SYSTEM FOR CREATING JUNCTIONS FOR TUBULAR STRUCTURES

Abstract

The system relates to a system for creating junctions for tubular structures. The system is based on provided a plurality of junctions (7) which are different from each other, formed by pairs of profiles (2) or (2a) or (2) or (2) or (2) secured to each other to form the corresponding junction (7) and to be able to mount and join tubular arms (1) that will form the actual structure. Said tubular arms can be longitudinally aligned, can form a right angle between each other, can form T-shaped configurations, and can meet at junctions with four tubular arms (1), junctions with five tubular arms (1), and junctions with even more arms, in order to allow any type of structure for different constructions, both in terms of buildings and in terms of furniture, inter alia.

Claims

1. Nodes building system for tubular structures, where the structures obtained can be used in any type of building, even furniture as a mobile structure for various construction, characterized because it includes a plurality of nodes (7) with tubular arms (1) which establish the structure itself, the tubular arms (1) of which form columns, beams, struts and similar parts, according to their availability in the nodes (7); each specific node (7) is made up of grooved profiles (2), (2a), (2b-2b) (2c), (2), with side wings (3), forming in each case a 90 angle with respect to the section from which it is derived, establishing configurations with a tightening clamp and fastening of the end corresponding to the tubular arm or arms (1) found in the node (7), with said tubular arms (1) fastened with the tightening of the clamp or clamps, with through screws (4) through holes established for that purpose in the side wings (3) of the sections of the profile or profiles (2), (2a), (2b), (2c), (2), corresponding to each node (7).

2. Nodes building system for tubular structures, according to claim 1, characterized because the nodes (7) are formed by two grooved and straight profiles (2), with their grooves lacing to establish a clamp to join the ends of two consecutive arms (1), aligned longitudinally, with the specification that the side wings (3) of both 20 profiles (2) are overlapped and their holes facing for the passing of the tightening screws (4) and fastening of both profiles (2), and between those the ends of both tubular arms (1) belonging to the structure.

3. Nodes building system for tubular structures, according to claim 1, characterized because the nodes (7) are made up of two profiles in a right angle (2a), with their grooves facing, to establish a clamp to join the ends of two tubular arms (1) perpendicular to each other, with the specification that the side wings (3) of both profiles (2a) are overlapping and their holes facing for the passing of the tightening screws (4) and between those the fastening of both profiles (2a) and between those the ends of both tubular arms (1) belonging to the structure.

4. Nodes building system for tubular structures, according to claim 3, characterized because one of the profiles (2a) at a right angle, of the corresponding node (7), shows a grooved profile (2) in its cross section fixed to it, with welding or with any other adequate method, perpendicular to the actual cross section from which it derives from the corresponding profile (2a), for the articulated joining of the end of a third tubular arm (1) concurrent with the other two arms (1) joined perpendicularly to each other, allowing the articulation on the grooved profile (2), allowing that such third arm joined to it may be set at any angled position.

5. Nodes building system for tubular structures, according to claim 4. characterized because both profiles (2a) in a right angle, of the corresponding node (7), show a grooved profile (2) to be corresponding with its cross section fixed to it with welding or with any other proper means, and facing outward, on which is mounted or fixed the end of the respective tubular arms (1), using the through screw (4) through holes of the side sections of these grooved profiles (2), establishing an articulation of both tubular arms (1) with respect to the tubular arms (1) fixed on a right angle over the profiles (2a).

6. Nodes building system for tubular structures, according to claim 1, characterized because the nodes (7) are formed by two profiles (2b-2b), with three section according to axes X, Y, Z, with both profiles (2b-2b) showing their grooves facing to make up a clamp corresponding to each of the sections, to joining the three perpendicular arms (1), according to axes X, Z, Y; with the feature that the side wings (3) of both profiles (2b-2b) overlap and their holes facing for the passing of the tightening screw (4) of the same profiles (2b-2b) and between them the ends of the corresponding tubular arms (1) that belong to the structure.

7. Nodes building system for tubular structures, according to claim 1, characterized because the nodes (7) are formed by two grooved and straight profiles (2a), with their grooves facing to make up a clamp to join the ends of two consecutive arms (1) aligned longitudinally, emerging from each of the side sections of each of the mentioned grooved profiles (2c) a second grooved profile (2), fastened with welding or with any other conventional method and, transversal to the first, to form with the opposite profile a clamp used to join the end of a third tubular arm (1) perpendicular to the two previous ones; anticipating that such profiles (2) of the clamp for the third tubular arm has such side wings (3) with holes for the passing of the respective tightening screws (4) and fastening the respective end of the third tubular arm (1) perpendicular to the arms (1) aligned longitudinally.

8. Nodes building system for tubular structures, according to claim 7, characterized because the corresponding node (7), in addition to having the two clamps formed by the profiles (2a) y (2), for the joining of three tubular arms (1) in T, incorporates a grooved profile (2) reinforced to one of the cross sections of one of the profiles (2a), over which grooved profile (2) it articulates, through the corresponding axis formed by the screw (4), a fourth tubular arm (1), allows such articulation to have any angle of that tubular arm (1) relating to the other three arms in T that come from the same node (7).

9. Nodes building system for tubular structures, according to claim 7, characterized because in the node (7) from which come the two arms (1) aligned longitudinally and a third arm (1) perpendicular to the previous ones, forming a T configuration, and with a node (7) that is formed by two profiles (2c) and (2), includes a second pair of profiles (2), perpendicular to the previous ones, one free and one welded to the profile (2c) to join and fasten the end of a fourth arm perpendicular to the other previous ones.

10. Nodes building system for tubular structures, according to claim 9, characterized because the node (7), in addition to the profiles (2a) and the pair of profiles (2), that have four tubular arms (1), (2) forming a right angle with each other and two other ones aligned longitudinally, it includes a grooved profile (2) directed outwards, corresponding to the cross section of one of the profiles (2a), establishing such profile (2) as an articulated mounting element with the corresponding screw (4), with a fifth tubular arm (1) able to occupy any angular position with respect to the previous ones.

11. Nodes building system for tubular structures, according to claim 1, characterized because the nodes (7) are formed by two profiles (2) or (2), with their grooves facing, according to their crossing availability, leaving the corresponding tubular arms (1) available, fixed between those profiles (2) or (2), transversally and overlapping, fastened with through screws (4) through the holes of the side wings (3) of these profiles (2) or (2).

12. Nodes building system for tubular structures, according to claim 1, characterized because in addition another type of node has been anticipated, based on the grooved profiles (2) with their grooves in a crossing position with each other, to join and fasten two tubular arms (1), overlapping in a crossing manner with each other, one of which is mounted articulated over the corresponding grooved profile (2), with the respective tightening screw (4), allowing the pivoting of this articulated tubular arm (1) and holding any angled position with respect to the cross tubular arm (1).

13. Nodes building system for tubular structures, according to claim 1, characterized because in addition a floor node has been anticipated formed by a plate (5) with holes for fastening to the floor, and over it a grooved profile (2) over which the end of a tubular arm (1) is mounted in an articulated manner, to allow to position it at any other.

14. Nodes building system for tubular structures, according to claim 1, characterized because in addition a node has been anticipated formed by two grooved profiles (2) with its grooves opposing, to join two perpendicular profiles, one of them fixed and the other one articulating over one of these profiles(2), through the end corresponding to the tubular arm (1), allowing that this second tubular arm may occupy any angle with respect to the fixed arm in the same node and corresponding to another grooved profile (2).

15. Nodes building system for tubular structures, according to the above claims, characterized because structures (6), (8) and others formed using the tubular arms (1) and the corresponding nodes (7), show any type of configuration, whether prism, triangular, and even with upper facets to form structures for buildings with two or more water drainages.

Description

DESCRIPTION OF DRAWINGS

[0017] To complement the description below and with the purpose of helping to better understand the characteristics of the invention, according to a preferred example of its practical use, as an integral part of this description are included a set of drawings where the following has been represented, including but not limited to:

[0018] FIG. 1.Detailed view of the two contiguous tubular arms joined together, aligned longitudinally, which remain joined with a clamp formed by two facing grooved profiles and through which grooves the fastening or holding of the ends of these tubular arms is determined.

[0019] FIG. 2.Shows a perspective view of the node in a right angle to join two perpendicular tubular arms together.

[0020] FIG. 3.Shows a perspective view of the profiles that participate in a node with three tubular arms according to axes X, Y, Z.

[0021] FIG. 3 bis.Shows an exploded view of the two profiles that make up the fastening method in the node of FIG. 3.

[0022] FIG. 4.Shows a perspective view of a node with three perpendicular tubular arms coming together, but one of the is articulated to be able to be placed in different angles.

[0023] FIG. 5.Shows a perspective view of a node with (our tubular arms, two of which are articulated laterally.

[0024] FIG. 6.Shows a perspective view of a node with three T tubular arms.

[0025] FIG. 6 bis.Shows an exploded view of the two profiles that define the means of fastening the node of FIG. 6.

[0026] FIG. 7.Shows a perspective view of a node with four arms, three of them in T and the fourth is articulated perpendicularly to be able to occupy different angled positions.

[0027] FIG. 8.Shows a perspective view such as the previous figure but in this case with a node with four perpendicular tubular arms together, all fixed with not articulation.

[0028] FIG. 9.Shows a perspective view of a node with live tubular arms, three of them in T, a fourth perpendicular to the previous ones and a fifth arm opposite to the one previously mentioned but articulated with respect to the node group.

[0029] FIG. 10.Shows a perspective view of a node with two crossing tubular arms.

[0030] FIG. 11.Shows a perspective view such as the figure above, where one of the tubular arms is articulated.

[0031] FIG. 12.Shows a perspective view of a node for floor fastening.

[0032] FIG. 13.Shows a perspective view of a node with two tubular arms, one is articulated in an intermediate area of another fixed profile.

[0033] FIGS. 14, 15 and 16.Show, as an example, different perspective views of structures obtained based on the building system that is the object of the invention.

PREFERRED EMBODIMENTS OF THE INVENTION

[0034] As can be seen in the figures referenced, the modular structure building system that is the object of the invention, is based on using a series of nodes with different configurations, used as elements to join tubular arms (1) that along with the indicated nodes will make up the structure itself.

[0035] In that regard, FIG. 1 shows how the node is formed by a pair of grooved profiles (2), that they are straight and have side wings (3) with holes for the passing of the corresponding tightening screws (4) to establish a type of clamp between the two profiles (2) left facing with their grooves and between them the tubular arms (1) to join, so that as they are shown in FIG. 1 the node that form the two grooved profiles (2) facing together, between them are two tubular arms (1) fastened and aligned longitudinally with each other.

[0036] FIG. 2 shows an angled node to join two tubular arms (1) together, forming a right angle together, for which the profiles, in this case referenced with (2a) have an angled configuration, same as its corresponding side wings (3), which are also equipped with holes for the fast passing of lightening screws (4) that will fasten and lighten both profiles (2a) together to hold and joining the tubular arms (1) at a right angle as can be seen in this FIG. 2.

[0037] In FIG. 3 the fastening of the profiles (2b-2b) define three perpendicular branches together, according to the axes of coordinates X, Y, Z, where the corresponding side wings (3) are also affected with holes for the passing of fastening and tightening screws (4) to obtain the fastening and joining of three tubular arms (1) together according to axes X, Y, Z.

[0038] In all mentioned cases, as well as in the ones to be shown below, the profiles (2, 2a, 2b, . . . ) will always be grooved and will have their corresponding side wings (3) with their holes for the passing of tightening or fastening screws (4) of the tubular arms (1) that will make up the structure.

[0039] FIG. 4, shows another node, like the one in FIG. 2, but in this case with a profile (2) strengthened with welding or with another adequate means on the cross section of the grooved configuration of the profiles (2a), with that profile (2) forming a one-piece body with one of the profiles (2a) and its grooves facing out, to obtain the joining of the end of a tubular arm (1) that in this case stays mounted in an articulated way with the screw (4) that acts like a pivoting axis for the tubular arm (1), allowing for it to be located with any angle with respect to the nodes that form the profiles (2a).

[0040] FIG. 5 shows a variant for FIG. 4, so that in this case, instead of having one sole profile (2) for the mounting and articulation of a tubular arm (1), there are two grooved profiles (2), opposite each other and on one or the other cross sections of the two profiles (2a), to establish a means for articulated assembly of the two tubular arms (1) opposite each other and both articulated to be able to occupy different positions, for which in this case according to FIG. 5, the node has four tubular arms (1), two of them forming a right angle together and the other two, perpendicular to the previous ones but articulated to be able to occupy different angled positions.

[0041] FIG. 6 shows three arms (1) joined in a T, two of them are aligned longitudinally over the clamp that make up the profiles (2c), while the third, is left in vertical position as shown in FIG. 6, and stays fastened with the clamp formed by two grooved profiles (2) that emerge from one of the sides of the profiles (2c).

[0042] FIG. 7 shows a variant of ways to perform FIG. 6, but by including a fourth tubular arm (1) perpendicular to the previous ones, for which its has been provided that the cross section of one of the profiles (2c) has a perpendicular profile (2) with grooves facing out. with holes facing for the corresponding passing of screws (4) which makes up the axis of rotation for the fourth tubular arm (1), allowing to place it in any angle with respect to the nodes that make up the other profiles (2c), with the three tubular arms (1) in T.

[0043] FIG. 8 shows a variant of FIG. 6, but by including four tubular arms (1) in the node, three of which are in T as shown in FIG. 6 and a fourth perpendicular to the rest, so that from the cross section of one of the grooved profiles (2c) emerge another pair of profiles (2) one free and the other fixed to the profile (2c) with welding, forming the corresponding clamp which holds and fastens the end of the fourth tubular arm (1). perpendicular to the previous ones, by lightening the corresponding screws (4) over the holes of the side wings (3) of those profiles (2).

[0044] FIG. 9 another variant for the method, in this case with a node in which there are live tubular arms (1), four of them as in those of FIG. 8 and the fifth one is mounted on a grooved profile (2) strengthened to the cross section of one of the profiles (2c), where the tightening and fastening screw (4) makes up the pivoting axis so that the fifth tubular arm (1), left articulated and allowing to occupy different angled positions with respect to the node, while the remaining lour tubular arms (1) are fixed.

[0045] FIG. 10 shows a node with two crossing tubular arms (1), but overlapping each other, for which there are two grooved profiles available that can correspond to the configuration of the profiles (2), with their grooves facing, but crossing, to allow the overlapping and crossing nature between the tubular arms (1) that are fastened in an intermediate area of theirs in the node that form these grooved and straight profiles (2).

[0046] FIG. 11 shows a variant of FIG. 10, but in this case with two grooved profiles (2) opposing and forming 90, fastened with welding so that over these profiles (2) using screws (4) the corresponding tubular arms (1) are left mounted in an articulated manner, allowing that the upper arm (1) can swivel in one direction and another and form different angles with respect to the node, opposite to what occurs in the method used in FIG. 10 where the two tubular arms (1) are fixed.

[0047] FIG. 12 shows an example method of a tubular arm (1) anchored to the floor, using a plate (5) over which a grooved profile (2) is reinforced with a hole in its side sections for the passing of a screw (4) as a rotating axis of that strutt or tubular arm (1) while FIG. 13 shows a node formed by two opposed grooved profiles (2), one of them for mounting and fastening of a tubular arm (1) and the other for the articulated assembly of a second articulated arm (1).

[0048] Evidently, in addition to the examples described and shown in the drawings, there may be very different configurations of nodes obtained and the use of the tubular arms, (1) with respect to these, in some cases fixed and in other cases articulated, in other cases forming nodes with 2, 3, 4, 5 and even more arms, etc.

[0049] In any case, based on the nodes mentioned and the assembly of the tubular arms (1), structures are obtained such as those represented in FIGS. 14, 15 and 16, among others, as an example, so that the structure (6) shown in FIG. (14), includes tubular arms (1) in strut functions, tubular arms (1) in upper structure functions, and even lower tubular arms in rigid element functions, and in all cases joined together in the corresponding nodes, referenced in this case with number (7), even though these nodes can correspond to that of FIG. 2, to the one shown in FIG. 3, etc, and these structures (6) may be used for to build compartments for any building, etc.

[0050] The same occurs with the structure shown in FIG. 15, which includes struts (1) formed by the corresponding tubular arms, with nodes anchored to the floor and with an upper section, and even with some ends anchored to the wall, all in order to make it possible to make different configurations of buildings, furniture, etc.

[0051] Finally, FIG. 16 shows a structure (8) with struts formed by tubular arms (1), nodes (7) to anchor to the floor, and an upper section forming two slopes, as well as transversal porticos always formed by and in all cases by the corresponding tubular arms (1) located in the nodes (7), and in each case with the proper configuration so that in this case the structure (8) is adequate to form a building or construction with a cover that will have two water lines or sloped plans for rainwater drainage.