CONSTRUCTION TUBE

Abstract

The invention is directed to a construction tube which has a circular cross section, wherein the circular cross section including two circular stretches and two flat stretches diametrically opposite from each other which define two parallel planes interrupting the circular stretches. It enables the advantages of construction tubes with a circular cross section and the advantages of tubes with a polygonal cross section to be combined. The construction tube can be joined to a connectable element, which is preferably selected from another construction tube and an output shaft of a reducer of a solar tracker, in particular, using inner parts and/or clamps. The construction tube of the invention has a special application in solar collection systems, making up a torsion shaft of a solar tracker.

Claims

1. A construction tube comprising: a circular cross section, wherein the circular cross section comprising two circular stretches and two flat stretches diametrically opposite from each other which define two parallel planes interrupting the circular stretches.

2. The construction tube, according to claim 1, wherein the cross section is symmetrical, wherein the two circular stretches are concentric and have the same radius.

3. A joined assembly comprising: a construction tube comprising: a circular cross section, wherein the circular cross section comprising two circular stretches and two flat stretches diametrically opposite from each other which define two parallel planes interrupting the circular stretches; and further comprising a connectable element arranged collinearly to the construction tube and joined to said construction tube.

4. The joined assembly according to claim 3, wherein it additionally comprises an inner part, with a first end housed in the construction tube, and a second end housed in the connectable element, in order to connect the construction tube to the connectable element without rotation between the inner part and the construction tube or the connectable element, nor between the construction tube or the connectable element.

5. The joined assembly according to claim 4, wherein the inner part has, at the first end thereof, a circular cross section with two parallel planes diametrically opposite from each other, in correspondence in shape and size with the cross section of the construction tube; likewise, at the second end the inner part has a cross section corresponding in shape and size with the cross section of the connectable element.

6. The joined assembly according to claim 3, wherein it additionally comprises at least one clamp for fastening the construction tube to the connectable element, wherein each of the clamps comprises two semi-clamps, wherein each of the semi-clamps has a cross section corresponding to that of at least one of the construction tube and the connectable element, in order to be able to surround at least one of the two, with relative restricted rotation of the clamp with the construction tube and the connectable element, and wherein each semi-clamp further comprises two flanges which protrude externally, wherein, additionally, joining means are included in order to join one of the semi-clamps to the other semi-clamp by pressing against at least one of the construction tube and the connectable element.

7. The joined assembly according to claim 6, wherein each semi-clamp comprises a central portion and two end portions which extend from the central portion, wherein the flanges extend from the end portions.

8. The joined assembly according to claim 7, wherein the central portion of each of the semi-clamps is a circular central portion which encompasses the entirety of the circular stretches of the construction tube and of the connectable element, while the end portions are flat end portions, which extend from the circular central portion, and which correspond to a part of the flat stretch of the construction tube, such that the flanges protrude from the flat end portions; wherein the flat end portions of the two semi-clamps are preferably essentially complementary in length with respect to the total width of the flat stretch of the construction tube.

9. The joined assembly according to claim 7, wherein the central portion of each of the semi-clamps is a flat central portion which encompasses the entirety of the width of one of the flat stretches of the construction tube likewise, the end portions are circular end portions, which extend from the flat central portion, and correspond to a portion of the circular stretch of the construction tube such that the flanges protrude from the circular end portions; and wherein the circular end portions of the two semi-clamps are preferably essentially complementary in length with respect to the total width of the circular stretch of the construction tube.

10. The joined assembly, according to claim 6, wherein in order to join the construction tube to the connectable element, it comprises a single first clamp, formed by two first semi-clamps, and which extends encompassing the construction tube and the connectable element in order to tighten both simultaneously.

11. The joined assembly according to claim 6, wherein in order to join the construction tube to the connectable element, it comprises two second clamps, with the corresponding second semi-clamps thereof, wherein one of the two second clamps is placed at the end of the construction tube, for tightening only the construction tube, while the other of the two second clamps is placed at the end of the connectable element for tightening only the connectable element.

12. The joined assembly according to claim 11, wherein the inner part includes transverse perimeter grooves, wherein the second semi-clamps of each second clamp are superposed to one of the grooves, such that, when tightening the semi-clamps, they deform the construction tube and the connectable element so that they penetrate the grooves, producing a joint with restricted rotation.

13. The joined assembly according to claim 3, wherein the connectable element is a housed part, for example, a shaft, intended to be housed inside the tube, and which has a cross section that does not coincide with that of the tube, wherein the housed part includes respective concave areas in correspondence with some of the stretches of the construction tube, preferably in correspondence with each of the flat stretches, wherein the joined assembly additionally comprises: first holes, both in the corresponding stretches of the tube and in the concave areas of the housed part, and deformation parts intended to be placed on the corresponding stretches of the tube, and which are in turn equipped with second holes in correspondence with the first holes of the housed part and of the corresponding flat stretch of the tube, such that, when a pin is introduced through the second hole of the deformation part, once it is facing the corresponding first holes thereof of the housed part and of the corresponding stretch of the tube, the pin presses on the deformation part, which presses against the corresponding stretch of the tube, causing the deformation part to be introduced in the concave area of the housed part, causing a joint between the housed part and the tube with restricted rotation.

14. The joined assembly according to claim 3, wherein the connectable element is another construction tube.

15. The joined assembly, according to claim 3, wherein the connectable element is an output shaft of a reducer of a solar tracker, the construction tube being a portion of a torsion shaft of the solar tracker.

Description

BRIEF DESCRIPTION OF THE FIGURES

[0013] The foregoing and other advantages and features will be more fully understood from the following detailed description of exemplary embodiments with reference to the accompanying drawings, which should be considered by way of illustration and not limitation, in which:

[0014] FIG. 1 shows an exploded perspective view illustrating how the construction tube of the invention is joined to a connectable element which is also another construction tube, according to a first preferred embodiment which only uses a clamp.

[0015] FIG. 2 shows a perspective view wherein it illustrates how the construction tube of the invention is joined to a connectable element which is also another construction tube, according to a second preferred embodiment which uses one clamp for each of them.

[0016] FIGS. 3A and 3B show a perspective view of an assembly made up of a construction tube of the invention connected to a connectable element, which in the illustrated case corresponds to an output shaft of a reducer of a solar tracker. In particular, FIG. 3A shows an exploded view of the tube and the reducer, while FIG. 3B shows the result of the joint.

[0017] FIG. 4 shows a detail of a perspective view of a frame of a solar collection system, which is adapted to be joined to a tube like the one of the invention.

[0018] FIG. 5 shows a detail of a perspective view of a bushing adapted to be joined to the tube of the invention.

DETAILED DESCRIPTION OF A PREFERRED EMBODIMENT OF THE INVENTION

[0019] Next, a detailed description is presented, with the aid of FIGS. 1-5 above, of a construction tube (1) object of the present invention, as well as several applications of said tube (1).

[0020] As shown in FIGS. 1, 2, 3A and 3B, the construction tube (1) object of the present invention has a circular cross section, except for two flattened portions located in positions diametrically opposite from each other, which make up two parallel planes. This means that the cross section of the tube (1) is symmetrical and has two circular stretches (2) and two opposite and parallel flat stretches (3) that interrupt the circular stretches (2). The two circular stretches (2) are preferably concentric and have the same radius.

[0021] Several possibilities for connecting the construction tube (1) of the invention will be explained below. In general, the construction tube (1) can be connected to other connectable elements, preferably hollow ones, in order to define joined assemblies. The connectable elements may be arranged collinearly with respect to the construction tube (1). Preferably, the connectable element can be another construction tube (1), such that the joined assembly includes a pair of construction tubes (1) connected adjacently, and can be extended in order to join a desired number of construction tubes (1). Also preferably, the connectable element may be an output shaft (30) of a reducer (31) of a solar tracker of a solar collection system, wherein the reducer (31) is shown in FIGS. 3A and 3B for another example of joining, such that the construction tube (1) of the invention has an application in solar collection systems.

[0022] More specifically, in order to carry out the joining of the construction tube (1) to the connectable elements, in particular to the connectable elements indicated as preferred, several preferred cases have been considered.

[0023] According to the first case, in order to join the construction tube to the connectable element, an inner part (5) can be used, which is preferably hollow, although it can be solid. The inner part (5) has two opposite ends in the longitudinal direction, wherein a first end is intended to be housed in the construction tube (1), without enabling rotation between the inner part (5) and the construction tube (1), likewise, a second end which is intended to be housed in the connectable element, also without enabling relative rotation. FIG. 1 shows, without losing generality, a particular case wherein the connectable element is another construction tube (1).

[0024] In order to join the construction tube (1) to the connectable element, at least one clamp (7, 8) can be used together with the inner part (5) or instead of it. Each clamp (7, 8) comprises two semi-clamps (9, 10), wherein each of the semi-clamps (9, 10) has a cross section corresponding to at least one of the construction tube (1) and the connectable element, in order to be able to surround at least one of the two, with restricted rotation between each clamp (7, 8) and the corresponding construction tube (1) and/or connectable element, according to each case. Each semi-clamp (9, 10) further comprises two flanges (11) which protrude externally, in order to join each semi-clamp (9, 10) to the other semi-clamp (9, 10), pressing against the construction tube (1) and/or the connectable element. To do so, joining means (32, 4) are used, such as holes (32) located in the flanges (11) in order to screw one of the semi-clamps (9, 10) to the other semi-clamp (9, 10), through screws (4) for example. Preferably, each semi-clamp (9, 10) comprises a central portion (12) and two end portions (14) which extend from the corresponding central portion (12), wherein the flanges (11) extend from the end portions (14).

[0025] When the clamps (7, 8) cooperate with the reinforcement part (5), the reinforcement part (5) serves to form a sandwich-type joint between the clamps (7, 9) and, according to the case, the tube (1) and/or the connectable element that they tighten.

[0026] According to a first embodiment, a single first clamp (7) is required, with the corresponding first semi-clamps (9) thereof, wherein the first clamp (7) extends encompassing both the construction tube (1) and the connectable element, in order to tighten them simultaneously.

[0027] According to a second embodiment, two second clamps (8) are required, each with the corresponding second semi-clamps (10) thereof, wherein one of the two second clamps (8) is placed at the end of the construction tube (1), in order to tighten only the construction tube (1), and the other of the two second clamps (8) is placed at the end of the connectable element in order to tighten only the connectable element. For the case of the second clamps (8), two variants are envisaged, which are explained below with help from FIG. 2.

[0028] The embodiment shown in FIG. 2 can be carried out with an inner part (5) like the one shown in FIG. 2 or with an inner part (5) like the one shown in FIG. 1. If an inner part like the one in FIG. 1 is used, the operations are as explained previously. If, alternatively, an inner part (5) like the one shown in FIG. 2 is used, which includes transverse perimeter grooves (33), the second semi-clamps (10) of each second clamp (8) can be made to coincide with one of the grooves (33), such that, when tightening the semi-clamps (33), they deform the construction tube (1) and the connectable element so that it penetrates the grooves (33), producing a joint with restricted rotation, regardless of the shape and dimensions of the inner part (5).

[0029] Therefore, according to the foregoing, when one or several clamps (7, 8) are used in combination with the inner part (5), although the first end of the inner part (5) preferably has a circular cross section with two parallel planes (6) that are diametrically opposite from each other, in correspondence in shape and size with the cross section of the construction tube (1), and the second end has a cross section in correspondence in shape and size with the cross section of the connectable element, said configuration corresponding to the inner part (5) is not necessary when the inner part (5) has the grooves (33).

[0030] For any of the two aforementioned embodiments, referring to the use of clamps (7, 8), two preferred examples are described below.

[0031] According to a first preferred example, shown in FIGS. 1 and 2, each of the semi-clamps (9, 10) has a circular central portion (12) and encompasses the entirety of one of the circular stretches (2) of the tubes (1); likewise, each semi-clamp (9, 10) has flat end portions (14), which extend from the central portion (12), and which correspond to one portion of the flat stretch (3) of the tubes (1), such that the flanges (11) protrude from the flat end portions (14). Preferably, said flat end portions (14) of the semi-clamps (9, 10) are essentially complementary in length with respect to the total width of the flat stretch (3) of the tubes (1), except for an eventual clearance of about 2-3 mm. Preferably, the flat end portions (14) of each of the semi-clamps (9, 10) are equal in length to those of the other semi-clamp (9, 10).

[0032] Alternatively, according to a second preferred example, not shown, the flat and curved portions (12, 14) are switched with respect to the first preferred example. Specifically, each of the semi-clamps (9, 10) has a central portion (12), which in this case is flat, and which encompasses the entirety of the width of one of the flat stretches (3) of the tubes (1); likewise, each semi-clamp (9,10) further has end portions (14), which in this case are circular, and which extend from the flat central portion (12), and which correspond to a portion of the circular stretch (2) of the tubes (1), such that the flanges (11) protrude from the circular end portions (14). The circular end portions (14) of the semi-clamps (9, 10) are essentially complementary in length with respect to the total width of the circular stretch (2) of the tubes (1), in a manner analogous to the one explained above for the flat end portions (14). Preferably, said circular end portions (14) of each of the semi-clamps (9, 10) are identical to those of the other semi-clamp (9, 10). Preferably, in the case of the second example, the inner part (5) can be inserted into the adjacent tubes (1) with a certain clearance.

[0033] Another variant for connecting the construction tube (1) to the connectable element is illustrated by means of FIGS. 3A and 3B, and enables the connectable element to be another housed part (16), for example, a shaft, intended to be housed inside the tube (1), and which has a cross section that does not coincide with that of the tube (1), but which includes respective concave areas (17) in correspondence with some of the stretches (2, 3) of the construction tube (1), preferably in correspondence with each of the flat stretches (3). In particular, first holes (18) are also arranged, both in the flat stretches (3) of the tube (1) and in the concave areas (17) of the housed part (16); likewise, deformation parts (19) are used which are intended to be placed on the flat stretches (3) of the tube (1), and which are in turn equipped with second holes (34) in correspondence with the first holes (18) of the housed part (16) and of the corresponding flat stretch (3) of the tube (1). Thus, when a pin (20) is introduced through the second hole (34) of the deformation part (19), once it is facing the corresponding first holes (18) thereof of the housed part (16) and of the flat stretch (3) of the tube (1), the pin (20) presses on the deformation part (19), which presses against the flat stretch (3) of the tube (1), causing the deformation part (19) to be introduced in the concave area (17) of the housed part (16), causing a joint between the housed part (16) and the tube (1), with restricted rotation.

[0034] As indicated above, the tube (1) of the invention has a preferred use in solar collection systems. In particular, the tube (1) or, when appropriate, a joined assembly made up of several tubes (1) joined as explained above, is preferably intended to configure a torsion shaft (22) for a solar tracker which provides solar tracking for one or more solar modules which each contain one or several solar panels. In this sense, each solar module, as they are known, has a frame (26), see FIG. 4, whereon the solar panels are supported, and which is connected to the torsion shaft (22), in particular to one or several of the tubes (1) of the invention which make up part of the torsion shaft (22). Thus, the frame (26), in a joint area wherein it is connected to one or several tubes (1) of the torsion shaft (22), has a shape consistent with that of the tube (1), i.e., a circular outline with flat areas (27), such that the corresponding tube (1) of the torsion shaft (22) draws the frame (26) in, during the rotation thereof, in order to provide solar tracking for the solar panels. In an analogous manner, the solar tracker may include bushings (28), see FIG. 5, which are conventionally used to support the torsion shaft (22) on posts in certain positions, wherein the bushings (28) surround one of the tubes (1) of the torsion shaft (22) in supporting cross sections for supporting on the posts, and wherein the bushings (28) have an inner shape, with circular stretches and flat stretches opposite from each other, which corresponds to the cross section of the tube (1).

[0035] The aforementioned housed part (16) can, in such case, be part of an output shaft (30) of a reducer (31) of the solar tracker.