ITBO20080360A1 - PILLAR FOR BUILDING AND CONSTRUCTION METHOD OF A BUILDING STRUCTURE INCLUDING THE SAME. - Google Patents

Description

DESCRIPTION

attached to a patent application for INDUSTRIAL INVENTION - entitled:

PILLAR FOR BUILDING AND METHOD OF INSTALLATION OF A BUILDING STRUCTURE INCLUDING THE SAME.

The present invention relates to a building pillar and in particular a vertically developed prefabricated pillar for the construction of building constructions and a method of installation of the same.

According to what is known, vertical structural elements commonly known as pillars are used in the construction of prefabricated buildings.

The pillars are structural elements designed to transfer the load of the decks to the foundation structures and can be made with castings on site or with total or partial prefabrication.

With cast-in-situ pillars it is easier to make a monolithic connection with the other structural elements, such as horizontal floor elements (beams), while with prefabricated pillars important advantages are obtained as regards the speed of installation but it is problematic to easily ensure structural continuity between pillars and beams.

In order to overcome this latter drawback, a type of prefabricated element has been developed in particular, the subject of the European patent EP1428949 in the name of Tamburini, in which the pillars are provided with through windows or slots in which reinforced concrete beams are inserted which are subsequently connected to the pillars in the joint areas, for example by filling the windows with expansive mortars. This last solution has the drawback of requiring a certain number of interventions, even complicated ones, on site, such as, for example, the insertion of the beams in the slots.

Furthermore, the installation of the pillars takes place by inserting a lower end of the pillar in a coil suitably prepared in the foundation, requiring relatively long implementation times.

In this context, the main task of the present invention is to obviate the aforementioned drawbacks.

An object of the present invention is to propose a prefabricated pillar which allows easy assembly of the relative decks.

Yet another object is to propose a pillar which minimizes interventions by the installers during its installation.

Another object of the present invention is to propose a method for installing the aforementioned pillar which is quick and easy to carry out.

The specified technical task and the specified aims are substantially achieved by a pillar having the characteristics set out in the independent claim 1 and in one or more of the dependent claims.

The present invention also relates to a method for setting up a building structure including the pillar in accordance with the present invention. The method according to the present invention is expressed by the content of the independent claim 22 and in one or more of the dependent claims.

Further characteristics and advantages of the present invention will become clearer from the indicative, and therefore non-limiting, description of a preferred but not exclusive embodiment of a pillar, as illustrated in the accompanying drawings, in which:

Figure 1 illustrates a building structure comprising a pillar according to the present invention in a schematic front view in suitably interrupted section;

Figure 2 illustrates the pillar according to the present invention in a schematic side view;

Figure 3 illustrates the pillar of Figure 2 in a schematic front view;

figure 4 illustrates the pillar of figure 2 in a top plan view;

figure 5 illustrates a detail of a pillar according to the present invention in a first embodiment;

figure 6 illustrates the detail of figure 5 in a second embodiment;

figure 7 illustrates the detail of figure 5 in a third embodiment;

figure 8 illustrates a second detail of a pillar according to the present invention in an appropriately sectioned schematic side view;

Figure 9 illustrates a pillar according to the present invention in a second embodiment, in a schematic side view suitably interrupted.

In accordance with the attached drawings, the number 1 indicates a pillar according to the present invention for a building structure S.

The pillars 1 according to the present invention are made, in particular, to allow the construction of building structures S having a plurality of floors.

In particular, the pillars 1 are of the prefabricated type and allow the building structure S to be erected in significantly shorter times than known pillars.

The pillar 1 according to the present invention comprises a first and a second upright 2, 3 facing each other.

In a first embodiment, illustrated, for example, in Figures 1 to 4, the uprights 2, 3 are made of reinforced concrete while in the embodiment illustrated in Figure 9 the uprights 2, 3 are defined by a metal lattice.

According to what is illustrated in Figures 2 and 4, the concrete uprights 2, 3 preferably have a rectangular section with a first dimension D1 comprised between 75 cm and 120 cm, in particular, in the preferred embodiment illustrated, equal to 100 cm.

The second dimension D2 of the section of the uprights 2, 3 is between 10 cm and 30 cm; in particular it measures 15 cm.

As illustrated, the uprights 2, 3 are placed at a distance D between them of between 75 cm and 130 cm and, preferably, the distance D measures 100 cm.

The pillar 1 comprises a plurality of elements 4 for interconnection or connection of said uprights 2, 3.

Preferably, the interconnection elements 4 are defined by metal beams suitably fixed, as will be clarified below, to the uprights 2, 3.

By way of example, the connecting elements 4 consist of beams called, according to the regulations, IPE 240.

The interconnection elements 4 are substantially perpendicular to the uprights 2, 3 and define support brackets 5 for horizontal floor elements 6 illustrated by way of example in Figure 1. Preferably, as will be clarified below, the horizontal elements 6 include laminated wood beams positioned on the brackets 5. Going into greater detail with regard to the interconnection elements 4, it is observed that each of them has a first portion 7 which protrudes from the upright 2 and a second portion 8 which protrudes from the upright 3.

The aforesaid portions 7, 8 define the shelves 5 through which the horizontal elements 6 are supported.

As shown in particular in figures 2 and 9, the elements 4 are arranged in pairs or each interconnection element 4 is flanked by another in the transverse dimensions of the uprights 2, 3.

The elements 4 of each pair are coplanar with each other and define, as a whole, a support base for the horizontal elements 6. With particular reference to Figure 1, it is observed that, preferably, the interconnection elements 4 are spaced along the first and second uprights 2, 3 by a height H of between 200 cm and 350 cm, in particular they are spaced by 270 cm.

The portions 7, 8 projecting cantilevered from the uprights 2, 3 protrude from said first and / or second uprights 2, 3 in a measure D3 comprised between 10 cm and 40 cm, in particular they extend for 22 cm to offer sufficient support for 6 horizontal elements.

Advantageously, considering the height development of the uprights 2, 3, the pairs of the interconnection elements 4 are preferably spaced by a height H comprised between 200 cm and 350 cm, in particular they are spaced by 270 cm which is the preferred distance between a plane and the overlying. In other words, the interconnection elements 4 are spaced, along the height of the uprights 2, 3, by a height corresponding, in practice, to the useful height that is desired for each floor.

With particular reference to Figures 2 and 8, it should be noted that the uprights 2, 3 have a plurality of seats or recesses 9 prepared in the concrete for said interconnection elements 4.

In correspondence with these notches 9 there are provided hooking elements 10 or metal portions to which the interconnection elements 4 are connected by welding.

In a first embodiment, the coupling elements 10 are defined by a metal portion forming part of the reinforcement of the uprights 2, 3 and suitably left to emerge in correspondence with the recesses 9. In a second embodiment, illustrated in Figure 8, the elements 10 of hooking are defined by profiles 11 having a "C" section suitably inserted into the concrete of the uprights 2, 3 in correspondence with the cutouts 9.

In other words, on the occasion of the preparation of the uprights 2, 3, which, as mentioned, are preferably prefabricated, the profiles 11 are also prepared in the molding boxes (or formworks) which are therefore linked to the concrete. they are suitably defined during the shaping of the uprights 2, 3. According to what is illustrated in particular in Figures 5, 6 and 7, the pillar 1 is provided with centering means 12 for the installation of the pillar 1 itself.

In particular, the uprights 2, 3 are provided, at one of their lower ends 21, 31, with centering means 12 for installing the pillars 1.

The centering means 12 allow the correct positioning of the pillar 1 with respect to a base 13 suitably prepared for the installation of the pillar 1.

In the embodiment illustrated in Figure 5, the centering means 12 comprise a pair of pins 14 which protrude from the base 13 and relative seats 15 arranged in the uprights 2, 3 for receiving pins 14.

In the embodiment illustrated in Figure 6, the centering means 12 comprise a pair of pins 141 which project downwards from each upright 2, 3 and relative seats 151 provided in the base 13 for receiving said pins.

Preferably, in order to contain the overall length of the uprights 2, 3 or of the pillar 1, the pins 141 can be screwed to the uprights 2, 3 themselves.

In practice, in the preferred embodiment, the pins 141 have a threaded portion 141 to engage each in a corresponding threaded seat 151 provided in the upright 2, 3, suitably embedded in the concrete at the ends 21, 31. According to the present invention the means 12 for centering the pillar 1 also comprise a structure 16, indicated in broken line, intended to engage in the base 13. The structure 16 is provided with a reference element 17 for mounting the uprights 2, 3, for example the seats 15 for the pins 14, or the pins 141 for the seats 151, which allows the correct positioning of the pillar 1 with respect to the base 13.

According to what is illustrated in Figure 7, the centering means 12 comprise the lower ends 21, 31 of the uprights 2, 3.

In practice, the uprights 2, 3 have an elongated lower portion 18 intended to engage in a corresponding pocket 19 directly provided in the base 13.

Preferably, the pocket 19 has a depth P of between 20 cm and 50 cm, in particular it has a depth P of 35 cm.

It is important to note that the particular structure of the pillar 1, i.e. the two uprights linked by the interconnecting elements, and its dimensioning, allow the pillar 1 itself to remain erect without further props. In practice, once installed, the pillar 1 remains in equilibrium in the correct position for the subsequent construction of the entire building structure S, allowing easy locking of the same, for example by filling the spaces at the ends of the uprights 2, 3.

It should also be noted that the presence of the cantilevered portions allows a quick installation of even the horizontal structures that can be quickly placed and fixed to the brackets that protrude from the uprights, allowing a rapid construction of load-bearing structures on which the shelves can then be placed. attics.

A preferred method of setting up a building structure including the pillars according to the present invention includes the step of preparing a base for supporting the pillars 1.

In the base, a seat for the lower ends of each pillar 1 is obtained, or prepared during the casting phase. foundation base.

Advantageously, the structure 16 is shaped to accommodate the reinforcing rods and the centering means.

Each pillar is then laid suitably centered by means of the centering means 12 and the remaining part of the seat filled, for example, with cement mortar.

As anticipated, during these operations the pillar remains autonomously in position by virtue of the support surface defined by the uprights.

Advantageously, electro-welded meshes are also laid in the aforementioned seat and are incorporated into the foundation casting.

Once the pillars 1 are positioned, the horizontal floor elements 6 are positioned on the shelves 5 defined by the interconnection elements 4.

In particular, the horizontal elements 6, in particular laminated wood beams, are placed on the cantilevered portions 7, 8. Subsequently, over the elements 6 are positioned floors 20, preferably of the prefabricated type.

A plurality of partition walls 22 are then laid to define corresponding lodgings in the structure S.

Advantageously, the implants for the S structure are then housed, at least in part, inside the pillar 1.

The invention as described achieves important advantages.

The structure and sizing of the pillar allow it to remain erected autonomously, simplifying and shortening the installation operations which in practice are reduced to a single casting.

The protruding portion of the transverse interconnection elements allows easy assembly of the horizontal structures, such as, for example, the supporting beams of the floors.

Inside the pillar there is defined a cavity, delimited by the uprights, with a vertical development that can be advantageously used for the passage of the systems of the building structure, such as, for example, the extraction and service systems.

The invention thus conceived is susceptible of evident industrial application; it can also be subject to numerous modifications and variations, all of which are within the scope of the inventive concept; all the details can also be replaced by technically equivalent elements.

Claims (26)

CLAIMS 1. Pillar for building structures (S), characterized in that it comprises a first and a second upright (2, 3) facing each other and interconnecting elements (4) of said uprights (2, 3), at least a portion of said interconnecting elements (4) defining a support bracket (5) for horizontal elements (6) of said structures (S). 2. Pillar according to claim 1, characterized in that said interconnection elements (4) have at least one portion (7, 8) projecting from said first or second upright (2, 3), said portion (7, 8) projecting cantilever defining said support bracket (5). 3. Pillar according to claim 1 or 2, characterized in that said interconnection elements (4) are perpendicular to said first and second uprights (2, 3). 4. Pillar according to any one of the preceding claims, characterized in that said cantilevered portions (7, 8) protrude from said first and / or second upright (2, 3) to an extent (D3) between 10 and 40 cm, in particular they extend for 22 cm. 5. Pillar according to any one of the preceding claims, characterized in that said interconnection elements (4) are arranged in pairs, said pairs being spaced along said first and second uprights (2, 3), said interconnecting elements (4) each pair being coplanar with each other. 6. Pillar according to any one of the preceding claims, characterized in that said interconnecting elements (4) are spaced along said first and second upright by a height (H) between 200 cm and 350 cm, in particular they are spaced 270 cm. 7. Pillar according to claim 6, characterized in that said first and second uprights (2, 3) are separated by a distance (D) comprised between 75 cm and 130 cm. 8. Pillar according to claim 7, characterized in that said separation distance (D) between said uprights (2, 3) is comprised between 75 cm and 120 cm, in particular said distance (D) is equal to 115 cm. 9. Pillar according to any one of the preceding claims, characterized in that said first and second uprights (2, 3) have a rectangular horizontal section. 10. Pillar according to claim 9, characterized in that a first dimension (D1) of said section is comprised between 75 cm and 120 cm and a second dimension (D2) of said section is comprised between 10 cm and 30 cm. 11. Pillar according to claim 10, characterized in that said first dimension (D1) measures 100 cm and said second dimension (D2) measures 15 cm. Column according to any one of the preceding claims, characterized in that said first and second uprights (2, 3) have a plurality of seats (9) for said interconnection elements. 13. Pillar according to any one of the preceding claims characterized in that said interconnection elements (4) are associated with said uprights (2, 3) by welding. 14. Pillar according to claims 12 and 13, characterized in that said first and second uprights (2, 3) comprise a coupling element (10) arranged in each of said seats (9), said interconnection elements (4) being bound to said hooking elements (10). Column according to any one of the preceding claims, characterized in that said first and second uprights (2, 3) are made of concrete. 16. Pillar according to any one of claims 1 to 14, characterized in that said first and second uprights (2, 3) are defined by a respective metal lattice. 17. Column according to any one of the preceding claims, characterized by! comprising centering means (12) for said first and second upright (2, 3) for installing said pillar. 18. Pillar according to claim 17 characterized in that said centering means (12) comprise first engagement means (14) associated with a lower end (21, 31) of at least one of said first and second upright (2, 3). ) and second engagement means (15, 16) engageable with said first engagement means (14), said second engagement means (15, 16) being associable with a base (13) for said pillar. 19. Pillar according to claim 18, characterized in that said second engagement means (15, 16) comprise a support structure (16) provided with at least one reference element (17) for the first and second upright (2, 3). 20. Pillar according to claim 18 or 19, characterized in that said first engagement means (14) comprise a pin (14) associated with said upright (2, 3) and can be inserted in said second engagement means (15, 16) . 21. Pillar according to claim 18 or 19, characterized in that said first engagement means (14) comprise said lower end (21, 31) of at least one of said first and second upright (2, 3), said second means ( 15, 16) of engagement comprising a seat (15) for said end, said seat being formed in said base (13), said uprights (2, 3) having an elongated lower portion (18). 22. Method of installing a building structure (S) comprising a plurality of pillars (1) according to any one of the preceding claims, said method comprising the steps of providing a base (13) for supporting said pillars (1 ); providing in said base (13) means (12) for centering said pillar (1); lay said pillar (1) on said base (13), said method being characterized in that it comprises the step of positioning a plurality of horizontal elements (6) on said brackets (5), said brackets (5) being in particular projecting cantilevered from the uprights (2, 3) of said pillar (1 ). 23. Method for setting up a building structure (S) according to claim 22, characterized in that it comprises the step of arranging at least one floor (20) on said horizontal elements (8). 24. Method for setting up a building structure according to claim 23, characterized in that said floor (20) is of the prefabricated type. 25. Method for setting up a building structure according to any one of claims 22 to 24, characterized in that it comprises the step of providing a plurality of technical systems for said structure (S), said technical systems being at least partially inserted in said pillars (1). 26. Method for setting up a building structure according to any one of claims 22 to 25, characterized by the fact of providing a plurality of dividing walls (22) to define corresponding accommodations in said structure (S).