WO2024088449A2

WO2024088449A2 - Tuflonio, the versatile brick and a versatile brick series

Info

Publication number: WO2024088449A2
Application number: PCT/CY2022/000002
Authority: WO
Inventors: Andreas ANDREOU
Original assignee: Andreou Andreas
Priority date: 2022-10-04
Filing date: 2022-10-04
Publication date: 2024-05-02

Abstract

Tuflónio Versatile Brick Series (TVBS) is based on one Versatile Brick, in the form of parallelepipedon block, with left and right straight surfaces connected with internal connectors (columns). There are special designed protrusions and corrugations on the upper, lower, front, and rear internal surfaces. A wall of this kind of building bricks, is constructed if we place the bricks, one next to the other (end-to-end) with the protrusions of front or rear brick's surface, to extent to the corrugations of the other. When we build a higher row of bricks, then the protrusions of the lower surface of the bricks are extending to the corrugations of the upper surface of the bricks underneath (above-to-bottom). Versatile bricks can be made from any conventional or not, building material. Versatile Brick Series will let us build by playing or play by building, using a Mini Versatile Building Simulator Game (MVBSG) with small size of bricks. By designing a construction, playing with the Electronic Versatile Building Simulator Game (EVBSG) or with a Professional Versatile Building Computer Architectural Program (PVBCAP) we can see the result of the computer, before we start building it.

Description

DESCRIPTION

Title Tuflonio, the Versatile Brick and a Versatile Brick Series The invention relates to a building brick made from any conventional or not building material, a Versatile Brick Series (VBS) built on it, and their use, in the Versatile building Industry, for any construction using bricks of any size. Versatile Brick Series in a smaller version can be a Mini Versatile Building Simulator Game (MVBSG) with small bricks. The use of computer programming and computer technology is mandatory. Produce of a Professional Versatile Building Computer Architectural Program (PVBCAP) and even an Electronic Versatile Building Simulator Game (EVBSG) can lead the professionals and even the kids in to the Versatile Building Technology.

Prior Art

Until now we use to know bricks as a kind of blocks [(FIG. 8.5) cement bricks - usually with dimensions H-20cm x L-40cm x W-20cm where (H - Height * L - Length * W - Width)] or burnt clay bricks (FIG. 8.4). A builder can put them, end-to-end and one above the other (FIG. 8.3 and FIG. 8.6), bonding them with cement clay (or any other suitable kind of day). With those bricks we can build also a comer to connect two walls e.g., to create a room in a house. There are also other kind of bricks, for example an interlocking brick (US4454699A) or a T-head brick (US5816008A) or Bricks with nails (US1986739A) with a different design and. a different material but, my opinion, maybe not good enough to solve certain complications with specific problems in the building industry, for example to build a wall (fence) in a narrow place in between a straight hill side and a house or threes.

All the pieces of the Tuflonio Versatile Brick Series (TVBS) are based on the same design and connection type with the main element. That is Tuflonio Versatile Brick a parallelepipedon brick (FIG. 1 ) and a 3D model (FIG. 8.2). The name Tuflonio as a name, shows the versatility of the product. It comes from, the Greek-Cypriot word Toύβλo - Toύφλo (tuflo), that means brick and from the Greek words Πρoτόνιο

(Protonio - proton), Ηλεκτρόνιο (Eletronio - electron), Νετρόνιο (Netronio - neutron) that are the names of the main ingredients in the atom structure (FIG. 8.1). As all of those ingredients are creating the atom, the same is for Tuflonio, that can be used as the main ingredient to create a certain building construction. Tuflonio Versatile Brick Series (TVBS) is based on one Versatile Brick, in the form of parallelepipedon block, with left and right straight surfaces connected with internal connectors (columns). There are special designed protrusions and corrugations on the upper, lower, front and rear internal surfaces. A wall of this kind of building bricks, is constructed if we place the bricks, one next to the other (end-to-end) with the protrusions of front or rear brick’s surface, to extent to the corrugations of the other. When we build a higher row of bricks, then the protrusions of the lower surface of the bricks are extending to the corrugations of the upper surface of the bricks underneath (above-to-bottom).

For a better description of the whole design of the main element, the tuflonio brick, I present an orthographic or multi view drawing on the first page of the drawing section, with all the views FIG. 1.1 to FIG 1.5 and the interior of the main element (Fig. 1.6). Note that, the distances on the drawings and figures are not under a scale. So according to that statement, every size or parameter (P or W or something else) has its own logic, that with the specific designs its becoming clear. The page 1/8 is descripting the main element, so called Tuflonio Versatile Brick. FIG. 1 Main Element 's 3D view (Tuflonio Versatile Brick - (TVB))

FIG. 1.1 right side’s view, symmetrical with the left side.

FIG. 1.2 Front side’s view,

FIG. 1.3 rear side’s view,

FIG. 1.4 top side’s view,

FIG. 1.5 bottom side’s view,

FIG. 1.6 interior view (a vertical section along the line A-A (FIG. 1.4)),

Continuing with the other DRAWINGS, we have some other pieces, members of the Tuflonio Versatile Brick Series (TVBS)

FIG. 2 Starting Brick's 3D view, with a Solid Front Surface (SB),

FIG. 2.1 right surface’s view, symmetrical with the left surface,

FIG. 2.2 front side’s view,

FIG. 2.3 rear side's view,

FIG. 2.4 top side's view,

FIG. 2.5 bottom side’s view,

FIG. 2.6 interior view (a vertical section along the line B-B (FIG. 2.4)),

FIG. 3 This T Brick covers the situation of building a wall to the left and to the right ( T ), of the one that we are already building, creating a Left and Right corners (TCB),

FIG. 3.1 right surface’s view, symmetrical with the left surface,

FIG. 3.2 Front side’s view,

FIG. 3.3 rear side’s view,

FIG. 3.4 top side’s view,

FIG. 3.5 bottom side’s view,

FIG. 3.6 interior view (a vertical section along the line C-C (FIG. 3.4)),

FIG. 4 This is a Right Comer Brick (RGB). This brick covers the situation of building a wall to the right of the one (hat we are already building, by creating a corner, FIG. 4. 1 right side’s view.

FIG. 4.2 Front side’s view. FIG. 4.3 rear side's view,

FIG. 4.4 top side's view,

FIG. 4.5 bottom side’s view,

FIG. 4.6 interior view (a vertical section along the line D-D (FIG. 2.4)),

FIG. 44 This is a Left Corner Brick (LCB),

FIG. 5 Ending Tuflonio Brick’s 3D view (ETB), with a Solid Rear Surface,

FIG, 5. 1 right surface’s view, symmetrical with the left surface,

FIG. 5 2 front side’s view,

FIG. 5.3 rear side’s view, FIG. 5.4 top side’s view,

FIG. 5.5 bottom side’s view,

FIG. 5.6 interior view (a vertical section along the line E-E (FIG. 5.4)),

FIG. 6 Half of the Main Element’s 3D view (Half Tuflonio Brick - HTB) FIG, 6.1 right side’s view, symmetrical with the left side.

FIG. 6.2 Front side's view,

FIG. 6.3 rear side’s view,

FIG. 6.4 top side's view,

FIG. 6.5 bottom side’s view, FIG. 6.6 interior view (a vertical section along the line F-F (FIG. 6.4)),

FIG. 7.1 interior view (a vertical section along the line G-G (FIG. 7.4)) of two end-to-end bricks and one above them. This is showing the actual connection of the interior surfaces and connectors (columns), with their protrusions extending to the others corrugations. FIG, 7.2 Front side’s view, and FIG. 7.3 rear side’s view are showing that after the actual connection of the bricks, is remaining an empty horizontal space, in between the top row and the row below,

FIG. 7.4 top side’s view, is showing that after the actual connection of the bricks, is remaining an empty vertical space among the connectors.

FIG. 7.5 Side view of stand-alone connector same as the connector 10, that is situated in the main element (FIG. 1.6), FIG. 7.6 Tuflonio Cover. Is long enough (L) to fit into the top of the brick. Its width is P15=W-2*P1,

FIG. 8.1 The Atom’s structure,

FIG. 8.2 the main element’s 3D model,

FIG. 8.3 part of a wall with red clay bricks, FIG. 8.4 Red Clay Bricks,

FIG. 8.5 Cement Blocks

FIG. 8.6 Part of Cement blocks wall with a Corner.

To descript the parts of the main element’s I will use the page 1/8 of the DRAWINGS. We have the Left and Right, Square External Surfaces FIG. 1 (L-SES 1 and R-SES 4). Followed by their Left and Right, Internal Surface Parts (L-ISP 2 and R - ISP 3) that are opposite symmetrical with special design. We can see on L-ISP, at the Front and Top side a right V-shaped corrugation (5) and at the rear and bottom sides, a V-shaped protrusion (6) that is actually excess the brick, P1+P11 (P11 = P12 = W2 / 2). The R-ISP is opposite and symmetrical with L-ISP, having corrugations 5a and protrusions 6a. The total thickness of each of the two sides is P6. The factors W1, W2. W3 and W4 are there to control the differences of the external and internal surface width and that is happening because when we start building end-to-end bricks or one over the other (FIG. 7.1 ), the 6-6a protrusions need to be able to intrude into 5-5a corrugations and the protrusion on 8 is intruding in the corrugation on 7.8 and 7 connectors do not let the bricks to disconnect and move horizontally. As I mention before, we can construct this Brick using any conventional or not, building material. In any way, we have to ensure the fitting of one brick into the other (FIG. 7.1) to be smooth and easy depending of the material. If we construct the tuflonio from glossy material, in case of the PTVBG, then it will be OK if W1=W2=W3=W4=P6/2. In other case, for example a concrete thick mat brick, then the W1=W2=W3>W4 just 1 mm or 2mm deference, depending how tough is the surface of the brick. In case of a 40cm*40cm*30cm tuflonio and if the P6=6cm that means that if W3=3cm then W4=2.9cm or W4=2.8cm. With this arrangement it will be easier to insert one Brick into the other (6-6a into 5-5a). For other size cases we will solve the W1, W2, W3, W4 factor with different calculations. In the inferior of the main element (FIG. 1.6) there are the connectors (columns) 9, 10, and 9a and the teeth connectors 7 and 8. The distance P5 between the 2 and 3 is relevant of the size (H*L*W, FIG. 1.1 , FIG. 1.2) of the Tuflonio brick, as well as the thickness P2 and P3 (P3=P2+P2). The two connectors are P14 height and their distance from the top is P10 and the bottom that are also relevant of the size of the tuflonio brick. H=2*P10+P14.

The distance P13 of the 10 connector is very important and of course is relevant to the real sizes. Is calculated in a way that, when we use the bricks, the connector 9 of the brick above, will be on the top of connector 10 of the tuflonio under it (FIG. 7.1) and respectively, the 10 will be over the 9. P13=P1 + L/2.

The connector 10 can be produce as stand-alone connector (FIG. 7.5 - 21). P20=P10+P10+P7+P7. The connector 20 can be inserted in between top 9 and bottom 10 and same time in between top 10 and bottom 9 (FIG. 7.1). If we insert extra connectors from bottom to top as we build the rows of the wall, we will create an empty space column Cl and later we can fill this column with a certain material (e.g., iron construction and concrete - if we want to create concrete columns every certain distance in the wall construction), in the case of a horizontal empty row space R1 (pipe) we have an empty row interval over the bottom connectors and under tire top connectors, with the height of P20 and width P5. The empty spaces vertical and horizontal, is an advantage of the Tuflonio Versatile Wall. Through that empty space-rows we can have the following advantages: a. With the proper installation of pipes we can pass electricity cables for the 1 lights and the electricity sockets around all the construction. b. With the proper installation of pipes we can pass around all the construction, Ethernet wirings that will connect us to the internet. c. With the proper installation of pipes we can pass around all the construction, security system. d. On the proper height and the proper installation of pipes we can do the home water supply system e. We can create an empty vertical column or an empty horizontal column, if we cover the connectors of the bottom row of the bricks, with a long wooden construction so that nothing wil l pass through towards the bottom. We can use that solid empty space to insert an iron construction and fill it with concrete, creating a construction girder (rafter) long enough to cover the length of the wall. The characteristics 9, 10, 9a, 8, 7 and 5,5a, 6, 6a of the main element, plus some extra characteristics for each other piece and the advantages of the wall building, especially column Cl and pipe R1 , are creating a different perspective for the Tuflonio Versatile Brick Series from other bricks.

Claims

Claim 1. The invention is the actual shape of the main element (FIG. 1) that is a brick, in the form of paralleleptpedon block with 6 sides. The two sides (Left and right), have square external surfaces, always visible on the walls, in the building process and are connected with column connectors, 9, 10, and 9a. The space between the connectors is creating internal empty columns (Cl, FIG 7.4). Their internal parts and the connectors are designed, having V-shaped corrugations and protrusions, to connect end-to-end and above-to- bottoni, bricks These connectors are shorter than the basic height of the brick and they are situated lower from the top end, and higher from the bottom end leaving an empty space between the rows (R1 , FIG. 7.3). Claim 2. The connector 10, (FIG. 1.6) has a V-shaped corrugation on the top end and a V-shaped protrusion on the bottom end. The connector 9a, (FIG. 1.6) has a half right V-shaped corrugation on the top of it and combined with tooth 8, they have a V-shaped corrugation on the bottom end. The connector 9 (FIG. 1.6), has a Right V-shaped protrusion on the bottom end and combine with tooth 7. they have a V-shaped corrugation on the top of them., Ciaim 3 The main element (FIG I, FIG. 1 .

2). has on the front end, a half-right V-shaped corrugation (5) on the left side's internal part (2), a half-left V-shaped corrugation (5a), on the right side's internal part (3) and a tooth connector 7, (FIG. 1.6) with a half-left V-shaped protrusion on bottom end. It has on its rear end, a V-shaped protrusion, (6 and 6a), on both internal parts (2 and .

3) and a tooth connector 8, (FIG, 1.6) with a half-right V- sbaped corrugation its top end. In the end-to-end building process, the brick’s front end, extend into the rear of another similar brick’s end. The protrusions 6 and 6a, intrudes (extend) into the corrugations 5 and 5a, of the brick and the protrusion of the tooth connector 7, intrudes (extend) into the corrugation of the tooth connector 8 (point2, FIG. 7.1 ).

Claim 4. The main element (FIG. 1 , FIG. 1.2), has on the top end, a half-right V-shaped corrugation (5) on the left side's internal part (2), a half-left V-shaped corrugation (5a), on the right side’s internal part (3) and a V- shaped protrusion bottom ends, (6 and 6a), on both internal parts (2 and 3). In the above-to-bottom, building process (building second or higher row of bricks), the protrusions 6 and 6a on the bottom end of the brick, extends into the corrugations 5 and 5a on the top end of a similar bricks in the lower row (point 1 , FIG. 7.1).

Claim 5. The Stand-Alone Connector is to be used for interior columns connection (FIG.7.5),

Claim 6. The Brick Cover, covers the main element on the top (FIG 7.6).

Claim 7. All the elements (pieces) of the Tuflonio Versatile Brick Series (TVBS) are based on the main element's characteristics. This concerns the following elements: a.) Starting Brick (SB) is a brick with 3 solid surfaces, the two sides, left and right and a Solid Front

Surface (FIG. 2). It has three ways to connect to another brick. Rear, top and bottom. b.) T Brick (TB) connects three walls in a T scheme (FIG. 3). It has three solid surfaces and five ways to connect to another brick. Front, left, right, top and bottom. c.) Right Comer Brick (RCB) connects two walls in an L scheme. This is for a Right corner (FIG. 4). It has three solid surfaces and four ways to connect to another brick. Front, right, top and botom. d.) Left Corner Brick (LCB) connects two walls in an L scheme. This is for a Left corner (FIG. 44), It has three solid surfaces and four ways to connect to another brick. Front, left, top and bottom. e.) Ending Tuflonio Brick (ETB) is a brick with 3 solid surfaces, the two sides, left and right and a Solid Rear Surface (FIG. 5). It has three ways to connect to another brick. Front, top and botom. f.) Half of the Main Element ((Half Tuflonio Brick - HTB) FIG. 6). It acts like the main element but its purpose is to be used once in the building process of every second higher row of bricks, so that the bricks of a higher row to extend into two bricks of a lower row, to ensure a stronger bond of the wall (point 1 . FIG. 7.1).