BR102022021047A2 - CONSTRUCTION METHOD OF WALLS, BEAMS AND PILLARS IN TREATED ROUND EUCALYPTUS FOR HOUSES IN THEIR ENTIRETY OF WOOD - Google Patents

Abstract

The present invention describes a method of developing a construction system for walls in treated plump eucalyptus that guarantees watertightness (against water, insects, etc.) between them and the contour beams and pillars, also in treated plump eucalyptus, coming from two different construction systems: Horizontal pieces, supported one on top of the other and Transverse cylinders of different diameters cut from pieces of treated plump eucalyptus. The objective achieved by this method is to ensure watertightness, insects, etc., between the walls, made of treated plump eucalyptus wood, and the beams and pillars made of the same type of wood, since similar systems found in the literature, they cannot guarantee the watertightness of the walls throughout the useful life of the building. The invention brings with it the creation of ecological constructions, with low levels of industrialized materials that are harmful to the environment, such as the non-use of cement (among other means of use and production) and hardware, in addition to production being stipulated in times shorter than the masonry construction traditionally widespread in society. Among these environmental advances is the use of reforestation wood used in construction, which has already absorbed carbon from the environment, in addition to not using materials with a high environmental impact that are used in traditional works, such as cement, steel, sand, the gravels.

Description

FIELD OF INVENTION

[01] Residential buildings represent a significant portion of the construction sector and also have important environmental impacts resulting from their use. Added to these reasons are the reduced mobility of families, the preference for common construction processes, the scarcity of specialized technicians, the reduced training on the subject and the absence of specific regulations for other alternative construction methods.

[02] The importance of civil construction is related to the development of territories, permeating generations. However, little is known about the productive sectors of civil construction, especially the sector focused on wooden houses, specifically when it comes to systems found in the literature that cannot guarantee the watertightness of the walls throughout the useful life of the building, reducing its durability. and efficiency.

[03] On the other hand, it is a sector that has high environmental impacts that can be observed at all stages of its production chain. Thus, there is degradation right from the extraction of raw materials, with the sector being responsible for a large part of the natural resources extracted, between 15 and 50%. It is also possible to mention, even at this initial stage, the 220 million tons of natural aggregates that are consumed only in the production of concrete and mortar in Brazil, and also the fact that around 2/3 of the natural wood extracted is used for this activity, with the vast majority of forests not being managed properly (JOHN, 2007).

[04] In this segment, an example of how sustainability can bring benefits to the environment and its inhabitants is the use of less aggressive and ecological constructions, such as the construction of wooden houses without chemical processes. This type of construction provides a reduction in pollution and consumption of natural products that are still evolving.

BACKGROUND OF THE INVENTION

[05] The prior art CN113818596 belongs to the technical field of prefabricated buildings, particularly refers to a prefabricated shear wall, a shear wall system and a method of construction thereof, and aims to solve the problems that in the prior art , the construction speed of a prefabricated shear wall is low, and the construction quality is difficult to guarantee. According to the prefabricated shear wall, shear wall system and the construction method thereof, connecting grooves are formed vertically on the two sides of the prefabricated shear wall, transverse steel bars in the prefabricated shear wall prefabricated shear walls extend outward from the side faces and form U-shaped lap joint steel bars located outside the connecting grooves, transverse grooves are formed at the bottom of the prefabricated shear wall, and buttresses are arranged on the transverse grooves, the buttresses project outward in the direction of the height of the prefabricated shear wall and extend outward from the transverse grooves, the two ends of the transverse grooves communicate with the connecting grooves on the two sides correspondingly, and Plastering holes and observation holes are formed in the side wall of the transverse grooves at intervals. According to the prefabricated shear wall, the shear wall system and the construction method of it, concrete in a bottom groove is poured while an edge component is poured, fine aggregate concrete mortar is injected into the groove through the mortar holes, the construction quality of the bed is guaranteed, the construction is convenient, the construction quality is guaranteed, and the construction efficiency is improved. The exposed patent differs from the claimed invention in that the latter mainly concerns the joining between two construction structures (walls) through shear. Although this can be considered a fitting method in civil construction, this is not the one used in the process and method used by the invention that is intended to be protected. Furthermore, the raw materials do not converge.

[06] In WO 2018211070 an approved dynamic construction for thermal insulation and effective sealing of a protective groove between a floor of a building and an external wall construction is described wherein the external wall construction comprises a curtain wall configuration defined by an interior wall glass surface including one or more aluminum frame members, wherein the sight glass extends to the finished floor level below. The dynamic thermal insulation and sealing system comprises a first element for receiving the insulating elements and positioned in the zero spandrel area of a glass curtain wall construction including only sight glass to maintain thermal insulation and protective gap sealing. during exposure to fire and heat, as well as movement to maintain a complete seal extending along the protective gap. This invention differs from the one claimed because, while the claimant claims as a novelty the characteristics of thermal insulation and sealing of the construction, through the configuration with a curtain wall and glass, the claimed invention concerns the process and method of arranging an entire integrated and ecologically systematized wooden structure, so that between the two there is no convergence between the raw material, the process, the functions and the result.

[07] CN110005215 mainly concerns a method of wall construction using shear to anchor the pieces, while the claimed invention concerns an ecological construction process using wood and its fitting methodology for forming structures and walls in civil construction. Thus, although shearing and anchoring can be considered fitting methods, they are not used in the invention that is intended to be protected. Furthermore, the raw materials are also different from each other.

[08] Patent application US20030014938 from 2002 concerns the I-shaped wooden beam having two elongated chords that extend in a parallel relationship and blocks, struts or a web that extends between the chords. The exposed patent differs from the claimed invention as it concerns a construction process as a whole, in stages, using wood in a similar way to the previous one, but with different construction methods since the worked elements and the inventive process do not resemble each other. the beam even if both present a descriptive fitting process.

[09] Patent US5890332 relates to a construction system, more particularly, the present invention relates to a modular construction system of reconstituted wooden blocks used to construct at least one wall that includes a concrete cap, a plurality of anchor bolts Despite also being a construction of walls, the process exposed above presents another set of items and methodology, since the patent describes the use of structured steel pins inside the wooden blocks so that they are aligned and fixed. Furthermore, concrete is used in its construction part, which for the requested application does not exist in view of the more ecological formation of the civil construction process.

[010] Patent BR 11 2016 003022 is an originally international application under No. SE2014050969 and refers, in general, to the field of cores comprising various wooden lamellas and construction panels, e.g. of floor and wall, which comprise such a core, a decorative surface layer and a balancing layer. Furthermore, the description refers to production methods for producing such cores and panels. Having observed the descriptions, the patent, even if in an attempt to describe construction, makes no mention of the allocation of wood, however diverse its origin may be, in fitting mode without spacing, in order to be used in the production of walls and /or structures resistant to civil construction.

[011] Patent application PI 0602740 refers to a development of a wooden house with perforations, internal to the wood, for the passage of PVC pipes, as well as the passage of electrical and hydraulic parts. In a comparative moment, the order made in 2006 exposes in its composition the use of a 100 mm tube inside the wood in order to receive CA 60 iron fittings tied by stirrups, more concrete, making it stronger, the pillar receives a strap concrete and CA 60 hardware, going over the wall. The entire process in stages developed in the invention that is intended to protect is not related to the use of conventional civil construction standards, such as concrete, hardware and/or PVC piping to support the structure to be called a wall.

SUMMARY OF THE INVENTION

[012] The present invention application describes a construction system for walls in treated plump eucalyptus that guarantees watertightness (against water, insects, etc.) between them with the contour beams and pillars, also in treated plump eucalyptus. The species Corymbia citriodora, known by the common name of citron eucalyptus, is used. This variety is considered to have the best mechanical resistance and highest fiber density.

[013] The inventive method discussed in this request brings to light the creation of ecological constructions, with low levels of industrialized materials that are harmful to the environment, such as the non-use of cement (among other means of use and production) and hardware, in addition of production being stipulated in shorter times than the masonry construction traditionally widespread in society. Among these environmental advances is the use of reforestation wood used in construction, which has already absorbed carbon from the environment, in addition to not using materials with a high environmental impact that are used in traditional works, such as cement, steel, sand, the gravels.

[014] Despite its indisputable importance for the country's development, civil construction is identified as one of the industries that most impacts the environment. To change this aspect, civil construction has been using new materials that produce the least possible impact on the environment and contribute to thermal comfort or reduced energy consumption. Numerous examples of new materials and technologies have been used for this purpose.

[015] Furthermore, regarding the social nature, there is the depreciation of surrounding properties, problems regarding urban traffic, noise and vibration. According to the definition of environment, encompassing not only biotic and abiotic means, but also the anthropic relationship, this concept is now proven, since the environmental impacts highlighted by mining activity, directly or indirectly, as in the formulation of the cement and lime, influence the lives of the population and end up becoming social as well.

[016] The total construction area of the prototype prepared and described in this document was approximately 100m2. Based on market studies and constructions created by traditional means, using beams, slabs, concrete pillars, masonry and tiles, the construction time would be approximately 10 months, which is reduced with the construction method described here to 6 months and when reflected in costs, that of the wooden house, was below what was spent using traditional methods widespread in the construction market.

[017] The construction method elaborated and described by this invention deviates from the standard characteristics of construction, such as pollutant emissions, harmful chemical materials, among other aspects already discussed in this document, being capable of a clean, effective and economically attractive building for the population .

[018] The achievement in sealing and preparing the means of connecting eucalyptus trees produces the nullity of procreation of insects and other animals that can be found in other construction methods, as they present cracks, gaps and fitting problems that were not found in the method explored here.

[019] The production of the two construction modes was stipulated with lower costs than those found in other construction systems, when analyzed in terms of square footage, rooms and development. The treated plump eucalyptus walls come from two different construction systems (Figure 1): A) Horizontal pieces, supported one on top of the other; B) Transverse cylinders of different diameters cut from pieces of treated plump eucalyptus.

DETAILED DESCRIPTION OF THE INVENTION

[020] Characteristics of the present application are the construction, through two stages A and B as shown in Figure 1 (A and B), of a house entirely made of wood. Wall construction system with horizontal pieces in treated plump eucalyptus (A):

[021] The steps developed until the final construction of the walls begin by choosing the pieces at their point of sale, with the best possible characteristics (rectilinear), followed by the process of planing the opposite faces of the pieces in a way that ensures that the contact between the parts reduces voids as much as possible (Figure 2).

[022] The treatment of parts in an autoclave is carried out with the product CCA at 2.1%. The acronym CCA stands for 'Chromated Copper Arsenate'. In Portuguese it would be 'Chromated Copper Arsenate'. CCA preservatives are a family of products that present a satisfactory compromise between efficiency, durability and safety and, for this reason, they are today the most used wood preservative in the world. The autoclave treatment phases are: 1) Initial vacuum for 30 minutes; 2) Pressure of 10.5 kg/cm2 for 1h30min; 3) Final vacuum for 15 minutes.

[023] In sequence, the ends of the pieces are cut with a jigsaw (figure 3), in order to allow the best possible contact with the end pillars, also in treated plump eucalyptus.

[024] The bonding between the wall pieces, following the other activities, as shown in figures 4 and 5, and between the pieces with the pillars, takes place with PU40 type Polyurethane sealant, a high-performance hybrid polymer (has excellent characteristics). physical and chemical properties that remain unchanged with the action of time or climatic agents - high adhesion adhesive, high elasticity, sealing, among others).

[025] After assembling the walls with plump eucalyptus trees (Figure 6), both horizontally and in cylinders, washing is carried out using a high-pressure WAP type machine, in order to remove dirt and recover the natural appearance of the wood. .

[026] After an interval of at least two dry days, without rain, the external surface is varnished with at least three coats, until a practically impermeable, sealed surface is achieved.

[027] When finishing the external part of the constructed wall, PU40 is manually passed between each horizontal piece used, used to remedy any possibility of gaps, insect allocation and/or leaks (Figure 7)

Wall construction system in transversal cylinders of different diameters, cut from pieces of treated plump eucalyptus (B):

[028] After autoclave treatment of the round eucalyptus pieces, the steps taken until the final construction of the walls are as follows: Cutting and sanding the cylinders of different diameters with 4.5 cm thickness followed by the preparation of recesses in the contours of the plump eucalyptus pillars and beams for subsequent insertion of 18 mm thick naval plywood (figure 8).

[029] To fix the cylinders, a marine plywood installation scheme is used on the wall, fixed to the contours (plump eucalyptus pillars and beams) through a space cut into the pillars and beams (Figure 9) with the appropriate thickness of the plate. , detailed previously, so that there would be no extra spacing and infiltration problems and thus making it possible to fit, providing the necessary support and impermeability of the site as shown in figure 10.

[030] After the installation of the plywood has been completed, and a first coat of paint has been applied so that the color approaches that of eucalyptus, the eucalyptus cylinders are glued to the naval plywood board with PU40 (figure 11).

[031] The treatment of transverse cylinders is carried out primarily by cutting them. Also on pieces of plump eucalyptus, washing and treatment are carried out as developed in system A. The 4.5 cm thick cut is prepared according to figure 8 and ready for gluing to the plywood.

[032] After an interval of at least two dry days, without rain, the wall composed of naval plywood and eucalyptus cylinders is varnished with at least three coats, in order to achieve a practically impermeable, sealed surface and efficient (Figure 1-B). In this type of wall, it is not necessary to wash with Wap, as as previously explained, the eucalyptus was treated while it was in full, round pieces.

Conclusions and results obtained by the prototype:

[033] The inventive method discussed in this request had its prototype finalized and its efficiency verified against the following topics: Waterproofing, air sealing, structural production scheme.

[034] The walls (system A and B shown in figure 1) were successful in their sustainability and efficiency issues, because, as reported separately, the gluing system elaborated in the invention enabled the solution for the construction means, involving eucalyptus trees, which previously did not have complete sealing and impermeability efficiency.

BRIEF DESCRIPTION OF THE FIGURES:

[035] Figure 1: A) Horizontal pieces, supported one on top of the other; B) Transverse cylinders of different diameters cut from pieces of treated plump eucalyptus

[036] Figure 2: Part in planing stage for allocating structures;

[037] Figure 3: Cutting the ends of the pieces;

[038] Figure 4: Bonding between wall pieces;

[039] Figure 5: Bonding between the pieces with the pillars;

[040] Figure 6: Assembling the walls with plump eucalyptus trees;

[041] Figure 7: External view of the assembly in a finished horizontal system;

[042] Figure 8: Cutting and sanding cylinders of different diameters with 4.5 cm thickness;

[043] Figure 9: Preparation of recesses in the contours of plump eucalyptus pillars and beams for subsequent insertion of naval plywood;

[044] Figures 10: Installation of marine plywood;

[045] Figure 11: Gluing the eucalyptus cylinders to the plywood;

Claims (3)

1. CONSTRUCTION METHOD OF WALLS, BEAMS AND PILLARS IN TREATED ROLLER EUCALYPTUS FOR HOUSES ENTIRELY MADE OF WOODEN, characterized by comprising a construction method for houses made only of wood presenting a constructive system of walls in treated round eucalyptus that guarantees watertightness developed in two constructive means: I. Horizontal pieces, supported one on top of the other; II. Transverse cylinders of different diameters cut from pieces of treated plump eucalyptus. 2. CONSTRUCTION METHOD OF WALLS, BEAMS AND PILLARS IN TREATED ROLLER EUCALYPTUS FOR HOUSES IN THEIR ENTIRETY OF WOOD, according to claim 1, characterized by the fact that they are constructed and processed when in horizontal pieces following the phases: I. face planing opposite sides of the pieces; II. treatment of parts in an autoclave; III. gluing between the wall pieces with polyurethane sealant type PU40; IV. washing eucalyptus structures; 3. CONSTRUCTION METHOD OF WALLS, BEAMS AND PILLARS IN TREATED ROLLER EUCALYPTUS FOR HOUSES IN THEIR ENTIRETY OF WOOD, according to claim 1, characterized by the fact that they are constructed and processed when in transverse cylinders following the phases: I. autoclave treatment of the plump pieces of eucalyptus; II. Cut and sand cylinders of different diameters, 4.5 cm thick; III. preparation of recesses in the contours of eucalyptus pillars and beams; IV. insertion of 18 mm thick naval plywood through the recesses; V. gluing the eucalyptus cylinders to the marine plywood board with PU40;