FR3138558A1 - Insulating protection intended to be mounted on an electrical connector and assembly comprising such protection - Google Patents

Abstract

Insulating protection intended to be mounted on an electrical connector and assembly comprising such protection One aspect of the invention relates to an insulating protection (PI) intended to be fixed on an electrical connector, the electrical connector comprising a base, at least one first terminal and a second terminal, the insulating protection (PI) comprising a fixing means (CR) configured to be able to be fixed on the electrical connector so as to at least partially cover the base, and an insulating separation means (P1,P2) arranged so as to completely separate the first terminal from the second terminal when the insulating protection is fixed on the electrical connector. Figure to be published with the abstract: Figure 3

Description

Insulating protection intended to be mounted on an electrical connector and assembly comprising such protection TECHNICAL FIELD OF THE INVENTION

The technical field of the invention is that of electrical connections in aircraft.

The present invention relates to insulating protection and in particular insulating protection making it possible to increase the length of leakage paths in order to limit the risk of short circuit or partial discharges.

TECHNOLOGICAL BACKGROUND OF THE INVENTION

Electric or hybrid propulsion aircraft constitute a very promising market with prospects and significant demand in intra-urban and inter-urban transport for goods or people. Many projects are regularly launched either by established players or by new entrants. Propulsion is carried out by one or more electric motors, the number varying depending on the architecture of the aircraft, and these electric propulsion systems use ever higher voltage levels, which poses the problem of partial discharges at altitude.

Indeed, traditionally, connectors do not need protection because their characteristics specify the limits in terms of isolation distances. However, the use of ever smaller connectors to pass ever higher voltages and at altitude brings constraints that must be anticipated in terms of partial discharges. In particular, the use of very high level voltages (up to 1000V) at altitude leads to the appearance of partial discharge phenomena more quickly than on conventional alternating or direct voltages (115Vac / 230Vac / 28Vdc) mainly used in the aeronautics.

Given these high voltages, the insulation distances (potentials/potentials and potentials/ground) must be increased. The same goes for the leakage lines between the HVDC (for high direct voltages) or HVAC (for high alternating voltages) potentials. Otherwise, systems that have connectors with male or female pins connected to a high voltage (alternating or direct) may be confronted with insulation distances that are too low or creepage distances (travel along the materials of the connector between the two potentials) too short causing the appearance of partial discharges.

There is therefore a need to be able to adapt the connectors currently used in aeronautics to applications requiring high voltages.

The invention offers a solution to the problems mentioned above, by offering insulating protection which makes it possible to greatly reduce the risk of discharge and to increase the length of the creepage distance between the different connection terminals.

For this, one aspect of the invention relates to an insulating protection intended to be fixed on an electrical connector, the electrical connector comprising a base, at least a first terminal and a second terminal, the insulating protection comprising a fixing means configured to be able to be fixed on the electrical connector so as to at least partially cover the base, and an insulating separation means arranged so as to completely separate the first terminal from the second terminal when the insulating protection is fixed on the electrical connector. A first electrode is said to be separated from a second electrode when no part of the first electrode faces any part of the second electrode.

Thanks to the invention, the risk of short circuit (or partial discharge) between the terminals of the electrical connector or between a terminal of the electrical connector and its base is reduced or even eliminated. In addition, the length of the creepage distance between the terminals or between each terminal and the base is increased taking into account in particular the presence of the separation means.

In addition to the characteristics which have just been mentioned in the previous paragraph, the insulating protection according to a first aspect of the invention may have one or more complementary characteristics among the following, considered individually or in all technically possible combinations.

• le moyen de fixation comprend un corps creux en matériau isolant comportant un premier sommet et un deuxième sommet opposé au premier sommet et :
  • au niveau du premier sommet, une première ouverture et une deuxième ouverture ;
  • au niveau du deuxième sommet, une ouverture principale ;
• le moyen de séparation comprend une plaque en matériau isolant en contact avec le premier sommet et disposée perpendiculairement à la surface de ce premier sommet entre la première ouverture et la deuxième ouverture.

In one embodiment:

• the fixing means comprises a hollow body made of insulating material comprising a first vertex and a second vertex opposite the first vertex and:
  • at the level of the first vertex, a first opening and a second opening;
  • at the level of the second summit, a main opening;
• the separation means comprises a plate of insulating material in contact with the first vertex and arranged perpendicular to the surface of this first vertex between the first opening and the second opening.

In one embodiment, the fixing means comprises, at the level of the first vertex, a third opening and a fourth opening; and the separation means comprises a second plate of insulating material, said second plate being in contact with the first vertex and arranged perpendicular to the surface of this first vertex between the first opening and the fourth opening on the one hand, the second opening and the third opening on the other hand, the first plate of insulating material being arranged between the first opening and the second opening on the one hand, the fourth opening and the third opening on the other hand.

A second aspect of the invention relates to an assembly comprising insulating protection according to the first aspect of the invention and an electrical connector, the electrical connector comprising a base, at least a first terminal associated with a first polarity and a second terminal associated with a second polarity different from the first polarity, the first terminal and the second terminal being projecting from the base, the means for fixing the insulating protection being fixed on the electrical connector so as to at least partially cover the base, and the means for separating the insulating protection being arranged so as to completely separate the first terminal from the second terminal.

In addition to the characteristics which have just been mentioned in the previous paragraph, the assembly according to the second aspect of the invention may present one or more complementary characteristics among the following, considered individually or in all technically possible combinations.

In one embodiment, the electrical connector comprises a third terminal associated with a third polarity different from the first and second polarity, and a fourth terminal associated with a fourth polarity different from the first polarity, the second polarity and the third polarity, the separation means being arranged so as to completely separate the terminals from each other.

The invention and its various applications will be better understood on reading the following description and examining the accompanying figures.

BRIEF DESCRIPTION OF THE FIGURES

The figures are presented for information purposes only and in no way limit the invention.

THE has show insulating protection according to one embodiment of a first aspect of the invention.

THE has and the show insulating protection according to one embodiment of the first aspect of the invention.

There shows an assembly according to one embodiment of the second aspect of the invention.

There shows an assembly according to one embodiment of the second aspect of the invention.

DETAILED DESCRIPTION

Unless otherwise specified, the same element appearing in different figures presents a unique reference.

A first aspect of the invention illustrated by the to the concerns a PI insulating protection intended to be fixed on a CE electrical connector. Generally speaking, as illustrated in (side view) and (top view), the electrical connector CE comprises a base EM, at least a first terminal BR1 (intended to be associated with a first polarity) and a second terminal BR2 (intended to be associated with a second polarity different from the first polarity ), the first terminal BR1 and the second terminal BR2 preferably projecting from the base EM. Of course, as will be detailed below, the CE electrical connector can include additional terminals BR3, BR4 (see And introduced later). In such an electrical connector CE, when too high a voltage is applied to the first terminal BR1 and the second terminal BR2, there is a risk of a DC short circuit (or partial discharge), this risk being even higher at altitude. The PI insulating protection according to the invention aims in particular to reduce or even eliminate this risk.

To this end, as illustrated in (side view) and (top view), the PI insulating protection according to the invention comprises a fixing means MF configured to be able to be fixed on the electrical connector CE so as to at least partially cover the base EM. By covering the base in this way, the PI insulating protection according to the invention makes it possible to reduce or even eliminate the risk of short circuit between a terminal BR1/BR2 of the electrical connector CE and the base EM which is generally at the potential of the mass. The insulating protection PI according to the invention also comprises an insulating separation means MS arranged to completely separate the first terminal BR1 from the second terminal BR2 when the insulating protection PI is fixed on the electrical connector CE. It is this separation means MS which will make it possible to reduce or even eliminate the risks of DC short circuit between terminals BR1/BR2 mentioned previously. In one embodiment, the insulating protection PI is manufactured, at least in part (for example the separation means MS and/or the fixing means MF), in an insulating material chosen from Polyarylamide (also known by the acronym PAA ), Polyamide (also known by the acronym PA66), Polysulfone (also known by the acronym PSU), PEEK GLx.

More particularly, in the embodiment illustrated in and to the , the fixing means MF comprises a hollow body CR, preferably a hollow cylinder CR (for example a straight circular cylinder as illustrated in the figures), made of insulating material comprising a first vertex S1 and a second vertex S2 opposite the first vertex. In addition, the hollow body CR comprises, at the level of the first vertex S1, a first opening O1 and a second opening O2, the first opening O1 being intended to receive the first terminal BR1 and the second opening O2 being intended to receive the second terminal BR2. It also comprises, at the level of the second vertex S2, a main opening OP intended to receive the base EM so that the base EM is inserted, at least in part, into the hollow body CR when the insulating protection PI is fixed on the CE electrical connector. Furthermore, in this embodiment, the separation means MS comprises a plate P1 of insulating material in contact with the first vertex S1 and arranged perpendicular to the surface of this first vertex S1 between the first opening O1 and the second opening O2 ( in other words, the projection of the plate P1 on the first vertex S1 forms a line located between the first opening O1 and the second opening O2 and entirely separates the two openings O1/O2). This embodiment is particularly suitable for CE electrical connectors intended for single-phase for which a first terminal BR1 corresponds to the phase and a second terminal BR2 corresponds to the neutral. In one embodiment, the thickness of the plate P1 is greater than or equal to 1 mm in order to ensure that the latter has good mechanical strength, particularly with regard to vibrations. In one embodiment, the hollow body CR comprises, at the main opening OP, a thread, so as to be able to screw the insulating protection PI onto the base EM of the electrical connector CE.

As illustrated in , once the insulating protection PI is mounted on the electrical connector CE, in addition to limiting the risk of a DC short circuit, the separation means MS makes it possible to increase the length of the creepage distance LF between the first terminal BR1 and the second terminal BR2, the length of this leakage line LF can be modulated using the separation means MS, in particular by varying the dimensions of the latter.

In a second embodiment illustrated in and to the , the electrical connector CE comprises a base EM, a first terminal BR1 (intended to be associated with a first polarity), a second terminal BR2 (intended to be associated with a second polarity different from the first polarity), a third terminal BR3 ( intended to be associated with a third polarity different from the first and second polarities) and a fourth terminal BR4 (intended to be associated with a fourth polarity different from the first, second and third polarity), said terminals BR1 -BR4 being protruding from the EM base. In this embodiment, the PI insulating protection is configured to limit or even eliminate the risk of a DC short circuit between the four terminals BR1-BR4 or between the terminals BR1-BR4 and the base EM of the electrical connector CE, said base EM generally being placed on the mechanical mass of the chassis which supports it.

For this, in this embodiment, as illustrated in and to the , the fixing means MF comprises a hollow body CR, preferably a hollow cylinder CR (for example a straight circular cylinder as illustrated in the figures) comprising a first vertex S1 and a second vertex S2 opposite the first vertex S1. In addition, the hollow body CR comprises at the level of the first vertex S1, a first opening O1, a second opening O2, a third opening O3 and a fourth opening O4, the first opening O1 being intended to receive the first terminal BR1, the second opening O2 being intended to receive the second terminal BR2, the third opening O3 being intended to receive the third terminal BR3 and the fourth opening O4 being intended to receive the fourth terminal BR4. It also comprises, at the level of the second vertex S2, a main opening OP intended to accommodate the base EM so that the base EM is inserted, at least in part, into the hollow body CR when the insulating protection is fixed on the CE electrical connector. Furthermore, in this embodiment, the separation means MS comprises a first plate P1 of insulating material, said first plate P1 being in contact with the first vertex S1 and arranged perpendicular to the surface of this first vertex S1 between the first O1 and the second opening O2 on the one hand, the fourth opening O4 and the third opening O3 on the other hand. The separation means MS also comprises a second plate P2 made of insulating material, said second plate P2 being in contact with the first vertex S1 and arranged perpendicular to the surface of this first vertex S1 between the first opening O1 and the fourth opening O4 of on the one hand, the second opening O2 and the third opening O3 on the other hand. This embodiment is particularly suitable for CE electrical connectors intended for three-phase for which three terminals are each associated with a phase and a fourth terminal is associated with neutral. An illustration of a PI insulating protection according to this embodiment manufactured by additive manufacturing is illustrated in the .

A second aspect of the invention illustrated in and to the relates to an EN assembly comprising a PI insulating protection according to a first aspect of the invention and a CE electrical connector. In an embodiment illustrated in , the electrical connector CE comprises a base EM, a first terminal BR1 associated with a first polarity and a second terminal BR2 associated with a second polarity different from the first polarity. In addition, the first terminal BR1 and the second terminal BR2 project from the base EM. Furthermore, the insulating protection PI according to a first aspect of the invention is mounted on the electrical connector CE so that the separation means MS entirely separates the first terminal BR1 from the second terminal BR2 (in other words, no part of the first terminal BR1 is opposite any part of the second terminal BR2). Preferably, the separation means MS comprises a plate P1 as described above separating the first terminal BR1 from the second terminal BR2. Preferably, the separation means MS is dimensioned so that the leakage path between the first terminal BR1 and the second terminal BR2 is greater than a threshold length chosen according to the constraints of use (in particular the altitude of use ), for example a threshold length greater than or equal to 5 cm, or even greater than or equal to 10 cm.

In an embodiment illustrated in , the electrical connector CE further comprises a third terminal BR3 associated with a third polarity different from the first and the second polarity, and a fourth terminal BR4 associated with a fourth polarity different from the first polarity, the second polarity and the third polarity. Furthermore, in this embodiment, the insulating protection PI being mounted on the electrical connector CE so that the separation means MS completely separates the terminals BR1-BR4 from each other. Preferably, the separation means MS comprises a first plate P1 and a second plate P2 as described above separating the terminals BR1-BR4 from each other. Preferably, the separation means MS is dimensioned so that the leakage path and/or the insulation distance between two terminals BR1-BR4 is greater than a threshold length chosen according to the constraints of use (in particular the altitude of use or even the voltage level), for example a threshold length greater than or equal to 5 mm, or even greater than or equal to 10 mm.

Claims (7)

Insulating protection (PI) comprising a fixing means (MF) and a separation means (MS) in which:

• the fixing means (MF) comprises a hollow body (CR) made of insulating material comprising a first vertex (S1) and a second vertex (S2) opposite the first vertex (S1) and:
  • at the level of the first vertex (S1), a first opening (O1) and a second opening (O2);
  • at the level of the second vertex (S2), a main opening (OP);
• the separation means (MS) comprises a plate (P1) of insulating material in contact with the first vertex (S1) and arranged perpendicular to the surface of this first vertex (S1) between the first opening (O1) and the second opening ( O2).

Insulating protection (PI) according to the preceding claim in which:

• the fixing means (MF) comprises, at the level of the first vertex (S1), a third opening (O3) and a fourth opening (O4);
• the separation means (MS) comprises a second plate (P2) of insulating material, said second plate (P2) being in contact with the first vertex (S1) and arranged perpendicular to the surface of this first vertex (S1) between the first opening (O1) and the fourth opening (O4) on the one hand, the second opening (O2) and the third opening (O3) on the other hand, the first plate (P1) of insulating material being arranged between the first opening ( O1) and the second opening (O2) on the one hand, the fourth opening (O4) and the third opening (O3) on the other hand.

Insulating protection (PI) according to one of the preceding claims in which the insulating protection (PI) is manufactured from a material chosen from Polyarylamide, Polyamide, Polysulfone, PEEK GLx. Assembly comprising an insulating protection (PI) according to one of the preceding claims and an electrical connector (CE), the electrical connector (CE) comprising a base (EM), at least one first terminal (BR1) associated with a first polarity and a second terminal (BR2) associated with a second polarity different from the first polarity, the first terminal (BR1) and the second terminal (BR2) projecting from the base (EM), the fixing means (MF) of the insulating protection (PI) being fixed on the electrical connector (CE) so as to at least partially cover the base (EM) and the separation means (MS) of the insulating protection (PI) being arranged so as to completely separate the first terminal (BR1) of the second terminal (BR2). Assembly according to the preceding claim in which the insulating protection is protection according to claim 2 or claim 3 in its dependence on claim 2, and in which the electrical connector (CE) comprises a third terminal (BR3) associated with a third polarity different from the first and the second polarity, and a fourth terminal (BR4) associated with a fourth polarity different from the first polarity, the second polarity and the third polarity, the separation means (MS) being arranged so as to completely separate the terminals (BR1-BR4) from each other. Assembly according to one of the two preceding claims in which the separation means (MS) of the insulating protection (PI) is dimensioned so that the leakage path and the insulation distance between any two terminals of the electrical connector (CE) is greater than a threshold length. Assembly according to the preceding claim in which the threshold length is greater than or equal to 5 mm.