 04/09/2019 in a controlled manner, by means of adjustable drawer vents (G), arranged at the bottom and top of the construction. Modular construction according to Claims 1 to 4, characterized in that in the space between the exterior and interior panels, which enclose and comprise the resistance structure of the building, the water and electricity supply installations (INS) are installed, as well as the evacuation wastewater. Modular construction according to Claims 1 to 5, characterized in that the thermal insulation panels (TA) for the roof are mounted below a slope of at least 7%, on a resistance structure (SA1, SA2) made of rectangular steel pipe, U-shaped welded, with free wings (ul, u2) of different heights, between the panels being arranged the sleeves (D) that have waterproofing from pvc liner and ridges (C). Modular construction according to Claims 1 to 6, characterized in that the fixed modules (M) are fixed to the ground by means of props (PP) in the case of a concrete platform and by foundation anchors (AF) for land with normal foundation soil, which can be assembled and dismantled, respectively recovered and reused. Modular construction according to Claims 1 to 7, characterized in that the construction system allows the transformation of facades, partitions and built-up areas, being optimally adapted to the new function by organizing traffic, access, natural lighting, resizing the surface, has a high adaptability to almost any type of terrain, being possible to modulate both horizontally and in situations of sloping terrain or terraces, the same components for structures, being subsequently repositioned in almost any desired configuration.