The present invention concerns a system for electrically connecting and fastening at least one plate-type electrical conductor onto a support piece.
More particularly, the invention relates to such systems in which the support piece is provided with a threaded pin designed to be engaged in a corresponding hole of the conductor and to cooperate with a nut for screwing the conductor onto the support piece.
Such connection systems are currently used, for example, in plate or busbar systems to assure the connection of electrical conductors.
One example of such a system is described in document FR-A-2,784,241.
It is also known that generally, these connection systems have a certain number of disadvantages, notably during positioning and screwing of the conductor against the support piece, in places that are difficult to access.
In fact, these connection systems are generally positioned in the bottom of electrical supply cabinets or baskets and are difficult to access by assemblers.
It can therefore happen that this assembler lets go off one or the other of the parts that make up these systems, and that this part is difficult or even impossible to recover.
Thus it can be seen that this is annoying, even dangerous, notably for the electrical integrity of the rest of the cabinet or basket.
The object of the invention is therefore to resolve these problems.
For this purpose, the subject of the invention is a system for electrically connecting and fastening at least one plate-type electrical conductor onto a support piece provided with a threaded pin designed to be engaged in a corresponding hole of the conductor and to cooperate with a nut for screwing the conductor onto the support piece, characterized in that an annular spacer of an electrically conductive material is joined to the conductor on the side of this conductor that faces the support piece, and in that the nut is positioned on the opposite side of the conductor, and is joined to the spacer by coupling means allowing the rotation of the nut relative to the spacer and a determined course of axial movement of the nut relative to this spacer, between a position of assembling distant from the conductor and a screwing position in which the nut is supported against the conductor, in order to facilitate the positioning and then the screwing of the conductor against the support piece.
According to other characteristics:
The invention will be better understood upon reading the description that follows, given solely by way of example and made in reference to the attached drawings, in which:
In fact, a system for electrically connecting and fastening at least one plate-type electrical conductor, designated by general reference 1, onto a support piece, designated by general reference 2, is shown in
This support piece 2 has a threaded pin designated by general reference 3, designed to be engaged in a corresponding hole 4 of conductor 1 and to cooperate with a nut 5 for screwing the conductor onto support piece 2.
In fact, different variants of embodiment of the support piece can be envisioned.
Thus, this support piece 2 can be formed by another conductor, an electrical component, a plate or bar for electrical connection, etc.
In the example illustrated in these figures, support piece 2 is formed by another conductor, designated by general reference 2a in these figures, provided with a reinforcement piece, designated by general reference 2b, at the level of threaded pin 3.
Of course, other embodiments can be envisioned.
Thus it is conceived that by means of such a structure, threaded pin 3 is solidly fastened onto support piece 2.
The connection system according to the invention comprises an annular spacer of electrically conductive material, which is designated by general reference 6 in these figures.
This annular spacer of electrically conductive material 6 is joined to conductor 1, on the side of this conductor that faces support piece 2.
Nut 5 is positioned on the opposite side of conductor 1 and is joined with this spacer 6 by coupling means allowing the rotation of this nut relative to this spacer and a determined course of axial movement of this nut relative to this spacer between a position of assembling distant from the conductor, as is illustrated in
This permits facilitating the positioning and then the screwing of the conductor against the support piece, as will be described in more detail in the following. These means for coupling the nut onto the spacer can, of course, have different forms.
Thus, for example, these means for coupling the nut onto the spacer can have the form of a tubular sleeve 5a of the nut whose free end is provided with stop means, for example 5b, designed to cooperate with the complementary stop means of the spacer formed, for example, by a rim 6a of the spacer.
Thus, the stop means for the end of the sleeve can comprise at least one projecting part designed to be able to cooperate with the corresponding rim of the spacer.
Of course, other embodiments can be envisioned and these means for coupling the nut onto the spacer can, for example, comprise tabs in the form of hooks designed to engage in the corresponding hole of the conductor and to cooperate with the complementary stop means of this spacer, formed, for example, by the rim.
The spacer also comprises, on its side that faces the conductor, means in the form of a receiving groove for the conductor, designated, for example, by general reference 6b.
Hole 4 of the conductor has a generally oblong shape in order to facilitate centering it on the threaded pin;
In fact, groove means 6b of the spacer and this generally oblong shape of hole 4 of the conductor allow a determined course of transverse movement of spacer 6 and therefore of nut 5 coupled or hooked onto the spacer, relative to conductor 1, in order to facilitate its centering onto threaded pin 3 of the support piece.
This sub-assembly can move slightly relative to the conductor; this permits a compensation for possible lack of alignment between the threaded pin of the support piece and the rest of the system.
Moreover, the determined course of axial movement of nut 5 relative to spacer 6, between the position of assembling distant from conductor 1 and the position for screwing in which the nut is supported against the conductor permits very simply assembling a conductor with several connection systems of this type onto a support piece, as is illustrated in
In fact, if conductor 1 has several connection systems as is described previously, permitting coupling it onto several studs 3 of a support piece 2, this determined course of axial movement of the nut relative to the spacer permits, first, positioning conductor 1 against the support piece, without being hindered by the presence of nuts 5, since the nuts are placed in their position of assembling distant from the conductor by being pressed back by the studs, and then next, screwing the latter nuts one after the other.
In
An assembler can then screw the nuts independently of one another, without risk of movement or deformation of the conductor.
Of course, other embodiments can also be envisioned.
Number | Date | Country | Kind |
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03 03132 | Mar 2003 | FR | national |
Filing Document | Filing Date | Country | Kind | 371c Date |
---|---|---|---|---|
PCT/FR2004/000512 | 3/4/2004 | WO | 00 | 7/17/2006 |
Publishing Document | Publishing Date | Country | Kind |
---|---|---|---|
WO2004/084352 | 9/30/2004 | WO | A |
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Number | Date | Country | |
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