BRPI0904713A2 - cynic brick - Google Patents

Abstract

Cubic brick, consisting of a primary and secondary brick (B = C) with its attached additions (D, E, and F) derived from a cube (A) and transformed into the above elements by arrays. They are made of agglomerates, environmentally friendly material, concrete, glass or any industrial material. Complement (D) is a 90 <198> (ninety degree) squirrel to take left or right direction. The complement (E) is a tee for leading the brick (B = C) in two directions at 180 <198> (one hundred and eighty degrees) and the complement (F) is a crosshead for driving the brick (B = C) in four directions or 360 <198> (three hundred and sixty degrees).

Description

Cubic brick

The present patent refers to a brick type which initially shows the figure (1) of the cube (A) drawn in the rough, but this element we transform and polish as we will see in all the figures that will be presented later. All this is the result of studies and research designed to facilitate and provide the construction industry with the means to develop projects rich in simple and structured architectural changes, heavy or light, depending on the situation and application of it.

Nowadays we see many types of bricks and blocks of various brands and through which all are used regardless of what kind of product might be appropriate for a particular work. Often one ends up buying a product that is very good, but not suitable for the type of service that in the future may make some change that would result in loss of labor, time, but especially annoyance that over time Over time the consequences end up forcibly making changes already in rooms, offices, bakeries, bars, shops, etc., where the breaker enters. To get an idea of what is broken every time, walls break even to pass a simple wire, pipe, pvc, a hose, a point of light, etc; and where sometimes they will have to go through already tiled rooms. What a grief it gives to analyze the damage without taking into account the noise of breaks, dust and debris that eventually goes to the dumpster, occurring mainly on the partition walls of apartments. We could add much more to the problems that exist with changes or renovations, but almost most people are already aware of how difficult it is to deal with damage in construction day by day.

Based on these problems, more suitable methods for civil construction were developed through long studies, implementing mechanisms to solve this deficiency in civil construction. The breakage of bricks can be softened by making them have horizontal and vertical holes, at the same time these bricks will be laid without the need to put mortar using only concrete glue or other type of joint, because this brick already Comes with notches on their faces that provides you with one-on-one locking. The Cubic Brick is free from grouting due to the fittings of its full periphery and this makes the vertical and horizontal internal holes free and clean without grout pits, which makes it easy to form thermo-acoustic chambers that control the temperature inside the walls. walls, help insulate noise and reduce the weight of the work. We have another secondary cubic brick (C) equal to the primary Cubic Brick (B), with the difference that the secondary one has a 30 ° (30 °) inclined transverse hole (T °) to absorb and control the outside air, to ventilate the interior rooms. and ventilating the thermoacoustic chambers within the walls. Another observation we have in the vertical holes is the quick and easy embedding of the support columns, saving on the woodworking labor and avoiding the excessive use of wood and even more the distribution of columns throughout the construction, avoiding weight concentration in few points of the structure. With the Cubic Brick manufacturing process we can consider the "emergence" of ecological pottery that does not cause deforestation and does not release burning residues in the air, as happens in current brickworks. Also in its manufacture are natural aggregates such as sand, stone dust, gravel and artificial aggregates of stone coal slag or blast furnaces, etc. This same Cubic Brick can be made of glass for use in modern construction that increases daily, becoming an essential element. Improvements in technique and advances in science make it increasingly possible to apply them, as in the case of the Cubic Brick, which allows access to its ribbed holes with electric and (or) natural lighting in the environments to be decorated or illuminated. The Cubic Brick may be made of any other type of material, not limiting its manufacturing principles nor its dimensions in scope. The Cubic Brick may be better understood through the following detailed description in line with the attached figures, where:

Figure 1 represents an original view of a cube (A) (rough) to be cut according to the matrix of the design designed and planned by its inventor.

Figure 2 is a perspective view of the primary primary product (B = nB ') showing its fittings and its longitudinal and vertical half circles (5 °, 5', 5 ", 5" ') forming a circular quadrant of 360 ° (three hundred and sixty degrees) beginning and end.

Figure (3) represents a perspective view of the same but secondary product (C = nC ') where we will see its detailed function below.

Figure (4) shows a top or bottom view with a corner shape and two half circle exits (5 ° = 5 "and 5 '= 5'") with their fittings.

Figure 5 also shows a top or bottom view with two side half circle inlets (5 ° and 5 ") and a half circle front (5 'and 5"') in the shape of a tee (E).

Figure (6) represents an unprecedented view where its facades are equal, showing above a cube (A) cut equally on all its faces (6 sides) differentiating only its fittings and half circles that we will call Cubic Cross (F).

Figure (7) shows four equal faces (front, bottom, top and bottom), differing only in their fittings.

With reference to these figures, it can be observed that in figure (1) we start by showing a cube (A) (gross) to guide us that, through this format, our product must be uniform with all its equal external measurements, independent of the arbitrated rating of your factory, as its cubic sizes vary according to the work to be surveyed.

Starting with the Cubic Brick (B = nB ') of figure (2) in perspective, we note that it is all numbered so that through this numbering you can orientate yourself in which positions the bricks will fit, although it is so easy to place. snap handling that the same brick guides when it is seated correctly. For a better understanding we check the Cubic Brick (B) of figure (2), fits into the following brick (nB ') that is equal, simply by vertically connecting or joining the locking edges of the front brick (B) (3 \ 4 ', 5', 2 ', 1') with brick (nB ') with brick bottom (B) (3' ", 4" ', 5 "', 2" ', 1 "') countless times (B ') until you reach the given point and in the same way continue horizontally from above (3rd, 4th, 5th, 2nd, 1st) and horizontally from below (3 ", 4", 5 ", 2", 1 " ). The same process happens with the secondary Cubic Brick (C = nC ') as well as all the attached figures on sheet 2/2 which are the priority complements of bricks (B) and (C) which we will see below for their functions.

In a straight wall in your survey with the Cubic Brick, we can see that usually when you have a project to be executed, such as a residence, in most rooms there are corner corners (D), tee corners (E) and even Crossed corners (F).

1st If it is corner (D), we see that in the cube (A) (gross) of figure (1) is molded through its matrix as shown in figure (4) the corner (D), has the same characteristics or system of fitting that assists the orientation of the front brick (B = C) of the figure (7).

2o If it is in the form of left and right tee (E) (figure 5), we find that it also falls into the same fitting system to assist in the orientation of bricks with their same characteristics.

3rd And if it is in crosshead (F) 1 the same process is adopted as in items 1 and 2 with the difference that there are four outputs or inputs of the same socket system, as shown in the drawing of figure (6).

Claims (4)

1. Cubic brick, comprising a primary and secondary brick (B = C), a corner (D), a tee (E) and a crosshead (F), all of which are formed from cube (A) 1 from your headquarters. Cubic brick according to claim 1 (1), characterized in that the brick (B = C) has equal numbered (1 ', 2', 3 ', 4' and 5 ') in its front faces with its bottom face (1 "\ 2 '", 3' ", 4 '" and 5' ") and its top face (1st, 2nd, 3rd, 4th and 5th) equal to its bottom face (1", 2 ", 3", 4 "and 5") where they all show a locking system to assist and guide the laying of the bricks (nB = C). 3. Cubic brick according to claim (2), characterized in that the brick (B = C) joining in horizontal and vertical sequence, we note that in this union, the half circles (5o, 5 ', 5 "and 5 '") will form an indefinite number of numbered inner holes (horizontal and vertical). Cubic brick according to claim (2), characterized in that the brick (B = C) has the property of being part of all add-ons (DEF) named as: Corner (D), tee (E) and crosshead (F).