ITMI20091891A1 - DIMA FOR REALIZING PILLARS OR COLUMNS, AND METHOD FOR REALIZING COLUMNS OR PILLARS IN BRICKS, STONES OR OTHER BUILDING BLOCKS - Google Patents

Description

DESCRIPTION

Field of the invention

[1] The present invention relates to an equipment and a method for building columns or pillars in bricks, stones or other building blocks, in particular columns or pillars in stone or facing bricks.

State of the art

[2] Currently the brick pillars of the type shown in Figure 1 are built by masons checking the arrangement and alignment of the bricks with the sole aid of a spirit level, plumb line, rulers and eventually - particularly in the case of columns with a circular section - a series of vertical wires - indicatively from three to six - fixed with nails to the floor and ceiling when present, or to another overlying structure, essentially creating a "wire template". A lot of time and experienced manpower are required to build columns and pillars with these techniques; indicatively, to build a brick pillar with a square section, 50 cm side and 3 m high, it takes approximately eight hours / man; the positioning of the above described "wire template" alone requires approximately one hour of work by one person.

[3] An object of the present invention is to provide equipment and a method that allow for faster and easier construction of pillars and columns of bricks, stones or other building blocks, while reducing construction times and the need for construction all the same. experienced labor, or by increasing the dimensional accuracy of the column or pillar obtained.

Summary of the invention

[4] This object is achieved, according to a first aspect of the present invention, with a template for making pillars or columns having the characteristics according to claim 1.

In a second aspect of the present invention, this object is achieved with a method for making columns or pillars in bricks, stones or other building blocks having the characteristics according to claim 10.

[5] The advantages achievable with the present invention will become more evident to those skilled in the art from the following detailed description of a particular non-limiting example of embodiment, illustrated with reference to the following schematic figures.

List of Figures

[6] Figure 1 shows a bearing brick pillar, per se known;

Figure 2 shows a perspective view of a template for making pillars or columns according to a particular embodiment of the invention;

Figure 3 shows, in perspective view, an instant of the construction of a pillar covered with facing bricks using the template of Figure 2;

Figure 4 shows a view from the other of the cursor of the template of Figure 2;

Figure 5 shows an exploded perspective view of the template of Figure 2.

Detailed description

[7] Figures 2-5 relate to a particular embodiment of the invention. The template according to this embodiment of the invention, indicated with the overall reference 1, comprises:

- a fixed frame comprising in turn a base 3 and two sliding guides 5, substantially vertical;

- a cursor 7 designed to slide along the sliding guides 5.

The slider 7 forms a first hollow seat 9 which substantially reproduces, in negative and on a 1: 1 scale, the external shape of the cross section of the brick or masonry column or pillar to be made. As in the embodiment of Figure 2, the first hollow seat 9 can be formed within a belt formed by welded metal strips or profiles.

[8] The fixed frame, in order to be more solid and rigid, can comprise a crossbar or more generally a connection head 11 which connects the upper ends of the sliding guides 5 in a substantially rigid way.

Sometimes the load-bearing elements of a column or pillar are not only bricks M or stones, but also include an internal core AI of concrete - substantially formed by a pillar with a smaller section - which is subsequently covered by bricks or stones (Figure 1 ). Therefore, to allow the template and in particular the first hollow seat 9 to be inserted around the core AI at the beginning of the machining, both the base 3 and the first hollow seat 9 and the connecting crosspiece or head 11 each form an open frame or in any case they advantageously have an open perimeter, as shown in Figure 2; the references 17 and 19 respectively indicate the openings of the base 3 and of the first hollow seat 9, the reference 16 in Figure 5 indicates the second hollow seat formed by the base 3: the core AI or the finished column or pillar can pass through the openings 17, 19 by moving the base 3 and the cursor 7 normally or in any case transversely to the axis of the core AI, allowing to position the template 1 around the core AI before covering it with bricks, and to remove the template 1 from the column or pillar finished when for example the pillar or column reaches an already built ceiling. In the embodiment of Figure 2, the base 3 has a substantially U-shape.

[9] Preferably but not necessarily the frame 70 of the slider 7 which defines the first hollow seat 9 lies substantially in a plane perpendicular, or in any case transversal, to the axis of the column or pillar to be made (Figure 2

[10] A way of using the previously described template 1 is now described.

The template 1 is positioned so as to substantially correspond the perimeters of the first hollow seat 9 and the cross sections of the column or pillar to be made, and so that the sliding guides 5 extend substantially parallel to the axis of the column or pillar to be to achieve. While cursor 7 is in the lowest position, the first layer of bricks is placed inside the first hollow seat 9, placing the bricks against the perimeter of the first hollow seat 9. After completing the first layer of bricks, if necessary, lift the cursor 7 of a predetermined pitch by making it slide along the guides 5, it is locked - with an appropriate locking system 15 - again at the appropriate height and the second layer of bricks is made in a similar manner, and then the subsequent layers up to complete the column or pillar (Figure 3); after which the template 1 can be removed.

[11] In this way it is possible to make pillars in bricks, stones or other building blocks, much faster than using only spirit levels, plumb lines and rulers; indicatively, the template according to the invention makes it possible to create in about 3-4 hours a brick pillar with a square section of 50 X 50 cm side and 2.7-3 m high, with a reduction of about 50% compared to the techniques of construction with spirit level, plumb lines and rulers. A template according to the invention also makes it possible to align and generally arrange the bricks and stones with considerable precision and excellent aesthetic results, even if used by not particularly expert masons.

[12] The template 1 can be produced with low-cost techniques and the not particularly tight tolerances of the metallic carpentry, even if a greater coupling precision between the slider 7 and the guides 5 improve the geometric precision of the columns and pillars made. For example, the guides 5 can be obtained from common metal sections, and the slider 7 can be a structure of metal strips or welded metal sections.

[13] Preferably the fixed frame is provided with only two sliding guides 5: this number is a good compromise which makes the slider 7 sufficiently firm and the assembly and disassembly of the template before and after use is sufficiently fast. As an indication, a template 1 with two guides 5 can be assembled and positioned in about ten to twenty minutes, and disassembled in about ten minutes.

Preferably when the template 1 is mounted, the sliding guides 5 extend vertically for a height at least equal to, if not greater than, the height of the column or pillar to be made, so as not to have to disassemble and reassemble the template to create a same column or pillar.

[14] If necessary, the fixed frame can be supported and stabilized by an appropriate number of struts 13 resting - and preferably fixed by means of nails or dowels - to the ground (Figure 3); alternatively the base 3 and the head 11 of the template can be directly nailed or doweled to the floor, to the ceiling or to other parts of the construction for which the template is used.

[15] From the foregoing it appears that to make columns or pillars in bricks or stones having cross sections of different shapes and sizes it is necessary to use sliders 7 that define hollow seats 9 of different shapes and sizes. As shown in Figure 6, advantageously the fixed frame is made in such a way that it can be reversibly disassembled and reassembled; in particular, the two sliding guides 5 are reversibly removable from the base 3 and the connection head 11. In order to use the same base 3, the same connection head 11 as well as the same guides 5 to make columns or pillars having different cross sections, it is possible to use advantageously a set of sliders 7 each defining a first hollow seat 9 of different shape and size but all having the same center distance L between the sliding seats 72 of the guides 5 (Figure 5).

[16] The previously described embodiments are susceptible to various modifications and variations without departing from the scope of protection of the present invention. For example, the hollow seat can have a perimeter that is not only square or rectangular, but also circular, elliptical, ovoid or rhomboid, to create columns or pillars with cross sections of corresponding shape. Along the sliding guides there may be notches, holes or protrusions equidistant from each other with a constant step, and / or a graduated scale to move the cursor along the sliding guides with movements at a constant step, or in any case to position it with greater precision. In the embodiment of Figure 3, the first hollow seat 9 reproduces in negative the external shape of about 80% of the square cross section of the pillar, ie it reproduces about 80% of the perimeter of the pillar; in other embodiments, the hollow seat of the slider can reproduce portions greater or less than 80% of the section of the pillar or column to be made, but preferably at least half: this fraction can be particularly advantageous for making pillars with a circular or elliptical section .

[17] The examples and lists of possible variants of this application are intended as non-exhaustive lists.

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Claims (10)

CLAIMS 1) Template for making pillars or columns (1), comprising: -a fixed frame comprising in turn at least one sliding guide (5); - at least one slider (7) arranged to slide along the sliding guide and defining a first hollow seat (9) which substantially reproduces, in negative and in natural size, the external shape of at least part of the cross section of the column or pillar to be made . 2) Template (1) according to claim 1, where the first hollow seat (9) reproduces the external shape of substantially at least half of the perimeter of the cross section of the column or pillar to be made. 3) Template (1) according to claim 1, wherein the fixed frame comprises a base (3) through which it can be placed on a floor or on the ground. 4) Template (1) according to claim 1, where the perimeter of the first hollow seat (9) has at least one opening (19) through which the completed pillar or column or its internal core (AI) can pass, moving the base and / or connection head transversely to the axis of the pillar, column or web (AI). 5) Template (1) according to claim 1, where the perimeter of the first hollow seat (9) has a shape chosen from the following: rectangular, square, circular, elliptical, oval, rhomboid, parallelogram. 6) Template (1) according to claim 1, where the fixed frame comprises at least two sliding guides (5), and possibly no more than two sliding guides (5). 7) Template (1) according to claim 6, where the fixed frame comprises at least two sliding guides (5) and a connection head (11) which during use connects the ends or upper portions of the sliding guides (5 ) substantially fixing the relative position of one end or upper portion with respect to the other. 8) Template (1) according to claim 1, where the at least one sliding guide (5) extends for a length at least equal to the height of the column or pillar to be made. 9) Template (1) according to claim 1, where at least one of the base (3) and the connection head (11) define: - a second hollow seat (16) designed to accommodate the entire cross section of the column or pillar to be made along at least a portion of the column or pillar itself; And - an opening (17) through which the completed pillar or column or an internal core (AI) can pass by moving the base and / or the connection head transversely to the axis of the pillar, column or core (AI ). 10) Method for making columns or pillars in brick, stone or other building blocks, including the following operations: a) providing a template (1) having the characteristics according to one of claims 1 to 9; b) arrange the first hollow seat (9) in correspondence with a first section of the future column or pillar to be built; c) place a plurality of bricks, stones or other building blocks in the first hollow seat (9), possibly tying them with mortar or cement, leaning against or in any case referring substantially to the perimeter of the first hollow seat (9) so as to create a first section of the column or pillar; d) slide the cursor (7) parallel to the axis of the column or pillar to be made and arrange the first hollow seat (9) in correspondence with a second section of the future column or pillar to be made; e) repeat operation c), and possibly operation d) a number of times sufficient to complete the column or pillar.