EP3190664A1 - Connection terminal for electrical apparatus provided with a clamping cage made of non-magnetic material - Google Patents

Abstract

A connection terminal (10) for electrical apparatus such as a terminal block or a contactor comprises a clamping element (12) formed of a non-magnetic material and in the form of a cage adapted to receive the end an electrical conductor (13) inserted in the clamping element (12). The connection terminal also comprises actuating elements (18) for varying the clamping element (12) between a loosening configuration in which the end of the electrical conductor (13) can freely be inserted into the element clamping element (12) or being withdrawn from the clamping element (12) and a clamping configuration in which the end of the electrical conductor (13) previously inserted in the clamping element (12) is held in place by clamping between the clamping member (12) and a conductive bar (11) of the electrical apparatus to establish electrical contact between the conductive bar (11) and the end of the electrical conductor (13).

Description

The present invention relates to a connection terminal for electrical apparatus such as a terminal block or a contactor. It also relates to an electrical appliance as such.

In known manner, a connection terminal intended to be mounted in an electrically insulating housing conventionally comprises a clamping element movably mounted in the insulating housing and an actuating mechanism for moving the clamping element.

The clamping member is ready to receive a free end of an electrical conductor inserted into a cavity delimited by the clamping member which often adopts a cage shape. Thanks to the actuating mechanism, the clamping element can vary between a position allowing the introduction of the electrical conductor and a position in which the clamping element plates and holds the end of the electrical conductor against an electrically mounted conductive bar. in the insulating case.

In existing solutions, the clamping element is made by an assembly of several parts, generally steel between them. The assembly of the clamping element therefore requires several operations, which is not optimal in the context of cost reduction and simplification of assembly. There is also a risk that some of the pieces will be lost or damaged.

In addition, the use of steel is problematic. In high power applications, for example in the case of an electric appliance of the contactor or power terminal type, the electrical intensity flowing in the electrical conductor and in the conductive strip may be greater than 100 A. This may result eddy currents of high intensity, likely to create a heating of the steel parts and a deformation of the clamping element may lead to a detrimental loosening of the conductive element.

On the other hand, it is necessary to limit the thickness of the steel parts to contain the eddy currents below certain limits in order to avoid the problems below, which reinforces the obligation to use an element of clamping of multi-piece type assembled together.

The documents EP0687032A1 and FR2786611A1 describe solutions where the clamping element is at least partially made of non-magnetic material but once again the clamping element is each time made by a complex and expensive assembly of several parts together, with furthermore the same risks in the weather.

The present invention aims to solve all or part of the disadvantages listed above.

In this context, there is a need to provide an electrical device connection terminal that is simplified, easier to mount and less expensive while improving its operability in high power applications.

For this purpose, it is proposed a connection terminal for electrical apparatus such as a terminal block or a contactor, comprising a clamping element formed in a non-magnetic material and being in the form of a cage adapted to receive the end of an electrical conductor inserted in the clamping member, and actuating members for varying the clamping member between a loosening configuration in which the end of the electrical conductor can freely be inserted into the element clamping or withdrawing out of the clamping member and a clamping configuration in which the end of the electrical conductor previously inserted into the clamping member is held in place by clamping between the clamping member and a conductive bar of the electrical apparatus for making electrical contact between the conductive bar and the end of the electrical conductor, in lacquer lle the clamping element is constituted by a single piece piece.

• La figure 1 est une vue en perspective d'une partie d'un exemple d'appareil électrique équipé de deux bornes de connexion selon l'invention respectivement dans une configuration de serrage et dans une configuration de desserrage et coopérant avec des extrémités de deux conducteurs électriques de diamètres différents.
• La figure 2 est une vue de côté de l'appareil électrique de la figure 1, avant la mise en place des conducteurs électriques visibles sur la figure 1.
• La figure 3 est une vue de face illustrant la même partie d'appareil électrique que la figure 1, mais avant la mise en place des conducteurs électriques et en illustrant des configurations inversées pour les deux bornes de connexion par rapport à la figure 1.

The invention will be better understood from the following description of particular embodiments of the invention given by way of non-limiting example and shown in the accompanying drawings, in which:

• The figure 1 is a perspective view of a portion of an example of an electrical apparatus equipped with two connection terminals according to the invention respectively in a clamping configuration and in a loosening configuration and cooperating with ends of two electrical conductors of diameters different.
• The figure 2 is a side view of the electrical apparatus of the figure 1 , before the installation of the visible electrical conductors on the figure 1 .
• The figure 3 is a front view illustrating the same part of electrical apparatus as the figure 1 , but before the introduction of the electrical conductors and illustrating inverted configurations for the two connection terminals with respect to the figure 1 .

With reference to Figures 1 to 3 appended hereto as summarized above, the invention essentially relates to a connection terminal 10 for electrical apparatus. Within the electrical apparatus, and as will be detailed in more detail below, the connection terminal 10 has the function of establishing and maintaining physical and electrical contact between an electrical conductor 13 inserted on the one hand in the connection terminal 10 and on the other hand a conductive strip 11 of the electrical apparatus formed in an electrically conductive material. The electrical apparatus may in particular be of the electric switch type with an operating element for establishing or interrupting electrical continuity, or of the terminal block type. The electrical apparatus may be configured to removably attach to a mounting rail on which a plurality of electrical appliances may be mounted side by side, the electrical appliances being identical or not to each other.

The connection terminal 10 comprises a clamping element 12 formed in a non-magnetic material, which makes it possible to avoid or limit the formation of eddy currents evoked in relation with the state of the art presented previously, even in the particular case. targeted applications of high power that involve the presence of an electrical current flowing in the electrical conductor 13 and in the conductive strip 11 greater than 100A.

The clamping element 12 is in the form of a cage adapted to receive the end of an electrical conductor 13 inserted in the clamping element 12. The term "cage" is to be interpreted with a very broad meaning, in that it is an element defining a cavity open or not, through or not, adapted to receive ends of electrical conductors that can have different shapes, different dimensions, in particular different diameters or different lengths.

• une configuration de desserrage dans laquelle l'extrémité du conducteur électrique 13 peut librement être insérée dans l'élément de serrage 12 ou être retirée hors de l'élément de serrage 12,
• et une configuration de serrage dans laquelle l'extrémité du conducteur électrique 13 préalablement insérée dans l'élément de serrage 12 est maintenue en place par serrage entre l'élément de serrage 12 et la barrette conductrice 11 afin d'établir un contact électrique entre la barrette conductrice 11 et l'extrémité du conducteur électrique 13.

Each connection terminal 10 also comprises actuating elements 18 making it possible to vary the clamping element 12 of this connection terminal 10 between:

• a loosening configuration in which the end of the electrical conductor 13 can freely be inserted into the clamping element 12 or removed from the clamping element 12,
• and a clamping configuration in which the end of the electrical conductor 13 previously inserted in the clamping element 12 is held in place by clamping between the clamping element 12 and the conductive strip 11 in order to establish an electrical contact between the conductive strip 11 and the end of the electrical conductor 13.

Very advantageously to meet the problems presented in relation with the prior art, the clamping element 12 is constituted by a single piece. This eliminates assembly and manufacturing issues, which in turn reduces costs and improves reliability while improving magnetic properties, to avoid eddy currents as much as possible in high power applications (including electric current flowing in the electrical conductor 13 concerned and in the electrical strip 11 having an intensity greater than 100A) particularly targeted as a field of application to the invention.

The arrangement of a clamping element of non-magnetic material and in the form of a single piece and monobloc provides in practice better magnetic properties than a multi-piece assembly by avoiding magnetic discontinuities or even voluntary contact breaks or not .

In general, the non-magnetic material is configured so that the clamping element 12 has a state of spatial deformation, under the effect of the heat resulting from the magnetic field induced by an electrical intensity greater than 100A flowing in the electrical conductor 13. , such that a withdrawal of the end of the electrical conductor 13 from the clamping element 12 in the clamping configuration is inhibited by the clamping member 12. Thus, it is desired that when circulating an intensity greater than 100A, the one-piece clamping element has a deformation rate (under the effect of the heating that results from this intensity) ensuring the maintenance of the electrical conductor below a given limit value of axial withdrawal force.

In other words, the non-magnetic material of the clamping element is adapted so as to fulfill the function of presenting a state of spatial deformation ensuring the inhibition by the clamping element of the withdrawal of the electrical conductor out of the element. when such conditions where an electrical current greater than 100A flows in the electrical conductor are applied. In practice, this adaptation of the nonmagnetic material may depend on the shape of the clamping element, its thickness, or the maximum value of the withdrawal force that the clamping element must inhibit. In particular, the adaptation of the non-magnetic material according to these characteristics can be performed by numerical simulation and the skilled person is quite able to search for the non-magnetic material according to the dimensional or functional characteristics that are attributed to the clamping element.

It is moreover specified that the fact of providing a clamping element consisting of a single integral monoblock piece allows the latter to be much less subject to deformation when it tends to heat up under the effect. the circulation of an electrical intensity greater than 100A that a clamping element of the same size but arranged in the form of a multi-piece assembly.

Thus, the organization of the clamping element in the form of a single monoblock piece not only makes it more economical, more reliable, simpler and less risky in terms of loss or deterioration, but also makes it possible to have a capacity to deform significantly less to improve the axial strength of the electrical conductor.

In particular, the non-magnetic material is a copper-based alloy, aluminum or an aluminum-based alloy, which in practice gives very good results.

Although the clamping element 12 as shown here can be manufactured by any method and process suitable for the purpose and the desired result, the single piece in which the clamping element 12 is formed can advantageously be obtained by a simple extrusion operation, which makes the manufacturing and obtaining very simple, and inexpensive.

According to a particular nonlimiting embodiment, and in the manner shown, the clamping element 12 is in the form of a profile portion having a closed contour section. Thus, the section of each clamping member 12 may be in the form of a ring or a ring, exactly circular or not, for example in a slightly oblong shape, elongate in a direction corresponding substantially to the direction in which the clamping element 12 is intended to clamp the electrical conductor 13 and the conductive strip 11.

Such a closed form of the section allows the clamping member 12 to have very good magnetic characteristics, significantly greater than an open-form section or a multi-piece clamping member. between them, allowing it in particular to present very small eddy currents even when the electrical intensity is greater than 100A in the electrical conductor 13 clamped by this clamping element 12 and in the conductive strip 11.

When the clamping member 12 is obtained by extrusion, the cutting section refers to the section considered perpendicular to the direction in which the clamping member 12 has been extruded.

Very advantageously, the thickness of the clamping element 12 is, at least locally, between 2 and 4 mm.

This dimensional characteristic, in addition to the use of a non-magnetic material and optionally of the characteristic linked to the closed shape of the section of the clamping element 12, makes it possible to limit even more the effects of heating and deformation of the clamping member 12 even when an electrical current greater than 100A is circulating in the electrical conductor 13.

The electrical apparatus comprises an insulating housing 14 electrically formed in any suitable material such as for example a plastic material for ease of manufacture by injection. At least one connection terminal 10 is mounted in the electrical apparatus, depending on the number of electrical conductors 13 to be connected. In the example illustrated, the electrical apparatus comprises two separate connection terminals 10, independent of one another. The two connection terminals 10 allow the electrical connection to the conductive strip 11 of two electrical conductors 13 identical or different. Each of the two connection terminals 10 is intended to receive, in this case, the end of a corresponding electrical conductor 13 (see FIG. figure 1 ).

The insulating housing 14 may be one-piece, or, as illustrated, constituted by the assembly of several parts: in the example shown, the insulating housing 14 comprises two parts 14a, 14b assembled to each other so that dismountable in a direction of assembly generally perpendicular to the direction of insertion of the electrical conductors 13 in the two connection terminals 10. The attachment of the two parts 14a, 14b can be done by snapping, by means of screws, or everywhere else equivalent way.

The insulating housing 14 comprises at least one receiving orifice 15 of a first type in which the end of an electrical conductor 13 is threaded until it is inserted into the clamping element 12 and at least one orifice of receiving 16 of a second type allowing the insertion of another electrical conductor (not shown) into the insulating housing 14, different from the electrical conductor (s) 13. In addition, the electrical apparatus comprises at least one branch bar 17 configured to electrically connect the conductive strip 11 and the electrical conductor inserted into the receiving port 16 of the second type.

More specifically, in the example shown which is non-limiting, the insulating housing 14 comprises two receiving ports 15 of the first type arranged on opposite sides of the insulating housing 14 opposite. These two receiving orifices 15 according to the first type make it possible to receive the two electrical conductors 13 which come to connect in the two connection terminals 10 which comprises the electrical apparatus, housed in the insulating housing 14.

Each receiving orifice 15 of the first type may comprise a protective cover (not shown) intended to close the receiving orifice 15 of the first type that it equips before insertion by insertion of the electrical conductor 13.

The insulating housing 14 also comprises two receiving orifices 16 according to the second type, also arranged on the same two opposite lateral sides of the insulating housing 14, each being located just above a receiving orifice 15 of the first type, as well as two shunt strips 17 distinct from each other and distinct from the bar 11. The two receiving orifices 16 according to the second type can receive two unrepresented electrical conductors, different from the electrical conductors identified 13, which come into contact with the branch strips 17 to establish an electrical connection with the conductive strip 11.

The connection terminals 10 and the conductive strip 11 as well as the branch strips 17 are concretely mounted in one of the two parts 14a, 14b of the insulating housing 14 before the two parts 14a, 14b of the insulating housing 14 are assembled together. . The figure 2 shows the situation after the assembly of the two parts 14a, 14b of the insulating housing 14 between them, before the introduction of the electrical conductors 13 visible on the figure 1 .

The figure 1 on which the portion 14b of the insulating housing 14 is absent, shows the particular situation where the clamping element 12 of the connection terminal 10 on the left adopts its clamping configuration while the clamping element 12 of the connection terminal 10 right is in its loosening configuration. Always on the figure 1 the two electrical conductors 13 intended to be connected to the conductive strip 11 via the two connection terminals 10 are different from each other: the diameter of the end of the right electrical conductor 13 which cooperates with the clamping element 12 of the connection terminal 10 on the right in its loosening configuration is very much greater than the diameter of the end of the electrical conductor 13 of the left which cooperates with the clamping element 12 of the connection terminal 10 of the left in its tightening configuration.

Each connection terminal 10 is configured so that in the clamping configuration of the clamping element 12, the end of the electrical conductor 13 previously inserted into the clamping element 12 in its loosening configuration is held in place by clamping. between the clamping element 12 and the conductive strip 11 mounted in the insulating housing 14 in order to establish an electrical contact between the conductive strip 11 and the end of the electrical conductor 13.

It thus follows from the above that the dimensions of the inner part of the clamping element 12 intended to receive the end of the electrical conductors 13 and the conductive strip 11, as well as the organization of the actuating elements 18, are configured to admit cooperation with ends of electrical conductors 13 having a diameter within a predetermined value range.

On the other hand, on the figure 3 where the portion 14b of the insulating housing 14 is still absent, the clamping element 12 of the connection terminal 10 on the left adopts its loosening configuration while the clamping element 12 of the connection terminal 10 on the right is in its clamping configuration.

The placement of the clamping element 12 of each of the two connection terminals 10 in one or other of its configurations is practiced by a corresponding and adapted manipulation of the actuating elements 18 concerned.

According to a particular non-limiting embodiment, the change from one configuration to the other of the clamping element 12 is practiced by an overall displacement of the clamping element 12 with respect to the insulating housing 14 in which the clamping element 12 is slidably mounted between a first position corresponding to the loosening configuration and a second position different from the first position and corresponding to the clamping configuration. Each clamping element 12 is housed and mounted with a sliding possibility. in a corresponding housing 19 delimited by the insulating housing 14. The sliding movement may be rectilinear or not, depending on the shape and organization of the housing 19, which provides the guiding function of the clamping element 12 during its movement. In the particular example illustrated, the insulating housing 14 thus delimits two housings 19 in which are slidably mounted the two clamping elements 12 of the two connection terminals 10. For a connection terminal 10 given, the receiving orifice 15 of the first type opens into the corresponding housing 19.

For example on the figure 1 the clamping element 12 of the left connection terminal 10 is in its second position while the clamping element 12 of the right connection terminal 10 is in its first position. On the figure 3 , the positions are reversed for the two clamping elements 12 with respect to the positions adopted on the figure 1 .

It remains however that the change from one configuration to another of each clamping element could be done by any other means, such as for example by a possible change in the shape of the clamping element 12.

According to a particular embodiment, the actuating elements 18 comprise at least one screw element such as a screw or a bolt, operable from the outside of the insulating housing 14 and ensuring the variation of the clamping element 12 between the first position and the second position and vice versa when this screw element is screwed or unscrewed. The actuating elements 18 may, however, be constituted by any other equivalent and adapted means, in particular as a function of the manner in which the change of the clamping element 12 takes place from one configuration to another. The clamping element 12 may comprise a complementary screwing element adapted to cooperate with the screwing element of the actuating elements 18. For example in the case as shown where the screwing element of the actuating elements 18 is a screw, then the complementary screwing element may be a threaded orifice secured to the clamping element 12, in which is engaged the screw.

Alternatively or in substitution, it can be provided that the passage from one configuration to another of the clamping element 12 can be achieved by an elastic member such as a spring configured for this purpose and housed in the insulating housing 14 .

The invention also relates to an electrical apparatus as such, configured to constitute in particular a terminal block or a contactor as it has already been indicated.

Claims (10)

Connection terminal (10) for electrical apparatus such as a terminal block or a contactor, comprising a clamping element (12) formed of a non-magnetic material and being in the form of a cage adapted to receive the end of an electrical conductor (13) inserted in the clamping element (12), and actuating elements (18) for varying the clamping element (12) between a loosening configuration in which the end of the electrical conductor (13) can freely be inserted into the clamping element (12) or removed from the clamping element (12) and a clamping configuration in which the end of the electrical conductor (13) previously inserted in the clamping element (12) is held in place by clamping between the clamping element (12) and a conductive strip (11) of the electrical apparatus in order to make an electrical contact between the conductor bar (11) and the end electrical conductor (13), characterized in that the clamping element (12) consists of a single piece. Connection terminal (10) according to claim 1, characterized in that the non-magnetic material is configured so that the clamping element (12) has a state of spatial deformation, under the effect of the heat resulting from the induced magnetic field by an electrical current exceeding 100A flowing in the electrical conductor (13), such that withdrawal of the end of the electrical conductor (13) from the clamping element (12) in the clamping configuration is inhibited by the clamping element (12). Connection terminal (10) according to any one of claims 1 or 2, characterized in that the non-magnetic material is a copper-based alloy, aluminum or aluminum-based alloy. Terminal connection (10) according to one of claims 1 to 3, characterized in that said single piece piece is obtained by an extrusion operation. Terminal block (10) according to one of claims 1 to 4, characterized in that the clamping element (12) is in the form of a profile section having a closed contour section. Connection terminal (10) according to any one of claims 1 to 5, characterized in that at least locally, the thickness of the clamping element (12) is between 2 and 4 mm. Electrical apparatus such as a terminal block or a contactor, comprising an insulating housing (14) electrically and at least one connection terminal (10) according to any one of claims 1 to 6 mounted in the insulating housing (14), the connection terminal (10) being configured so that in the clamping configuration of the clamping element (12), the end of the electrical conductor (13) previously inserted into the clamping element (12) in its configuration of loosening is held in place by clamping between the clamping element (12) and a conductive bar (11) mounted in the insulating housing (14) in order to establish an electrical contact between the conductive bar (11) and the end of the electrical conductor (13). Electrical apparatus according to claim 7, characterized in that the change of configuration of the clamping element (12) to the other is effected by an overall displacement of the clamping element (12) with respect to insulating housing (14) in which the clamping element (12) is slidably mounted between a first position corresponding to the loosening configuration and a second position different from the first position and corresponding to the clamping configuration. Electrical device according to claim 8, characterized in that the actuating elements (18) comprise at least one screw element operable from the outside of the insulating housing (14) and ensuring the variation of the clamping element (12) between the first position and the second position and vice versa when the screw element is screwed or unscrewed. Electrical device according to one of claims 7 to 9, characterized in that the insulating housing (14) comprises at least one receiving orifice (15) of a first type in which the end of an electrical conductor (13) is inserted into the clamping element (12) and at least one receiving orifice (16) of a second type allowing the insertion of another electrical conductor into the insulating housing (14), and in that the electrical apparatus comprises a branch bar (17) configured to electrically connect the bar conductor (11) and the electrical conductor inserted in the receiving port (16) of the second type.

Images