Structural arrangement introduced into a sleeve connector having various cross sections for tubular metal posts

Abstract

The present utility model relates to a sleeve connector (100) for joining tubular metal posts (300), comprising locking regions (120) provided with a ring of locking protuberances (121) of height (ht), which corresponds to from 0.15 to 4% of the external diameter (D) of the locking region (120) in order to promote the locking together of the ends of the tubular metal posts (300) by means of the mechanical deformation of the locking protuberances (121).

Claims

1. A sleeve connector having various cross-sections for joining tubular metal posts, the sleeve connector (100) comprising: one or more locking regions (120) provided with a ring of radially outwardly protruding and circumferentially spaced apart locking protuberances (121), wherein the locking protuberances (121) are formed prior to locking together ends of two tubular metal posts (300) with the sleeve connector (100) and have a maximum radial height (h.sub.t) that corresponds to 0.15 to 4% of the external diameter (D) of the respective locking region (120), said locking regions (120) being configured for locking together the ends of the tubular metal posts (300) by means of the mechanical deformation of the locking protuberances (121); a pair of conical centralization regions (110) at opposite ends of the sleeve connector (100), the one or more locking regions (120) disposed between the pair of centralization regions (110); and an abutment region (130) having one or more radially protruding and circumferentially arranged abutment protuberances (131) having a maximum radial height (h.sub.e) that is different than the maximum height of the locking protuberances and that corresponds to a value between 30 and 80% of a wall thickness of the tubular metal posts (300).

2. The sleeve connector (100) of claim 1, wherein the one or more locking regions (120) are a pair of locking regions (120) adjacent the pair of centralization regions (110) and equidistant from the abutment region (130).

3. The sleeve connector (100) of claim 2, wherein the centralization regions (110) are conical and present an axial height (h.sub.c) corresponding to a value between 5 and 50% of the respective locking region (120) external diameter (D).

4. The sleeve connector (100) of claim 1, wherein the centralization regions (110) are conical and present an axial height (h.sub.c) corresponding to a value between 5 and 50% of the respective locking region (120) external diameter (D).

5. The sleeve connector (100) of claim 1, wherein the abutment protuberances (131) are spaced from the locking protuberances (121), and wherein the locking regions (120) are disposed between the pair of centralization regions (110) and the abutment region (130).

Description

BRIEF DESCRIPTION OF THE DRAWINGS

(1) For better understanding and visualization of the object of the present utility model, the same will now be described with reference to the attached figures, representing the functional improvement obtained, in which, schematically:

(2) FIG. 1: presents a side view of a sleeve connector according to the utility model;

(3) FIG. 2: presents a frontal view of a sleeve connector according to the utility model;

(4) FIG. 3: presents a partial side view of a sleeve connector according to the utility model;

(5) FIG. 4: presents a partial side view of a sleeve connector according to the utility model;

(6) FIG. 5: presents a side view of the sleeve connector of FIG. 1 arranged in a tubular metal post, initiating the joining process;

(7) FIG. 6: presents a side view of the sleeve connector of FIG. 5 receiving the second tubular metal post, finishing the joining process;

(8) FIG. 7: presents a perspective view of a sleeve connector according to the utility model;

(9) FIG. 8: presents a side view of a sleeve connector according to the utility model;

DETAILED DESCRIPTION OF THE PREFERRED EMBODIMENT

(10) The sleeve connector for tubular metal posts or simply, the sleeve connector (100), according to the utility model, is a part intended for the mechanical joining of two tubular metal posts (300) and comprises, essentially, a total body height (H) provided with two centralization regions (110), two locking regions (120) and an abutment region (130).

(11) Each centralization region (110) is located at one of the open ends of the sleeve connector (100), while the two locking regions (120) are adjacent to the respective regions of centralization (110) and equidistant from a central abutment region (130).

(12) Each centralization region (110) is conical and presents a height (h.sub.c) corresponding to 5 and 50%, preferably 15% of the locking region (120) external diameter (D) of the sleeve connector (100), while the inclination angle (α) of the cone is between 2 and 40°, depending, specially, on the application and measurements of the components involved.

(13) Each locking region (120) is provided with a plurality of locking protuberances (121), arranged in order to form a ring around the external perimeter of the locking region (120).

(14) The measurements and the quantity of locking protuberances (121) are defined according to the application and, preferably, depending on the external diameter (D) of the locking region (120) which, in turn, depends on the internal diameter of the tubular metal posts (300) involved.

(15) Each locking protuberance (121) presents a length (c.sub.t) of 10 to 30%, preferably 20% of the external diameter (D), a width (l.sub.t) of 6 to 20%, preferably 13% of the external diameter (D) and a height or radial distance (h.sub.t), measured from the external perimeter of the locking region (120), which corresponds to a value between 0.15 and 4%, preferably, between 1 and 2% of the locking region (120) external diameter (D). Thus, an interference capable of promoting the locking of the tubular metal post end (300) to be inserted in the sleeve connector (100) by means of mechanical deformation of the locking protuberances (121) is established.

(16) Each locking region corresponds to an external surface (S.sub.T1, S.sub.T2), wherein the sum of the locking protuberance areas (121) shall be equivalent to a value between 60 and 100% of the sum of the external surfaces (S.sub.T1, S.sub.T2).

(17) The abutment region (130) is provided with a plurality of abutment protuberances (131), arranged in order to form a ring around the external perimeter of the abutment region (130).

(18) Each abutment protuberance (131) presents a height or radial distance (h.sub.e), measured from the external perimeter of the locking region (120), which corresponds to a value between 30 and 80%, preferably 60% of the wall thickness of the tubular metal post (300) involved. Thus, an interference capable of providing an abutment stopper for the tubular metal post (300) end to be inserted in the sleeve connector (100) is established.

(19) Final Considerations

(20) It is clear that the measures and relations between measures described for the present structural arrangement may vary according to the dimensioning of the sleeve connector (100) which, in turn, depends on the dimensions of the tubular metal posts (300).

(21) Extensive practical tests, however, have shown that said dimensions and their relations are highly efficient and effective.

(22) In addition, the structural arrangement of the present utility model and said measurements and their relations are highly reliable and reproducible.

(23) Conclusion

(24) As it can be inferred from the description above, the structural arrangement according to the present utility model surpasses the solutions in the state of the art, being an object of practical use, perfectly suitable for industrial application, presenting a new arrangement, involving non-obviousness and resulting in a functional improvement of use.