EP2704266A1 - Method for transforming a male connector into a female connector and transformable connector - Google Patents

Abstract

The method involves installing a set of female sockets (30) around male pins (10) of male connector, where one of the sockets is mounted around each male pin of the connector. A locking housing (40) is installed in a header of the connector around the sockets. The housing is force-fitted into the header so as to tighten each female socket around the associated male pin by deforming an inner structure of a rear part (32) of each socket. An interfacial seal (44) is installed between the insert and the housing so as to protect the insert and ensure impermeability of the connector. An independent claim is also included for a connector.

Description

Field of the invention

The invention relates to a method for transforming a male connector into a female connector. The invention also relates to a male connector adapted to be converted into a female connector.

The invention finds applications in the field of aeronautical connectivity, automotive connection and, in general, in all areas of the connectors using male connectors and female connectors.

State of the art

Currently, in the field of connectivity, there are male connectors, that is to say, connectors with male electrical contacts, for receiving a complementary connector with female contacts. There are also female connectors, that is to say with female electrical contacts, for receiving complementary connectors with male contacts. Each connector is therefore a particular type of connector, female or male.

The male connectors comprise an insert in which are housed one or more pins forming the male electrical contacts. An example of a conventional male connector is shown, in a sectional view, on the figure 1 . This male connector, referenced 1, comprises a base 11 inside which is disposed a plurality of pins 10 of male contact, called male pins. These pins 10 are held inside an insert 13 which seals said contacts inside the connector. In some types of male connectors, the insert is a glass insert, that is to say a bead of molten glass at high temperature so as to encircle the male contacts and thus seal them inside the connector. An intermediate mat 14 is generally installed on the insert 13, around the male pins, and seals said pins.

A coupling seal 12 ensures the tightness of the male connector with the female counterpart when the two elements are connected.

The female connectors generally comprise an insert in which are housed one or more sockets forming the female electrical contacts. An example of a conventional female connector is shown on the figure 2 according to a sectional view. This female connector is a connector of the same range as the male connector of the figure 1 . This female connector, referenced 2, comprises an insert 21 inside which is housed a plurality of sockets 20 female contact, called female sockets. A coupling seal 22 seals the insert. In such a female connector, no insert mat is necessary because, the sleeves are inserted into the insert.

As is understood from these Figures 1 and 2 , the male connector and the female connector are separate connectors, each adapted to be connected to a complementary connector. The male connector of the figure 1 is adapted to receive a complementary female connector and the female connector of the figure 2 is adapted to receive a male complementary connector.

When setting up an electrical device within an electrical installation or a connection installation, the operator carrying out this installation must have, with him, the type connector adapted to the electrical device. He must know, before setting up the device, whether he will need a male connector or a female connector to connect the device to the installation. In some installations, particularly large installations requiring a large number of connectors to install, the operator is not always able to know the exact number of connectors of each type that will be required for complete installation .

Currently, if the operator does not know the exact number of connectors of each type that will be needed, he is obliged to return to the store to look for additional connectors or exchange a connector of a type against a connector of another type . It is then understood that the time required for the exchange entails an additional maneuvering cost.

When the installation is in a harsh environment or in a difficult to access location, the operator generally prefers to load a large number of each type of connector in order to be in possession of a sufficient number of connectors to avoid risk having to go back to the store. In this case, some of these connectors are necessarily not used. It is understood that in this case, the purchase of unused connectors entails a cost of unnecessary equipment.

Presentation of the invention

The purpose of the invention is precisely to overcome the disadvantages of the conventional techniques described above. For this, the invention proposes a method for transforming a male connector into a female connector. This transformation of the male connector into female connector is done by adding, to a conventional male connector, a female adapter module adapted to be fitted inside the male connector. In this way, the operator in charge of the connector installation can buy and carry the number of male connectors corresponding exactly to the necessary number of connectors, to which he adds female adaptation modules according to the needs of the installation.

Such a male connector convertible into a female connector has the advantage of facilitating the management of the equipment by the operator. Indeed, it is sufficient for the operator to have in his possession male connectors with female adapter modules and, according to his needs, to transform one or more male connectors into female connectors. The transformation method is simple to implement since it consists of installing the female adapter module into the male connector and then mounting it in force.

• installation d'une pluralité de douilles de contact femelle, une douille femelle étant montée autour de chaque broche mâle du connecteur mâle,
• installation d'un boitier de verrouillage autour de la pluralité de douilles, et
• montage en force du boitier de verrouillage autour de la pluralité de douilles afin d'enserrer chaque douille femelle autour de la broche mâle associée.

More specifically, the invention relates to a method of transforming a male connector into a female connector, the male connector comprising a base provided with a plurality of male pins and an insert ensuring a hermeticity of the male pins in the base .

• installing a plurality of female contact sockets, a female socket being mounted around each male pin of the male connector,
• installing a locking box around the plurality of sockets, and
• forcibly mounting the locking box around the plurality of sockets to grip each socket around the associated male pin.

• le montage en force du boitier de verrouillage consiste à presser le boitier de verrouillage dans l'embase jusqu'à déformation d'une zone de déformation de chaque douille.
• il consiste à installer un tapis intercalaire entre l'insert et le boitier de verrouillage pour protéger ledit insert et assurer une étanchéité du connecteur.

This method may include one or more of the following features:

• the mounting in force of the locking case consists in pressing the locking box in the base until deformation of a deformation zone of each sleeve.
• it consists in installing an intermediate mat between the insert and the locking box to protect said insert and ensure a seal of the connector.

• une pluralité de douilles formant contacts femelles, chaque douille femelle étant adaptée pour être montée autour d'une broche mâle, et
• un boitier de verrouillage apte à être emboité autour de la pluralité de douilles pour enserrer chaque douille femelle autour de la broche mâle associée.

The invention also relates to a connector comprising a base provided with a plurality of pins forming male contacts and an insert ensuring a hermeticity of said male pins in the base. This connector is characterized in that it comprises a female adaptation module adapted to be mounted in the base to form a female connector, said female adapter module comprising:

• a plurality of socket contacts, each socket being adapted to be mounted around a male pin, and
• a locking box adapted to be fitted around the plurality of sleeves for gripping each female socket around the associated male pin.

• chaque douille comporte une zone avant comprenant un tube de douille apte à assurer une liaison électrique avec un connecteur mâle complémentaire et une zone arrière adaptée pour être positionnée autour d'une broche mâle et comportant une zone de déformation apte à se déformer lors du montage en force du boitier de verrouillage afin de mettre en pression la zone arrière de la douille femelle autour de la broche mâle.
• la zone de déformation de la douille femelle comporte une structure interne cylindrique munie de deux disques radiaux séparés par une zone intermédiaire compressible, assurant une déformation longitudinale de la douille femelle lors du montage en force du boitier de verrouillage.
• la zone de déformation de la douille comporte deux replats parallèles et une ouverture latérale entre les deux replats, assurant une déformation radiale de la douille femelle lors du montage en force du boitier de verrouillage.
• le boitier de verrouillage comporte une couche isolante et une plaquette arrière formant un bloc alvéolé comprenant une pluralité d'alvéoles destinées à recevoir chacune une douille femelle, la plaquette arrière étant située autour de la zone de déformation des douilles femelles pour assurer la déformation de ladite zone de déformation de chaque douille femelle.
• chaque alvéole du bloc alvéolé est équipée d'un moyen de maintien apte à maintenir la douille femelle dans l'alvéole.

This connector can have one or more of the following characteristics:

• each socket comprises a front zone comprising a socket tube capable of providing an electrical connection with a complementary male connector and a rear zone adapted to be positioned around a male pin and comprising a deformation zone able to deform during assembly into lock box force to pressurize the rear area of the female socket around the male pin.
• the deformation zone of the female bushing comprises a cylindrical internal structure provided with two radial disks separated by a compressible intermediate zone, ensuring a longitudinal deformation of the female bushing during the force-fitting of the locking box.
• the zone of deformation of the sleeve comprises two parallel flats and a lateral opening between the two flats, ensuring a radial deformation of the female socket during the force mounting of the locking box.
• the locking box comprises an insulating layer and a rear plate forming a honeycomb block comprising a plurality of cells intended to each receive a female socket, the rear plate being located around the deformation zone of the female sockets to ensure the deformation of said deformation zone of each female socket.
• each cell of the honeycomb block is equipped with a holding means adapted to hold the female socket in the cell.

In one embodiment of the invention, the insert is a glass bead. In this case, the locking box comprises an intermediate mat positioned between the glass bead and the locking box to ensure sealing between the connector contacts.

Brief description of the drawings

• The figure 1 , already described, represents a conventional male connector.
• The figure 2 , already described, represents a female connector of the same range as the male connector of the figure 1 .
• The figure 3 represents a connector according to the invention in which are installed the sockets of the female adapter module.
• The figure 4 represents a connector according to the invention when the locking box is being installed.
• The figure 5 represents a partial view of the connector of the figure 4 when the female adapter module is mounted in the connector.
• The figure 6 is a perspective view of a socket of the female adapter module of the invention.
• The figure 7 is a side view and a sectional view of the socket of the female adapter module of the invention.

DETAILED DESCRIPTION OF EMBODIMENTS OF THE INVENTION

The invention relates to a method for transforming a conventional male connector, such as that described in connection with the figure 1 , in a female connector adapted to receive a male complementary connector. For that, the method of the invention proposes to insert, within a conventional male connector, a female adapter module. This female adapter module comprises a plurality of sockets each adapted to be mounted around a male pin. The female adapter module further comprises a lock housing adapted to be installed in the male connector around the bushings, so as to press the bushings around the male pins. The male connector thus transformed corresponds to a female connector having functions identical to those of the female connector of the figure 2 . This converted male connector can therefore receive a complementary connector of the male type.

The transformable male connector of the invention is shown in a sectional view on the Figures 3 and 4 . More specifically, the figure 3 shows the transformable male connector when the female sockets are installed on the male pins. The figure 4 shows the transformable male connector when the lock box is installed around the female sockets.

As shown on these Figures 3 and 4 , the transformable male connector comprises a male connector 1 identical to a conventional male connector such as that shown in FIG. figure 1 . This male connector 1 therefore comprises a base 11, male pins 10 and an insert 13.

The transformable connector of the invention further comprises a female adapter module 3. This female adapter module 3 comprises a plurality of female sockets 30. Each of these female sockets 30 is mounted around one of the male pins 10. The transformable connector therefore has as many female sockets as male pins. On the figure 3 only two female sockets 30 have been shown in section, the other sockets 30 being shown in a front view.

The female adaptation module 3 of the invention further comprises a locking housing 40 and adapted to be mounted inside the base 11 and fit around the female sockets 30. The installation of this locking box 40 around the female sockets 30 is shown on the figure 4 . On this figure 4 only two female sockets 30 and two male pins 10 are shown in section, the other male sockets 10 and female sockets 30 being shown in a front view.

As shown on Figures 3 and 4 , the installation of the female adapter module 3 is carried out as follows: a female socket 30 is installed around each male pin 10. The locking box 40 is then installed inside the base 11 so as to surround each of the sockets 30. A pressure on the locking box 40, represented by the arrow F, ensures the interlocking of said locking box in the base and that the fixing of the female sockets 30 around the male pins 10.

To ensure its interlocking in the base 11 and the fixing of the female sockets 30, the locking casing 40 comprises several elements forming a honeycomb block. This honeycomb block comprises a plurality of cells 45, each cell having a shape adapted to receive a female socket therein 30. Each female socket 30 therefore passes through the locking housing 40 from one side to the other.

More specifically, the lock housing 40 comprises a rear plate 42 which fits around the rear portion 32 of each female socket 30, that is to say the portion surrounding the male pin 10. The lock housing 40 further comprises an insulating layer 41, made of an insulating material, surmounting the rear plate 42 and surrounding the front portion 31 of the female sockets 30. This insulating layer 41 provides protection and maintenance of the front portion of the female sockets 30 to 30. inside the male connector 1.

The rear plate 42 is made of a substantially more elastic material than that of the insulating layer. In this way, the diameter of the cells is slightly lower in the rear plate 42 than in the insulating layer 41.

The insulating layer 41 closes the front portion of the transformable connector by providing said transformable connector an outer shape identical to the outer shape of a conventional female connector. In this way, a complementary male connector can be mounted in the transformable connector as if it were a female connector.

In one embodiment of the invention, the male connector 1 comprises a glass insert, called a glass bead. In this case, the locking box 40 may include an intermediate mat 44 placed after the rear plate 42 so that it is positioned on the glass insert of the male connector when the female adapter module 3 is installed. This intermediate belt 44 is thus able to protect the glass insert and seal between the contacts of the converted connector.

Inside each cell 45 of the lock housing 40, are fixed means for holding female sockets. These holding means 46 are intended to hold the female sockets 30 inside the cells 45 of the locking housing. These holding means 46 may be, for example, a clip mounted on the rear plate 42, in each cell, to clip each female socket in the insulating layer 41. In this case, the internal structure 35 of the female socket comprises a disk radial radial forming a stop 47. When the locking box is fitted around the female socket 30, the clip 46 abuts against the stop 47, ensuring the maintenance of the locking box around the female sockets 30.

Thus, in the invention, the retention of the female adapter module 3 in the male connector 1 is obtained simply by fitting through the clips 46 and then by clamping; no gluing operation is necessary.

On the figure 5 , there is shown a sectional view of a female socket 30 mounted inside the locking housing 40, about a male pin 10, all the sockets of the transformable connector being identical. This bushing 30 has a front portion 31 (or front area) and a rear portion 32 (or rear area). The front portion 31 is identical to the front portion of a conventional female connector socket: it comprises a socket tube 33 clipped inside a socket body 34 and intended to receive and provide an electrical connection with a pin male of a complementary connector 4.

The rear portion 32 of the female socket 30 is adapted to the invention and is able to deform. For this, the rear portion 32 of the sleeve has an inner structure 35 partially deformable. The deformable part of the internal structure 35 is called the deformation zone Z. This internal structure 35, shown in detail on the Figures 6 and 7 extends from the rear end A of the bushing to the bushing tube 33 of the front part 31. In the front part 31 of the bushing, the internal structure 35 is identical to the internal structure of a female bushing conventional with a substantially cylindrical shape adapted to fit into the sleeve tube 33.

In the deformation zone Z, the internal structure 35 has a substantially cylindrical and recessed shape, with a recess 36 of dimensions adapted to the dimensions of the male pins. The rear portion 32 of the female socket is thus adapted to receive a male pin. The inner wall of the recess 36 is covered, at least at its closed end B, with a layer of electrically conductive material providing electrical continuity with the male pin. The rear portion 32 of the sleeve can thus be slid around the male pin 10 until said pin is in contact with the closed end B of the recess 36.

The internal structure 35, in the rear portion 32 of the sleeve 30, is deformable. For this, it comprises two radial discs 37a, 37b parallel to one another and separated by a compressible intermediate zone 38. In this intermediate zone 38, the internal structure 35 is only semicircular so as to constitute a weakness of the structure, which can cause longitudinal deformation of the female sleeve 30 under the effect of pressure. The internal structure 35 further comprises, at its end A, two parallel plates 39a and 39b facing one another and a lateral opening 39c between these plates. This lateral opening 39c can continue to the radial discs 37a, 37b. This lateral opening 39c and these flats 39a and 39b constitute a zone of radial deformation of the internal structure 35.

• une compression de la zone intermédiaire 38 entre les disques radiaux 37a et 37b, ce qui permet d'assurer le contact électrique entre la broche mâle et l'extrémité fermée B de l'évidement 36, et
• une compression radiale de la structure interne dans sa partie arrière entourant la broche mâle, ce qui permet d'assurer le scellement de la douille femelle autour de ladite broche mâle.

Thus, when the locking box 40 is inserted around the female sockets 30, a mounting force of said locking box inside the base 11 allows to deform the internal structure 35 to grip the male pin. Indeed, during the mounting in force of the locking housing, the passage of the radial discs 37a, 37b of the insulating layer 41 into the rear plate 42 has the effect of deforming the deformation zone of the internal structure 35. This deformation of the internal structure 35 comprises:

• a compression of the intermediate zone 38 between the radial discs 37a and 37b, which makes it possible to ensure electrical contact between the male pin and the closed end B of the recess 36, and
• a radial compression of the internal structure in its rear part surrounding the male pin, which ensures the sealing of the female socket around said male pin.

This longitudinal and radial deformation of the internal structure 35 keeps intact the protective layer covering the male pins and thus ensures good electrical continuity and good corrosion resistance between the male connector and the female adapter module.

Claims (8)

- A method of transforming a male connector (1) into a female connector, the male connector comprising a base (11) provided with a plurality of male pins (10) and an insert (13) ensuring a hermetic male pins in the base, characterized in that it comprises the following operations: installing a plurality of female contact sockets (30) around the male pins (10) of the male connector, a female socket being mounted around each male pin (10) of said male connector, installing a locking box (40) in a base (11) of the male connector, around the plurality of sockets, and - Force mounting of the locking box (40) in the base (11) in order to grip each female socket around the associated male pin (10) by deformation of an internal structure (35) of a rear part ( 32) of each socket. - Method according to claim 1, characterized in that it consists in installing an intermediate belt (44) between an insert (13) and the locking housing (40) to protect said insert and provide a seal of the connector. - Connector comprising a base (11) provided with a plurality of pins (10) forming male contacts and an insert (13) ensuring a hermeticity of said male pins in the base,
characterized in that it comprises a female adaptation module (3) adapted to be mounted in the base (11) to form a female connector, said female adaptation module (3) comprising: a plurality of sockets (30) forming female contacts, each female socket being adapted to be mounted around a male pin (10), and a locking box (40) capable of being fitted around the plurality of bushes (30) for gripping each female bushing around the associated male pin (10), each sleeve (30) comprising: A front zone (31) comprising a socket tube (33) able to provide an electrical connection with a complementary male connector (4), and A rear zone (32) adapted to be positioned around a male pin (10) and comprising a deformation zone (Z) able to deform during the force mounting of the locking box (40) in order to pressurize the rear zone (32) of the female socket around the associated male pin (10). - Connector according to claim 3, characterized in that the deformation zone (Z) of the female socket comprises a cylindrical internal structure (35) provided with two radial discs (37a, 37b) separated by a compressible intermediate zone (38), ensuring a longitudinal deformation of the female socket (30) during the force mounting of the locking box (40). - Connector according to any one of claims 3 to 4, characterized in that the deformation zone (Z) of the sleeve comprises two parallel flats (39a, 39b) and a lateral opening (39c) between the two flats, providing a radial deformation of the female socket (30) during the mounting of the locking box (40) in force. - Connector according to any one of claims 3 to 5, characterized in that the locking housing (40) comprises an insulating layer (41) and a rear plate (42) forming a honeycomb block comprising a plurality of cells (45 ) for each receiving a female socket (30), the rear plate (42) being located around the deformation zone (Z) of the female sockets to ensure the deformation of said deformation zone of each female socket. - Connector according to claim 6, characterized in that each cell (45) of the honeycomb block is equipped with a holding means (46) adapted to maintain the female socket in the cell. - Connector according to any one of claims 3 to 7, wherein the insert (13) is a glass bead, characterized in that the locking housing (40) comprises an intermediate mat (44) positioned between the bead of glass and lock box to seal the connector.

Images