ES2302655B1 - ADJUSTABLE LENGTH BEAM. - Google Patents

Abstract

Adjustable length beam. The beam comprises an outer beam element and an inner beam element telescopically coupled to each other with sliding capacity, each having a free end with a standardized terminal for coupling to standard beams of a structure and presenting both telescopic elements in their opposite sides of each other, orifices alignments of holes for the eventual passage of fixing bolts, with a separation step between holes l / n, being l the length considered and n the number of holes, while for the other beam element the passage it is l / (n-1), so that in the telescopic sliding of one element of the beam with respect to the other, the coincidence of holes of one element with the other takes place according to fractional increments of the passage, allowing adjustment in length.

Description

Adjustable length beam.

The present invention is intended to give know an adjustable length beam that allows to regulate the beam length within certain limits, with a range of values that vary discreetly with reduced increments.

Formwork panel formation by Standard beams are in some cases with difficulties if the lengths to cover do not match exactly the lengths of the standard modules or a multiple of them. In some cases the difference between these modular values and the actual level is reduced magnitude, and adjustment of beam length requires the use of supplements or means of fortune that have less technical performance than standardized elements and that require a considerable proportion of labor for its realization.

The present invention is intended to give know a new beam of adjustable length by which it is possible to regulate the length by discrete and reduced increments by telescopic axial displacement of two elements that integrate the beam, with features that allow adjusting the final beam length with reduced length increments, thus considerably facilitating the work for operators  in the work

The beam object of the present invention can be supported after the length adjustment by means of a bolt transverse in case the beam must withstand efforts of traction, or it can be adjusted to the desired length without need for connecting bolts in the case where the beam should not withstand tensile stress but only bending.

Another goal of the adjustable length beam object of the present invention is to avoid efforts of flexion in the eventual fixing bolt when making it work only shear.

The inventors have no knowledge that there are adjustable length beams that comply with the characteristics of the present invention, which could constitute technical background of it that should be taken into account to evaluate its novelty and activity characteristics inventiveness.

Essentially, the adjustable length beam object of the present invention is constituted by two elements telescopically interlocking, with type terminations standard so that they can be attached to beams of structures of standard formwork and presenting both the element outside of the beam as the inner element, which move from telescopic shape with each other, hole alignments thereof diameter but with the characteristic that for a length determined the number of holes of one of the beams is smaller, preferably in a unit that the number of holes in the other.

This represents that similar to the system of nonius used in mechanical instruments, starting from the position where a hole in the beam element coincides inside with the outer beam element, when moving axially one element with the other, the new hole match is not establish, as in the case of the same number of holes, a after the displacement corresponding to the separation between two holes, that is, one step away from the series of holes, it will take place for a fraction of the displacement that will correspond to a fraction of the separation between two holes of greater separation, divided by the total number of holes in the section considered. As is evident, the two holes that match  between the inner beam element and the outer beam element will vary according to the path of one element with respect to the other, it is that is, with the actual level to be covered, which does not constitute difficulty some for fixing the two elements of the beam since, the bolt used for fixing both elements will be placed in the pair of holes, whatever it is, more closely Matching series. In this way it will have been possible to make a much more precise length adjustment and by much more increments reduced total beam length. As is evident, according to be the characteristics of the work to be done, for example, a formwork or a beam for another application, may vary as desired the number of holes in the outer beam element and of the inner element, so that for a greater number of holes the adjustment range will be shorter, that is, the range of length adjustment values will be higher.

Preferably, the beam element external will be constituted by U-profiles arranged in opposition to each other and united through intermediate crossbars and crossbars at one end, leaving the other end free to allow telescopic entry of the beam element interior, which may present a U-profile structure in opposition similarly to the external beam element or a tubular structure In the first case, the beam will be more appropriate for applications without tensile stress, that is, only bending stresses that do not require bolt application, while the second case will be more appropriately applicable to beams subjected to tensile stresses, in which it is required connecting bolt and it is of interest that it is not subjected to bending forces but preferably to stresses of shear.

In the event that the inner beam element present tubular structure, this will preferably be mixed, being tubular, that is, parallelepipedic, only the part that is overlapped with the outer beam element and the end that protruding from the outer beam will consist of U-profiles in opposition.

With this variable section structure you manages to limit the bending effort in the bolt fixed in the tubular part of the structure and the possibility of anchor formwork beams at any point of the length beam adjustable by means of the connecting elements that are fixed to the wings of U profiles.

In short, the adjustable length beam comprises an outer beam element and a beam element internally coupled to each other telescopically capable of sliding, each of them having a free end with standardized terminal for coupling to standard beams of a structure and presenting both telescopic elements on their faces opposite each other, hole alignments for the eventual fixing bolt passage, with a separation step between holes l / n, where l is the length considered and n the number of holes, while for the other beam element the step is l / (n-1), so that in the slip telescopic of one element of the beam with respect to the other, the coincidence of holes of one element with the other takes place according to fractional increments of the step, allowing the adjustment in beam length for each of said increments fractional when mounting the bolt in the matching holes or almost coincident with said telescopic beam elements.

For your best understanding they are attached to title Explanatory example, but not limiting, some drawings representative of a preferred embodiment of the present invention

Figure 1 shows a perspective view of a beam of adjustable length in accordance with the present invention.

Figure 2 shows an elevation view side, of the own adjustable length beam of figure 1.

Figures 3 and 4 show respectively a longitudinal section by a horizontal plane of the beam represented  in figures 1 and 2, and a plan view of the beam itself adjustable length

Figure 5 shows a perspective view of the internal beam element.

Figure 6 shows a perspective view of the external beam element of which make up the length beam adjustable from figures 1 to 4.

Figure 7 shows an exemplary embodiment of a structure for formwork panel support using the adjustable beams according to the present invention.

Figure 8 is a section along the indicated plane in figure 7.

Figure 9 shows a detail of the structure represented in figure 7 with two beams of adjustable length successive

Figure 10 schematically shows the Application of adjustable length beams to the realization of a formwork for U-shaped walls.

As seen in the figures, the beam Adjustable object of the present invention comprises two elements coupled to each other telescopically, having indicated with the numeral (1) the outer beam element and with numeral (2) the internal beam element in a specific embodiment. The element of beam (1) has two sides parallel to each other (3) and (4), preferably made in the form of two U-profiles arranged with the wings out, which are joined by crossbars such as (5), (5 '), (6) and (6') in positions intermediate and presenting a terminal (7) of structure standardized for fixing to other beams of standard type of a larger structure, for example, formwork. Between the elements (3) and (4) slide the body (8) of the inner part (2) with union crossbars, such as (9) and (10) that serve as a stop against the crossbars (5) and (5 ') of the outer element. At its end free the beam element (2) also has the terminal (11), preferably consisting of directed U profile elements outward as in the case of the beam element (1), attached to the central element (8) that in the case represented in the figures have a substantially parallelopedic structure, adjusted with sliding capacity inside the U-profiles (3) and (4) of the element (1). Said inner element of the adjustable beam will be provided in the intermediate zone or body (8), with an alignment of through holes, that is, that pass through said body side-by-side parallel (8), which have been indicated in the figure 5 with the numerals (12), (12 '), (12' '), ...

The outer part of the adjustable beam, which indicated with the numeral (1) in figure 1, it is equipped with the same mode in both profiles (3) and (4) of individual alignments of holes, such as (13), (13 ') and (13' ') that are repeated so aligned on the other U profile and that have been designated with the numerals (14), (14 '), (14' '), ...

It is characteristic that for a length determined of the beam, that is, both of the inner element and of the outer element, the number of holes of the inner element and of the outer element, whose diameter coincides, differ preferably in a unit in the entire section, so that by axially displacing the inner element with respect to the outer element, the coincidence of holes will not take place to  a complete passage between successive holes, as would happen in the case that the number of holes for a given length was same for the inner element as for the outer element of the beam, but will coincide or almost coincide with increments of fractional length two holes, variable along the beam elements / components of adjustable length. For the therefore, it will have been achieved that instead of having to adjust the length simply by the passage between every two holes of the element inside and outside element, can be done for increments Fractions of each step between holes. Therefore, there will be achieved a possibility of adjusting the length of the beam, not by complete steps but by fractions thereof.

In the case of assemblies with cross bolts for the union of the two beam elements (1) and (2), the bolt is will have to mount in the holes that are in coincidence or closer to the match. In the case where the beam is subjected only to bending stresses the assembly will not be necessary of bolts. In this case, the internal element, instead of having of the parallelopedic element (8) that minimizes the separation between the facing holes of the internal element and the element external, and therefore make bolts work practically only shear, the internal element could be constituted by two U-profile elements in similar arrangement to the terminal (11) of Figure 1, so that the wings of said U would adjust with the internal faces of the U-profiles (3) and (4) of the element of external beam.

In figures 7, 8 and 9 the use of two beams of adjustable length according to the present invention (15) and (16), combined with multiple beams cross-sections such as (17), (17 ') and (17' ') keeping the coupling by sliding jaws (18), (18 ') and (18' ') in the convenient points of the structure, without limitation specific, thanks to both the inner and outer element They offer accommodation for sliding jaws. In particular, Figure 7 shows how the tubular part of the element inside is overlapped with the outer element while the part of U-profiles as opposed to the inner element is what offers the possibility of regulation and anchoring of the beams transversal.

A structure of formwork panel support for a U-shaped side wall (19), (20) and (21). As shown, a length beam adjustable (22), according to the present invention, appears arranged inside the formwork and another equal beam features (23), is arranged in the outer structure of the formwork

As will be understood, although the invention has been described with reference to the attached drawings, the same it could lead to wide variations whenever these are will be within the scope of the appended claims.

Claims (5)

1. Adjustable length beam, characterized by comprising an outer beam element and an inner beam element telescopically coupled with sliding capacity, each having a free end with a standardized terminal for coupling to standard beams of a structure and presenting both telescopic elements on their faces opposite each other, two hole alignments for the eventual passage of fixing bolts, with a gap between holes l / n, being the length considered and n the number of holes, while for the other beam element the passage is l / (n-1), so that in the telescopic sliding of one element of the beam with respect to the other, the coincidence of holes of one element with the other takes place according to fractional increments of the step, allowing the adjustment in length of the beam for each of said fractional increases when mounting the bolt in the holes coincide tes or almost coincident with said telescopic beam elements. 2. Adjustable length beam according to claim 1, characterized in that the outer beam element is constituted by two U-profiles parallel to each other, with the wings directed towards the outside, connected by upper and lower crossbars and to a terminal in a standardized manner at its free end, while the inner beam element, which slides tightly inside the outer element, has a general parallelopedic sliding structure between the integral sides of the external beam element, and provided with a terminal with a standardized structure for its union to a standard beam structure. 3. Adjustable length beam according to claim 2, characterized in that the sliding internal beam element within the outer beam element has at its inner end upper and lower reinforcing crossbars and stop with the corresponding crossbars of the external beam element. 4. Adjustable length beam according to claim 1, characterized in that the internal beam element is constituted in the part fitted with the external beam element by two parallel U-profiles and with the wings directed outwards. 5. Adjustable length beam, according to the preceding claims, characterized in that both the inner element and the outer element of the beam offer accommodation for the sliding jaws, allowing them to be fixed throughout the structure profile.