WO2021089462A1 - Plug connector part with an engaging device - Google Patents

Abstract

The invention relates to a plug connector part (1) for connecting to a counter plug connector part (2), comprising a housing (10), a plug section (11) which can be connected to the counter plug connector part (2) in a plugging manner, and an engaging device (R) having an engaging element (12; 12') which is designed to fix the plug connector part (1) to the counter plug connector part (2) in an engaging manner in an engaging position and which can be adjusted relative to the housing, out of the engaging position in an actuation direction (B), in order to detach the plug connector part (1) from the counter plug connector part (2). In addition, the engaging device (R) has a blocking element (13; 13') which can be adjusted relative to the engaging element (12; 12'), which blocks an adjusting of the engaging element (12; 12') in a blocking position, and which releases the engaging element (12; 12') in an unblocking position for an adjustment out of the engaging position in the actuation direction (B), wherein the engaging element (12; 12') surrounds at least sections of the blocking element (13; 13').

Description

Connector part with a locking device

The invention relates to a connector part for connecting to a

Mating connector part according to the preamble of claim 1 and claim 15.

Such a plug connector part comprises a housing and a plug-in section which is arranged on the housing and which can be plugged into the mating connector part along a plug-in direction. For example, one or more electrical contact elements for making contact with associated electrical mating contact elements of the mating connector part can be arranged on the plug-in section, wherein the plug-in section can be designed as a plug or socket, for example. A latching device is used to fix the plug connector part in a connected position to the mating connector part and for this purpose has a latching element that is latched to the mating connector part in a latching position. From the latching position, the latching element can be adjusted in an actuating direction in order to be able to detach the connector part from the mating connector part.

In such a connector part, there is a fundamental need for a simply designed, inexpensive to manufacture and convenient for a user to operate latching with an associated mating connector part in order to fix the connector part to the mating connector part against unintentional loosening in a connected position. Such a latching should in particular be easy and intuitive to set up for a user without the need for complex work steps.

In an electrical connector pair known from DE 10 2014 115 252 A1, a connector part has a latching element articulated to a housing, which can be fixed to the housing in a latching position via a screw element by screwing into an assigned nut.

The object of the present invention is to provide a plug connector part which has a latching device which is particularly easy and intuitive for a user to operate and which is secured against unintentional loosening in a latching position.

This object is achieved by an object with the features of claim 1. Accordingly, it is provided that the locking device has a locking element which is adjustable relative to the locking element, which blocks an adjustment of the locking element in a locking pitch and which, in an unlocking position, releases the locking element for adjustment from its locking position in the actuating direction, the locking element surrounding the locking element at least in sections .

A fixation by means of a screw can thus be dispensed with, which means that the fixation of the connector part with the mating connector part can be set up and released again particularly easily and can also have a reduced weight. This arrangement also enables a particularly space-saving design.

The connector part has the latching device which is used to lock the connector part in a connected position with the associated mating connector part. When the latching is established, the connector part cannot be released from the mating connector part without further ado, in particular not unintentionally. The latching is established via a latching element that, in a latching position, for example, engages with a latching projection in an associated latching opening of the mating connector part, so that the connector part is secured against the mating connector part against the plugging direction and thus cannot be released from the mating connector part against the mating direction.

In order to lock the locking element in its locking position, the locking element is provided, which can be adjusted between a locking pitch and an unlocking position. To adjust between the locking pitch and the unlocking position, the locking element can be moved to the locking element, so that in this way the locking element is adjusted between a blocking interaction with the locking element in the locking pitch and a release of the locking element in the unlocking position.

The locking between the connector part and the mating connector part can be released by moving the locking element from the locking division into the unlocking position to the locking element, so that the blocking interaction of the locking element with the locking element is canceled.

The locking element surrounds the locking element at least in sections. For example, a portion of the latching element extends on one side of the locking element and a further portion of the latching element extends on another side of the Locking element. The two sides are, for example, opposite sides. Optionally, the locking element completely surrounds part of the locking element, alternatively only partially.

The latching element and / or the locking element is / are formed in one piece. Alternatively, the latching element and / or the locking element could consist of several individual parts firmly connected to one another.

Optionally, the locking element can be rotated about an axis of rotation relative to the housing and / or relative to the latching element, in particular while maintaining the axial position (with respect to the axis of rotation). In one embodiment, the locking element is rotatably received in a receiving opening of the housing. The rotatable mounting of the locking element e.g. on the housing enables a particularly simple and intuitive adjustment by a user.

In one embodiment, the locking element has at least one locking surface which is designed and set up to lock the latching element. For example, the locking surface interacts with the locking element in the locking division of the locking element, optionally touching it. This enables, in particular, a simple and at the same time robust blocking of the latched position of the latching element. The locking surface is formed, for example, on a region of the locking element which, in cross section perpendicular through the axis of rotation, has a shape deviating from a circular shape.

In a further development, the locking element has a bolt shank. The at least one locking surface can be formed on the bolt shank. This enables particularly robust designs with a simple structure. In one embodiment, the locking element has a pin section which protrudes axially from the bolt shank and is rotatably mounted in a bearing opening of the housing. One end of the stud shaft is optionally accessible from the outside. The pin section is arranged, for example, at one end of the bolt shank which is remote from the end of the bolt shank that is accessible from the outside. The diameter of the journal section is reduced, for example, compared to the bolt shank and lies in the bearing opening, so that the journal section is rotatably mounted in the bearing opening and is thus supported on the housing. At the other, externally accessible end of the bolt shank, a tool engagement can be formed, for example, via which a user can use a tool, for example a screwdriver the locking element can access to rotate the locking element about its axis of rotation and thereby adjust the locking element in the housing.

In one embodiment, the latching element has a web. In the locking pitch of the locking element, the locking surface of the locking element can face the web of the locking element, in particular be in contact therewith, and thus prevent a movement of the locking element along the actuation direction. The web is arranged, for example, between the locking element and an actuating section which can be actuated by a user.

Optionally, the locking element has at least one unlocking receptacle which faces the web of the locking element in the unlocking position of the locking element, so that the web of the locking element engages in the unlocking receptacle when the locking element moves along the actuation direction. In this way, in particular, a very robust locking of the detent position is possible.

As an alternative or in addition to a web, the latching element has, for example, at least one locking spring (in particular two locking springs). In the locking division of the locking element, the at least one locking spring is optionally urged by the locking surface of the locking element into a locking receptacle of the housing, in particular tensioned in a resilient manner. This enables a particularly flat design. The direction in which the locking spring is urged into the locking receptacle is, for example, perpendicular to the direction of actuation. Alternatively or additionally, the direction of actuation and the axis of rotation are oriented perpendicular to one another. If the locking element comprises two locking springs, then these are, for example, pushed in opposite directions.

According to a development, the locking surface of the locking element is formed on a projection of the locking element, in particular if the latching element has one or more locking springs. Movement of the locking element relative to the latching element, for example a rotary movement, allows the projection with the locking surface to come into contact with the locking spring and act on it.

The locking element optionally has locking contours which interact in the locking division and / or in the unlocked position of the locking element with the housing, a part attached to it and / or the locking element in a locking manner. The locking contours are, for example, flattened or recessed areas. The Locking contours bring about (haptically recognizable) defined positions of the locking element, so that the locking element can be brought into clearly predefined positions by a user more easily, which, for example, can correspond to the unlocked position and the locking division. Such a locking can be provided, for example, via form-fit sections (e.g. formed on the bolt shank and / or on the pin portion) which, in the locking division or unlocking position, are in contact and / or engagement with an associated area (e.g. the housing) so that the locking element is held in the locking division or the unlocked position with respect to the housing section in a latching manner. The locking element can thus be moved intuitively and comfortably by a user between the locking division and the unlocking position, which are each defined by locking. In addition to intuitive operation, it can thereby be achieved or additionally ensured that the locking element cannot easily, at least not unintentionally, be moved out of the locking division or the unlocking position.

In order to enable the latching element to be adjusted between the latching position and the release position, the latching element is preferably inherently elastic and thus elastically deformable in such a way that a latching head arranged on the latching element with a latching projection, with elastic deformation of the latching element, engages in a latching connection with one on the mating connector part shaped locking engagement (for example a locking opening) or can be brought out of connection with the locking engagement. Such a latching projection can be connected to the rest of the latching element via a latching arm, for example. In particular, the latching arm can protrude from a base which is elastically deformable, so that the latching element can be moved between its latching position and a release position with elastic deformation (in particular). The latching position of the latching element can in particular correspond to a relieved, non-deformed state of the latching element. The latching element is thus in the latching position when the latching element is not actuated. This enables, for example, the plug connector part to be attached to an associated mating connector part in the plug-in direction, with the locking connection between the connector part and the mating connector part being established automatically via the locking element. In order to facilitate locking, a run-up bevel can be formed on the locking head of the locking element, with which the locking head runs onto a housing section of the mating connector part when the connector part is plugged into the mating connector part and is thus (slightly) deflected from a locking position until the Latching element snaps into engagement with its latching head with an associated latching engagement on the mating connector part and thus a locking connection between the connector part and the mating connector part is established.

The latching element can have an actuating section (e.g. in the form of an actuating head) that can be actuated by a user for adjusting the latching element in the actuating direction relative to the housing. The actuating head protrudes outwards, for example, from the housing, so that a user can act on the actuating head manually or using a suitable tool, for example a screwdriver, in order, for example, to press the locking element in the actuating direction and thus the locking element out of the locking position to be adjusted in the direction of the release position.

Optionally, the locking element is arranged between the latching arm (and / or the base) and the actuating section with respect to the actuation direction. This enables a particularly space-saving design that creates space for other components, e.g. for screw connections for attaching a screen, a shield or the like.

The latching element optionally forms a receptacle. The locking element can be arranged so that it extends through the receptacle. In addition to a space-saving design, this enables a particularly effective interaction between the latching element and the locking element.

In one embodiment, the plug connector part has a plurality of plug-in sections lined up in a row direction transverse to the plug-in direction for the plug-in connection with the mating plug-in connector part. Each plug-in section can be designed as a plug or socket, for example, and can be plugged into an associated mating plug-in section of the mating plug-in connector part, with one or more electrical contact elements for making electrical contact with the mating plug-in connector part being arranged on each plug-in section. On a side remote from the plug-in sections, the connector part can for example have a plurality of plug-in openings via which electrical conductors can be connected to the connector part in a clamping manner, for example via spring-loaded connections or the like. For example, a plug-in opening for plugging in an electrical conductor can be assigned to each plug-in section, so that an electrical conductor can be connected to an electrical contact element of the plug-in section via the plug-in opening. The object mentioned at the beginning is also achieved by a plug connector part according to claim 15. It is then provided that the locking device has a locking element which can be rotated relative to the locking element about an axis of rotation relative to the housing while maintaining the axial position, with at least one locking surface which interacts with the locking element in a locking pitch of the locking element, so that an adjustment of the locking element is blocked, with in an unlocked position of the locking element, the latching element is released from its latching position for adjustment in the actuating direction.

This connector part can be designed according to any configuration described herein.

In the case of an arrangement of a plug connector part and a mating connector part, the mating connector part preferably has a corresponding number of mating plug-in sections for receiving the plug-in sections of the plug-in connector part. If the plug-in sections of the connector part are shaped, for example, as a plug, the mating plug-in sections of the mating connector part are designed accordingly as sockets into which the plug-in sections of the plug-in connector part can be inserted in the plug-in direction in order to make electrical contact with the associated mating contact elements of the mating connector part.

The idea on which the invention is based is to be explained in more detail below with reference to the exemplary embodiments shown in the figures. Show it:

1A shows a view of an exemplary embodiment of a connector part together with an associated mating connector part in an interconnected state;

1B shows a view of the connector part and the mating connector part in a position released from one another;

FIG. 2 shows a sectional view of part of the plug connector part according to FIG. 1A; FIG.

3A and 3B are views of a latching device of the connector part according to FIGS. 1A to 2; 4 shows a view of an arrangement with a latching device for the plug connector part according to FIGS. 1A to 2;

FIGS. 5A and 5B are views of a latching device of the arrangement according to FIG. 4;

6A shows a sectional view of the arrangement according to FIG. 4, a locking element of the latching device being shown in an unlocked position;

6B shows a sectional view of the arrangement according to FIG. 4, the locking element of the latching device being shown in a locking pitch; and

FIG. 7 shows a view of an alternative embodiment of the latching device of the arrangement according to FIG. 4.

1A and 1B show an exemplary embodiment of a plug connector part 1 which can be connected to an associated mating connector part 2 in a plugging manner along a plug-in direction E.

The plug connector part 1 has a housing 10, on one side of which a plug section 11 with a plurality of plugs 110 protruding from the housing 10 along the plug direction E is arranged. At least one electrical conductor for making contact with electrical contact elements enclosed in the housing 10 is held in each of the plugs 110. The electrical contact elements are arranged such that when the plug connector part 1 is connected to the mating connector part 2, electrical contact with associated mating contact elements of the mating connector part 2 can be established.

The mating plug connector part 2 has a housing 20 on which mating plug sections are shaped in the form of plug openings in the manner of sockets. The plug 110 of the plug connector part 1 can be plugged into the plug-in openings in the plug-in direction E in order to establish electrical contact between the plug connector part 1 and the mating connector part 2.

The plugs 110 of the connector part 1 are lined up along a direction A perpendicular to the plug-in direction E and can each with an associated plug-in opening of the mating connector part 2 in the plug-in direction E be plugged in. While Fig. 1A shows the arrangement of the connector part 1 and the mating connector part 2 in a connected position in which the plugs 110 are inserted into the associated plug openings and thus electrical contact is established between the connector part 1 and the mating connector part 2, Fig. 1B shows the connector part 1 and the mating connector part 2 before the mating connection (or after the connector part 1 has been detached from the mating connector part 2).

The connector part 1 has a latching device R which is arranged approximately centrally - viewed along the direction of assembly A - on the connector part 1 and is used for central locking of the connector part 1 with the mating connector part 2. The latching device R can also be arranged eccentrically. For this purpose, the latching device R comprises a latching element 12; 12 ‘, which can be brought into engagement with a latching opening 21 of the mating connector part 2 by plugging the connector part 1 with the mating connector part 2.

FIG. 2 shows part of the housing 10 of the connector part 1 and part of the housing 20 of the mating connector part 2.

In the view of FIG. 2, several components of the latching device R of the plug connector part 1 can be seen, in particular the latching element 12 and a blocking element 13. It is provided that the latching element 12 surrounds the blocking element 13 at least in sections. The latching element 12 comprises an actuation section 120, here in the form of an actuation head, which is arranged outside the housing 10, and further sections which are arranged in the interior of the housing 10. The blocking element 13 is arranged inside the housing 10.

With joint reference to FIGS. 2 to 3B, the function of the latching element 12 and the locking element 13 will now be explained in more detail.

The latching element 12 comprises a latching arm 122, which in the present case protrudes from a base 123. At the end of the latching arm 122 facing away from the base 123, a latching projection 121 is formed which can be brought into latching engagement with the latching opening 21 of the mating connector part 2.

The locking element 12 is used to establish a locking connection between the connector part 1 and the mating connector part 2 via the locking projection 121, if the connector part 1 is plugged into the mating connector part 2 in the plug direction E. A run-up bevel is formed on the latching projection 121, with which the latching projection 121 runs onto an assigned run-up bevel on a front edge of the housing 20 of the mating connector part 2, so that the locking projection 121 automatically moves from a locking position when the connector part 1 is plugged into the mating connector part 2 an actuation direction B is deflected and the locking projection 121 can thus be moved past the front edge of the housing 20 until the locking projection 121 snaps into engagement with an associated locking engagement in the form of the locking opening 21 on an upper side of the housing 20 of the mating connector part 2, as shown Fig. 2 can be seen.

The locking arm 122 with the locking projection 121 formed thereon protrudes through a front opening of the housing 10 and protrudes outward from the housing 10 on a side facing the mating connector part 2, so that the locking element 12 connects to the locking opening 21 of the mating connector part 2 via the locking projection 121 can be engaged. At the other end, the latching element 12 has a latching projection 128 for holding the latching element 12 in the housing 10. This latching projection 128 is positively engaged with a holder 107 of the housing 10.

As can be seen, for example, from FIG. 2, a latching opening 21 is formed in the area of the top of each plug-in opening of the mating connector part 2. The latching element 12 of the latching device 11 of the connector part 1 engages with the plug opening arranged centrally on the mating connector part 2 (with which no plug 110 of the connector part 1 has to be brought into engagement during the mating connection), so that a latching between the connector part 1 and the mating connector part 2 is produced centrally via the latching device 11.

Two side parts 124 protrude from the base 123 of the latching element 12, specifically in a direction perpendicular to the main direction of extent of the latching arm 122 (and perpendicular to a surface in which the base 123 mainly extends). A distance is provided between the side parts 124. The operating section connects the side parts 124 to one another. Furthermore, a web 125 (or generally a connecting section) extends between the side parts 124 and connects the side parts 124 to one another. A receptacle 127 is thus formed by the web 125, the side parts 124 and the base 123. The locking element 13 is inserted into the receptacle 127. Specifically, the locking element 13 extends through the receptacle. The locking element 13 is received in a receptacle of the housing 10 such that it can rotate about an axis of rotation D and can be rotated about the axis of rotation D relative to the housing 10. The locking element 13 has a bolt shank 130. A pin section 131 (with a reduced diameter) protrudes axially from the bolt shank 130 at one axial end of the locking element 13. The journal section 131 lies in a bearing opening 108 of the housing 10 and is mounted on the housing 10 via the bearing opening 108. The end face of the locking element 13, which is axially set back with respect to the journal section 131, rests on the inside of the housing 10, specifically a front panel 100 of the housing 10, around the bearing opening 108.

At its axial end facing away from the pin section 131, the locking element 13 has a tool engagement 136, in the example shown for a slotted screwdriver. The end of the locking element 13 with the tool engagement 136 is rotatably mounted in a further bearing opening of the housing, specifically a back part 101 of the housing 10. A circumferential flange 133 projects in the radial direction with respect to the section received in the bearing opening and has a larger diameter. As a result, the flange 133 rests against the inside of the housing 10.

Thus, the locking element 13 is rotatably mounted on the housing 10 about the axis of rotation D (and received in the housing 10), but secured in both directions along the axis of rotation D against translation relative to the housing 10 (positively). The locking element 13 can thus be rotated relative to the housing 10 without executing a translational movement relative thereto.

Unlocking receptacles 137 are formed on the bolt shank 130 on two opposite sides (alternatively on only one side), here each in the form of a flattened area. The unlocking receptacles 137 are areas of the locking element which are set back with respect to an adjacent (here circular cylindrical) lateral surface of the locking element 13.

2 to 3B show the locking element 13 in an unlocked position in which the locking element 13 is oriented relative to the latching element 12 in such a way that one of the unlocking receptacles 137 is arranged adjacent to (specifically below) the web 125. There is a distance between the web 125 and the surface of the unlocking receptacle 137, so that the actuation section 120 can be pressed along the actuation direction B (downward), the web 125 in the Unlocking receptacle 137 is introduced. The latching arm 122 is taken along accordingly and displaced from the latching position into a release position in which the latching projection 121 is pulled out of the latching opening 21 of the mating connector part 2.

For the simplest possible locking of the connector part 1 with the mating connector part 2, the locking arm 122 is pretensioned into the locking position, e.g. by means of a spring or, as in the example shown, by an elastic end section of the base 123 of the locking element 12, which is firmly connected to the housing 10 is. Actuation of the actuating section 120 against the preload transfers the latching element 12 into the release position. Slits 104 in the housing 10, through which the side parts 124 extend, allow the side parts 124 to be displaced therein and thus the latching arm 122 to pivot.

In order to lock the locking element 12 in its locking position, the locking element 13 can also be rotated into a locking pitch. A locking surface 132 is arranged adjacent to the web 125 in the barrier division. The locking surface 132 has a larger radius to the axis of rotation D than the unlocking receptacle 137. In the present example, the locking surface 132 is formed by a non-recessed part of the lateral surface of the bolt shank 130.

If the locking surface 132 is arranged adjacent to the web 125 (here below it), then it is located at a smaller distance therefrom than the surface of the unlocking receptacle 137 in the unlocked position. Optionally, the locking surface 132 touches the web 125 in the locking division. Thus, the locking surface 132 in the locking division prevents a movement of the locking arm 122 from the locking position into the release position.

The locking element 13 can thus be rotated between a locking pitch and an unlocking position relative to the housing 10 and relative to the latching element 12. In the present case, the locking element 13 comprises two opposing locking surfaces 132 and two opposing unlocking receptacles 137. Viewed circumferentially around the axis of rotation D, the locking surfaces 132 and the unlocking receptacles 137 are arranged alternately, each offset by 90 °. A quarter turn around the axis of rotation D thus causes a change between a locking division and an unlocking position. In order to enable haptic feedback of the position position for the user and to provide defined positions, the locking element comprises locking contours 138. The locking contours 138 are in the present case in the form of notches on the lateral surface of the bolt shank 130. In the example shown, the locking contours 138 are formed at the axial end adjacent to the pin section 131. The locking is produced in that one or more of the locking contours 138 lock with a section of the housing 10. For example, two opposing inner walls or resilient areas of the housing 10 arranged thereon have a distance from one another which is smaller than the diameter of the circular cylindrical jacket of the bolt shank 130, but approximately the same size as the diameter of the locking element 13 on the locking contours 138. Optional the housing 10 has contours that match the locking contours 138. In the present case, a locking contour 138 is provided on the locking element 13 for each locking surface 132 and unlocking receptacle 137, in the example shown at the same angular positions about the axis of rotation D as the corresponding locking surface 132 or unlocking receptacle 137. The locking contours 138 also prevent unintentional rotation of the locking element 13 out of the locking division or the unlocking position.

In particular, it can be seen from FIG. 2 that the arrangement of the locking element 12 and the locking element such that the locking element 12 at least partially surrounds the locking element (in the example shown, accommodates it) enables a particularly space-saving design. The locking element 13 is arranged between the actuating section 120 on the one hand and the base 123 and the latching arm 122 on the other hand and not e.g. below the latching arm 122. The area below the latching arm 122 can thus be used for other purposes, in the present example for screwing a shield plate to screw holes 105.

4 to 6B show an embodiment of the latching device R for the connector part 1, which largely corresponds to the latching device described above. In contrast to this, however, the latching element 12 'does not have a web which would connect the side parts 124 (in addition to the actuating section 120 and the base 123). Furthermore, no recessed sections are provided on the jacket surface of the bolt shank 130 as unlocking receptacles, but projections protrude radially outward from the jacket section of the bolt shank 130, which form the locking surfaces 132 '. On the latching element 12 ', in the example shown on the side parts 124 thereof, locking springs 126 are formed, in the present case cut free (in general, such a locking spring 126 would also be sufficient). The outwardly protruding locking surfaces 132 'can be moved against the locking springs 126 by rotating the locking element 13', so that these are urged outwards in a resilient manner. The housing 10, here on side parts of the front panel 100, comprises a locking receptacle 109 (each in the form of a groove) for each of the locking springs 126. If the locking springs 126 are pushed outwards, then they engage in the respective locking receptacles 109. The locking receptacles 109 are arranged so that this engagement is only possible in the latching position of the latching element 12 ', so that the latching element 12' is locked in the latching position by setting the locking element 13 'in the locking pitch.

The locking surfaces 132 'do not have any jumps in the radius, but rather rise continuously with respect to the lateral surface of the bolt shank 130, so that the locking springs 126 can be displaced outwards without tilting.

6A shows the unlocked position of the locking element 13 ', in which the locking springs 126 do not engage in the locking receptacles 109. 6B shows the locking division of the locking element 13 'and it can be seen that the locking springs 126 engage in the locking receptacles 109 in a locking manner.

7 it is illustrated that a single side wall 124, which connects the latching arm 122 to the actuating section 120, can also be sufficient. The locking element 13 ‘is partially surrounded by the locking element 12‘. Accordingly, the latching element also comprises only one locking spring 126.

The idea on which the invention is based is not restricted to the exemplary embodiments described above, but can in principle also be implemented in a completely different manner.

A latching device of the type described here can in principle be used on very different connector parts and is in this respect not limited to connector parts of the type shown in the figures. A plug connector part can in principle have one or more plug-in sections, wherein the plug-in section or sections can be shaped like plugs or sockets. Electrical contact elements or other contact elements, for example optical contact elements or the like, can be arranged on such plug-in sections.

List of reference symbols

1 connector part

10 housing

100 faceplate

101 back

102 locking projection

103 locking opening

104 slot

105 screw hole

107 bracket

108 warehouse opening

109 locking receptacle 11 plug-in section

110 connector 12; 12 ‘locking element 120 actuating section 121 locking projection 122 locking arm

123 base

124 side panel

125 bridge

126 locking spring

127 Recording

128 locking projection 13; 13 ‘locking element

130 bolt shank

131 tenon section

132; 132 ‘locking surface

133 flange

134 side panel

135 form-fit section

136 Tool engagement

137 Release retainer

138 Locking contour 2 Mating connector part

20 housing 21 locking opening

A direction of arrangement

B direction of actuation

D axis of rotation E plug-in direction

R locking device

Claims

Claims

1. Connector part (1) for connecting to a mating connector part (2) with

- a housing (10),

- A plug-in section (11) which can be plugged into the mating connector part (2), and

- A latching device (R) which has a latching element (12; 12 ') which is designed to fix the plug connector part (1) in a latching position in a latching manner with respect to the mating plug connector part (2) and to move it out of the latching position in an actuating direction (B) is adjustable relative to the housing (10) in order to release the connector part (1) from the mating connector part (2), characterized in that the latching device (R) is a locking element (13; 13 ') which is adjustable relative to the latching element (12; 12') ), which blocks an adjustment of the latching element (12; 12 ') in a locking pitch and which, in an unlocked position, releases the latching element (12; 12') for an adjustment in the actuation direction (B) from its latching position, the latching element (12 ; 12 ') surrounds the locking element (13; 13') at least in sections.

2. connector part (1) according to claim 1, characterized in that the

Locking element (13; 13 ‘) is rotatable about an axis of rotation (D) relative to the housing (10).

3. Connector part (1) according to claim 1 or 2, characterized in that the locking element (13; 13 ') has at least one locking surface (132, 132') which in the locking pitch of the locking element (13; 13 ') with the locking element (12; 12 ') cooperates.

4. connector part (1) according to claim 3, characterized in that the

The locking element (13; 13 ') has a bolt shank (130) on which the at least one locking surface (132; 132') is formed.

5. Plug connector part (1) according to claim 3 or 4, characterized in that the locking element (13) has a web (125) which faces the locking surface (132) of the locking element (13) in the locking division of the locking element (13) and in this way a movement of the locking element (13) along the actuation direction (B) is prevented.

6. Connector part (1) according to claim 5, characterized in that the locking element (13) has at least one unlocking receptacle (137) which faces the web (125) of the locking element (12) in the unlocked position of the locking element (13) so that the web (125) of the latching element (12) engages in the unlocking receptacle (137) when the locking element (13) moves along the actuating direction (B).

7. Plug connector part (1) according to claim 3 or 4, characterized in that the latching element (12 ') has at least one locking spring (126) which in the locking pitch of the locking element (13') through the locking surface (132 ') of the locking element ( 13 ') is pushed into a locking receptacle (109) of the housing (10).

8. connector part (1) according to claim 7, characterized in that the locking surface (132 ‘) of the locking element (13‘) is formed on a projection of the locking element (13 ‘).

9. Connector part (1) according to one of the preceding claims, characterized in that the locking element (13; 13 ') has locking contours (138) which in the locking division and / or in the unlocked position of the locking element (12; 12') with the Housing (10) interlocking locking.

10. Plug connector part (1) according to one of the preceding claims, characterized in that the latching element (12; 12 ') has a latching arm (122) and a latching projection (121) formed on the latching arm (122) for latching connection with the mating connector part (2) in the latching position of the latching element (12; 12 ').

11. Connector part (1) according to one of the preceding claims, characterized in that the latching element (12; 12 ') has an actuating section (120) which can be actuated by a user for adjusting the latching element (12; 12') in the actuating direction (B) relative to the housing (10).

12. Connector part (1) according to claim 10 and claim 11, characterized in that the locking element (13; 13 ‘) is arranged in relation to the actuating direction (B) between the latching arm (122) and the actuating portion (120).

13. Connector part (1) according to one of the preceding claims, characterized in that the latching element (12; 12 ‘) forms a receptacle (127) through which the locking element (13; 13‘) extends.

14. Plug connector part (1) according to one of the preceding claims, characterized by a plurality of plug-in sections (101) lined up along a lined-up direction (A) for plugging connection with the mating plug-in connector part (2).

15. Connector part (1) for connecting to a mating connector part (2), in particular according to one of the preceding claims, with

- a housing (10),

- A plug-in section (11) which can be plugged into the mating connector part (2), and

- A latching device (R) which has a latching element (12; 12 ') which is designed to fix the connector part (1) in a latching position in a latching manner with respect to the mating connector part (2), and out of the latching position in an actuating direction (B) is adjustable relative to the housing (10) in order to release the connector part (1) from the mating connector part (2), characterized in that the latching device (R) is rotatable relative to the latching element (12; 12 ') about an axis of rotation (D) relative to the housing (10) while maintaining the axial position

Locking element (13; 13) with at least one locking surface (132, 132 ') which interacts with the locking element (12; 12') in a locking pitch of the locking element (13; 13 ') so that an adjustment of the locking element (12; 12 ') is blocked, the locking element (12; 12') being released from its locking position for adjustment in the actuating direction (B) in an unlocked position of the locking element (13; 13 ').

16. Arrangement with a connector part (1) according to one of the preceding claims and a mating connector part (2), with which the connector part (1) can be plugged in along the plug-in direction (E).