• 专利附录
  • 专利说明
  • 权利要求
  • 类似技术
  • 同族专利
  • 引用文献
  • 法律状态
  • 优先权
    • 专利摘要:
    The present invention relates to a connector (1B) comprising a main part (2) and male connectors (3, 3a) projecting from the main part for co-operation with corresponding female connectors (7, 7a), wherein the male connectors (3, 3a) are arranged for electrical connection with conductor of a connection cable (4) which can be permanently connected to the main part. The connector comprises a disengagement mechanism (10) which is releasable by a pulling force in said connection cable (4) to distinguish the male connectors (3, 3a) from cooperation with corresponding female connectors (7, 7a), the mechanism comprising a lever arrangement (10b). relative to the main part (2) around the first axis of rotation (10 '), substantially parallel to the longitudinal direction of the male connectors (3, 3a), and wherein the lever (10d) of the lever arrangement (10b) is rotatably arranged relative to the main portion (2) about a second axis of rotation 102), substantially perpendicular to the longitudinal direction of the male connectors (3, 3a). The main part (2) is arranged to, when rotating the lever arrangement (10b) about said first axis of rotation (10 '), cause inclination of said lever (10d) in relation to said first axis of rotation (10'). In this case, the disengagement mechanism can be more easily triggered by obliquely acting tensile forces in the connecting cable (4). (Flo. 10)
    公开号:SE1551583A1
    申请号:SE1551583
    申请日:2015-12-02
    公开日:2017-06-03
    发明作者:Wästlund Gert
    申请人:Xcen Ab;
    IPC主号:
    专利说明:

    TECHNICAL FIELD The present invention relates to an electrical connector comprising a disconnection mechanism for distinguishing male connectors included in the connector from interaction with corresponding female connectors. More specifically, the invention relates to an electrical connector comprising a main part and the male part projecting male connectors for co-operation with corresponding female connectors, wherein the male connectors are arranged for electrical connection conductors of a substantially connectable connection cable, wherein said mechanism body part said connection cable is releasable to distinguish the male connectors from the sole interaction with the corresponding female connector, in that the mechanism comprises a spring-actuated rod arrangement which, when the said mechanism is triggered, displaces the male connectors from the interaction with the female connectors, further said said rod. wherein said leverage arrangement is arranged outside said main part, wherein said leverage arrangement is rotatably arranged relative to the main part about a first axis of rotation, substantially parallel to the longitudinal direction of the male connectors, and wherein the lever of the lever arrangement is rotatably arranged relative to the main part about a second axis of rotation, substantially perpendicular to the longitudinal direction of the male connectors, wherein the lever is further adjacent to the center. first axis of rotation, said lever arrangement further comprising a connection cable engaging means, oriented laterally to said longitudinal centerline of the lever, said mechanism for separating the male connectors from the corresponding female connectors being arranged to be released when the lever is lowered, about said second axis of rotation.
    BACKGROUND Electrical connectors comprising a disengagement mechanism for distinguishing male connectors included in the connector from cooperation with corresponding female connectors when a force is applied in the cable connected to the connector is well known. Such electrical connectors may sometimes be referred to as self-ejecting plugs.
    A self-ejecting connector of an initially stated nature is described in the Swedish patent application SE503474, which corresponds to the international patent application WO96 / 17409.
    The self-ejecting connector described therein, which will be described in more detail below, solves a number of problems associated with self-ejecting electrical connectors according to the prior art. However, some problems remain that need to be addressed in order to obtain adequate functionality of the connector.
    For example, it has been found that the disengagement mechanism does not always release satisfactorily when the tensile force in the connecting cable is applied from a direction substantially transverse to the longitudinal direction of the male connectors, i.e. from a direction which is substantially parallel to the wall when the connector is connected to a female connector commonly found in walls. SUMMARY OF THE INVENTION An object of the present invention is to solve or at least reduce the above-mentioned problems.
    This and other objects are achieved by means of a connector of the kind initially stated, further having the characterizing features of claim 1.
    According to one aspect of the invention, there is provided a connector comprising a main body and a male connector projecting from the main body for co-operation with corresponding female connectors. The male connectors are arranged for electrical connection with conductors of a connecting cable which can be fixedly connected to the main part. The connector further comprises a release mechanism, at least partially enclosed in the main part, which can be triggered by a pulling force in said connecting cable to distinguish male connectors from a female connector connector. This is achieved in that said mechanism comprises a rod arrangement which can be actuated by a spring member and which, when the said mechanism is triggered, displaces the male connectors out of cooperation with the female connectors. The connector further comprises a lever arrangement arranged outside said main part, which, by manual rotation (biasing) of a lever included in the lever arrangement to a locking position, is arranged to lock said rod arrangement in a spring-acting and substantially retracted position. The lever arrangement is typically arranged directly outside a rear rear surface of said main part, which rear surface is located on an opposite side of the main part relative to the surface of the main part from which the male connectors protrude to be brought into cooperation with corresponding female connectors. Furthermore, the said lever arrangement is rotatably related to the main part about a first axis of rotation which is substantially parallel to the longitudinal direction of the male connectors and typically substantially coincides with a central line running central intermediate male connector in the longitudinal axis of the male connector. Furthermore, the lever is arranged to assume a direction in said locking position where a center line in the longitudinal direction of the lever substantially coincides with said first axis of rotation. This means that when the lever is set in a locking position, i.e. When the close-release mechanism is activated and ready to be released by traction in the connecting cable, the lever projects substantially perpendicularly from the rear surface of the main part and is retained in this position under the influence of the spring force. The lever arrangement further comprises a connecting cable engaging means, oriented laterally to the lever longitudinal center line, which means that the lever arrangement comprises means, such as a cable duct or cable clamping device, arranged so that the point of engagement of the pulling force at the connection point is adjacent to the center. the traction force in the connecting cable causes the lever to tilt relative to the direction of the action of the spring force on the lever, the spring force exerting a torque on the lever which is thereby forced to rotate about said second axis of rotation running across the longitudinal direction of the male connectors. The disengagement mechanism for separating the male connectors from the corresponding female connectors is arranged to be triggered when the lever is forced out of its reading position by rotating the lever around said second axis of rotation, so the traction force in connecting cable leads to the male connectors sliding out of the corresponding female connector.
    Furthermore, the main part of the connector comprises means for causing the lift lever arrangement around said first axis of rotation to rotate said lever in relation to said first axis of rotation to thereby cause release of the disengagement mechanism.
    By forcing inclination of the lever in relation to said first axis of rotation when rotating the lever arrangement about said first axis of rotation, the effect is obtained that the lever, when rotating about the first axis of rotation, is forced into a read position. Thus, the disengagement mechanism will be triggered not only when the pulling force in the connecting cable acts in directions substantially parallel to the longitudinal direction of the male connectors, but also in directions substantially perpendicular to the longitudinal direction of the male connectors.
    Said means for effecting inclination of the lever when rotating the lever arrangement around the first axis of rotation suitably comprises a projecting part projecting from said rear surface of the main part, arranged to be brought into contact with the lever arrangement by said rotation, so that it comprises the first axis of rotation. Slightly differently said, the rear surface of the main body is designed so that the lever, upon rotation of the lever arrangement about the first axis of rotation, is caused to tilt so that an angle is coiled between the lever longitudinal direction and the first axis of rotation, said inclination being sufficiently large to the release mechanism.
    In one embodiment the lever arrangement comprises a surface which constitutes a sliding surface which, when the lever is in its reading position and thus projects substantially perpendicularly from the rear surface of the main part, slides towards said rear surface when rotating the lever arrangement about the first axis of rotation. The disengagement mechanism is hereby arranged such that the spring member included in the mechanism, in the read position of the lever when the lever projects at a substantially right angle from the rear surface of the main part, applies a spring force to the lever, which force acts towards the main part, substantially parallel to said first axis. coinciding with a center line in the longitudinal direction of the lever. In this case, the spring force until the lever arrangement in this position is pressed against the main part so that the sliding surface of the lever arrangement is pressed against the rear surface of the main part. Furthermore, since the spring force acts in a direction substantially coinciding with the center line of the lever, the lever will be retained in this position in the absence of other forces acting on the lever arrangement.
    Preferably, the spring force is actuated on the lever by designing the mechanism so that the lever is connected to the spring-loaded rod arrangement and preferably hingedly connected thereto to enable rotation of the lever arrangement about the first axis of rotation and rotation of the second shaft about the lever. According to a variant, the lever arm is connected to the rod arrangement at a point which when the lever is in its locking position is at a distance from said sliding surface, in the longitudinal direction of the lever. Thereby a lower part of the lever, including said sliding surface, is pressed against the rear surface of the main part of a force which has an point of attack located at a distance from said lower part of the lever in the longitudinal direction of the lever. This has the consequence that, when the pulling force in the connecting cable causes inclination of the lever relative to the first axis of rotation, the spring force no longer acts in a direction coinciding with the longitudinal centerline of the lever, which causes the spring force to cause a torque forcing the second lever to rotate. the axis of rotation, in the direction of said rear surface of the main part.
    Said means of the main part of the connector then has the effect that the tipping lever arrangement in relation to the rear surface of the main part so that said torque on the lever arises.
    According to a preferred embodiment, said lever arrangement comprises the above-mentioned lever arm a part connected to the lever joint. Preferably, the part hingedly connected to the lever comprises said connecting cable engaging means, which is why said part can henceforth be called cable-holding part.
    According to one embodiment, the lever and the cable-holding part are hingedly connected to each other via a joint which, when the lever is in its locking position and consequently projects substantially perpendicularly from the rear surface of the main part, is close to said rear surface. The joint preferably comprises at least one substantially circular part, arranged so that it is this circular part of the lever arrangement which is brought into contact with said means for causing inclination of the lever when rotating the lever arrangement about said first axis of rotation. Preferably, said means is formed as a projecting part of the rear surface of the main part, which projecting part is designed so that said circular hinge part slides up on said projecting part when rotating the lever arrangement about the first axis of rotation, a tilting of the lever and the rear arrangement being the surface of the main part is provided, whereby a torque is applied to the lever so that it is forced out of its locking position.
    Said joint preferably coincides with said second axis of rotation, the second axis of rotation simultaneously constituting the axis of rotation of the lever and the articulated connection between the lever and the cable-holding part.
    Preferably, said cable holding part comprises a connecting cable engaging means in the form of a recess for the connecting cable, which recess is shaped so as to retain the connecting cable and thus the cable holding part is able to absorb the pulling force from the connecting cable. This has the effect of preventing the pulling effect. the fixed connection of the connection cable to the main part, which is advantageous in that the electrical connection between the male connectors and the connection cable is not compromised by pulling on the connection cable.
    Furthermore, the articulated lever arrangement has the advantage that the cable holding part can also be used as a lever, namely as a lever which makes it possible that even small tensile forces in the connecting cable can create sufficient rotation of the lever around the second axis of rotation for the release mechanism to be triggered. connected cable holding parts at the above-mentioned point of attack distance can be increased in relation to what is practically possible if the lever itself comprises means, such as a cable clamp, for fixing the connecting cable.
    The joint along which the lever and the cable-holding part are rotatably connected preferably runs parallel to the rear surface of the main part. This joint is in turn rotatable about the first axis of rotation to enable rotation of the lever arrangement around said first axis of rotation. In one embodiment, the lever arrangement is designed so that both the lever and the cable pouring part lie substantially parallel to the rear surface, the main part in the non-reading position of the lever, projecting on each hob from the connecting joint. Furthermore, the hinge is designed so that the lever can be rotated at least 90 ° around the hinge to be moved from said non-reading position to the reading position in which the lever projects substantially perpendicularly from said rear surface. It is hereby understood that the lever and the cable pouring part, when the lever is set in its reading position, form a substantially L-shaped lever arrangement. According to a variant, this lever arrangement is designed such that the cable pouring part and / or components constituting said joint abuts closely against the rear surface of the main part, the lever is set in its reading position, parts of the cable pouring part and / or said joint components constituting the sliding surface of the lever arrangement. rear surface when rotating the lever arrangement about the first axis of rotation.
    BRIEF DESCRIPTION OF THE DRAWINGS The present invention will be better understood with reference to the following detailed description when studied in conjunction with the accompanying drawings, in which like reference numerals refer to like parts in the various views, and in which: Figure 1 shows a prior art male connector in section with a mechanism engaging an activated position and in electrical interaction with a female connector, Figure 2 shows the male male electrical connector when the mechanism assumes a fully deactivated position, Figure 3 shows the prior art male male connector when the mechanism assumes an intermediate position, Figures 4-6 show in a suitable sequence to attach a section of the connecting cable to the lever in a lever arrangement by rotating the lever and bringing the mechanism to an activated or deactivated position, Figures 7 and 8 show perspective views of a connector according to an embodiment of the present invention, Figures 9 and 10. shows how a connector according to an embodiment of the present invention is to be electrically and physically connected to a connection cable and Figures 11 and 12 illustrate the use of a connector according to an embodiment of the present invention.
    DETAILED DESCRIPTION OF EMBODIMENTS With reference to Figs. 1-6, a prior art version of the connector according to the present application will now be described. This earlier version is also described in patent applications SE503474 and WO96 / 17409 cited above. With reference to Figs. 7-12, the new version of the connector will then be described, which version is the subject of the present application. Components and elements with reference numerals in the different drawings have the same function in the previous and the new version of the connector unless otherwise stated.
    Referring to Figure 1, an electrical male connector 1 according to the prior art is shown. This connector 1 consists of a main part 2, which can be divided into two parts with the parts attachable to each other via screws not shown in the figure, in the main part 2 fixedly projecting male connectors 3 and 3a. , and a connection cable 4 which can be permanently connected to the main part 2, but not shown, whose electrical conductors, via the main part enclosed by contact means 5 and 6, are electrically connected to the respective male connectors 3, 3a.
    Said main part 2 encloses, at least in part, a mechanism 10, which by pulling force in said connecting cable 4 is triggerable to distinguish the male connectors 3, 3a from an interaction shown in figure 1 with corresponding female connectors 7,7a, in that the mechanism 10 comprises a spring-actuating rod. which is released by said pulling force and thereby displaces (pulls) the male connectors 3, 3a out of cooperation with the female connectors 7, 7a.
    The closing arrangement 10a is lockable by a lever arrangement 10b in a position acting against the spring force and in the main part retracted.
    Said lever arrangement 10b is arranged with its lever completely outside said main part 2.
    The lever arrangement 10b is rotatably related to the main part 2 about a center line 10, assigned in parallel with the male connectors 3, 3a, oriented first axis of rotation. By this is meant that the lever arrangement 10b is rotatable about the axis of rotation 10 'which is parallel to the longitudinal direction of the male connectors and preferably substantially coincides with a center line of the connector 1, which runs parallel to the longitudinal direction of the male connectors.
    The lever 10d may within said lever arrangement be arranged in a locking position, as shown in Figure 1, where a center line 10d 'assigned along the lever 10d coincides with, or at least substantially coincides with, said first axis of rotation 10'.
    Said lever or lever 10d has a connecting cable-adapted clamping member 11, oriented laterally with respect to said center line 10d '.
    The rod arrangement 10a consists of a first rod portion 10a 'enclosed by the main part 2 and a second rod portion 10a "enclosed by the main part, with a resilient member 12, such as a spring, enclosing said second rod portion 10a".
    A portion belonging to the connecting cable is intended for a clamping interaction with said clamping means 11.
    The clamping member 11 is oriented within a lever section located between a second axis of rotation 13 between the lever and the rod arrangement and the end portion 10e of the lever and the clamping member which at a locking position is arranged to rest against the upper surface portion 2a of the main part 2.
    The connection cable 4 is arranged to be inserted in the main part 2 in a direction perpendicular to said first axis of rotation with an end portion 4b.
    The clamping member 11 consists of a bracket 11 and a ridge 11b, adapted to the outer dimension of the connecting cable in order to be able to offer a clamping effect.
    Figure 1 is intended to illustrate that the male connector 1 according to the prior art assumes a position cooperating with the female connector 17 and with the mechanism in an activated, spring-tensioned, position.
    Figure 2 is intended to illustrate the male connector 1 according to the prior art when said mechanism assumes a deactivated position and when the male connectors 3, 3a have been displaced from the female connectors 7, 7a.
    Figure 3 is intended to illustrate an unstable intermediate position of the lever arrangement of the male connector according to the prior art, where the lever can either be turned over to activate the mechanism or turn, by the spring forces, towards a deactivated position.
    Figures 4 to 6 show a sequence of how a connection cable is attached to the clamping member and how the mechanism is clamped to the active position of the male connector according to the prior art.
    Figure 6 also shows a male connector 1 according to prior art and partly illustrates a position of the lever 10b of the lever arrangement before the surface 10 fully supports the counter surface 2a and thereby reads the mechanism alternatively when a traction acted in the direction of the cable, according to Figure 6, this traction will turn the lever 10b from the reading position to the position shown in Figure 6, wherein the rod 10a is slid of spring force between the male contact members 3, 3a and thereby the surface 10 of the rod portion 10gat will press against the female contact surface 17a and thereby the connectors 3,3a are pressed or pulled out of cooperation with the female connectors 7, 7a. Thus, a traction force "F" of the connecting cable 4 of the connecting cable 4 from the portion 4b will turn the lever about the second axis of rotation out of its parallel position with the first axis of rotation and be brought by the spring force to a position close to the main part.
    Figures 7-12 show a connector 1B according to an embodiment of the present invention. The elements that are not provided with reference numbers can be considered to have the same functionality as the corresponding elements in Figures 1-6.
    Figures 7 and 8 show perspective views of said connector 1B, which comprises a main part 2 and a lever arrangement 10b. The connector 1B according to the invention differs from the previously described connector 1 in that the lever arrangement 10b in addition to the lever 10d comprises a part 100 rotatably connected to the lever. The part rotatably connected to the lever 10a comprises a connecting cable engaging member 101, which replaces the contact member 101. to Figure 1-6. The part 100 rotatably connected to the carrier arm thus constitutes a cable-holding part. The connection cable engaging means 101 comprises a recess 106 in which the connection cable can be pulled in a manner which causes traction force arising in the connection cable 4 to be absorbed by the connection cable engaging means 101 at the lever arrangement 10b instead of the main part 2 in which connection cable end is fixed. This is most clearly seen in Figure 10, which is an assembly instruction in which the connection cable engaging member 101 is shown disengaged from the cable holding part 100.
    The lever 11d and the cable holding member 100 are hingedly connected to each other by a joint 102 which, when the lever is in its locking position (Figure 12) and projects substantially perpendicularly from the rear surface of the main body, is located adjacent a rear surface 104 facing the lever assembly 11b (Figure 10). ) of the main part 2. The joint 102, which also constitutes the above-mentioned second axis of rotation about which the lever 11d is rotatable, preferably comprises at least one substantially circular part 103, arranged so that it is this circular part of the lever arrangement 10b which is brought into contact with the above-mentioned means causing inclination. of the lever 10d relative to the first axis of rotation 10 'when rotating the lever arrangement 10b about the first axis of rotation 10'. Figure 10 shows said means, which according to this exemplary embodiment is a projecting part 105 of the rear surface 104 of the main part 2, which projecting part is designed so that said circular joint part 103 slides up on said projecting part 105 when rotating the lever arrangement 10b about the first axis of rotation 10 ". .
    Figure 8 also shows that one end of the rod arrangement 10a, the one facing direction away from the male connectors 3, 3a, is articulated to the lever 10d via a joint 108 which is located at a distance from the second axis of rotation 102 in the longitudinal direction of the lever. It is thus the position of this joint 108 which constitutes the point of action of the spring force acting on the lever 10d when it is in a seat-locking position in which it projects perpendicularly from the rear surface 104 of the main body. As best understood by studying Figure 12, a pulling force in the connection cable 4 a rotation of the lever arrangement 10b about the first axis of rotation 10 'due to the projecting part 105) to cause an inclination of the lever 10d relative to the first axis of rotation 10', whereby the spring force, 12 when the inclination becomes sufficiently large, will force the lever 10d out of its reading position and pulling it down to the position shown in, for example, Figure 10, wherein the lever 10d is substantially parallel to said rear surface 104 of the main body 2.
    Figure 9 shows certain components arranged internally on the main part 2 and is an assembly instruction for connecting the conductor of the connection cable 4 to the male connectors 3, 3a. The tubular space 107 is intended for the space bar arrangement 10a and the spring member 12 arranged around the bar arrangement. Again with reference to Figure 10, the lever arrangement 10b appears to be designed so that the cable pouring part 100 and / or components constituting said joint 102 abut the rear part 104 of the main part. 10d is placed in a seat-reading position (see also figure 12), wherein parts of the cable pouring part and / or said joint components form a sliding surface 109 of the lever arrangement which slides towards the rear surface of the main part when rotating the lever arrangement about the first axis of rotation.
    Figure 11 shows how the release mechanism for distinguishing the male connectors 3, 3 from cooperation with the corresponding female connectors 7, 7a is activated. This is accomplished, as described above, by manually rotating the lever 11d substantially 90 ° to its reading position shown in Figure 12. When the lever 11d is thus folded up to its perpendicular position 104 relative to the rear portion of the main body, the drawbar arrangement 10a internally up to and partially through said rear surface 104 of the main part 2 due to the fact that the joint 108 to which the end of the rod arrangement is attached is moved away from the rear surface 104. The spring means enclosing the connector 1, which is arranged in substantially the same way as the spring means 12 in, for example, Figure 1, is compressed and retained its reading mode. Thereby, the release mechanism is activated.
    权利要求:
    Claims (7)
    [1]
    Connectors (1B) comprising a main part (2) and male connectors (3, 3a) projecting from the main part for co-operation with corresponding female connectors (7, 7a), the male connectors (3, 3a) being arranged for electrical connection with a conductor having a fixed part to the main part. connectable connecting cable (4), said main body (2) at least partially enclosing a mechanism (10) which by pulling force said connecting cable (4) is releasable to distinguish the male connectors (3,3a) from a cooperation with corresponding female connectors (7). , 7a), in that the mechanism comprises a spring-actuated rod arrangement (10a) which, upon release of said mechanism (10), displaces the male connectors (3, 3a) clockwise engagement with the female connectors (7, 7a), and said rod arrangement (10a) is of a lever arrangement (10a). lockable in a position acting against the spring force and retracted in the main part, said lever arrangement (10b) being arranged outside said main part (2), said lever arrangement mang (10b) is rotatably arranged relative to the main part (2) about a first axis of rotation (10 '), substantially parallel to the longitudinal direction of the male connectors (3, 3a), and wherein the lever (10d) of the lever arrangement (10b) is rotatably arranged relative to the main part (2) about a second axis of rotation (102), substantially perpendicular to the longitudinal direction of the male connectors (3, 3a), the lever (10d) further being arranged to assume in a locking position a direction the longitudinal center line of the lever substantially coincides with said first axis of rotation (10). , said lever arrangement (10b) further comprising a connection cable engaging member (101), oriented laterally to said longitudinal centerline of the lever (10d), said mechanism (10) for separating the male connectors (3, 3a) from corresponding female connectors (7), to be released when the lever (10d), in said locking position, under the influence of the pulling force in the connecting cable (4) is forced to be rotated about said second axis of rotation (102), characterized in that the main part (2) comprises means (105) for causing the inclination of said lever (10b) about said first axis of rotation (10 ') to tilt said lever (10d) in relation to said first axis of rotation (10 ').
    [2]
    A connector (1B) according to claim 1, wherein the main part (2) comprises a rear surface (104) against which the lever arrangement (10b) slides upon rotation thereof about the first axis of rotation (10 '), comprising a projecting part (105) which projects from said rear surface (104) and causes said inclination of the lever (10d) when a part of the lever arrangement (10b) is brought into contact with said projecting part (105) by said rotation.
    [3]
    A connector (1B) according to claim 2, wherein the lever arrangement (10b) comprises englid surface (X) which, at least when the lever (10d) is in its locking position, slides said rear surface (104) of the main part (2) when the lever arrangement (2) 10b) is rotated about the first axis of rotation (10 '), said sliding surface (X) and said projecting part (105) being arranged so that only a part of said sliding surface (X) slides up on said projecting part (X) when rotating the lever arrangement ( 10b) about the first axis of rotation (10 '), whereby inclination of said lever (10d) in relation to said first axis of rotation (10') is effected.
    [4]
    A connector (1B) according to any one of the preceding claims, wherein said lever arrangement (10b) in addition to said lever (10d) comprises a coupled arm articulated connected part (X), comprising said connection cable engaging means (101).
    [5]
    Connector (1B) according to any one of the preceding claims, wherein the rod arrangement (10a) consists of a first rod portion (10a ') enclosing the main part (2) and a second rod portion (10a ") enclosing a main part, with a resilient member (12 ) enclosing said second rod portion (10a ").
    [6]
    Connector (1B) according to any one of the preceding claims, wherein the main part (2) is arranged to receive the connection cable (4) in a direction oriented substantially perpendicular to said first axis of rotation (10 ').
    [7]
    A connector (1B) according to any one of the preceding claims, wherein the lever (10d), when rotated from its substantially parallel position with the first axis of rotation (10 ') by the force acting from the connecting cable, is arranged to be brought by said spring means (12) to a position in which the lever is substantially parallel to a rear part (2) of the lever surface (2) facing the lever arrangement (10b).
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    同族专利:
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    SE539548C2|2017-10-10|
    引用文献:
    公开号 | 申请日 | 公开日 | 申请人 | 专利标题
    法律状态:
    优先权:
    申请号 | 申请日 | 专利标题
    SE1551583A|SE539548C2|2015-12-02|2015-12-02|Electrical connector with decoupling mechanism|SE1551583A| SE539548C2|2015-12-02|2015-12-02|Electrical connector with decoupling mechanism|
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