The present invention concerns the field of electrical connectors.
The aim of the invention is in particular to improve the mutual locking between two complementary connector casings, in particular multi-contact connector casings, when they are in a connected configuration.
Although described with reference to a preferred application, aeronautics, and more particularly the field of equipment onboard an aircraft, the invention may be used in any other application.
In many connection applications it is known to interlock a connector and the complementary one of the same assembly, once their connection configuration has been achieved, that is to say the coupling between their respective contacts assured.
This is particularly necessary when the environment of the connection assembly is subjected to severe environmental constraints, as may be the case in aircraft and in particular when the assembly is mounted on a panel of equipment onboard an aircraft.
A number of solutions have already been employed as locking means.
Firstly there is known a nut-and-bolt locking system that is found for example in the connection assemblies sold by the Applicant under the designation EPX®B2: the receptacle carries a nut fixed to the casing in its central part between the two contact inserts, while the plug includes a central hole through which a bolt may be screwed into the nut to obtain the required locking.
Also known is a quarter-turn fixing system that is found for example in the connection assemblies sold by the Applicant under the designation EPX®A, EPX®B1: the receptacle carries on either side of the central housing a male cylinder provided with two outwardly projecting lugs and the plug carries a female cylinder with openings facing each of the male cylinders.
There has been represented in
Finally, it is widely known to use a locking cap that is actuated by manual sliding on the casing of one of the connectors, the cap comprising shapes cooperating with complementary shapes of the casing of the complementary connector to obtain the immobilisation in translation of the cap and therefore the required locking.
Thus the patent EP1708313B1 therefore proposes a connection assembly comprising a locking cap comprising locking teeth between two multi-contact connectors one of which is fixed to a support, the movement of the cap being effected by manually sliding it on the casing.
The patent EP2503651B1 also discloses a locking cap to be moved manually on the casing of one of the two multi-contact connectors, the other one being already mounted on an electronic equipment panel.
There has been reproduced in
The substantially U shape locking cap 4 is mounted to slide on the casing 20 of the plug 2 between its connection front face 24 and its rear face 25, perpendicularly to its longitudinal axis X. Each of the branches of the U comprises internally openings 40 with appropriate shapes. Each of the longitudinal faces 31 of the casing 30 of the receptacle 3 is provided with two lugs 32.
To effect the locking as shown in
Although the various locking systems with the various means described hereinabove have proven effective and reliable, the inventors have come to the conclusion that they are not able to solve problems with which they have recently been confronted.
Indeed, firstly, in the application concerned, the available space that has been allocated for mounting a plurality of connection assemblies on an electronic equipment panel is very limited.
To illustrate this space constraint, there has been shown in
Then, it remains necessary to apply the usual coupling forces to guarantee the electrical continuity between the two casings, which is impossible to do manually in this new environment.
Thus there exists a need to improve further the mutual locking between complementary connectors in a connected configuration, in particular in order to have the possibility of easy locking in an environment constrained in terms of available space and/or that necessitates the application of a high locking force.
The invention aims to respond to all or part of that need.
To this end, in one of its aspects, the invention has for object a connector, in particular a multi-contact connector, comprising:
By “vice versa” is meant here and in the context of the invention that the rotation by the tool over the angular travel in the opposite direction causes sliding of the cap from its locking position to its unlocking position.
The interface part is preferably adapted to be caused to move by a movement in rotation of the tool. The interface part may more preferably be caused to rotate about an axis parallel to the rotation axis of the tool, more preferably about the rotation axis of the tool.
The axis about which the interface part may be caused to rotate is preferably parallel to the longitudinal axis (X) of the casing.
The interface part is preferably housed in a housing passing through one side of the casing, preferably so that the interface between the interface part and the tool is on the longitudinal axis of the casing from the front or rear face of the latter.
In accordance with an advantageous variant embodiment, the interface part comprises an interface imprint for the tool, arranged on the side of the rear face of the casing.
The interface imprint for the tool is preferably arranged on a lateral edge of the casing.
The interface imprint of the part is more preferably a hollow hexagonal imprint. Of course, any type of imprint may be envisaged.
In accordance with an advantageous embodiment, the mechanism is a sliding mechanism in which:
The end of travel position of the pin in the groove is advantageously adapted to generate for the operative effecting the locking using the tool a haptic indication of finalised locking of the cap in the locking position or in the vicinity of the latter. The pin is more advantageously able to continue to slide in the groove beyond the locking position and to generate for the operative a sensation of sudden reduction of the rotational torque.
The angular travel causing the sliding of the cap from its unlocking position to its locking position is preferably equal to at least 180°.
In accordance with another advantageous variant embodiment, the interface part comprises at its periphery a lug projecting from the side of the rear face of the casing, the lug forming an abutment for the interface part against a relief produced in or attached to the casing in the locking position and/or in the unlocking position of the cap.
The lug is preferably visible to the operative effecting the locking using the tool in any position of the cap.
In accordance with another advantageous variant embodiment, the connector comprises at least one visual indicator arranged so as to be visible to an operative in any position from the unlocking position of the cap to its locking position in which it is concealed.
The interface part advantageously comprises, by way of visual indicator, a coloured zone visible from the unlocking position of the cap to its locking position in which the zone is concealed by a relief in the casing or attached to the latter. This relief serves as an abutment for the lug of the interface part.
In accordance with one advantageous embodiment, the cap and the interface part are sized so as to generate a locking force of at least 100 N.
The connector may constitute a multi-contact connector in which the casing houses at least one insert including cells that extend along the longitudinal axis (X) and each of which houses a contact.
The locking cap advantageously having in a plane perpendicular to the longitudinal axis (X) a substantially U shape.
The invention further has for object an electrical connection assembly, comprising:
In other words, the invention essentially consists in a mechanism for transformation of the movement in rotation by a tool of an interface part housed in the casing of a connector into a movement in translation in a plane perpendicular to the coupling direction of a locking cap for locking the casing of the connector to that of a complementary connector.
The mechanism very advantageously consists in a sliding mechanism with a projecting pin at the periphery of the interface part that comes to slide in a groove of the casing upon rotation of the tool. This sliding causes the movement in translation of the locking cap in a plane perpendicular to the coupling direction of the connector from its unlocking position to its locking position.
The haptic indication enables the operative to feel that locking has been effected correctly.
The invention also has for object a method for assembling the connector and the complementary connector of the assembly as described above, the method including the following steps:
The invention has numerous advantages compared to the prior art, among which may be cited:
Numerous applications are envisaged for the invention among which may be cited electrical connections on aircraft.
Other advantages and features of the invention will become clearer on reading the detailed description of examples of embodiments of the invention given by way of non-limiting illustration with reference to the following figures.
Throughout the present application the terms “vertical”, “lower”, “upper”, “low”, “high”, “below” and “above” are to be understood with reference to an electrical connector in accordance with the invention with its casing and its locking cap in a horizontally arranged configuration.
Likewise, the terms “internal” and “external” are to be understood relative to the casing of the electrical connector in accordance with the invention.
For clarity, the same reference number is used for the same element of a prior art electrical connection assembly and an electrical connection assembly in accordance with the invention.
There has been represented in
The male type multi-contact connector 2, in particular a plug, is intended to be connected to a female type complementary connector 3, in particular a receptacle.
The connectors 2 and 3 are intended to convey optical, radio-frequency, electrical or power signals.
This multi-contact connector 2 extends along a longitudinal axis X and comprises a casing 20 that in the example described is made in one piece from plastic material. The front face 24 and the rear face 25 of the casing 20 are parallel and extend perpendicularly to the axis X. An insert 26 with a plurality of cells is housed in the casing 20. Each cell is intended to house a contact that is not represented.
A locking cap 4 is mounted to slide on the casing 20, transversely to the longitudinal axis X, to lock the connectors 2 and 3 together when they are in the connected configuration, that is to say coupled to one another. As illustrated, the locking cap has a substantially U shape in a plane perpendicular to the longitudinal axis X.
In accordance with the invention, a sliding mechanism 6 is provided to transform the movement in rotation of a tool H into a movement in translation of the locking cap 4 from its unlocking position in which the two connectors 2, 3 are unlocked to its locking position in which they are locked.
The sliding mechanism 6 firstly comprises an interface part 60 that is able to cooperate with the tool H, which is preferably a hexagonal section key. The interface part 60 is mounted to rotate freely in a housing 200 of the connector casing 20.
To be more precise, the interface part 60 further comprises an interface imprint 61 for the tool H, preferably a hollow hexagonal imprint. In the example illustrated the imprint 61 is arranged on the side of the rear face of the casing, on a lateral edge of the latter.
The interface part 60 comprises as its periphery a pin 62 projecting toward the front face 24 of the casing 20.
The locking cap 4 comprises inside the bottom 41 of the U shape a groove 42 having a shape complementary to that of the pin.
As shown in
The interface part 60 comprises at its periphery a lug 63 projecting from the side of the rear face 25 of the casing 20. This lug 63 abuts against a relief 27 fastened to or integral with the casing 20 both in the locking position and in the unlocking position of the cap 4.
The interface part 60 finally comprises, by way of visual indicator, a visible coloured zone 64, i.e. one that is visible to an operative, from the unlocking position of the cap 4 to its locking position, in which the zone is concealed by the relief 27 and/or the casing 20 itself.
There is now described with reference to
Step a/: the operative moves toward the opening O in the panel P the receptacle 3 with its casing 30 in which is housed at least one insert 35 with cells for housing contacts (
Step b/: the operative then inserts the receptacle 3 in the opening O in the panel P, centres it, and then fixed it to the panel with fixing screws (
Step c/: the operative then picks up the plug type connector 2 with its locking cap 4 in its unlocking position (
Step d/: the operative then offers up the plug 2 with its contacts inserted in and fixed into the insert 26 housed in the casing 20 facing the receptacle 3 in such a manner as to couple them together via their front face 24, 34 to make the connection (
Step e/: once this connection has been made, the operative can then proceed to the mutual locking thereof by causing the locking cap 4 to slide on the casing 3 from its unlocking position (
To this end they insert a hexagonal key H into the hexagonal imprint 61 and effect a rotation of at least 180°.
The operative is sure that the cap 4 is indeed in the locking position because on the one hand the lug 63 is abutted against the relief 27 and on the other hand the coloured zone 64 is completely invisible to the operative because concealed (
Locking proper is effected by immobilising the cap 4 in its locking position obtained by wedging the casing 30, that is to say by wedging each lug 32 of the casing 30 inside a groove 40 of the cap 4.
The operation of the sliding mechanism 6 is explained with reference to
In the unlocking position of the cap 4 the lug 63 is abutted against the relief 27 and the coloured zone 64 is completely visible, which indicates visually to the operative said unlocking position (
When the operative has turned the key H through an angle of approximately 90°, the cap 4 is in an intermediate sliding position, the lug 63 is then free of any abutment and the coloured zone 64 is still visible, which indicates visually to the operative that they have not reached the locking position (
When the operative has turned the key H by an additional angle of approximately 90°, i.e. a travel of approximately 180° from the unlocking position, the cap 4 is in its locking position, the lug 63 is then abutted against the relief 27 at the bottom and the coloured zone 64 is completely concealed (
The end of travel position of the pin 62 in the groove 42 advantageously makes it possible to create a haptic indication of finalised locking in the vicinity of the locking position of the cap 4.
Indeed, when this complete locking position is reached and the cap 4 locked by wedging it, the pin 62 can continue to move in the groove 42, which is reflected for the operative in a sensation of sudden reduction of the force, that is to say a much lower rotation torque.
Other variants and improvements may be provided without this departing from the scope of the invention.
Number | Date | Country | Kind |
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2002296 | Mar 2020 | FR | national |