FR3018335A1 - LIAISON COLLAR FOR TUBES - Google Patents

Abstract

Necklace intended to connect two tubes together, at right angles, mainly used to build scaffolding or other structures. This collar consists of a central core (4) on which are articulated, on either side, two narrower covers (2) tightened on the tubes by means of bolts (1 + 3) or keys. The geometry of the collar according to the invention makes it possible to block the two tubes over the entire length of the core, from one end (E ') to the other (E' '), to distribute the contact surface with the tubes and to improve the rigidity of the assembly, while ensuring a fast assembly and a good resistance to sliding.

Description

The present invention applies to metal collars intended to connect two tubes together at right angles. Existing collars of this type, also known as orthogonal couplings, fixed couplings, fixed collars, straight collars or orthogonal collars, are mainly used to construct scaffolding, shoring towers, stands or other temporary or permanent structures. These collars consist of a central body or core on which are articulated, on both sides, two lids tight on the tubes by means of bolts or keys.

Some manufacturers get a good rigidity of the assembly by proposing heavy collars of cast iron or steel, known as "Italian collars" or "Italian couplers", comprising two large lids, of the same length as the central core. Each lid is tightened on the tube by two bolts, or by a bolt and a lug, so as to improve the stiffness by maintaining the tubes along the entire length of the core, but this is done at the expense of a mounting time longer, higher weight and less slip resistance. Other manufacturers offer lighter forged steel collars, known as "German collars" or "German couplers", where the tubes are kept in contact with the core, on its central part only, by covers of length much less than the length of the core. This does not allow great rigidity since the two tubes assembled by all these collars can move around this central part of the core as around a pivot. To overcome this lack of rigidity, the structures made with such collars must be reinforced by many diagonals, resulting in additional expenses related to the purchase of tubes, collars, but also to the transport, assembly and storage of these braces . These German type collars are sometimes provided, on their lids and on the central part of the core, ribbed indentations of 2 to 4 mm in width, only a part of which is in contact with the tube. This reduced contact gives the assembly better sliding resistance by locally increasing the contact pressure with the tube, but this small contact surface has the disadvantage of marking the aluminum tubes or the thin steel tubes if the bolts collar are tightened too strongly. The device according to the invention aims to remedy these drawbacks by modifying the geometry of the central core of the collars, so as to block the two tubes over the entire length of the core, from one end to the other, and to distribute the surface contact with the tube.

This modification is particularly intended to considerably improve the rigidity and orthogonality of the assembly of the 2 tubes and to make it conform to the requirements of the European standard EN74, which requires, for the orthogonal couplings used on the steel tubes, a stiffness cruciform moment C92 greater than or equal to 6.0 kN.m / rad, which is the case of the collar according to the invention, for all the tests carried out. To do this, the collars according to the invention are provided, on both concave faces of the central core, with ribbed indentations all of which, over their entire periphery, come into close contact with the tube. In particular, the last indentations located at the ends of each concave face of the core are inscribed in a circular arc of diameter identical to that of the tube, and of identical diameter to the indentations located on the central part of the core. An alternative may be provided, and the two concave faces of the central core may comprise for example a smooth portion, without indentations, forming a cylinder arc in contact with the tube over the entire length of the central core, from one end to the other. other. Other variants are also possible, for example if the two concave faces of the central core comprise a smooth central part forming a cylinder arc in contact with the tube and one or more parts with ribbed indentations which enter, on the whole or on a privileged part of their periphery, in close contact with the tube. In all cases, the portions at the ends of each concave face of the core fit into an arc of a circle of identical diameter to that of the tube and come into close contact therewith, so as to imprison it and to it. avoid any lateral play by effectively blocking its movements, both radially and transversely. Meanwhile, if the ribbed indentations on the concave faces of the core are provided in sufficient numbers, they distribute the contact pressure with the tube over the entire length of the collar, from one end to the other of the core, which confers the assembly a good resistance to sliding, without crushing or marking the fragile tubes, even in case of strong tightening of the bolts. In addition, the use of reduced-length covers, tightened with a single bolt or key, provides reduced weight and fast assembly. The present invention will be better understood from the study of a particular embodiment taken by way of non-limiting example and illustrated by the appended drawings, which represent: FIG. 1: The overview of the assembled collar where we can see the bolt (1 + 3), intended to tighten the cover (2) on the tube, the central core (4) and the assembly rivet (5). ) of one of the two lids. Fig. 2: The top view, the side view and 2 sections of the central core.

With reference to these drawings: The tube is supported on the upper face G of the ribbed indentations, from one end to the other of the two ends E 'and E "of the central core.These concave indentations, all placed on the same generator, are of a diameter identical to that of the assembled tube, and are all formed in an arc of a circle, including for the indentations located at the ends of the core As an informative and nonlimiting example, in the case of collars used to connect tubes with a diameter of 48.3 mm, the length of the core is about 10 cm, while the size of the covers is about 10 cm for the Italian-style necklaces and 3 to 5 cm for the German-type necklaces .

The present invention is not limited to the embodiments described and shown, but the skilled person will be able to make any variant consistent with his mind. 25 30 35

Claims (2)

CLAIMS1 - A collar for connecting two tubes at right angles, characterized in that it comprises two covers (2) of reduced length, tightened by means of a single bolt (1 + 3) or a single key, and a central core (4) having two concave faces, provided with smooth parts or ribbed indentations, which fit into a cylinder arc of diameter identical to that of the tube and which come into close contact with this tube, at one end to the other of the core, over its entire length, and in particular to its ends (E ') and (E "), so as to block the displacement of the tube both radially and transversely. 2 - Necklace according to the preceding claim, characterized in that it comprises ribbed indentations (G) located on the two concave faces of the central core, provided in sufficient number to reasonably increase the contact pressure with the tube while distributing it on the entire length of the collar, from one end to the other of the core, so as to give the assembly good slip resistance without crushing or marking the fragile tubes, even when the bolts are forcefully tightened. 25 30 35