BRPI1000488A2 - precast concrete or ceramic precast block structural systems fixed by injected binder - Google Patents

Abstract

STRUCTURAL SYSTEMS OF PRECAST CONCRETE OR CERAMIC BLOCKS FIXED BY INJECTED AGGLOMERANT. Invention patent for structural systems of precast concrete or ceramic blocks fixed by injected binder, consists of the grouping of concrete or ceramic blocks in column and injection of binder in cavities formed next to the blocks to fix them; this system is characterized by the junction and solidarity between precast blocks and of these with the injection molding and solidarity between precast blocks and of these with the injection molding of algomerant to form the structural elements; the precast concrete block pillar fixed by injected agglomerate consists of the grouping of block in column 6 and injection of algomerant in the cavities 1 that receive the main reinforcements 4 and are fixed together to the stirrups 2; the stirrups are molded together with the block, which prevents the corrosion reinforcement; externally the block is provided with channels to make the junction with the masonry; structural masonry consists of grouping hollow blocks and injecting agglomerane into the cavity resulting from their approximation in line, forming a structured column at the end of each block.

Description

"PRECAST CONCRETE OR CERAMIC BLOCK STRUCTURAL SYSTEMS FIXED BY INJECTED AGLOMERANT"

The present invention relates to injected binder-fixed precast concrete or ceramic block structural systems, which have been given original constructions in order to improve efficiency over existing similar constructive systems.

Precast concrete blocks are made of cement with small aggregates and small coats and are pressed in enough equipment to allow their immediate molding and shaping to release the shapes within a production process. The proportionality of the inputs in the trace composition depends on the characteristic strength required for the block. Its use in construction is recent, but its use has been widespread due to the ease of obtaining inputs and advances in technology in molding equipment, which in industrializing its production, gave it quality and reliability in its use in the construction. construction. The ceramic block is molded from clay soil, baked at high temperatures in its own kilns: it has its use prior to concrete blocks, but its technological development has not been enough to make it competitive with concrete blocks, having its use building sealing and has only recently been developing as a structural element.

The structural systems are formed by resistant elements that have the function of receiving the acting forces and transmit them to the support base that has the function of absorbing these forces and offer stability to the built system.

The most common inputs in structures are steel, concrete, ceramics and wood, being competitive among them and the one that results in the best technical and economical solution according to the project predominates, especially when dealing with industrial warehouse works. , bridges, viaducts, large span roofs and other horizontal works. The option to use precast concrete in this sequence, forming pretentious long beams, and the development of large equipment for its management, has favored its predominance over other elements in recent years in view of its cost of deployment and less maintenance.

In the case of vertical works, the predominant structural system so far has been the follow-up of concrete and its compositions as reinforced concrete and structural masonry.

Reinforced concrete applied in structural building systems has its composition and physical characteristics defined according to the structural design, being applied from the foundations to the top of the structure. The application is made after the fitting of the hardware and making the molds. Then it is necessary to cure the concrete, so that the physical characteristics predicted in the project are reached. Deformation of concrete should start when the actual loading of the structure is less than the resistive capacity of the structural element to be deformed which increases up to 28 days of application under normal conditions. This on-site cast concrete, as it is known, must provide all the performance characteristics provided for in the structural design so that the structural system fully supports the acting loads and no collapse of its elements occurs. For this to occur, it is necessary that fresh concrete as it is known, has strict control from its machining, aggregate moisture, amount of water and additives, transport time to the time of application so that there is no change in chemical characteristics. in its composition.

The restrictive factor of using this on-site molded system is that its effectiveness depends on the control of numerous interdependent variables in the construction of the structural element in relation to the quality of fresh concrete specified in the structural design as set forth above. Another factor is the need for well-structured formwork to avoid misaligned structure and redoing of the service, which may delay the work schedule and increase costs. The need for curing for the structural element to preserve design strength characteristics is another limitation of this system, which under certain climatic conditions precludes concreting by normal procedures. Another limitation of this system is the quality control of the work that needs to be rigorous all the time to avoid redoing, besides using specialized labor intensively, being increasingly scarce in our country.

Although structural calculation processes have achieved great advances and significantly with computerization, construction processes remain artisanal and need to be updated in the direction of process rationalization, aiming at higher productivity of labor with efficient use of materials, resulting in lower Lead time and more quality of the final product.

Structural masonry has as its main components the block, the mortar, the grout and the reinforcement. These define the strength characteristics of the structure. Technical standards define the strength limits of the block so that it can be considered structural. In this system the mortar, which is composed of cement and fine aggregates with additives, has the role of solidifying the blocks, transmitting and uniformizing the tensions between the masonry units, absorbing small deformations and preventing moisture from entering the building. Grout is a small aggregate concrete that is applied, together with the reinforcement, for the necessity of structural reinforcement of the masonry. The advantages of structural masonry over other systems is that it uses no formwork, less coating thickness, reduced material waste and fewer skilled professionals such as carpenter and shipowners, resulting in lower costs and lead time compared to other systems. building system molded on site.

Notwithstanding the significant advantages of this system, the limitations listed make it difficult to adopt, leading to the application of the conventional in situ cast reinforced concrete system.

From the 16th floor it becomes economically unviable due to the need to add structural elements to withstand the stresses that increase in complexity with increasing height. Under these conditions it is more feasible to use the conventional reinforced concrete system. This constructive process also has limitations for upscale and commercial buildings where changing use of environments is frequent and for this sometimes it is necessary to modify walls, demolish it, widen gaps, etc.

Regarding the binder, these are cement-based mortar and fine aggregates with additives with high adhesion power with iron, concrete and ceramic blocks. Currently the most commonly used injected binder is the cement-based binder known as cement cream and is used in the fixing of reinforced concrete curtain rods and stapled soil, used in the containment of massifs and is also applied in the pretension of cables in elements. precast, such as beams and slabs to cover large spans.

In view of the above problems and with the purpose of overcoming them, the structural systems of precast concrete or ceramic blocks fixed by injected binder were developed, object of the present patent which consists of the grouping of precast concrete blocks or ceramic, which are fixed to each other or to another existing structural system by injected binder or reinforced cementitious, if necessary, forming structural elements capable of resisting the stresses acting on the various types of buildings and civil constructions in general. The injection of binder is made through cavities developed in the structuring elements themselves, allowing the interaction between the precast and the binder.

This system contributes to the industrialization of the production process of civil construction, as the mechanized injection of agglomerates reduces the need for specialized labor in the construction of masonry, pillars, curtains, and others, transforming the conventional construction process into assembly line. of prefabricated parts, resulting in quality and speed in the construction, with lower cost and execution time.

By this system all structural elements and their complements are prefabricated, which facilitates the quality control of the final product that is the projected work, and can be tested before assembly to verify that all parameters are in accordance with those provided in project.

The structural systems of injected bonded precast concrete or ceramic blocks, object of the present patent, integrate the following components: injected bonded concrete or ceramic block structural masonry: injected bonded precast concrete block abutment and binder.

In order to solidify and interact the structural masonry system with the abutment, it is necessary to make a channel in the precast abutment block of the same shape as the masonry block and inject the binder, forming an extension of the column. This integration increases the load capacity of the system and offers alternatives for its better distribution without compromising the masonry with the full load of the building. With new load paths, the possibilities of using structural masonry in relation to the conventional reinforced concrete system, cast in loco, are expanded. since the factors limiting its use were overcome with the adoption of this structural system.

The precast concrete or ceramic prefabricated block structural masonry consists of grouping the blocks into columns, plumbed together, forming between them a cavity that is filled with injected binder, extending from the base to the top of the column. wall formed.

By this system, the blocks are fixed vertically by their end, there is no need to fix them horizontally manually with lashing joint, as is done in conventional construction processes, thus avoiding the spillage of mortar during the masonry execution, which It is usually transformed into construction debris, which decreases material losses, which are commonly high in construction. Thus, the activities of building a wall become aligning and straightening the blocks without any settlement mortar and then by mechanized process, inject the binder into the cavity. In wall joints, the blocks are provided with side channel with the same formatting as those in line, to provide the same junction.

By mechanizing the building system, the work process becomes faster, the pace of production becomes independent of the speed of skilled labor, increasing labor productivity, resulting in improved quality of work with costs and lead times. minor execution.

The accompanying drawings show the arrangement of the block's constituent elements and their assembly to form a structural masonry, object of the present patent, in which: Fig. 1 Annex 15 shows the block in plan and sectional view:

Fig. 2, annex 1. shows the wall mounting in plan and sectional view.

As illustrated by the above figures, the injected binder-fixed concrete or ceramic block masonry system object of the present invention consists of assembling the blocks in column 6, without mooring, in order to enable the formation from a cavity 7 from the base to the top of the masonry which is filled by the injected binder and thereby join and secure the blocks at their ends. A column 8 is then formed at each block meeting, which will structure the masonry system by the interaction between the blocks and the binder. The blocks are an integral part of the structural system proposed for this patent and are provided with five areas with specific functions. Located at the ends channel 1 has the function of forming the cavity between the blocks for the injection of binder; region 2 is the solid part of the block that participates in the formation of the structural column; between this filled region are the interconnecting plates, with the central arched 3 having the role of bracing the columns and the external 4 the sealing function mainly. So that these outer plates do not absorb structural stresses, they were constructed with 3 mm of clearance at their base, as shown in fig. 1; Between the plates is the hollow area 5 for the passage of building installations and other functions. The block dimensions are defined according to the building design determinations.

The pillars are structural pieces of three dimensions where one of them stands out from the other two and is positioned vertically in the largest direction, are essential in civil construction, because it has the function of transmitting the active efforts, which receive from the upper parts, to your base. These efforts come mainly from the beams that receive the efforts of other elements such as masonry and slabs and transmit them to the pillars. In special situations the slabs transmit their efforts directly to the pillars. The injected binder precast block pillar consists of conveniently grouping the precast concrete blocks, provided with vertical cavities, according to the need for reinforcement, at least four, for the introduction of binders and fittings, thus forming the pillar with the physical characteristics provided for in the project.

The accompanying drawings show the arrangement of the block's constituent elements and their assembly to form a pre-cast concrete block abutment fixed by binder injection, object of the present invention, in which.

Fig. 1, Annex II, shows the block in plan and sectional view;

Fig. 2, Annex II, shows the mounting of the pillar in plan and sectional view.

In accordance with the above illustrated illustrations, the injected binder-fixed precast concrete block pillar, object of the present invention, consists of grouping the column blocks 6 and injecting binder 5 into the cavities 1 receiving the reinforcement 4 and are attached to the stirrups 2 protruding from these cavities 1; the stirrups are molded together with the blocks, which prevents corrosion reinforcement; the external channel of block 3 is to enable the interaction of the pillar with the structural masonry. The block is compact, with its characteristic and quantitative reinforcement strength defined by the structural design; Binders are cement-based composites, fine aggregates and additives that promote the interaction between reinforcement and precast, fixing them and forming the structure of the abutment as a whole.

The binder, which is part of the precast concrete or ceramic precast block structural systems, consists of the element that joins and fixes the structural units, the precast blocks, the hardware, to compose the elements that will construct the assembly. of the structure. The basis of its composition is cement, fine aggregate, additives and water. The proportionality in the composition of the bonding mortar is a function of the compressive strength and adhesion, defined in design, which must be measured in laboratory tests, according to technical standards.

The binder injection system consists of mechanical equipment that will introduce the binder under pressure so that it will occupy all voids between the structural units, including their surface interstices, so as to achieve the greatest adhesion and compactness between parts and their surfaces after curing of the binder. The relevant factor that must be controlled in binder injection is the pressure that must oscillate between minimum levels that ensures the penetration of the mortar in all voids and maximums that preserves the overmoulding precast.

Claims (3)

1.) "CONCRETE CONCRETE OR CERAMIC PREMOLDED BLOCK STRUCTURAL MASONRY SYSTEM FIXED BY INJECTED AGLOMERANT" comprises the grouping of precast concrete or ceramic blocks into columns (6) and fixed by injection of binder (5) into the cavities (1), forming the structural masonry, the cavity (7) results from the joining of the channels (1) of the inline blocks, from the base to the top of the masonry (7); the filled parts of the block (2) together with the binder form the structural column, designed according to the design, which receives the working forces of the masonry, the connecting plates work in the column winding, with priority to the central in this function, This system is characterized by the implantation of a structural masonry construction process based on the injection of binder in a mechanized form, with no mooring joint and without manual mortar placement in the horizontal joint, with the block being fixed vertically in the column; The precast block, integral with the object of the present invention, is composed of 5 distinct parts with specific functions, the channel (1) to form the cavity (7) when joining the other and which receives the binder to form the column. between the filled areas (2) is the arched central plate (3), which braces the structural columns, while the side plates (4) work in the masonry seal, the hollow area (5) is for the passage of facilities and other functions, block dimensions are defined by structural design 2.) "PRECAST CONCRETE PILLAR FIXED BY INJECTED AGLOMERANT", comprising the grouping of precast concrete blocks into columns (6) and injection of binder (5) into the cavities (1) containing the main reinforcement ( 4), fixed to the stirrups (2), forming the structured columns; binder injection is processed under pressure so that the mortar penetrates the interstices of the block surface and provides greater adhesion between the parts; this system is featured By implanting the mechanization in the construction process of columns without the use of forms and solidifying and fixing the hardware with the block by injected binder, the stirrup (2) is molded together with the block, the precast concrete block, object of the present patent. , is compact (3), with design-compatible strength characteristics, because it is prefabricated, its structural performance is tested before assembly, it is provided with cavities (1) for the introduction of main reinforcement (4) and binder (5) the outer channels (3) is for joining the pillar and the masonry; preforming the stirrup with the block protects the armor against corrosion; The amount of cavities and reinforcement is defined according to the structural design, requiring at least four cavities.