EP1673838A2

EP1673838A2 - Electrical connector which is equipped with a rapid disconnection system

Info

Publication number: EP1673838A2
Application number: EP04805739A
Authority: EP
Inventors: Jean Razafiarivelo; Laurent Morin
Original assignee: FCI SA; Framatome Connectors International SAS
Current assignee: FCI SA
Priority date: 2003-10-07
Filing date: 2004-10-07
Publication date: 2006-06-28
Also published as: US7335037B2; US20070066108A1; WO2005034298A2; JP2007507842A; CN1883082A; WO2005034298A3; FR2860650A1

Abstract

The invention relates to an electrical connector which is equipped with a rapid disconnection system. In order to reduce damage caused to the electrical connector by electric arcs, the inventive connector comprises a release (15) and a spring (16). According to the invention, the release is intended to co-operate with a case (3) in order to authorise the movement of the disconnection device (4), while the spring, which is solidly connected to the case and the disconnection device, enables the rapid disconnection of the case and cover parts (2) forming the connector, thereby producing the rapid disconnection of the contacts (5, 7) which are attached to each of the two parts respectively.

Description

Electrical connector with quick disconnect system

The invention relates to an electrical connector provided with a quick disconnection system. The invention aims to reduce damage to an electrical connector. In one example, damage can be early wear of at least one electrical contact contained in this same electrical connector. Damage can mainly be linked to phenomena associated with electric arcs. An electric arc is the result of an electric discharge between a first electrical contact and a second electrical contact when they are progressively separated from each other, the first contact and the second contact being subjected to a potential difference. The invention generally applies to the field of automotive connectors but could be applied in other fields. An electrical connector comprises a first part provided with at least a first electrical contact and a second portion provided with at least a second electrical contact. The first part cooperates with the second part so as to make a physical connection of the first contact with the second contact and thus allow an electric current to pass through the first contact and the second contact. The appearance of electric arcs between the first contact and the second contact poses a problem. It is responsible for early wear or damage to the first contact and the second contact. This appearance of electric arcs can lead to an impairment of the connector's power or data transmission function. In addition to the problem of arc damage, there is the problem of the partial connection or disconnection between the first and second parts of a connector. This problem results in a partial connection or disconnection of at least one contact of the first part of the connector with a contact of the second part of the connector. In the state of the art, specific connection and disconnection devices are known which are used to prevent this type of connection or partial disconnection. Among these devices are the TPA (Terminal positioning assurance), CPA (Connector positioning assurance) or Go-noGo devices. These disconnection devices cooperate with the first part and with the second part and have mainly two states: a connected state and a disconnected state. The connected state corresponds to a state in which the device cooperates with the first part and with the second part in such a way that it causes a physical connection between the first contact and the second contact. The connected state of the device prevents the absence of an electrical connection between one or more contacts. The disconnected state corresponds to a state in which the device cooperates with the first part and with the second part in such a way that it causes physical separation of the first contact from the second contact. The disconnected state of the device prevents the maintenance of an electrical connection between one or more contacts. The transition from a connected state to a disconnected state of the device is achieved by manual action on the disconnection device which tends to separate the first part of the connector from the second. The invention described here uses such a device. In the device used, the passage from the connected state to the disconnected state is effected by a movement of separation of the device, along an axis perpendicular to a connection axis, the connection axis being an axis along which binds the first contact to the second contact. This spacing movement causes the first part to be separated from the second part so that the first contacts move away from the corresponding second contacts. However, the spacing of the first part relative to the second part made manually may not be fast enough and electric arcs may persist over time between the first contact and the second contact. Damage to the first contact and the second contact may therefore occur. To solve this problem, the invention provides for producing an electrical connector in which the first part of the connector is quickly separated from the second, which also causes rapid separation of the contacts integral with each corresponding part of the connector. For this, the invention provides for associating with the connection device, a first locking means, at least one trigger and a guide member or elastic member. Specifically, in the connected state, the guide member forms a spring. This spring is compressed between the second part of the connector and the connection device. When the trigger is actuated, it releases the connection device from the connected state by acting on the first locking means. The spring can then relax and move aside the disconnection device, passing it from the connected state to the disconnected state. The addition of a trigger and a spring cooperating together thus ensures rapid disconnection and a predetermined distance of the first contact from the second contact. Such a quick-disconnect connector can present a significant risk of inadvertent disconnection, for example due to vibration or shock as is frequent when the device is mounted in a vehicle, or by inadvertent action on the shutter as may occur when the device is located in a complex environment or difficult to access. It is therefore useful to provide a device preventing such disconnection, among other things a device such that the operator must chain several actions to trigger the disconnection. Therefore, the invention also provides a secondary locking means of the first locking means. This secondary locking means is able, according to its positioning relative to the first locking means, to block the movement of the first locking means controlled by the trigger. The invention therefore relates to an electrical connector comprising - a cover provided with at least a first electrical contact, - a housing provided with at least a second electrical contact, and - a disconnection device cooperating with the cover and with the housing for establishing an electrical connection between the first contact and the second contact defining a connected state and for establishing an electrical disconnection between the first and the second contact defining a disconnected state, characterized in that the electrical connector also comprises - a first means of locking allowing the disconnection device to be kept in the connected state, a trigger acting on the first locking means to authorize the movement of the disconnection device from a connected state to a state disconnected from the first and second contact, and - an elastic member placed between the housing and the cover, the member being able to be moved between a first deformed position in the connected state and a second relaxed position in the disconnected state, the elastic member causing the housing to separate from cover screw while electrically disconnecting the first contacts of the second contacts when changing the position of the elastic member from the deformed position to the released position when the movement of the disconnection device is caused by the trigger. The invention also relates to a method of electrical connection of an electrical connector comprising - a cover provided with at least a first electrical contact, - a housing provided with at least a second electrical contact, and - a disconnection device cooperating with the cover and with the housing to establish an electrical connection between the first contact and the second contact defining a connected state and to establish an electrical disconnection between the first and the second contact defining a disconnected state, characterized in that it comprises the next step - the disconnection device is inserted into the housing from a front face in the direction of a rear face of the housing until the device slides along a first locking means from a first groove into a second groove, the first groove and the second groove being hollowed out in the disconnection device. The invention finally relates to a method of electrical disconnection of an electrical connector comprising - a cover provided with at least a first electrical contact, - a housing provided with at least a second electrical contact, and - a disconnection device cooperating with the cover and with the housing to establish an electrical connection between the first contact and the second contact defining a connected state and to establish an electrical disconnection between the first and the second contact defining a disconnected state, characterized in that it comprises the next step - a trigger is moved to dislodge from a groove dug in the disconnection device a first locking means of at least a height corresponding to a depth of said groove. The invention will be better understood on reading the description which follows and the examination of the accompanying figures. These are presented for information only and in no way limit the invention. The figures show: - Figures 1a to 1c: Schematic representations of an electrical connector, according to the invention; - Figures 2a and 2b: Schematic representations of a cover, according to the invention, - Figures 3a and 3b: Schematic representations of a housing, according to the invention, and - Figure 4: A schematic representation of a device disconnection according to the invention; - Figures 5a to 5c: Schematic representations of an electrical connector, according to a variant of the invention, and - Figures 6a and 6b: Schematic representations of a latching means of the electrical connector, according to a variant of the invention. Figures 1 a to 1 c illustrate an electrical connector 1 comprising a cover 2, a housing 3 and a disconnection device 4, according to the invention. The assembly formed by the cover 2, the housing 3 and the device 4 can be of generally parallelepiped shape. Associated with the description of connector 1, denote by 22 a connection axis which defines the axis along which electrical contacts are inserted between them. Similarly, 40 denotes a disconnection axis, perpendicular to the connection axis 22, along which the displacement of the disconnection device 4 takes place, FIG. 3a. The cover 2 comprises at least one first electrical contact 5. In one example, the cover 2 can comprise at least six first electrical contacts such as 5, FIG. 1a. These first electrical contacts can also be arranged in parallel in a first row and in a second row and orthogonally with respect to the connection axis 22. These first contacts thus arranged define first first contacts such as 5 and second first contacts such as 6, Figure 2a. The cover 2 can form a first external rim 37 and a second external rim 38 connected to each other perpendicularly by a central plate 60, FIG. 2b. The cover 2 has on the first flange 37 and on the second flange 38 at least one lug 36 extending laterally with respect to a plane formed by the first external rim 37 and by the second external rim 38, FIGS. 2a, 2b. In one example, the cover 2 has four lugs such as 36. More specifically, the first flange 37 and the second flange 38 may each have two lugs such as 36. The housing 3 cooperates with the cover 2 longitudinally relative to the axis connection 22 so that an electrical contact can be established between each of the first contacts 5 and each of the corresponding second contacts 7. FIG. 3a illustrates a partial three-dimensional representation of a housing 3 and FIG. 3b illustrates a top view of the housing 3. In one example, the housing 3 has as many second contacts 7 as there are first contacts 5 associated with the cover 2. The housing 3 comprises a front face 11 and a rear face 12, the front face 11 being opposite to the rear face 12. The housing 3 also comprises an upper face 13 and a lower face 14, the upper face 13 being a face by the intermediate of which the cover 2 is inserted. Front and rear faces are placed in planes perpendicular to the upper and lower faces, FIG. 3a. The faces 11, 12, 13 and the internal and external bottoms 25 and 14 of the housing

3 describe a peripheral wall 17 which delimits with a central block 20, a peripheral bowl 21. This peripheral bowl 21 opens at a first location and at a second location on the front face 11 of the housing 3 by a first slot 41 and by a second slot 42 respectively, Figures 3a and 3b. The connector comprises a first locking means 19 which makes it possible to maintain the disconnection device 4 in a connected state. In fact, the first locking means can be formed by a flexible tongue 19. More precisely, this tongue 19 is formed from the bottom 14 of the housing 3 in the peripheral wall 17. It is cut from a thickness of the housing at a location at from the lower face 14. The tongue 19 is elastic and can extend over a width 48 measured along an axis orthogonal to the axis of disconnection 40 from the peripheral wall 17 to the peripheral cup 21 of the housing 3 at a location on the lower face 14 of the housing 3. This tongue 19 can also extend over a length 49 measured along an axis parallel to the disconnection axis 40 from the front face 11 in the direction of the rear face 12 of the housing 3. The tongue 19 has one end 18, FIG. 3a. This end 18 follows a shape of at least one groove 24 cut out in the device 4 and which will be described below, FIG. 4. The peripheral cup 21 is the place of insertion of the cover 2 in the housing 3, which cover 2 s 'inserting by its outer edges 37 and 38. The disconnection device 4 cooperates with the cover 2 and the housing 3 so that an electrical connection is established between the first contacts 5 and the second contacts 7 corresponding. The disconnection device 4 may have a rectangular U-shape, FIG. 4. This disconnection device 4 comprises a first arm 8 and a second arm 9, the first arm 8 being connected to the second arm 9 via a portion intermediate 10. The first arm 8 and the second arm 9 are inserted through the front face 11 of the housing 3. The disconnection device 4 is inserted into the housing 3 by the first slot 41 and by the second slot 42. The device disconnection 4 is inserted into the housing 3 by sliding in the bowl 21 longitudinally relative to the disconnection axis 40. The device is interposed between the outer flanges 37 and 38 of the cover 2 and the peripheral wall 17 of the housing 3 through the first arm and the second arm. The disconnection device 4 also comprises at least one groove 32 hollowed out on the two arms 8 and 9 by a location on the device 4 corresponding to the upper face 13 of the housing 3, near the upper face 13 of the housing 3. This groove 32 forms a first section 33 and a second section 34 connected to each other transversely by a transverse section 35, FIG. 4. The first section 33 and the second section 34 are arranged in planes parallel to each other. In the example in FIG. 4, the disconnection device 4 has four grooves such as 32. The groove 32 is intended to receive the lug 36 formed by the cover 2. The disconnection device 4 is also hollowed out on at least one of the two arms 8 or 9 of at least a first groove 23 and at least a second groove 24, at a place intended to be facing a bottom 25 of the housing 3 from the rear face 12 in the direction of the front face 11 of the housing 3. The first groove 23 is hollowed out longitudinally with respect to the axis of disconnection 40 over a greater distance than the second groove 24, FIG. 4. The first groove 23, comprises from the rear face 12 in the direction of the front face 11 a first rim at right angles 26 and a first chamfered rim 27, the first rim at right angles 26 and the first chamfered rim 27 being connected by a first bottom 28 of the first groove 23, FIG. 4. The first bottom 28 delimits a first depth 50 measured along an axis parallel to the connection axis 22. Similarly, from the rear face 12 in the direction of the front face 11, the second groove 24 has a second rim at a right angle 30 and a second chamfered rim 29 connected together by a second bottom 31 of the second groove 24. The second bottom 31 defines a second depth 51 measured along an axis parallel to the connection axis 22. The first depth 50 and the second depth 51 are identical but could be different Figure 4. The disconnection device 4 slides in the housing 3 so that the flexible tongue 19 is housed in the first groove 23 or in the second groove 24 of the same disconnection device 4. According to the invention, the electrical connector 1 comprises a trigger 15 and a guide member 16 or elastic member 16, FIGS. 1a to 1c and 3a. In a preferred example, the guide member can be an elastic guide member and form a spring 16. This spring can be a compression spring as shown in FIGS. 1a to 1c. Or this spring can be an extension spring (not shown). The trigger 15 cooperates with the housing 3 to allow the movement of the disconnection device 4. The trigger 15 is placed on the peripheral wall 17 delimited by the housing 3, Figures 3a and 3b. The trigger 15 is supported on the end 18 of the tongue 19 of the housing 3 along the disconnection axis 40. The trigger 15 is pressed against the end 18 of the flexible tongue 19 to cause a displacement of the flexible tongue 19 of the housing 3, longitudinally with respect to the connection axis 22 from the upper face 13 in the direction of the lower face 14 of the housing 3, FIG. 3a. The trigger slides along an axis parallel to the connection axis 22 by means of a stud 44 formed from the peripheral wall 17 inserted into a longitudinal notch 54 hollowed out in the trigger 15 opposite the peripheral wall 17. The trigger 15 bears against the tongue 19 to cause the displacement of the tongue by a height measured along an axis parallel to the connection axis 22 sufficient to dislodge the end 18 of the second groove 24, FIG. 1a. This height corresponds to at least the second depth 51. The elastic member is able to adopt a first deformed position and a second relaxed position, of rest or balance. In the case where the elastic member forms a compression spring, the first deformed position corresponds to a state where the spring is compressed with respect to an equilibrium rest position. In the case where the elastic member is an extension spring, the first deformed position corresponds to a state where the spring is stretched relative to its equilibrium position. The spring 16 as shown in Figures 1a to 1c is placed between the housing and the cover. The spring can be placed directly against the housing and against the cover. In a preferred example, the spring is indirectly disposed between the housing 3 and the cover by placing each of the ends of the spring in abutment against the housing on the one hand and against the device on the other hand. However, the spring could be placed indirectly between the housing and the cover by placing each of the ends of the spring in abutment against the cover 2 on the one hand and against the device on the other hand. More specifically, the spring 16 is placed longitudinally along the disconnection axis 40 between the front face 11 of the housing 3 and the intermediate portion 10 of the disconnection device 4. The spring 16 is connected longitudinally along the disconnection axis 40 to the front face 11 of the housing 3 and to the intermediate portion 10 of the disconnection device 4. The spring 16 is compressed between the housing 3 and the disconnection device 4 in a connected state and relaxed or released in a disconnected state. The spring 16 is in the relaxed, at rest, or extended or relaxed position between the front face 11 of the housing 3 and the intermediate portion 10 of the disconnection device 4 in FIG. 1a, along a length 45 corresponding to at least a length 52 of the first contact 5 or to a length necessary to separate the first contact from the second contact, Figure 1 b. In the case of the extension spring, the spring can be connected to the housing 3 and to the device 4 while being tensioned between the housing 3 and the disconnection 4 in the connected state and released in the disconnected state. It is then necessary to provide for inclining the transverse section 35 from the upper face of the housing in the direction of the lower face of the housing with the first section and the second section located from the right to the left of the drawing in FIG. 1 a, unlike that which is shown in the embodiment of the invention with the compression spring. The intermediate part of the device would also be elongated along the axis of insertion of the device to increase a space between the intermediate part of the device and the housing and freely accommodate the spring of the extension type in the equilibrium position. The method of electrical connection of the electrical connector is carried out as follows, FIG. 3a. The disconnection device 4 is pressed along the disconnection axis 40 by longitudinal sliding of the first arm 8 and the second arm 9 inside the peripheral bowl 21, from the front face 11 in the direction of the rear face 12. The spring 16 is compressed between the device 4 and the housing 3 along a length 53. The disconnection device 4 slides from the front face 11 in the direction of the rear face 12 along the axis 40 on the end 18 of the tongue 19 the along the first bottom 28 of the first groove 23, then along the first chamfer 27 so that the tongue 19 is wedged in the second groove 24. The disconnection device is then held stationary in the second groove 24 by the complementarity of the shape of the end 18 of the tongue and that of the second groove 24. The disconnection device 4 is wedged in the housing so that the end 18 of the tongue 19 is in abutment against the e second rim at right angles 30 along an axis parallel to the disconnection axis 40. When the device 4 is thus blocked by insertion of the tongue in the second groove 24, the disconnection device 4 is blocked in a state of connection or connected state as previously mentioned. During the longitudinal movement of the device 4 along the axis 40, FIG. 3a, the cover 2 is inserted into the peripheral cup 21 according to a movement parallel to the connection axis 22 of this same cover 2, from the upper face 13 in direction of the lower face 14 of the housing 3. The displacement of the cover 2 is due to the sliding of the pins 36 present on the edges 37 and 38 of the cover 2, along the grooves 32, FIG. 4. An inclination of the transverse section 35, relative to the plane formed by the underside of the housing, makes it possible to transform a horizontal movement of the device 4 into a movement vertical of the cover 2. Each of the lugs 36 slides along the grooves 32 from the first section to the second section in such a way that the length of the spring during this sliding is progressively reduced linearly. There is no part of the groove which would correspond to a state of the spring whose length would be smaller than the length of the spring in the connected state. The cover 2 is then inserted into the peripheral bowl 21 in such a way that the first contact 5 binds to the second contact by inserting into a cavity 47 formed by the housing and comprising the second contact 7. The cover 2 is inserted into the bowl 21 so that each of the pins such as 36 present on the flanges 37 and 38 slides in the corresponding groove 32 from the first section 33 to the second section 34 passing through the transverse section 35. The sliding of the pins in the corresponding grooves allows to move the cover inside the case, to reach the connected state defined above. In Figure 1a, the cover 2 has sunk in such a way that the first electrical contact 5 is inserted into the cavity 47 provided for this purpose. The first contact is inserted into the cavity 47 with a height 39 corresponding to a length 52 of the first electrical contact 5 measured longitudinally relative to the connection axis 22. The height 39 also corresponds to a distance 55 separating the plane containing the first section 33 from the plane containing the second section 34, FIG. 1a. This height 39 also corresponds to a distance 46 separating a place where the tongue 19 is placed in a position of electrical disconnection in the first groove 23 from another place where the tongue 19 is placed in a position of electrical connection in the second groove 24. In the end, the height 39 corresponds at least to a distance allowing electrical contact between the first contact and the second contact. The electrical disconnection process of the electrical connector is carried out as follows, FIGS. 1a to 1c. The trigger 15 is made to slide in a longitudinal direction to the connection axis 22 from the upper face 13 in the direction of the lower face 14. This trigger 15 is made to slide so that one end 43 of this same trigger 15 bears against the end 18 of the tongue 19 and causes a displacement of the tongue 19, made possible by the flexible nature of the tongue. The tongue is moved from the upper face 13 towards the lower face 14. The trigger 15 causes the tongue 19 to move by a height necessary to dislodge the end 18 of the tongue 19 from the second groove 24. For example, in FIG. 4, if the tongue 19 is placed with its end 18 in abutment against the second bottom 31, the trigger must then move by a height corresponding at least to the second depth 51 of the second groove 24. The trigger 15 then authorizes the movement of the disconnection device 4 when the tongue 19 has dislodged from the second groove 24, FIG. 1 b. The spring 15 compressed between the housing 3 and the device 4 can then be extended by a length 45. The spring 16 causes at least one ejection of the device 4 longitudinally relative to the disconnection axis 40 of a corresponding length 45 at least the length 52 of the first contact 5. This ejection of the disconnection device allows ejection of the housing cover. The ejection of the device 4 is represented by an arrow F1 in FIGS. 1 b, 3a and 4. The ejection of the cover 2 is represented by an arrow F2 in FIG. 1 b. The choice of a spring stiffness constant makes it possible to control the speed of movement of the spring and subsequently to give the disconnection system a high speed of movement. It follows a rapid disinsertion of the cover 2, of the housing 3, resulting in the rapid disinsertion of the first contacts secured to the cover 2 of the second contacts secured to the housing 3. The electrical connector according to the invention can be provided with TPA, CPA or Go-Nogo. The cover 2 can be replaced by the housing 3 and vice versa. In another exemplary embodiment, the invention could also function for connectors as described in documents EP-A2-1,077,512, EP-A2-1,005,112 and EP-A1-1,296,416. Indeed, in these documents describe that the electrical connection is made respectively by a lever and a pinion, by a lever and a cam or by combination a lever and a stirrup. In these cases, the lever plays the role of the disconnection device as described in the invention, to which the elastic element and the trigger should be added. In another exemplary embodiment of the invention in FIGS. 5a to 5c, provision may be made for the connector to include a second locking means 100 or secondary lock 100. This lock 100 is capable of being moved between a first so-called open position and a second so-called closed position. This lock is able to be moved between a locking position of the tongue 19 and a release position of the tongue, this lock having to be operated from the locking position to the release position so that the tongue can be actuated by the trigger. . In this other exemplary embodiment of the invention, this lock 100 cooperates with the disconnection device 4. In fact, the intermediate portion 10 of the disconnection device can be extended perpendicularly then parallel to the direction of insertion of the device 4 in the housing while bypassing the housing 3 and while positioning itself facing the bottom of the housing. This disconnection device is then elongated while forming an extension arm 109. This extension arm 109 forms a retaining wall 110 at a point on the arm located opposite the bottom of the housing. This wall 110 forms a plane parallel to the plane formed by the bottom of the housing. The wall 110 can be U-shaped or the wall can form a board. This wall 110 is produced in such a way that it is at least located opposite the tongue. The extension arm 109 is also hollowed out with a guide slot 108 to allow the lock to be inserted between the bottom of the housing and the retaining wall 110. The arm 109 can be formed indifferently by the housing, the cover or the device 4. In the closed position in FIG. 5c, the latch 100 is inserted between the bottom of the housing and the retaining wall 110 of the arm. More specifically, the lock 100 is inserted between the tongue 19 and the wall 110. In the closed position of the lock 100, it is impossible to release the tongue from the second groove 24. The lock 100 comprises a support 101, an elastic arm 102 and a hook 103, the arm resiliently connecting the support to the hook so that the support and the hook are placed on either side of a plane formed by the retaining wall 110. In the closed position, the latch 100 is snapped onto the retaining wall 110 by insertion of a bump 111 in a notch 104. The hump 111 forms a first means of latching the latch 100. The hump 111 is formed at one end of the hook 103 and the notch 104 is formed by the retaining wall 110. The notch 104 could also be formed on the housing, or on the cover. The lock would then have to be produced in such a way that the boss 111 can be positioned facing the notch. To remove the latch 100 and allow the tongue to be released from the second groove 24, it is necessary to maneuver the hook 103 according to arrow F, either by hand or with a tool, FIGS. 5b and 5c. This maneuver of the hook 103 is intended to remove the bump 111 from the notch 104 to move the support 101 relative to the tongue 19. The support is moved relative to the tongue so that the tongue can be moved by the trigger. In the example in FIG. 5b, the support is displaced longitudinally relative to the axis of insertion of the device 4 in the housing, in the opposite direction to the direction of insertion of the device in the housing. The hump 111 intended to cooperate with the notch 104 forms a first means for latching the latch 100 which prevents that the latch 100 can be pulled by accident or inadvertently. Thus, provision can be made for the boss to have a first surface 105 and for the notch to have a second surface 106. The first surface and the second surface cooperate while being placed in abutment against one another, the first surface and the second surface each being formed in a plane perpendicular to the direction of movement of the secondary locking means 100. In one example, the direction of movement of the secondary locking means is parallel to the axis of insertion of the disconnection device. To disconnect the first contacts of the second contacts in FIG. 5a, it is first necessary to release the tab 19 by dislodging the boss 111 from the notch 104, then pull the latch 100 in the direction opposite to the direction of insertion of the device in the housing. Then it is then possible to actuate the trigger, which moves the disconnection device 4 in the disconnected position. To reconnect the first contacts with the second contacts, the disconnection device 4 must be pushed back until the tongue 19 engages in the second groove 24, without moving the lock 100, then close the lock 100 until the the bump 111 in the notch 104. If the latch 100 is not correctly in the closed position, it is desirable that this is easily detectable by an element easily visible. For example, the latch 100 may include a part which becomes projecting relative to the housing when the latch is not correctly positioned opposite the tongue, that is to say when the latch does not prevent the trigger from causing the displacement of the tongue. This projecting part can be made more easily visible by a particular color. In the open position of the lock 100, it is advantageous to provide a second means for latching the lock which makes it possible to keep the lock 100 in position relative to the tongue 19, so that when the disconnection device 4 is operated towards the connected state, the lock 100 remains in the open position until the device 4 is in the connected position, FIG. 6. The lock 100 remains in the open position while being able to come out of this holding position by simple pressure on this latch 100 in the direction of insertion of the device into the housing. Figures 6a and 6b respectively show a longitudinal section and a cross section of this second latching means. This second latching means is formed by an elastic rod 107 and by an elevation 112, the elevation being formed from the rod. This rod is formed in a plane parallel to the retaining wall and in a plane parallel to the plane formed by the bottom of the housing. This rod 107 can be formed from the support or from the hook. The elevation 112 extends perpendicular to the plane of the bottom of the housing and is intended to be snapped into a notch 113 formed in the housing. This notch could also be produced in the cover or in the device 4. The elevation 112 and the notch 113 may respectively comprise a third surface 114 and a fourth surface 115 intended to be placed side by side when the 'We want to keep the lock 100 in an open position. This third surface 114 and this fourth surface 115 each comprise with respect to the connection axis 22 a surface inclined in the direction of insertion of the device in the housing to facilitate movement of the lock 100 from the position for holding the lock towards the blocking position of the same lock.

Claims

1 - Electrical connector (1) comprising - a cover (2) provided with at least a first electrical contact (5), - a housing (3) provided with at least a second electrical contact (7), and - a device disconnection (4) cooperating with the cover and with the housing to establish an electrical connection between the first contact and the second contact defining a connected state and to establish an electrical disconnection between the first and the second contact defining a disconnected state, characterized in what the electrical connector also comprises - a first locking means (19) making it possible to maintain the disconnection device in the connected state, - a trigger (15) acting on the first locking means to authorize the movement of the disconnection device from a connected state to a disconnected state of the first and second contact, and - an elastic member (16) placed between the housing and the cover, the member being able to be moved between a first deformed position in the connected state and a second relaxed position in the disconnected state, the elastic member causing the housing to separate from the cover while electrically disconnecting the first contacts from the second contacts during a change of position of the elastic member from the deformed position to the relaxed position when the movement of the disconnection device is caused by the trigger. 2 - Connector according to claim 1, characterized in that the elastic member forms a spring. 3 - Connector according to one of claims 1 to 2, characterized in that the first locking means is an elastic tongue formed at a location on a bottom of the housing. 4 - Connector according to one of claims 1 to 3, characterized in that the trigger slides along a peripheral wall of the housing, and has one end (43) intended to bear against one end (18) of the first locking means, the first locking means also cooperating with the disconnection device. 5 - Connector according to one of claims 1 to 4, characterized in that that the connector has a Go-noGo system. 6 - Connector according to one of claims 1 to 5, characterized in that - the disconnection device is placed between the housing and the cover, - the elastic member is connected to the housing and to the disconnection device. 7 - Connector according to one of claims 1 to 6, characterized in that - the disconnection device comprises a first groove (23) and a second groove (24), - the first locking means comprises an end (18), - The device cooperates with the housing while sliding along the first locking means from the disconnection state towards the connection state so that the end of the first locking means is positioned in the first groove and then in such a way that the end of the first locking means is positioned in abutment against the second groove. 8 - A connector according to claim 7, characterized in that the first locking means is displaced by a height necessary to be dislodged from the second groove. 9 - Connector according to one of claims 1 to 8, characterized in that the disconnection device is hollowed out of a groove (24) having a shape adapting to a shape of an end (18) of the first means of locking. 10 - Connector according to one of claims 1 to 9, characterized in that the elastic member extends a length (45) corresponding at least to a length (52) of the first contact. 11 - Connector according to one of claims 1 to 10, characterized in that it comprises a secondary locking means (100) of the first locking means (19) able to be moved between a locking position of the first locking means (19) and a position for releasing the first locking means (19), this secondary locking means having to be operated from the locking position to the releasing position so that the first locking means can be actuated by the trigger. 12 - Connector according to claim 11, characterized in that it comprises a retaining wall (109), the secondary locking means comprising a support (101) which, in the blocking position of the first locking means, is inserted between the first locking means and the retaining wall to block the movement of the first locking means. 13 - Connector according to one of claims 11 to 12, characterized in that the secondary locking means comprises a first latching means (111) which opposes the movement of the secondary locking means towards the release position, when the latter is in the blocking position of the first locking means. 14 - Connector according to claim 13, characterized in that it comprises a notch (104) and in that the first latching means forms a bump (111) adapted to be inserted elastically in the notch (104). 15 - Connector according to claim 14, characterized in that the boss and the notch respectively comprise a first surface (105) and a second surface (106), the first surface and the second surface cooperating while being placed in abutment l ' one against the other, the first surface and the second surface each being formed in a plane perpendicular to a direction of movement of the secondary locking means. 16 - Connector according to one of claims 11 to 15, characterized in that the secondary locking means comprises a support (101), an elastic arm (102) and a hook (103), the arm connecting the support to the hook and the hook carrying a first latching means (111) which opposes the movement of the secondary locking means. 17- Connector according to one of claims 11 to 16, characterized in that the secondary locking means comprises a second latching means (107) maintaining the secondary locking means in the release position of the first locking means. 18 - Method of electrical connection of an electrical connector comprising - a cover (2) provided with at least a first electrical contact (5), - a housing (3) provided with at least a second electrical contact (7), and - a disconnection device (4) cooperating with the cover and with the housing to establish an electrical connection between the first contact and the second contact defining a connected state and to establish an electrical disconnection between the first and the second contact defining a disconnected state , characterized in that it comprises the following step - the disconnection device is inserted into the housing from a front face (11) in the direction of a rear face (12) of the housing until the device slides along a first locking means (19) from a first groove (23) into a second groove (24), the first groove and the second groove being hollowed out in the disconnection device. 19 - Method for electrically disconnecting an electrical connector comprising - a cover (2) provided with at least a first electrical contact (5), - a housing (3) provided with at least a second electrical contact (7), and - a disconnection device (4) cooperating with the cover and with the housing to establish an electrical connection between the first contact and the second contact defining a connected state and to establish an electrical disconnection between the first and the second contact defining a state disconnected, characterized in that it comprises the following step - a trigger (15) is moved to dislodge a groove (23,24) hollowed out in the disconnection device a first locking means (19) of at least a height corresponding to a depth (50.51) of said groove.