KR20160096668A - Connector with rotable locking latch - Google Patents

Abstract

The present invention provides a latch 4 having a locking component 43 that can be rotated from the unlocking position O to the locking position C about the axis of rotation R and spaced from the axis of rotation R, To a plug element (2) for an electrical connector (1) comprising a connector (1). In addition, the invention relates to a mating plug element (3) for an electrical connector (1). The present invention also relates to an electrical connector (1). The locking component 43 engages the corresponding locking component 33 of the mating plug element 3 and the latch 4 engages the corresponding locking element 33 of the mating plug element 3, The locking element 43 is held in abutment against the corresponding locking element 33 in the opposite direction to the plugging direction S and the latch 4 is engaged with the corresponding locking element 24, Is brought into abutment against the corresponding bearing (24) in the plugging direction (S) brought together with the mating plug element (3).

Description

CONNECTOR WITH ROTABLE LOCKING LATCH [0002]

The present invention relates to a plug element for an electrical connector comprising a latch having a locking component that is rotatable about an axis of rotation from an unlocked position to a locked position and spaced from the axis of rotation.

In addition, the invention relates to a mating plug element for an electrical connector.

The present invention also relates to an electrical connector.

Electrical connectors having plug elements of the type specified above and matching plug elements are known from the prior art. The plug element and the mating plug element are connected to each other in a plugging and counterplugging direction so as to cause the elements to contact each other in an electrically conductive manner in contact elements and corresponding contact elements received in the contact elements. It is generally designed to be brought together.

In order to better overcome the matching forces that occur when the plug element and the mating plug element are plugged together and to secure the plug elements to the final plugging position in which the plug element and mating plug element are fully plugged together, And auxiliary parts such as pushers are used. The latches are generally rotatably mounted on the plug element and engaged on the mating plug element and then moved from the unlocked position to the locked position and the plug element and mating plug element are moved toward each other, The forces are overcome. Here, the matching forces between the locking component molded on the latch and the corresponding locking component molded on the mating plug are transmitted from the latch to one side and to the other side on the rotation axis, and the rotation axis is located on the plug element And a latch is rotatably mounted around the rotation axis.

When the connectors include latches known from the prior art, the latches forming the rotation axis of the latch and the components on the plug element are worn by repeated use of the latches, and even after overcoming the matching forces , On the one hand, the clamping forces between the plug element and the latch and, on the other hand, between the latch and the mating plug element can result in material fatigue of the components predetermining the axis of rotation. This is because only the above-average dimensions allow these components to withstand the wear life and long-term stressing of these components due to the desired life span of the connector and, if possible, Which can be made very stable.

In view of the stated challenges and disadvantages, for connectors including latches known from the prior art, the underlying purpose of the present invention is to provide a structure with the smallest possible dimensions predetermining the axis of rotation of the latch To provide the largest possible clamping forces in the elements.

According to the invention, this object is achieved in that the corresponding bearing is spaced from the axis of rotation and, at least in the locking position, in that a locking component is provided which supports the latch in a direction opposite to the plugging direction of the plug element, Is achieved for the specified plug element.

In the case of a matching plug element specified in the introduction, this object is achieved according to the invention by means of a matching plug element designed to complement the plug element designed in accordance with the invention.

In the case of the initially specified electrical connector, this object is achieved according to the invention by a connector having a plug element according to the invention and a mating plug element according to the invention.

An advantage of the solutions according to the invention is that the clamping forces can be dispersed by the corresponding bearings and this contributes to the rotation axis to be unloaded. The components forming the rotation axis or rotation axis can thus be given with the smallest possible dimensions. If the connector is subjected to vibrations during operation, the vibration will not only act on the rotation axis, but can be absorbed by the corresponding bearing, and thus the rotation axis is further unloaded.

The locking component can be eccentrically formed and / or arranged, for example, on the rotation axis on the latch. The locking component can be made such that the locking component can engage with a corresponding locking component that can be disposed on the mating plug component of the connector, with which the plug component is adapted to be plugged in the plugging direction Is made. The corresponding bearing of the plug element spaced from the rotational axis can cooperate with the corresponding bearing section of the rotary latch and can support the corresponding bearing section of the rotary latch in the opposite direction of the plugging direction.

The solutions according to the present invention can be optionally combined with the following additional embodiments, which are each advantageous within their respective rights, and can be further improved by these embodiments.

The locking component may be located on at least some of the sections on one side of the rotation axis that is turned away from the corresponding bearing along the plugging direction. In other words, the axis of rotation may be located between the locking component and the corresponding bearing. The corresponding locking component can be positioned on the side of the rotation axis that is turned away from the corresponding bearing. Thus, the axis of rotation can be unloaded between the corresponding bearing and the locking component or the corresponding locking component, whereby each of the clamping forces is transmitted through the latch in a direction opposite the plugging direction between the corresponding bearing and the latch, And the corresponding locking component in the plugging direction. In both cases, the clamping forces act in a direction away from the axis of rotation. The clamping forces are neutralized as far as possible in the region of the rotation axis.

The latch can be resiliently supported on the corresponding bearing. The section of the latch abutted against the corresponding bearing can be resiliently connected to the locking section of the bearing and / or latch, through which the rotation axis passes, by the connecting section, and the rotation axis passes through the bearing and / or locking section. The vibrations can therefore be absorbed by the latches, and the highest possible clamping forces can be applied by their elasticity.

A corresponding bearing section may be provided on the latch on which the corresponding bearing lies during the movement of the latch from the unlock position to the lock position. The corresponding bearing section may, for example, comprise an inclined ramp between the inclined surface and the corresponding bearing surface, a sloping surface, which may be greater than the corresponding bearing distance between the corresponding bearing surface and the axis of rotation, And may have an inclined distance between the rotation axes. The inclined ramp can be formed by a resilient material bridge. The clamping forces can be increased by the inclined ramp during the rotational movement of the latch, while the corresponding bearing first collides with the inclined surface and is then guided through the inclined ramp on the corresponding bearing surface .

A clearance measured parallel to the plugging direction between the housing-side pivot bearing component and the latch-side pivot bearing component of the plug element predetermining together with the rotation axis, when at least the corresponding bearing section is supported against the corresponding bearing at the locking position a play may exist. Thus, the dimensions of the pivot bearing components can enable floating mounting of the latches, which helps to further minimize the forces acting on the axis of rotation.

The housing side pivot bearing component can be made in the form of a pin, and the latch side pivot bearing component can be made in the form of an opening. Alternatively, the housing side pivot bearing component can be made in the form of an opening, and the latch side pivot bearing component can be made in the form of a pin. To permit clearance between pivot bearing components at least parallel to the plugging direction, the opening may have an inner diameter that is larger than the outer diameter of the pin, measured at least parallel to the plugging direction.

The corresponding bearing can be made in the form of a protrusion with a rounded support surface facing the plugging direction in the opposite direction. As a protrusion, the corresponding bearing can simply extend away from the plug element or the housing of the plug element. Alternatively, the corresponding bearings may be made in the form of slots, grooves or some other embodiment that provides a support surface facing the plugging direction in the opposite direction. The rounding of the support surface assists in allowing the corresponding bearing section or its corresponding bearing surface to extend as precisely and as gently as possible onto the corresponding bearing surface and be supported by this corresponding bearing.

The locking component can be made at least in sections, in the form of a connecting link bent around the axis of rotation. In the unlocked position, one insertion opening molded on the connecting link can be oriented in the plugging direction. The corresponding locking component can be easily guided along the guiding surface of the connecting link or locking component and this can be achieved by pulling the corresponding locking component in the direction of the plug element by moving the latch from the unlocking position to the locking position .

On the mating plug element, the corresponding locking component can be made in the form of bolts, pegs, fins, etc. when the locking component is made in the form of a connecting link. Alternatively, the locking component can be made in the form of a bar-like guide or a guideable protrusion. As a protrusion, the locking component can cooperate with a guide or connection link molded onto the mating plug element.

In the case of the electrical connector specified in the introduction, the solution according to the invention is characterized in that, for example, in the locking position, the locking element engages the corresponding locking element of the mating plug element and the latch engages the corresponding bearing, The elements are supported on the corresponding locking elements in a direction opposite to the plugging direction or the latches are further improved in that the plug elements are held against the corresponding bearings in the plugging direction brought together with the mating plug elements, . In other words, as already mentioned above, the clamping forces between the latch and the corresponding bearing on the one hand and between the locking component and the corresponding locking component on the other hand, instead of such as is conventional in the prior art, Acting between the element and the axis of rotation, and therefore it is unloaded.

At least in the locking position, the axis of rotation may be free from forces parallel to the plugging direction. Thus, forces acting in parallel with the plugging direction, at least in the locking position, that is, generally during operation of the connector, can be completely moved between the latch, the corresponding bearing, and the corresponding locking component, ≪ / RTI > can be preserved.

The corresponding bearing and corresponding locking elements can be arranged along the height direction of the connector, substantially at the level of the center axis of the connector. At least in the height direction, for example, the central axis may lead through the plugging section of the plug element and / or through the matching plugging section of the matching plugging section. Optimally, the central axis extends along the neutral fiber of the connector or is superimposed by the neutral fiber of the connector. The corresponding bearing and corresponding locking component can be disposed on the connector in the height direction and / or centered on the neutral fiber. Thus, the plug element and the mating plug element can be brought together and possibly held anywhere, wherever possible, without the occurrence of any twisting or transverse forces, Assists in preserving both the bearing section, the locking component, the corresponding locking component and the rotation axis, as well as the plugging section and the mating plugging section.

At least in the locking position, the distance between the corresponding bearing and the axis of rotation, measured parallel to the plugging direction, may be greater than the distance between the axis of rotation and the corresponding locking element, measured parallel to the plugging direction. It is thus possible to achieve the highest possible force which makes it easier to overcome the matching forces by the section of the latch located between the rotation axis and the corresponding bearing, which section is larger than any section located between the corresponding locking component and the rotation axis. Latch effects can be achieved.

At least in the locking position, the corresponding bearing, rotation axis and corresponding locking element can be located in the projection along the axis of rotation in a triangular arrangement. Thus, the axis of rotation may be located outside of the force line formed between the corresponding locking component and the corresponding bearing, which may additionally contribute to the unloading of the axis of rotation.

In the following, the invention will be explained in more detail using possible embodiments with reference to the accompanying drawings, for example. Combinations of characteristics shown in these embodiments provide only illustrative purposes. In certain applications, individual characteristics may be omitted, as well, subject to their advantages, as described above, unless the merit of each characteristic is essential.

In the description of the embodiments, for simplicity, the same features and elements are provided with the same drawing figures. Features and elements having the same or at least similar functionality generally have the same drawing number or the same drawing characters, and such drawing or drawing characters may include one or more apostrophes Is provided.

1 is a diagrammatic perspective view of an electrical connector according to the present invention, having a plug element and a mating plug element spaced from each other and a latch of an unlocked position;
Figure 2 is a schematic perspective view of the connector shown in Figure 1 of the final state with a plug element and a mating plug element of the final plugging position and a latch of the locking position;
Figure 3 is a schematic side view of the connector shown in Figures 1 and 2 with a plug element and a mating plug element in a pre-plugging position and a latch in an unlocking position;
Figure 4 is a schematic perspective view of the connector shown in Figures 1 to 3, with a plug element and a mating plug element in another pre-plugging position and a latch in an engaged position;
Figure 5 is a schematic side view of the connector shown in Figures 1 to 4 of the final state with a plug element and a mating plug element of the final plugging position and a latch of the locking position;
Fig. 6 is a detail view (V) from Fig. 5. Fig.

1, a connector 1 according to the present invention is shown in a schematic perspective view. The connector 1 includes a plug element 2 and a matching plug element 3 as well as a latch 4 which is fastened to the plug element 2. In addition the connector 1 comprises a sealing element 5, a contact arrangement 6 assigned to the plug element 2 and a corresponding contact arrangement 7 assigned to the mating plug element 3. [ The plug element 2 and the latch 4 together form a pivot bearing 8 on which the latch 4 is fastened to the plug element 2 and rotates about a rotation axis R do.

The connector 1 extends in the longitudinal direction X and the lateral direction Y extends in the transverse direction with respect to the longitudinal direction X and the height direction Z extends in the longitudinal direction X and in the lateral direction Y ), Which extends together with a Cartesian coordinate system. The plug element 2 is made such that the plug element is able to mate with the mating plug element 3 in the plugging direction S and the mating plug element 3 is made such that the mating plug element is in the corresponding plugging direction S ' To match the plug element. The axis of rotation R extends transversely in the plugging direction S, which is substantially parallel to the lateral direction Y. [ The plugging direction S and the corresponding plugging direction S 'are substantially parallel to the longitudinal axis X. [ The central axis M or the longitudinal axis L of the connector also runs parallel to the longitudinal direction X. [

The plug element 2 comprises a housing 20 defining a plugging section 21 in the form of a socket-like mating plug receiver (not shown) with an inner contour 22, . The housing side pivot bearing component 23 extends from the side wall 20a of the housing in the form of a pin along the axis of rotation R. In addition, a corresponding bearing 24 is disposed on the sidewall 20a, forming a corresponding bearing surface 42a that faces the rounded support and substantially the plugging direction S in the opposite direction. In addition, the housing 20 has a rear side turned away from the cover 20b, the base 20c and the plugging section 21.

The mating plug element 3 has a corresponding housing 30, cover 30b, base 30c and rear side 30d correspondingly having side walls 30a. The plugging section 31 of the plug element 3 is made in the form of a plug with an outer contour 32 and the sealing element 5 is arranged tightly around the outer contour. The corresponding locking component 33 extends substantially away from the side wall 30a of the housing 30 substantially parallel to the axis of rotation or the lateral direction Y and is substantially aligned with the rounded counter- Thereby forming the surface 33a. In addition, the unlocking component 34 extends substantially parallel to the lateral direction Y and away from the side wall 30a of the housing 30, and substantially extends the plugging direction S in the opposite direction Thereby forming the unlocked surface 34a.

The latch 4 has a latch body 40 and a latch section 42 with a locking section 41. A locking component 43 in the form of a connecting link is formed in the locking section 41. The corresponding bearing section 44 is disposed on the latch section 42. The locking component 43 and the corresponding bearing section 44 are made to be rotatable about a latch side pivot bearing component 45 in the form of an opening and are arranged to be rotatable about the housing side pivot bearing component 23 They are arranged concentrically. In other words, the housing side pivot bearing component 23 and the latch side pivot bearing component 45 together form a pivot bearing 8. The housing side pivot bearing component 23 is received within the latch side pivot bearing component 45.

Figure 2 shows the connector 1 in the final state E and in the final state the plug element 2 and the mating plug element 3 which are the final plugging position B and the latch 4 Are moved to the lock position C, they are fully plugged together. The locking surface 43a molded on the locking component 43 is supported on the corresponding locking surface 33a of the corresponding locking component 33 in a direction opposite the plugging direction S. [ The corresponding bearing surface 44a of the corresponding bearing section 44 (not shown here yet) is supported on the support surface 24a of the corresponding bearing 24 in the plugging direction S. Thus, in the final plugging position B, the plug element 2 and the mating plug element 3 are separated from each other by the latch 4 in the plugging direction S or the corresponding plugging direction S ' It is stuck against.

Figure 3 shows the connector 1 with the plug element 2 and the mating plug element 3 of the pre-plugging position A as well as the latch 4 of the unlocking or opening position O in schematic side view. / RTI > The counter-locking component 33 is inserted into the locking section 41 of the latch 4 through the insertion section 41a in the form of an insertion opening in the corresponding plugging direction S 'and the plugging direction S in the opposite direction . On the side of the locking section 41a the latch 4 has a bearing section 46 on which the latch side pivot bearing component 45 is disposed or molded. The locking section 41 and the bearing section 46 clamp the locking component 43 in the form of a connecting link therebetween. The rotation axis R and the locking surface 43a, which are measured parallel to the plugging direction S, are arranged to be spaced from each other by a distance d _{R , 43a} . The locking section 41 and the bearing section 46 are brought together and connected to the corresponding bearing section 44 by the connecting section 46 of the latch 4. A sloped surface 44b substantially parallel to the corresponding bearing surface 44a is molded on the corresponding bearing section 44. [ The sloping surface 44b is connected to the corresponding bearing surface 44a by a ram 44c.

Figure 4 shows a schematic side view of the connector with the plug element 2 and the mating plug element 3 of the other pre-plugging position A 'as well as the latch 4 of the engaged position E. For the open position O the latch 4 is turned to this extent where the guide surface 43b is molded onto the locking component 43 and this guide surface is substantially connected by a connecting link- of the corresponding locking component 33 formed by the inner contour of the locking component 43 facing towards the axis of rotation R and which is molded onto the mating plug element 3, ). Between the axis of rotation (R) and the guide surface (43b) at a distance measured parallel to the plugging direction (S) between the (d _{R, 43d)} and similarly the axis of rotation (R) and the corresponding locking surface (33a) plugging direction (S The locking force F ₁ acts between the axis of rotation R and the corresponding locking component 33 in the engaged state E along a distance d _{R 43a} measured parallel to the axis of rotation Rl. The support surface (24a) and guide surface (43b) along the distance (d _{24a, 43b)} measured parallel to the plugging direction (S) in between, the corresponding bearing section 44 the corresponding bearing clamping force (F ₂₎ And acts by stressing the counter-bearing 24. An inclined surface (44b) is then disposed on the support surface (24b) just in the height direction (Z), the clamping force (F ₂₎ are in conflict with the support surface (24a), the plug element (2) and mating plug element ( 3 will be drawn toward each other in the plugging direction S or the corresponding plugging direction S '. The pivot bearing 8 and the pivot bearing components 23 and 45, which form a rotational axis from this point onwards from the point of rotation R, are unloaded, Lt; _{RTI ID} = 0.0 &_gt; (F1). ≪ / _RTI >

Fig. 5 shows the connector 1 in the final plugging state (F). The corresponding locking component 33 is placed on the locking surface 43a of the latch 4 with its corresponding locking surface 33a in the plugging direction S. The radial distance between the guide surface 43b and the axis of rotation R is reduced from the end thereof turned toward the insertion section 41a to the locking surface 43a. Thus, when the latch 4 is moved from the open position O to the lock position C via the engaged position E, the plug element 2 and the mating plug element 3 are moved in the plugging direction S, Are pulled toward each other in the plugging direction S '. This effect is enhanced during movement to the lock position (C). The locking and clamping forces acting between the plug element 2 and the mating plug element 3 are transmitted from the sloped surface 44b to the supporting surface 24a which simultaneously ascends through the ramp 44c on the corresponding bearing surface 44a And the distance d _{33a , 44a} measured parallel to the plugging direction S between the corresponding locking surface 33a and the corresponding bearing surface 44a is likewise increased by the corresponding locking surface 33a and the corresponding bearing surface 44a (D _{33a , 44b} ) measured parallel to the plugging direction (S)

Figure 6 shows detail V from Figure 5 wherein at least in the final state F the housing side pivot bearing component 23 and the latch side pivot bearing component 45 are in the plugging direction The width w23 of the housing side pivot bearing component measured parallel to the direction S is also smaller than the width w45 of the latch side pivot bearing component 45 measured parallel to the plugging direction S Whereby the distance d _{23 , 45} between the housing side pivot bearing component 23 and the latch side pivot bearing component 45 both in the plugging direction S and in the opposite direction ) Is particularly evident. The distances d _{23 and 45} between the housing side pivot bearing component 23 and the latch side pivot bearing component ₄₅ are defined as the sum of the clearances of the pivot bearings 8 parallel to the plugging direction S, total, which helps to unload the components (23, 45) that form the rotation axis (R) and the rotation axis.

Deviations from the embodiments described above are possible within the framework of the concept behind the present invention.

The connector 1 according to the present invention may comprise plug elements 2 and matching plug elements 3 which may be used to lock these elements relative to one another if the user so chooses, To overcome the matching forces, a latch 4 may be provided. The plug element 2 and the mating plug element 3 may have any number and any shape of the sealing elements 5, the contact arrangements 6 and the corresponding contact arrangements 7. The pivot bearings 8 may be optionally formed between the plug element 2 and the latch 4 or between the mating plug element 3 and the latch 4.

The plug element 2 according to the present invention may be provided with a housing 20 having side walls 20a, covers 20b and base portions 20c, which may optionally be formed according to respective requirements. And includes a plugging section with an inner contour 22, housing side pivot bearing components 23, corresponding bearings 24 and a number and shape of support surfaces 24a corresponding to respective requirements, .

The mating plug element 3 may have a corresponding housing 3 with sidewalls 30a and 30b, base portions 30c and rear side surfaces 30d according to respective requirements, Each having a shape or number of outer contours 32 and corresponding locking elements 33, corresponding locking surfaces 33a, unlocking elements 34 and unlocking surfaces 34a, A matching plugging section 31 designed in accordance with the requirements of Fig.

In accordance with each requirement, the latch 4 includes a locking element 41 having a latching section 42, a locking component 43 having locking surfaces 43a and guide surfaces 43b, Bearing pivot bearing components 45, bearing sections 46, connecting sections 44, 44, 44, 44, 44, 44, 44, 44, Which may be a latch body 40 having a housing 47 and insertion sections / openings 41a and cooperating with the housing side pivot bearing component 23, the corresponding bearing 24 and the corresponding locking component 33 .

The sealing elements 5 can be formed and arranged in accordance with the respective requirements to seal the internal space formed between the plug element 2 and the mating plug element 3, Contact arrangements 6 and corresponding contact arrangements 7, which are formed according to the respective requirements, may be arranged, which contact elements 60, which are formed according to the respective requirements, And corresponding contact elements 70 and may be in contact with one another so as to be electrically conductive, at the very latest final plugging position E, at the very latest.

In accordance with the respective requirements, the pivot bearing 8 according to the invention can be formed from the housing side pivot bearing components 23 and the latch side pivot bearing components 45, (E.g., pins, bolts and pegs on the one hand and sockets, openings, and receptacles on the other) that are each formed in complementary fashion, have.

1 connector
2 plug element
3 matching plug element
4 Latches
5 Sealing element
6 contact arrangement
7 Corresponding contact arrangement
20 Housing
20a side wall
20b cover
20c Foundation
20d rear side
21 Plugging Section
22 outer contour portion
23 Housing side pivot bearing components
24 bearing
24a support / bearing surface
30 corresponding housing
30a side wall
30b cover
30c Foundation
30d rear side
31 matching plug section
32 outer contour
33 Response Locking Components
33a corresponding locking surface
34 Unlocking Components
34a unlocking surface
40 latch body
41 Locking section
41a insertion section / opening
42 Latch section
43 Locking components
43a locking surface
43b guide surface
44 corresponding bearing section
44a bearing surface
44b inclined surface
44c lamp
45 Pivot bearing components on the latch side
46 Bearing Section
47 Connection Section
60 Contact element
70 corresponding contact element
A, A 'spare - plugging position / opening position
B Final plugging position
D Unlock position
E engaged position
C Lock Position
F Final state
F ₁ locking force
F ₂ Clamping Force
I longitudinal axis
M center axis
R rotation axis
X longitudinal direction
Y transverse direction
Z height direction

Claims (15)

Is a plug element 2 for an electrical connector 1 and can be rotated from the unlocking position O to the locking position C about the axis of rotation R And a latch (4) having a locking component spaced from the axis of rotation (R), the plug element comprising:
A counter-bearing 24 that is spaced from the axis of rotation R and a plugging direction S of the plug element 2 at least in a locking position C, Characterized in that it comprises a locking component (43) for supporting the latch (4)
Plug element for electrical connector. The method according to claim 1,
The locking component 43 is characterized in that it is located on at least some sections on one side of a rotation axis R which is turned away from the corresponding bearing 24 along the plugging direction S As a result,
Plug element for electrical connector. 3. The method according to claim 1 or 2,
Characterized in that the latch (4) is resiliently supported on the corresponding bearing (24)
Plug element for electrical connector. 4. The method according to any one of claims 1 to 3,
Characterized in that it comprises a corresponding bearing section (44) of said latch (4) on which said corresponding bearing (24) is located, from the unlocking position (O) to the locking position During exercise,
Plug element for electrical connector. 5. The method according to any one of claims 1 to 4,
Side pivot bearing component (1) of the plug element (2), which together with the rotation axis (R) predetermines at least when the corresponding bearing section (44) is abutted against the corresponding bearing (24) characterized in that there is a play measured parallel to the plugging direction (S) between the housing side pivot bearing component (23) and the latch side pivot bearing component (45)
Plug element for electrical connector. 6. The method of claim 5,
Characterized in that the housing side pivot bearing component (23) is made in the form of a pin and the latch side pivot bearing component (45) is made in the form of an opening.
Plug element for electrical connector. 7. The method according to any one of claims 1 to 6,
Characterized in that the corresponding bearing (24) is made in the form of a projection having a rounded support surface (24a) facing the plugging direction in the opposite direction,
Plug element for electrical connector. 8. The method according to any one of claims 1 to 7,
Characterized in that the locking component (43) is made in the form of a connecting link which, at least within the sections,
Plug element for electrical connector. A matching plug element (3) for an electrical connector (1)
Characterized in that the mating plug element (3) is made to be complementary to the plug element (2) according to any one of claims 1 to 8. < RTI ID = 0.0 &
Matching plug element for electrical connector. In the electrical connector (1)
Characterized in that the connector (1) has a plug element (2) according to one of the claims 1 to 8 and a matching plug element (3) according to claim 9,
Electrical connector. 11. The method of claim 10,
In this locking position C the locking component 43 engages the corresponding locking component 33 of the mating plug element 3 and the latch 4 engages the corresponding bearing 24, The component 43 is held in abutment against the corresponding locking component 33 in the opposite direction to the plugging direction S or the latch 4 is arranged such that the plug component 2 is engaged with the mating plug component 3 Is brought into contact with the corresponding bearing (24) in a plugging direction (S) brought together.
Electrical connector. The method according to claim 10 or 11,
Characterized in that the axis of rotation (R) is free from forces parallel to the plugging direction (S) at least in the locking position (C)
Electrical connector. 13. The method according to claim 11 or 12,
The corresponding bearing 24 and the corresponding locking element 33a are arranged along the height direction Z of the connector 1 substantially at the level of the central axis M of the connector 1 ≪ / RTI >
Electrical connector. 14. The method according to any one of claims 11 to 13,
At least in the lock position C the distance d _{24 , R} measured between the corresponding bearing 24 and the axis of rotation R parallel to the plugging direction S is determined by the rotation axis R and the corresponding locking element 33 measured in parallel to the plugging direction (S), wherein the distance (d _{R , 33} )
Electrical connector. 15. The method according to any one of claims 11 to 14,
Characterized in that, at least in the locking position (C), the corresponding bearing (24), rotation axis (R) and corresponding locking element (33)
Electrical connector.

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