BR102019023024A2 - prefabricated panels with additives and on-site installation system in building construction - Google Patents

Abstract

For the formation of modules and assembly system in construction works in buildings with greater mechanical resistance, fire and water resistance, providing greater durability and quality. For this purpose, the panels are manufactured from two MGO cementitious sheets, based on magnesium oxide reinforced with glass and vegetable fibers, which have their space filled with EPS, XPS, PUR or PIR, glued with Polyurethane glue, forming a SIP (Structural Insulated Panel) type panel. These panels, after being installed on the foundation without the use of metal profiles for the base of support on the radiator, are coated with a glass mesh before receiving the finish, providing greater resistance and quality to the product.

Description

PREFABRICATED PANELS WITH ADDITIVES AND ON-SITE INSTALLATION SYSTEM IN BUILDING FORMATION Introduction

[001] This descriptive report refers to a patent application for a system for building buildings from pre-assembled panels, with high strength and low cost.

[002] Such panels, composed of two MGO (magnesium oxide) cementitious plates reinforced with glass and vegetable vibrates, interspersed with a filling of EPS, XPS, PUR or PIR, are installed in the foundation of the building, which may be of the type “radier”, where they are connected and fixed to each other by U profiles, later receiving a layer of fiberglass mesh.

[003] Once installed, the panels can receive a coating finish, paint, texturizing masses and others.

Technique Comments

[004] Achieving new levels of productivity and quality is very interesting and desired by the civil construction sector. When a construction company manages to fulfill projects in an easy and optimized way, both the business and the client are favored. In this sense, new technologies are of great help, as they solve many problems and transform paradigms.

[005] Recognizing the trends in the area, therefore, is a way to prepare to offer what is most modern. Nowadays, projects based on:

[006] Light Steel Frame - a differentiated construction system, basically made of galvanized steel and that adapts to the needs of each project. As an alternative to common masonry, steel frame can also be used on roofs.

[007] Modular structures - to facilitate the construction process, as in the case of containers. The facilities involved in using this resource are varied, such as great mobility, low cost and high sustainability. The container is a diversified option, being able to serve both for the construction of houses and for commercial or event elements.

[008] Differentiated materials - the development of research related to the area has brought new materials for use in civil construction. Paints that help conduct electricity or a concrete that glows in the dark are examples of elements.

[009] It is known that, widely used nowadays, the modular construction process is through individual modules, which are manufactured in standardized assembly lines and only assembled at the building site.

[010] The manufacturing, benefiting from the control of deadlines guaranteed in the industrial environment, can be carried out from standard raw materials, such as concrete, steel, wood itself, in addition to new materials that make up the trends in civil engineering.

[011] Far beyond the modular house concept, entire buildings are built using this technology, as well as luxury houses, residential complexes, hospitals and other large constructions.

[012] While traditional works are made on site from scratch, the building built in modules can have simultaneous operations. At the beginning of the schedule, for example, a good part of the parts can already be built, without the need to wait for land preparation. It is precisely because of this possibility of reducing, by up to half, the execution time, added to the total control of the processes, that makes the investment in modular construction more and more present.

[013] The "industry 4.0" is the main trend of the contemporary market, and construction companies that want to add competitiveness in the face of challenges need to use new technologies in the field. In this scenario, the first benefit that stands out from the modular construction is the quality assurance attested by supervisory standards, practices and routines maintained in a closed environment, which are generally more rigorous and easily controllable. The Occupational Safety area itself is also optimized in this regard, since approaches such as the Study of Hazards and Operability can be employed with greater engagement and exposure to external weather becomes much smaller.

[014] Another point that should be mentioned is the sustainability that a modular house or other construction of the type presents in relation to traditional ones. By having full notion and control over the resources for a project, waste is avoided and only the minimum necessary is employed so that the building is the best possible for its users. The alignment of modular construction with the concept of Green Building is evident, as it benefits from new technologies for managing waste and raw materials, aligns with regulatory standards and strives for better energy performance.

• - BR 102017019765-4, intitulado “CONJUNTO PARA CONFECÇÃO DE MÓDULOS DE PAREDES DE POLIESTIRENO EXPANDIDO, COM PILAR E VIGAS CONJUGADOS, PARA CONTRUÇÃO CIVIL”, o qual pleiteia um conjunto para a confecção de módulos de paredes a partir de placas de poliestireno expandido e fôrmas de modelagem de pilares e vigas, as quais, depois de instaladas, recebem preenchimento de concreto para fundição de toda a estrutura. Uma figura deste documento será apresentada nos desenhos anexos a este presente pedido de patente como Figura1, a fim de representar visualmente o estado da técnica;
• - BR 102012009723-0, intitulado “SISTEMA DE CONSTRUÇÃO DE RESIDÊNCIA COM MÓDULOS PRÉMOLDADOS”, o qual pleiteia um sistema de construção de edificações com módulos pré-moldados de concreto armado de cômodos inteiros, a partir de projeto de planta, para assentamento na fundação e sua união por barras de aço;
• - PI 0902512-0, intitulado “MEIOS DE MONTAGEM DE PAINÉIS BI-MATERIAL PARA EMPREGO EM EDIFICAÇÕES E MÉTODO PARA ELABORAÇÃO DE REVESTIMENTO DE ACABAMENTO DE UNIÃO ENTRE PAINÉIS BI-MATERIAL EMPREGADOS EM EDIFICAÇÕES”, o qual pleiteia o emprego de perfis metálicos verticais que unem painéis, onde cada painel é configurado como um sanduiche com as bordas laterais rebaixadas, formados por núcleo de EPS fechado em suas laterais por placa cimentícia por camada adesiva, e a qual recebe uma fita telada para sustentação de uma segunda cada de massa cimentícia.

[015] As an example of the above, the following documents can be cited, which represent the state of the art applied:

• - BR 102017019765-4, entitled "SET FOR MANUFACTURING EXPANDED POLYSTYRENE WALL MODULES, WITH CONJUGATED PILLAR AND BEAMS, FOR CIVIL CONSTRUCTION", which claims a set for the manufacture of wall modules from expanded polystyrene plates and formwork for modeling columns and beams, which, once installed, receive concrete filling for casting the entire structure. A figure of this document will be presented in the drawings attached to this patent application as Figure 1, in order to visually represent the state of the art;
• - BR 102012009723-0, entitled "RESIDENTIAL CONSTRUCTION SYSTEM WITH PREMOLDED MODULES", which claims a system for the construction of buildings with precast reinforced concrete modules of entire rooms, from a plant design, for laying on the foundation and its union by steel bars;
• - PI 0902512-0, entitled "MEANS OF ASSEMBLY OF BI-MATERIAL PANELS FOR USE IN BUILDINGS AND METHOD FOR ELABORATION OF FINISHING JOINT FINISH BETWEEN BI-MATERIAL PANELS USED IN BUILDINGS", which claims the use of vertical metal profiles that they join panels, where each panel is configured as a sandwich with recessed side edges, formed by an EPS core closed on its sides by a cementitious plate with an adhesive layer, and which receives a screened tape to support a second each of cementitious mass.

[016] Anyway, despite the wide variety of modules on the market today for the "assembly" of buildings, they still suffer from problems such as cracks due to the material used, especially due to the large use of cement for the finishing base of the panels/modules, which compromises its strength and quality. Also, in addition to the high cost of producing these panels, their mounting on the building's foundation depends on metal parts, which over time present corrosion and rust, compromising the construction base.

[017] In addition to the problems mentioned above, it can be said that the vast majority of prefabricated modules for buildings do not have effective resistance against heat and fire, resistance to water and moisture, and mechanical resistance.

Purpose of the patent

[018] In order to solve or alleviate the problems described in the state of the art, the inventor developed a new composition in the formation of modules and a system for their assembly in the work.

[019] Unlike the panels found on the market, these are manufactured from two parallel cementitious plates, made on the basis of magnesium oxide (MGO) reinforced with glass and vegetable fibers, which have their space filled by EPS, XPS, PUR or PIR, glued with Polyurethane glue, forming a SIP (Structural Insulated Panel) type panel. These panels, after being installed on the foundation without the use of metal profiles for the support base on the radiator, are coated with a glass mesh before receiving the finish, providing greater resistance and quality to the product.

• - Diminuir o valor gasto da produção de painéis/módulos;
• - Oferecer painéis com alta resistência ao fogo, com propriedade superior de isolamento térmico;
• - Oferecer painéis com alta resistência a água, evitando a proliferação de mofo e umidade na construção;
• - Oferecer painéis com alta resistência mecânica, aguentando mais massa por metro quadrado;
• - Oferecer painéis e, portanto, paredes livres de trincas e fissuras, garantindo a preservação e durabilidade da obra;
• - Diminuir custos com mão de obra e tempo de execução desta;
• - Reduzir significativamente o desperdício de material na fabricação dos módulos.

[020] The panels and their installation system have as main objectives:

• - Decrease the amount spent on the production of panels/modules;
• - Offer panels with high fire resistance, with superior thermal insulation property;
• - Offer panels with high water resistance, avoiding the proliferation of mold and humidity in the construction;
• - Offer panels with high mechanical resistance, supporting more mass per square meter;
• - Offer panels and, therefore, walls free from cracks and fissures, ensuring the preservation and durability of the work;
• - Decrease labor and execution time costs;
• - Significantly reduce material waste in the manufacture of modules.

[021] Explained so far in a summarized form, the invention is illustrated by the attached drawings.

[022] Figure 1, as said above, shows an image taken from document BR 102017019765-4, representing, therefore, the state of the art.

[023] The figures listed below show the invention reason for this patent application, where:
Figure 2 - an isometric view illustrating a panel composed of two MGO cement slabs with additives, interspersed with an expanded foam core;
Figure 3 - illustrates the panels being fitted into the spaces of the foundation of the work, without the need for metallic components;
Figure 4 - an exploded view illustrating the layers of materials used in the work for the construction of a building, where you can see the panels in the foundation spaces, laterally aligned to U-shaped metal profiles for fitting and fastening, upper metal profile for alignment and structuring , in addition to layers of fiberglass mesh and, finally, coating and painting;
Figure 5 - Sequence view, illustrating the stages of installation and completion of the panels, where the panels are embedded in the foundation, to then receive the metal profiles, the fiberglass mesh layer and, subsequently, the coating and painting ;
Figure 6 - illustrates the preparation of a work where the entire structure of the building is made by the solution panels to be presented here, including walls, upper floor and ceiling.

[024] In accordance with the attached drawings, the "PREFABRICATED PANELS WITH ADDITIVES AND ON-SITE INSTALLATION SYSTEM IN BUILDING FORMATION", reason for this present patent application, consists of a panel (1) of the SIP (Structural Insulated) type Panel or Structural Insulated Panel), as shown in figure 2, composed of two parallel cementitious plates (2), of the MGO type - manufactured based on magnesium dioxide and reinforced with fiberglass and vegetables, such cementitious plates being MGO (2 ) parallels filled by a core (3) of expanded foam, which can be EPS (Polystyrene), XPS (Extruded Polystyrene), PUR (Polyurethane) or PIR (Polyisocyanurate). Such panels (1) work together with a series of metallic U-beams (4) of width and length in agreement with the averages of the panels (1).

[025] Each panel (1) is manufactured in measure and format characteristics according to the design of the building plan to be built. In addition, each panel (1), individually, after being manufactured, goes through a cutout stage, where it receives the respective cutouts (RE) for the future installation of windows, doors, hydraulic system, wiring pipes, sockets, etc. In addition, the panels receive individual guide numbers to map their location in the work during installation, according to the construction project and its plan.

[026] Thus shaped the panels (1), they are transported ready and numbered, along with an assembly manual, to the work site where the foundation (F) was previously prepared.

[027] Due to the characteristics of the panels (1), especially their lightness, the foundation (F) of the building may be of the "radier" type, which is characterized by being a shallow foundation, which resembles a slab, covering the entire construction area. This type of foundation has advantages such as low cost and speed of execution, in addition to reducing labor compared to other types of shallow or shallow foundations.

[028] Therefore, on site, the panels (1) are fixed directly in the respective spaces (E) of the foundation (F), as shown in Figure 3, following the assembly manual, without the need for a base or steel beam for this. On its sides, however, each panel (1) is connected and fixed to the next through the fitting of the metallic U-beams (4), in an articulated male-female connection, stabilizing and connecting them, as shown in figure 4, thus forming an articulated structural metallic system that structures all the constructive system.

[029] Once properly fitted, the panels (1) of a continuous section, or a straight wall, are connected and stabilized by a top U-shaped metal beam (5), from which the structure for slab or base for the upper floor, if the project so requires, the slab or floor may also be constituted by the panels (1).

[030] Finally, as shown in figures 4 and 5, after the panels (1) are fixed to the foundation (F), they have their exposed parts fully coated with fiberglass mesh (V), and can then receive the coating ( R) desired, which, for this project, is made with a "base coat" type coating (an intelligent mixture of cement, polymeric resins, waterproof material and reinforcement fibers) for each wall and floor, according to the project, and/or the finish for painting (P).

• - Diferentemente das construções em módulos encontradas no mercado, esta não apresenta corrosão e ferrugem em sua base por não utilizar materiais metálicos diretamente nos espaço (E) da fundação, utilizando perfis metálicos (4 e 5) apenas para a união lateral dos painéis (1) e sua junção superior, a fim de manter toda a estrutura da construção sólida e firme;
• - A malha de fibra de vidro (V), juntamente com o revestimento tipo “Base Coat” que revestem os painéis (1) proporcionam resistência e qualidade superiores a estes, evitando rachaduras, trincas e fissuras, conferindo maior resistência mecânica, que é um importante fator para a preservação e durabilidade da obra;
• - A composição de seus componentes, em especial as placas cimentícias MGO (2) conferem à construção alta resistência ao fogo - com resistência a chamas a 1200 graus por aproximadamente 1 hora -, agindo como isolantes térmicos e com alta resistência a água, evitando umidade e mofo;
• - Por os painéis (1) serem enviados à obra prontos, numerados e com manual de montagem, o tempo e a mão-de-obra utilizados na obra são significativamente reduzidos;
• - A pré-produção dos painéis (1) precisamente planejados a partir de planta e projeto evita o desperdício de materiais, gerando uma redução no consumo de energia e recursos hídricos, tanto em sua fabricação quanto durante a construção da edificação na obra.

[031] Thus described the solution, it is important to mention that:

• - Unlike the modular constructions found on the market, this one does not present corrosion and rust on its base as it does not use metallic materials directly in the space (E) of the foundation, using metallic profiles (4 and 5) only for the lateral union of the panels (1 ) and its upper joint, in order to keep the entire construction structure solid and firm;
• - The fiberglass mesh (V), together with the "Base Coat" coating that covers the panels (1) provide superior strength and quality to these, avoiding cracks, cracks and fissures, providing greater mechanical resistance, which is a important factor for the preservation and durability of the work;
• - The composition of its components, especially the MGO cement slabs (2), give the construction high fire resistance - with flame resistance at 1200 degrees for approximately 1 hour -, acting as thermal insulators and with high water resistance, avoiding humidity and mold;
• - Because the panels (1) are sent to work ready, numbered and with an assembly manual, the time and labor used in the work are significantly reduced;
• - Pre-production of panels (1) precisely planned from the plant and project avoids wasting materials, generating a reduction in energy consumption and water resources, both in their manufacture and during the construction of the building on site.

Claims (3)

"PREFABRICATED PANELS WITH ADDITIVES", a panel (1) of the SIP type composed of two parallel cementitious plates (2), of the MGO type, characterized by being manufactured on the basis of magnesium dioxide and reinforced with fiberglass and vegetables , with such parallel MGO cementitious plates (2) filled by a core (3) of expanded foam, which can be EPS (Polystyrene), XPS (Extruded Polystyrene), PUR (Polyurethane) or PIR (Polyisocyanurate). "PREFABRICATED PANELS WITH ADDITIVES", according to claim 1, each panel (1) is manufactured in size and format characteristics according to the design of the building plan to be built, in addition to each panel (1), individually, after manufacturing, go through a cutout step, where it receives the respective cutouts (RE) for the future installation of windows, doors, hydraulic system, wiring pipes and sockets, characterized by each panel (1) to be used in a work, receive individual guide numbers for mapping the installation and in accordance with an assembly manual prepared together with these. "CONSTRUCTION INSTALLATION SYSTEM IN BUILDING FORMATION", according to the panels (1) defined in claims 1 and 2, these are transported ready and numbered, together with the assembly manual, to the construction site where the foundation ( F) was previously prepared, characterized by the panels (1) being fixed directly in the respective spaces (E) of the foundation (F), each one connected and fixed to the next through metal U-beams (4), in male type connection -female, and connected and stabilized by a metallic upper U-beam (5), and then the panels (1) have their exposed parts fully coated with fiberglass mesh (V), which can then receive coating ( R), finishing and painting (P).

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