WO2019192655A1 - Electrical plug connector part and electrical plug connection system with lock - Google Patents

Abstract

The invention relates to an electrical plug connector part and plug connection system, with a rotatable locking sleeve a having locking means, wherein the plug connector part can be plugged into and releasably fixed to a mating connector part that has a tubular mating locking portion which is associated with the locking sleeve and which has a mating locking means complementary to the locking means, and wherein the locking sleeve and mating locking portion axially engage in each other when the connector part is plugged into the mating connector part and can be fixed to each other by a rotation of the locking sleeve, and the locking sleeve is held in the axial direction without play on the connector part housing by means of a tensioning spring, which is designed as a wave washer and is received in a rotationally fixed manner.

Description

 Electrical connector part and electrical connector system with lock

description

The invention relates to an electrical connector part, with a rotatably mounted on a plug housing housing locking sleeve, wherein the connector part is plug-in mating with a mating connector and releasably fixable to this, the one of the locking sleeve associated, formed on a mating connector housing tubular Gegenverriegelungsabschnitt for releasably securing the connector part having the mating connector part, wherein the locking sleeve has at least one locking means and the counter-locking portion at least one complementarily executed Gegenverriegelungsmittel, which are coupled to each other, and the locking sleeve in mating with the mating connector part connector part the Gegenverriegelungsabschnitt encompassing arranged and operatively connected to each other by turning the locking sleeve relative to the Gegenverriegelungsabschnitt are, wherein the locking sleeve by means of a in e Innenumfangsnut the locking sleeve and in an outer circumferential groove of the plug housing housing engaging, supported against the plug housing part and / or the locking sleeve, designed as a wave spring loading spring in the axial direction on the plug part housing held, in particular is received without play. The invention also relates to an electrical connector system comprising such a connector part.

Electrical connector parts for connection to a mating connector part and electrical connector systems, comprising a connector part and a mating connector part, of the type mentioned, are known from the prior art. By way of example, reference is made to the publications DE 20 2005 000 229 U1 and DE 10 2005 026 148 B4.

DE 10 2005 026 148 B4 discloses a connector coupling, in particular for multi-pole electrical line connections, consisting of a first coupling half, which at least one coupling housing, a contact carrier housed therein including contact elements and a contact carrier and optionally its contact elements at least over part of its axial length encompassing, with an external thread for selectively screwing a rotatably coupled to a second coupling half union nut or for connecting a rotatably coupled to a second coupling half, equipped with means for bringing about a quick-locking connection member suitable region of the coupling housing. In this case, in connection with a non-threaded connecting element of the second coupling half at a located outside the external thread portion of the externally threaded portion of the first coupling housing locking means for quick locking formed, which complementary counterparts are assigned to the connecting element, wherein the connecting element of the second coupling half preferably from a threadless sleeve is formed and held by means of a supported against the housing of the second coupling half loading spring, in particular a trained as a wave spring loading spring in the axial direction, in particular kept free of play. The corrugated spring is supported on the one hand against an end face of the housing of the second coupling half and on the other hand cooperates with a against a shoulder in the inner _¬ circumferential wall of the sleeve formed as a connecting element of the second coupling half supported support ring, wherein the end face of Housing and the shoulder in the inner peripheral wall of the sleeve form and limit an outer circumferential groove of the housing.

A disadvantage is considered in this known connector coupling that on the one hand, the connecting element, which is held in the axial direction of the loading spring play on the clutch housing, in the circumferential direction has no clearly defined positions relative to the clutch housing of the second coupling half, i. and that an additional part is needed to form the outer circumferential groove of the housing.

Based on the cited prior art, the invention has for its object to propose a possibility in which the connecting sleeve formed as a locking element has at least one defined unlocking and locking position with respect to the supporting housing, wherein the achievement or leaving these positions preferably haptically or acoustically from User is noticeable.

This object is achieved by an electrical connector part and an electrical connector system with the features of the two independent claims 1 and 10. Further advantageous embodiments can be found in the respective dependent claims.

In the electrical connector part according to the invention, the locking sleeve is held by means of engaging in an inner circumferential groove of the locking sleeve and in an outer circumferential groove of the plug housing housing corrugated spring in the axial direction without play on the plug part housing and is supported against the plug housing part and / or the locking sleeve. According to the invention, it is provided that the corrugated spring is held against rotation in the outer circumferential groove of the plug part housing or in the inner circumferential groove of the locking sleeve. If the corrugated spring is fixed in the circumferential direction in the outer circumferential groove of the plug-part housing, then it engages rotatably in the inner circumferential groove of the Locking sleeve. In the other case, ie when the corrugated spring is fixed in the circumferential direction in the inner circumferential groove of the locking sleeve, it engages rotatably in the outer peripheral groove of the connector part housing. In both cases, it is rotatable in the respective groove in which the wave spring rotatably, only with rotational resistance, which is determined by the axial spring force of the corrugated spring and its bias in the inner circumferential groove of the locking sleeve and / or in the Außenumfangsnut of the plug housing part. Thus, the corrugated spring, which holds the locking sleeve and the connector housing together, a limited degree of freedom in their mobility relative to the plug housing part or the locking sleeve. This is a basic requirement for a defined unlocking and / or locking position. Material and process conditionally have the plug housing part and the locking sleeve manufacturing tolerances in their dimensions, which are compensated by the wave spring by the corrugated spring with bias, ie compressed into the outer circumferential groove of the plug housing part and in the inner circumferential groove of the locking sleeve is inserted.

Preferably, the connector part according to the invention has a corrugated spring which is open in the circumferential direction and has a spring gap. Thus, this is resilient in the direction of contact and thus can be easily inserted into the inner circumferential groove of the locking sleeve and in the Außenumfangsnut of the connector housing part to hold the locking sleeve and the connector housing part together. The corrugated spring has in the axial direction wave crests and intervening wave troughs. The spring gap of the corrugated spring can change in its width, when the corrugated spring in the axial direction pressure is applied, ie changes the height of the wave crests or the depth of the troughs. The height of the wave crests and the depth of the wave troughs are greater than a groove width of the outer circumferential groove of the plug part housing and the inner circumferential groove of the locking sleeve. As a result, it bears on both edges of the outer circumferential groove of the plug part housing and the inner circumferential groove with the same clamping force. In this case, dimensional tolerances of the corrugated spring itself play no role. In any position of the locking sleeve relative to the plug housing part acts a sufficient clamping force that complicates an undesirable change in position of the locking sleeve relative to the plug housing part. As long as the bias of the wave spring is greater than the load from a vibration amplitude, the system requires no additional friction brake, for example in the form of an elastic ring element. When turning the locking sleeve on the connector housing part is both in the locking process as well as the unlocking process from the beginning of a clamping force available.

In an advantageous embodiment of the invention, in the connector part, the outer peripheral groove of the connector part housing or the inner peripheral groove of the locking sleeve at least one positioning web for the corrugated spring, which is preferably arranged on a side edge of the outer circumferential groove or a side edge of the inner circumferential groove. It goes without saying that such a bridge must not be present in both grooves, since this would not allow twisting of the locking sleeve on the plug part housing. Instead of being arranged on the side flanks of one of the two grooves, the positioning web can also protrude from the bottom of these grooves.

In a variant of the plug connector part according to the invention, the corrugated spring is preferably aligned relative to the plug part housing or the locking sleeve such that the positioning web passes through the spring gap and thus fixes the wave spring against rotation. In another variant of the connector part, the corrugated spring is advantageously aligned relative to the connector part housing or the locking sleeve such that the at least one positioning web extends in a wave trough of the corrugated spring. Also in this way, the corrugated spring can be fixed in the circumferential direction play or play with no rotation in the inner circumferential groove of the locking sleeve or in the outer circumferential groove of the connector part housing. The positioning web in the trough may also preferably form a compression limiting web for the wave spring, which limits an axial compression travel of the wave spring. Such a compression limiting web in a wave trough may be present in addition to a positioning web passing through the spring gap. In an expedient embodiment of the invention, in the plug connector part, the side flank of the inner circumferential groove of the locking sleeve or the side flank of the outer peripheral groove of the plug part housing is formed wave-shaped, wherein the contour of the side flank is preferably adapted to the shape of the wave spring. In this variant, the wave contour is of course realized in that inner circumferential groove of the locking sleeve or the outer circumferential groove of the plug part housing, in which not the positioning web described above is formed, which holds the wave spring against rotation. Thus, an enlargement of the axial spring travel when turning the locking sleeve relative to the plug housing part is achieved, so that the load of the wave spring with a larger vibration amplitude does not lead to an automatic unwanted twisting of the locking sleeve on the plug housing, and so the locking of connector part with a mating connector is particularly safe. This is promoted in particular by the fact that the wave height of the corrugated spring is greater than a width of the outer circumferential groove of the plug part housing or the inner circumferential groove of the locking sleeve, and the corrugated spring is axially compressed in the outer circumferential groove and / or the inner circumferential groove is inserted. Preferably, in various embodiments of the invention, the at least one locking means of the locking sleeve and the at least one counter-locking means of the counter-locking portion are formed as full thread, circumferentially segmented partial thread or in the manner of a bayonet lock or a bayonet lock. The locking sleeve and the counter-locking portion engage at least partially axially into one another when plugged with the mating connector part connector part and are releasably fixed by turning the locking sleeve to each other. In this case, the at least one locking means of the locking sleeve may be formed on the outside or inside of the locking sleeve. The at least one complementarily executed counter locking means is formed corresponding to each other at the Gegenverriegelungsabschnitt the mating male part.

In a preferred embodiment of the invention, the connector part on the locking sleeve and the plug housing part rotational stops, which limit the rotational movement of the locking sleeve relative to the plug part housing. Of course, these are only useful in embodiments of the invention in which the at least one locking means of the locking sleeve and the at least one counter locking means of Gegenverriegelungsabschnittes are not formed as full thread, but as circumferentially segmented partial thread or like a bayonet lock or a bayonet lock. In this case, the rotational stops of the locking sleeve are preferably formed by axially extending longitudinal walls of a sleeve inner recess and the rotational stops of the plug member housing of longitudinal flanks, preferably a radially projecting housing outer pin. The circumferential width of the sleeve inner recess is significantly larger than the corresponding width of the housing outer pin. They are preferably selected such that an unlocking position and a locking position are realized, can be rotated between the locking sleeve. The unlocking position and the locking position are separated by a typical angle of rotation of about 30 to 100 degrees. In the locking position is a longitudinal edge of the housing outer pin in abutment with the associated longitudinal wall of the sleeve inner recess, in the locking position, the other longitudinal edge of the housing outer pin on the other longitudinal wall of the sleeve inner recess.

In an advantageous embodiment of the connector part according to the invention, the connector part has an additional anti-rotation, which consists of at least one externally fixed to the connector housing part spring element and at least one associated therewith, formed on the locking sleeve latching latch. This rotation is effective only in the locked position of the locking sleeve on the connector housing part. It also allows the engagement of the spring element in the latching latch and the disengagement of the spring element from the latching haptic and acoustic Perception. The spring element is preferably formed by a protruding bent leaf spring blank and lies immovably in an outer recess of the plug part housing, wherein the projection of the Blattfeder- cutout protrudes beyond the outer recess and can thus engage in the locking latch of the locking sleeve in the locking position of the connector part.

The electrical connector system according to the invention, comprising a connector part having a locking sleeve rotatably mounted on a connector housing, and having a mating connector part having a tubular counter locking portion associated with the locking sleeve and formed on a mating connector part housing for releasably securing the connector part to the mating connector part Connector part with the features described above.

In addition to the rotationally fixed fixing of the corrugated spring in the outer peripheral groove of the plug housing part or in the inner circumferential groove of the locking sleeve is a further advantage of the proposed solution that at least a part less is needed, which simplifies the assembly of the connector part and reduces its manufacturing costs.

The features and combinations of features mentioned above in the description as well as the features and feature combinations mentioned below in the description of the figures and / or shown alone in the figures can be used not only in the respectively indicated combination but also in other combinations or in isolation. For carrying out the invention, not all features of claim 1 must be realized. Also, individual features of the independent or independent claims may be substituted by other disclosed features or combinations of features.

All of the claims, the description or the drawings resulting features and / or advantages, including design details, spatial arrangement and method steps can both for themselves as well as in a variety of combinations essential to the invention. In the figures, the same or similar components are identified by the same or similar reference numerals.

The invention will be explained in more detail below with reference to an exemplary embodiment shown in the drawing. They show in a schematic representation:

1 shows an inventive electrical connector system, comprising a connector part, with a held by a corrugated spring locking sleeve, and a mating connector part, with a Gegenverriegelungsabschnitt, in perspective view; Figure 2 shows the mating connector part of Figure 1, in an enlarged perspective

 Presentation;

3 shows the connector part of Figure 1, in an enlarged perspective view

 Presentation;

Figure 4 shows the connector part of Figure 3, in perspective view as

 Exploded;

Figure 5 shows the connector part of Figure 3, in longitudinal section illustration; Figure 6 shows the connector part of Figure 3, in perspective view without locking sleeve;

Figure 7 shows the connector part of Figure 6, with a different angle; Figure 8 shows the wave spring of Figure 4, in an enlarged perspective

 Presentation; and

9 shows the connector part of Figure 3, in cross-sectional view.

1 shows an inventive electrical connector system 1, with a connector part 2, which has a rotatably mounted on a plug housing part 3 locking sleeve 4, and with a mating connector part 5, the one of the locking sleeve 4 associated, formed on a mating connector housing 6 tubular Gegenverriegelungsabschnitt 7 for releasably securing the connector part 2 on the mating connector part 5 has.

FIG. 2 shows the mating plug part 5 in an enlarged view. The mating connector housing 6 has a flange plate 8 for attachment to a machine housing, from which the counter locking portion 7 projects vertically. On the counter-locking portion 7 Gegenverriegelungs- means 9 are arranged for the locking sleeve 4 outside, which are formed as part-thread segmented in the circumferential direction and a quick-release and quick release of the connector part 2 with or from the mating connector part 5 allow.

FIG. 3 shows the connector part 2 enlarged. This has, as the figure 4 better illustrates, in addition to the plug part housing 3 and the locking sleeve 4, a connection-side cap 10, a wave spring 11 and a spring element 12. The spring element 12 and the wave spring 11 are covered by the locking sleeve 4 in FIG. These are located between the locking sleeve 4 and the plug housing part 3 in the overlapping area. The exact arrangement of the wave spring 11 and the spring element 12 and their function will be described below. The locking sleeve 4 has inside on a Einsteckseite 13 locking means 14 which are associated with the Gegenverriegelungsmittel 9 mating connector part 5, complementary thereto and cooperate in the locked state of the electrical connector system. In the plug part housing 3, a contact carrier, not visible from the outside, is accommodated, which comprises a number of electrical plug contacts. This is enclosed by the cap 10 in the plug part housing 3.

5 shows the connector part 2 in longitudinal section illustration. In this figure, the wave spring 11 and the spring element 12 are visible. It can also be seen here that the closure cap 10 is screwed to the plug part housing 3 is. The locking sleeve 4 is rotatably mounted on the plug part housing 3 and held by the acting as a loading spring wave spring 11 in the axial direction without play on the plug part housing 3. The spring element 12 forms an additional anti-rotation for the locking sleeve 4. It is fixed on the outside of the plug housing part 3 immovable and cooperates with a visible in the figure 9 locking latch 15. This rotation is effective only in the locked position of the locking sleeve 4 on the connector housing part 3. It also allows the user when snapping the spring element 12 into the latching latch 15 and when disengaging the spring element 12 from the latching latch 15 a haptic and acoustic perception. The spring element 12 is formed by a protruding bent leaf spring blank and is, as the figure 6 can be removed, in an outer recess 16 of the plug part housing 3 a.

Figures 6, 7 show the connector part 2 with not assembled locking sleeve 4 with different angles in a perspective view. In FIG. 6, the outer recess 16 of the plug part housing 3 and the spring element 12 inserted therein are viewed approximately perpendicularly from above, while the viewing direction in FIG. 7 is offset by approximately 120 degrees in the circumferential direction. The corrugated spring 7, which holds the locking sleeve 4 in the axial direction without play on the plug housing part 3 engages on the one hand in an outer circumferential groove 17 of the plug housing part 3, and on the other in a visible in the figure 5 inner circumferential groove 18 of the locking sleeve 4. In the illustrated embodiment the invention, the corrugated spring 11 in the outer circumferential groove 17 of the plug housing part 3 against rotation and in an inner circumferential groove 18 of the locking sleeve 4 is rotatably received. For this purpose, the outer circumferential groove 17 of the plug part housing 3 has a positioning web 19, which secures the wave spring 11 in the circumferential direction against twisting. In addition to the positioning web 19 which can be seen in FIG. 6, as can be seen from FIG. 7, a further positioning web 19, 19 'is arranged, which delimits an axial compression path of the wave spring 11 as a compression limiting web. Such a positioning / compression limiting web 19, 19 'in the trough 22 can also without the Positioning web 19, which passes through the spring gap 20 of the wave spring 11 may be formed.

In the figure 8, the wave spring 11 is again shown alone and enlarged. It is open in the circumferential direction and has a spring gap 20. In addition, wave corrugation 21 and wave troughs 22 are formed by the wavy contour, with which the compressed mounted wave spring 11 is supported against the plug part housing 3 and the locking sleeve 4. In the embodiment shown in Figure 6, the wave spring 11 is largely against rotation in the Außenumfangsnut 17 of the plug housing part 3 received by the corrugated spring 11 is aligned relative to the plug housing part 3 such that the positioning web 19 passes through the spring gap 20.

In the embodiment shown in Figure 7, the wave spring 11 is thereby largely against rotation in the outer circumferential groove 17 of the plug housing part 3 added that the wave spring 1 1 relative to the plug housing part 3 is aligned such that the positioning web 19 extends in a wave trough 22 of the wave spring 11 , The positioning web 19 is in this case arranged on a side flank 23 of the outer circumferential groove 17 of the plug part housing 3.

The connector part 2 according to the invention has in the illustrated embodiment, a rotation limitation for the locking sleeve 4. This is newly illustrated in FIG. This rotation stops 24 and 25 are provided which limit the rotational movement of the locking sleeve 4 relative to the plug part housing 3. The rotational stops 24 of the locking sleeve 4 are formed by axially extending longitudinal walls 26 of a sleeve inner recess 27 and the rotational stops 25 of the plug part housing 3 of longitudinal edges 28 of a radially projecting housing outer pin 29.

Claims

claims

1. Electrical connector part (2), with a on a plug housing part (3) rotatably mounted locking sleeve (4), wherein the connector part (2) with a mating connector plug-in and releasably fixable to this, one of the locking sleeve (4) associated with a tubular counter-locking portion designed to releasably fix the connector part (2) to the mating connector part, wherein the locking sleeve (4) has at least one locking means (14) and the counter-locking part has at least one complementarily executed counter-locking means which can be coupled together, and the locking sleeve (4 ) in the mating connector part plugged together connector part (2) the Gegenverriegelungsabschnitt encompassing and can be operatively connected to each other by turning the locking sleeve (4) against the Gegenverriegelungsabschnitt, wherein the locking sleeve (4) by means of a in a Innenumfangsnut (18) of the locking sleeve (4) and in an outer circumferential groove (17) of the plug part housing (3) engaging, against the plug part housing (3) and / or the locking sleeve (4) supported, designed as a wave spring (11) Loading spring held in the axial direction on the plug part housing (3), in particular held without play, characterized in that the corrugated spring (11) in one Außenumfangsnut (17) of the plug part housing (3) or in an inner circumferential groove (18) of the locking sleeve (4) is received against rotation.

2. Connector part according to claim 1, characterized in that the corrugated spring (11) is open in the circumferential direction and has a spring gap (20).

3. Connector part according to claim 1, characterized in that the outer circumferential groove (17) of the plug part housing (3) or the inner circumferential groove (18) of the locking sleeve (4) has at least one positioning web (19) for the wave spring (11), preferably at one Side edge (23) of the outer circumferential groove (17) or a side edge (23) of the inner circumferential groove (18) is arranged.

4. Connector part according to claim 2 and 3, characterized in that the corrugated spring (11) relative to the plug housing part (3) or the locking sleeve (4) is aligned such that the positioning web (19) passes through the spring gap (20).

5. Connector part according to claim 2 and 3, characterized in that the corrugated spring (11) relative to the plug housing part (3) or the locking sleeve (4) is aligned such that the at least one positioning web (19) in a trough (22) of Corrugated spring (11) extends, and preferably a compression limiting web (19 ') for the wave spring (11) which limits an axial compression travel of the wave spring (11).

6. Connector part according to one or more of the preceding claims, characterized in that a wave height of the wave spring (11) is greater than a width of the outer circumferential groove (17) of the plug part housing (3) or the inner circumferential groove (18) of the locking sleeve (4), and the corrugated spring (1 1) axially compressed in the outer circumferential groove (17) and / or the inner circumferential groove (18) is inserted.

7. Connector part according to one or more of the preceding claims, characterized in that the side edge of the inner circumferential groove (18) of the locking sleeve (4) or the side edge (23) of the outer circumferential groove (17) of the plug part housing (3) is wave-shaped, wherein the contour of Side edge (23) is preferably adapted to the shape of the wave spring (1 1).

8. Connector part according to one or more of the preceding claims, characterized by rotation stops (24, 25) which limit the rotational movement of the locking sleeve (4) relative to the plug housing part (3), wherein preferably the rotation stops (24) of the locking sleeve (4) of axially extending longitudinal walls (26) of a sleeve inner recess (27) and the rotation stops (25) of the plug part housing (3) of longitudinal edges (28) of a radially projecting housing outer pin (29) are formed.

9. Connector part according to one or more of the preceding claims, characterized in that the connector part (2) has an anti-rotation, of at least one on the plug part housing (3) externally fixed spring element (12) and at least one assigned to this, inside the locking sleeve (4) formed latching latch (15).

10. Electrical connector system (1), with a connector part (2) having a rotatably mounted on a plug housing part (3) locking sleeve (4), and with a mating connector part (5), one of the locking sleeve (4) associated, on a mating plug housing part (6) formed tubular Gegenverriegelungsabschnitt (7) for releasably securing the connector part (2) on the mating connector part (5), wherein the locking sleeve (4) at least one locking means (14) and the Gegenverriegelungsabschnitt (7) outside at least a complementary executed Gegenverriegelungsmittel (9), which are coupled together, and the locking sleeve (4) with the mating connector part (5) mated connector part (2) the The locking sleeve (4) by means of a in an inner circumferential groove (18) of the locking sleeve (4) and in an outer circumferential groove (7) umordenbar and engage each other by turning the locking sleeve (4) operatively 17) of the plug part housing (3) engaging, against the plug housing part (3) and / or the locking sleeve (4) supported as a wave spring (11) formed loading spring in the axial direction without play on the plug housing part (3) is held, characterized by a connector part ( 2) with the features of at least one of the preceding claims 1 to 9.