FR2798003A1 - PLUG FOR AN ELECTRICAL DISCHARGE OF A CONNECTOR THROUGH A RESISTANT ELEMENT - Google Patents

Abstract

Plug (10) including a housing (11) with an interior chamber (13) receiving a connector (16). A plurality of plug contacts are located in the inner chamber (13) for making contact with corresponding contacts in the connector (16) and a plurality of grounding contacts, the number of which corresponds to the number of each plug contact. (12), are located in the chamber (13) of the housing (11) in a conductive support, so that the connector contacts successively engage with and disengage from the respective grounding contacts, before making contact with card contacts. The conductive carrier (21) allows the contacts to be grounded to electrically discharge each of the connector contacts through a resistive element, before the connector contacts come into contact with the plug contacts.

Description

PLUG FOR ELECTRICAL DISCHARGE OF A CONNECTOR

THROUGH A RESISTANT ELEMENT

  The present invention relates to a connector and plug system used for the interconnection of computer equipment or other sensitive static electronic devices via multiconductor cables. The invention relates more particularly to a plug ensuring an electrical discharge from a connector, in particular through

resistive elements.

  The cable and contacts of a connector are often subjected to an electrostatic charge and, before its connection to a computer socket, the connector is first inserted in and then removed from an electrical discharge socket which short-circuit the contacts

  from the connector and unloads the contacts and the cable.

  Even after this, an additional electrical charge may appear when the connector is inserted into the computer outlet. Therefore, other electrical discharge elements, such as diodes, are generally placed in the circuit to

  provide additional contact discharge.

  The invention provides a discharge arrangement

  integrated into the plug serves as a socket for the equipment.

  This avoids the need for a separate discharge step, ensures a minimum period of time between discharge and initial contact with the plug, and protects against the possibility of accidental forgetting of the discharge step during connection . It also significantly reduces the need for an additional set of protective circuits inside the equipment itself. It also ensures a discharge through resistive elements thus avoiding any damage resulting from a return of the discharge currents

  to other elements by cable.

  Other features and benefits of

  the present invention emerges from the description

  following of the invention which refers to the accompanying drawings. Figure 1 is a sectional view of a first embodiment of the invention; Figure 2 is a sectional view of an insert forming part of the first embodiment of the invention; Figure 3 is a sectional view of a second embodiment of the invention; Figure 4 is a perspective view of a conductive tubular base forming part of the second embodiment of the invention; and Figure 5 is a perspective view of a third

  embodiment of the invention.

  A first embodiment referring to FIG. 1 shows a plug 10 with a housing 11 in which a plurality of plug contacts 12 are arranged in a chamber 13 of the housing 11. The plug contacts 12 are designed to receive the contacts 14 (of which only one is shown) of a connector 16 which can be introduced into the chamber 13 through a socket 17. As is conventionally done, the socket 17 is surrounded by a

shield grounded 18.

  Just inside the socket 17, behind the shield 18, there is an insert 19. With reference to FIG. 2, the insert 19 comprises a molded block 20 made of conductive plastic, the resistivity of which is known, and which is crossed by flat wires 21 serving as grounding contacts (a single wire is shown in Figures 1 and 2). The insert 19 can advantageously be manufactured by molding it in a strip then by separating the strip and forming at the same time

  time the end tabs 22 on the wires 21.

  The number of wires is equal to the number of contacts 14 of connector 16 which corresponds to the number of plug contacts 12. If for example connector 16 has eight (8) contacts 14, there will be eight (8) flat wires 21. When the plug 10 is assembled, the tabs 22 of the insert 19 are hung in slots 23 of a crest 33 of the plug 10 and the insert 19 is turned 180 in its position. This forms arcs 24 in the wires 21 and ensures pressure between the face

  interior of shield 18 and block 19.

  When the connector 16 is inserted or removed, the tabs 22 of the wires 21 move up and down in their respective slots 23 to allow

  the vertical movement required for the wires 21.

  The thickness of the flat wires 21 is dimensioned

  so as to allow adequate flexible movement.

  When the connector 16 is inserted into the socket 17 and just before the connector contacts 14 come into contact with the plug contacts 12 inside the chamber 13, an electrical contact is established between the connector contacts 14 and the wires 21, which is due to the fact that the arcs 24 of the wires 21 are positioned so as to interfere with the movement of the connector contacts 14 and the connector contacts 14 push the wires 21 down by pushing the wires 21 into the slots 23, thus removing them from the path. Since the wires 21 are grounded to the shield 18 via the block 19, this results in momentary grounding and simultaneous discharge of any static charge in the connector contacts 14 to grounding through a resistor in series, that is to say the resistor of the block 19. The positions and movements of the wires 21 are such that their action of connection to the ground of the connector contacts is interrupted before the connector contacts 14 do not make contact with the plug contacts 12, thus avoiding any damage due to improper grounding of the internal circuits, which are connected internally to the

plug contacts 12.

  Figures 3 and 4 show another embodiment. This embodiment uses a segmented tubular base 25, which is conductive, which comprises carbon and which has a known resistance. The segmented portions 26 of the conductive tubular base comprising carbon 25 are flexible and respectively come into contact with the connector contacts 14. The tubular base 25 is inserted between the shield 18 and a wall of the crest 33 and is

  held in position by a locking pin 27.

  The conductive tubular base 25 makes electrical contact with the shield 18 via

  a grounding surface 28.

  In use, when a connector 16 is inserted into the socket 17, and just before the connector contacts 14 come into contact with the plug contacts 12, the connector contacts 14 engage with the segmented portions 26. Due to the flexibility of the segmented parts 26, the segmented parts 26 are out of the way, which causes a temporary grounding (that is to say to the shield 18) of the connector contacts 14 through resistors in respective series, that is to say the resistance of the tubular base 25. As in the case of the first embodiment, the positions and the movements of the segmented parts 26 are such that their action of contact with the ground is interrupted before the connector contacts make contact with the

plug contacts 12.

  Figure 5 shows another embodiment. This embodiment uses individually molded conductive O-rings 29, which are positioned in slots 31 of a conductive support member 32 having known resistance and a function similar to that of the segmented portions 26 of the

  embodiment of Figures 3 and 4.

  Although the present invention has been described in connection with particular embodiments thereof, many other variations and modifications as well as other uses will be apparent to those skilled in the art. For this reason, it is preferable that the

  present invention be limited, not by description

  specific presented here, but only by

attached claims.

Claims (10)

  1. A plug (10) comprising a housing (11) with an interior chamber (13) for receiving a connector (16), at least one plug contact (12) in said interior chamber (13) for making contact with at least one connector contact (14) and at least one grounding contact disposed in said housing (11) of the interior chamber (13) in a conductive support having a known resistivity and which is positioned in the path of said at least one connector contact for making electrical contact with said connector contact (14) when said connector (16) is inserted into said plug (10), but before said connector (16) is sufficiently inserted for said connector contact ( 14) makes contact with said plug contact (12), said at least one grounding contact having such a shape and thus being spaced from said at least one plug contact (12) that said connector contact (14) cuts contact with said putting contact to ground before said connector contact (14) makes contact with said at least one plug contact (12) upon further insertion of said connector (16). 2. Plug (10) according to claim 1, characterized in that it further comprises a shield (18) which can be connected to ground and in which said at least one grounding contact is the subject of '' an electrical connection to said shield   (18) via said conductive support.   3. Plug (10) comprising a housing (11) with an interior chamber (13) for receiving a connector (16), a plurality of plug contacts (12) in said interior chamber (13) for making contact with contacts mates in the connector (16) when the connector (16) is received in said interior chamber (13), said connector (16) being received in said interior chamber (13) along a defined path; and a plurality of ground contacts disposed in said interior chamber (13) in a conductive support having known resistivity and positioned in the path of the connector contacts (14) for making electrical contact of said connector contacts (14) when said connector (16) is inserted into said plug (10), but before said connector (16) is inserted enough for said connector contacts (14) to make contact with said plug contacts (12), said reset contacts the mass having such a shape and being thus spaced from said plug contacts (12) that said connector contacts (14) cut contact with said ground contacts before said connector contacts (14) make electrical contact with said plug contacts (12) during   additional insertion of said connector (16).   4. Plug (10) according to claim 3, characterized in that said conductive support (20) of each grounding contact is located at an inlet of said interior chamber (13), each grounding contact comprising a conductive wire (21), one end of which is embedded in said conductive support (20) of said conductive wire (21), and a free end, which extends upwards then downwards to engage in a wire guide, each conductive wire (21) having the shape of an arc the free end of which is movably received in a slot made in the wire guide, in order to allow this conductive wire (21) to be move down from an initial position, in which part of this lead wire (21) is located in a path of a corresponding connector contact (14), to make electrical contact with this connector contact (14 ) when moved into the inner chamber (13) and being moved down through this electrical contact and then return to the initial position once the connector contact (14) is out of electrical contact with this conductive wire (21). 5. Plug (10) according to claim 4, characterized in that it further comprises a shield (18) which can be connected to ground and in that each of said plurality of plug contacts is connected to said shield (18) through a support respective conductor (20).   6. Plug (10) comprising a housing (11) with an interior chamber (13) for receiving a connector (16); a plurality of plug contacts (12) in the interior chamber (13) for contacting corresponding contacts in the connector (16), when the connector (16) is received in the chamber (13), the connector being received in the chamber (13) along a defined path; and a plurality of grounding contacts formed by a segmented conductive tube having known resistivity and placed transversely under the path of movement of the connector contacts (14) in the inner chamber (13), each of the segments having an initial position in the path of the connector contacts (14) and being flexible so that upon contact with a corresponding connector contact (14) it moves towards the down to allow this connector contact (14) to pass beyond the segment and come into contact with the corresponding plug contact (12), the segment returning to its position after being released from this connector contact (14).   7. Plug (10) according to claim 6, further comprising a grounding shield (18) which can be connected to ground and in which each of said segments comes into electrical contact with said shield (18) via of said conductive tube. 8. Sheet (10) according to claim 3, characterized in that each of the contacts for setting   mass includes a conductive O-ring (29).   9. Sheet (10) according to claim 6, wherein the support comprises a conductive element (32) having a known resistivity and having a plurality of slots (31), each of the plurality of O-rings (29) being received in one of respective slots (31).   10. Plug (10) according to claim 9, further comprising a shield (18) which can be connected to ground and in which each O-ring (29) comes into electrical contact with the shield (18) via said element conductor (32).