EP2362494A1 - Connector - Google Patents

Abstract

The connector (1) has plug and socket parts (2, 3) comprising respective contact carriers (5, 6), where the contact carrier of the socket part carries a connecting nut (9). Locking units are connected with the connecting nut in a torque-proof manner, and works together with counter locking units that are connected with the contact carrier of the socket part in a torque-proof manner. A sealing element works between the contact carriers, and designed as a profile seal (15) with radial and axial sealing surfaces (19, 20), where the contact carrier of the plug part has a thick end section (42).

Description

The invention relates to a connector specified in the preamble of claim 1 genus.

From the US 2007/0145744 A1 a connector is known which comprises a plug part and a female part, which are sealed to each other via an interposed O-ring. For the O-ring, a sufficient sealing effect must be ensured. Inadequate tightening of the connector may result in leaks. To ensure sufficient tightening, it is known to tighten connectors with a torque wrench.

The invention has for its object to provide a connector of the generic type, in which a simple way a good seal is ensured.

This object is achieved by a connector having the features of claim 1.

By using a profile seal as a sealing element sealing can be ensured in a simple manner. When using a profile seal, the union nut is used not to ensure the sealing effect, but merely to protect the profile seal from dirt and to secure plug part and socket part against each other. The sealing effect is achieved even without defined contact pressure. As a result, the union nut can be tightened by hand in the connector according to the invention.

Advantageously, the profile seal has at least one radial sealing surface. The radial sealing surface is already working when the connector is not fully tightened. This ensures a good seal. The profile seal can also compensate for occurring tolerances comparatively well. Advantageously, the profile seal additionally or alternatively on at least one axial sealing surface. An additional axial sealing surface, the sealing effect can be ensured even if the radial sealing surface is damaged, for example.

A simple production results when the profile seal is molded onto one of the contact carrier. Accordingly, the profile seal does not have to be mounted as a separate component and can not be lost during operation due to the fixed connection with the contact carrier. This results in a simple structure with few individual parts. The profile seal is held in particular on the socket part and is located on the housing of the plug part.

Advantageously, the locking means and counter-locking means form an axial latching, which acts in the direction of the longitudinal center axis of the connector. In particular, additional or alternative provided that the latching means and counter-latching means form a radial latching, which acts in the radial direction of the connector. A particularly advantageous design results when both a radial and an axial latching is provided.

The fact that both a radial and an axial latching is provided, it is achieved that the operator feels already clearly before reaching the fully screwed state latching. When the connector is largely tightened, the radial latch also engages. This amplifies the click sensation so that the operator senses that the connector is largely tightened. In particular, with connectors that include a seal, the user senses when the connector is properly tightened and thus tight.

Advantageously, the axial latching comprises at least one axial catch, which cooperates with latching depressions. The number of axial detents is in particular smaller than the number of detent recesses. For the radial locking at least two latching arms are advantageously provided, wherein advantageously in each position of the latching means and counter-latching means at least one latching arm is arranged in a region without radial notches. It is advantageous in each position of the locking means and counter-locking means at least one locking arm in engagement. By alternately engaging locking a good mold release of the contact carrier is achieved in the production in an injection molding process. Since the forces are distributed over several locking arms and notches, the wear is lower overall. The acting in the axial direction locking recesses result in a clear haptic feedback. Since the axial latching acts when the connector is not fully tightened, the nut can still dodge in the axial direction, so that the locking recesses lead to a significant haptic feedback, but not to excessive complicating the tightening of the connector. The radial locking engages in addition to the axial locking.

A simple design results when the non-rotatably provided with the nut locking means are formed on a locking ring which is rotatably connected to the nut. The cap nut has in particular a bent edge which holds the locking ring. A simple construction is achieved if at least one latching arm is formed on the latching ring.

Fig. 1

einen Schnitt durch einen Steckverbinder,

Fig. 2

eine perspektivische Darstellung des Buchsenteils des Steckverbinders aus Fig. 1,

Fig. 3

die Profildichtung des Steckverbinders aus Fig. 1 in perspektivischer Darstellung,

Fig. 4

eine ausschnittsweise vergrößerte Darstellung des Buchsenteils im Bereich der Profildichtung in Schnittdarstellung,

Fig. 5

eine Seitenansicht des Buchsenteils,

Fig. 6

einen Schnitt entlang der Linie VI-VI in Fig. 5,

Fig. 7

eine Schnittdarstellung entsprechend Fig. 6 in anderer Position der Rastmittel,

Fig. 8

eine Explosionsdarstellung des Kontaktträgers und des Rastrings des Buchsenteils aus Fig. 1,

Fig. 9

einen Schnitt entsprechend der Linie VI-VI in Fig. 5 durch ein Ausführungsbeispiel eines Buchsenteils,

Fig. 10

einen Schnitt durch das Buchsenteil aus Fig. 9 in anderer Position der Rastmittel.

An embodiment of the invention will be explained below with reference to the drawing. Show it:

Fig. 1

a section through a connector,

Fig. 2

a perspective view of the female part of the connector Fig. 1 .

Fig. 3

the profile seal of the connector Fig. 1 in perspective,

Fig. 4

a fragmentary enlarged view of the female part in the field of profile seal in a sectional view,

Fig. 5

a side view of the socket part,

Fig. 6

a section along the line VI-VI in Fig. 5 .

Fig. 7

a sectional view accordingly Fig. 6 in another position of the locking means,

Fig. 8

an exploded view of the contact carrier and the locking ring of the socket part Fig. 1 .

Fig. 9

a section corresponding to the line VI-VI in Fig. 5 by an embodiment of a socket part,

Fig. 10

a section through the socket part Fig. 9 in another position of the locking means.

The in Fig. 1 Connector 1 shown comprises a plug part 2 and a socket part 3. The plug part 2 comprises a contact carrier 5, on which a sleeve part 11 is mounted, which surrounds the contact carrier 5. The contact carrier 5 has on its side facing the socket part 3 a thickened end portion 42 which on its side facing away from the socket part 3 forms a stop 14 for the sleeve part 11 against which the sleeve part 14 abuts. The sleeve member 14 has on the side facing the socket part 3 on its outer side an external thread 12. The sleeve member 11 also has a Operating portion 45 on the side facing away from the socket part 3, on which the sleeve part 11 can be held. The sleeve part 11 can be rotatably mounted on the contact carrier 5.

As Fig. 2 shows, the plug part 2 has a conventional structure. The contact carrier 5 has a plurality of receptacles 7 for receiving contact pins. The contact pins, not shown, project into a receptacle 21 of the contact carrier 5.

The female part 3 comprises a contact carrier 6, which has a plurality of receptacles 8 for contact sockets, not shown, in the contact pins in the in Fig. 2 shown assembled state of the connector 1 protrude. The contact carrier 6 has a radially outwardly projecting edge 13, on which a profile seal 15 is held. The profile seal 15 is molded onto the contact carrier 15 in two-component injection molding. In this case, the contact carrier 6 advantageously consists of a largely dimensionally stable plastic and the profile seal 15 made of an elastic plastic such as silicone or rubber material. However, it can also be provided that the profile seal 15 is formed as a separate component and is fixed to the contact carrier 6, for example by tying the profile seal 15 in a receiving groove of the contact carrier. 6

On the female part 3, a union nut 9 is arranged rotatable about a longitudinal center axis 4. The union nut 9 is rotatably connected to a locking ring 16 which rests against the profile of the seal 15 facing away from the edge 13. The union nut 9 has an internal thread 10 which is screwed into the external thread 12 of the sleeve part 11 and thus secures the socket part 3 in the direction of the longitudinal central axis 4 on the plug part 2. The union nut 9 engages over the locking ring 16, the edge 13 of the contact carrier 6 and the profile seal 15th

As Fig. 1 shows, the profile seal 15 has an axial sealing surface 20 which bears against an end face 44 of the end portion 42 of the contact carrier 5. The profile seal 15 has a sealing lip 22, which projects to the plug part 2 and on the inner circumference of a radial sealing surface 19 is formed. The sealing surface 19 abuts a circumferential surface 43 of the end portion 42 of the contact carrier 5. The profile seal 15 thereby acts in the axial and radial direction relative to the contact carrier 5 and seals the receptacle 21 from the environment. The sealing surfaces 19, 20 of the profile seal 15 rest exclusively on the contact carrier 5. It is advantageous no contact of the profile seal 15 given to the rotatably mounted sleeve portion 11, so that no rotational relative movement takes place on the profile seal 15. The profile seal 15 seals with the radial sealing surface 19 already when the plug part 2 and the female part 3 are not yet firmly connected, the internal thread 10 of the union nut 9 is thus only partially screwed into the external thread 12 of the sleeve part 11. As a result, no defined screw-in depth or defined tightening force of the screw connection is necessary for achieving the required sealing effect. The design of the sealing surfaces 19 and 20 is also in the FIGS. 2 and 3 shown.

Fig. 4 shows the design of the profile seal 15 in detail. The profile seal 15 is injection molded with a first adhesive surface 23 on the edge 13. With a radially inner second adhesive surface 24, the profile seal 15 is held on the main body of the contact carrier 6, which has an enlarged outer diameter in the region of the second adhesive surface 24. By injection molding on two perpendicular surfaces results in a good adhesion.

The profile seal 15 has on the side facing away from the edge 13 an outer diameter a, which is advantageously approximately in the range of the nominal diameter of the thread of the connector 1. In particular, the outer diameter a is slightly smaller than the thread diameter and is advantageously about 95% to about 100% of the nominal diameter. The also in Fig. 3 shown outside 26 of the profile seal 15 is slightly conical. The outer diameter a decreases from the side facing away from the edge 13 to the edge 13 facing side to a diameter a ', which is advantageously smaller by about 0.5% to about 3% of the thread diameter than the diameter a.

In the area of the radial sealing surface 19, the profile seal 15 has an inner diameter c, which is advantageously about 80% to about 88% of the nominal diameter of the thread. The radial sealing surface 19 is arranged at a distance f to the edge 13, which is advantageously about 15% to about 30% of the thread diameter. The total length e of the profile seal 15 in the direction of the longitudinal center axis 4 of the connector. 1 is advantageously about 20% to about 40% of the nominal diameter of the thread, in particular about 25% to about 35%.

Between the radial sealing surface 19 and the axial sealing surface 20, a notch 39 is provided whose free inner diameter b is advantageously about 85% to about 95% of the thread diameter. The diameter b is greater than the inner diameter c of the radial sealing surface 19 and smaller than the outer diameter a of the profile seal 15. The notch 39 has the edge 13 a distance h, which is advantageously about 10% to about 15% of the thread diameter.

The axial sealing surface 20 has an average diameter d, which is advantageously about 70% to about 85%, in particular about 75% to about 80% of the thread diameter. The diameter d is smaller than the diameter a, b and c. The distance g of the axial sealing surface 20 to the edge 13 is advantageously greater than the distance h of the notch 39 and smaller than the distance f of the radial sealing surface 19. The distance g is advantageously about 10% to about 15% of the thread diameter.

The profile seal 15 is embodied in the region of the radial sealing surface 19, the axial sealing surface 20 and the region of the notch 39 with radii k, 1, m. The radius k in the region of the radial sealing surface 19 is advantageously about 1% to about 2% of the thread diameter. The radius 1 in the region of the notch 39 is advantageously about 0.5% to about 1.2%. The radius m in the region of the sealing surface 20 is advantageously about 2% to about 3% of the thread diameter, wherein the Sealing surface 20 with the radius m in the inner surface on which the second adhesive surface 24 is formed passes. The second adhesive surface 24 has a width i that is about 5% to about 10% of the nominal thread diameter. The inner diameter n of the profile seal 15 is advantageously about 60% to about 80%, in particular about 70% to about 75% of the thread diameter. Advantageously, the thread formed by the internal thread 10 and the external thread 12 is an M 12 thread.

As Fig. 1 and Fig. 8 show, between the locking ring 16 and the contact carrier 6, a radial latching 41 and an axial latching 40 is formed. As Fig. 1 shows, the locking ring 16 abuts against a stop 18 in the interior of the union nut 9. The union nut 9 has an edge 17 which is bent inwards and thus secures the locking ring 16 in the direction of the longitudinal central axis 4 in the circumferential direction in a form-fitting manner. For positive securing in the circumferential direction of the locking ring 16 has on the nut 9 side facing the in Fig. 8 shown toothing 46, in which the edge 17 engages. The edge 17 may be flanged, for example. Another fixation of the locking ring 16 on the union nut 9 may be advantageous. The locking ring 16 may also be formed integrally with the union nut 9.

Fig. 8 shows the design of the radial latching 41 and the axial latching 40. On the contact carrier 6 radial latches 28 and axial catches 27 are formed. The detents 27 and 28 are each trapezoidal in cross section. The detents 27 and 28 are each only over part of the circumference of the Contact carrier 6 arranged. There are four axial catches 27 arranged on the latching ring 16 facing the end face of the edge 13, each having a distance of 90 ° to each other. As well as the sectional views in 6 and 7 show, two groups of radial latches 28 are provided opposite each other, each comprising six latches 28 and each extending over a circumferential angle of about 90 °. As the 6 and 7 show two areas 25 are arranged without radial latches 28 between the two groups of notches 28.

As Fig. 8 shows, the locking ring 16 has axial locking recesses 29 which are arranged distributed on the edge 13 facing the end face uniformly over the entire circumference. On the inner circumference of the locking ring 16 has distributed over the circumference four locking arms 30, 32, 34, 36, which form part of the radial latch 32. When tightening the nut 9 is initially the axial latching 40 into engagement, which is formed by the axial detents 27 and the axial locking recesses 29. If the union nut 9 is largely attracted, the radial notches 26 reach the region of the latching ring 16 and come into engagement with the latching arms 30, 32, 34, 36. The radial notches 26 form the radial arms with the latching arms 30, 32, 34, 36 Latching 41.

The 6 and 7 show the design of the radial latching 41. The latching arms 30, 32, 34 and 36 are integrally formed with the locking ring 16 and each carry an inwardly projecting catch 31, 33, 35 and 37. Between the latching arms 30, 32, 34 and 36 and the main body of the locking ring 36 is one each Gap 38 is formed, which allows an elastic outward springs of the latching arms 30, 32, 34, 36.

Due to the arrangement of the detents 28 and the areas 25 without detents 28 are respectively oppositely arranged locking arms 30, 32, 34, 36 engaged or disengaged with detents 28. In the in Fig. 6 shown position of the contact carrier 6 and the locking ring 16, all catches 31, 33, 35 and 37 adjacent to a region 25 and a detent 28 are arranged. If the locking ring 16 relative to the contact carrier 6, as in Fig. 7 shown, further rotated in the illustration in the clockwise direction, so come the detents 33 and 37 on the latching arms 32 and 36 in engagement with the radial detents 28. The other two, each between the locking arms 32 and 36 arranged locking arms 30 and 34 are disengaged the latches 28, since they are arranged in the areas 25. As a result, in each case the oppositely arranged latching arms 30, 34 and 32, 36 alternately engage with the notches 28. As a result of the fact that radial detents 28 are not arranged on the entire circumference of the contact support 6, the releasability of the contact support 6 from the injection molding tool is simplified. Characterized in that always either the latching arms 30 and 34 or the latching arms 32 and 36 are engaged, a uniform locking is guaranteed. Since the latching arms 30, 32, 34, 36 are alternating and not permanently in use, the wear is reduced.

The FIGS. 9 and 10 show an embodiment of the locking ring 16, in which only two latching arms 30, 32 are provided with detents 31 and 33. The structure of the contact carrier 6 corresponds to that in the 6 and 7 shown construction. In the in the Fig. 9 and 10 shown design of the locking ring 16 is in each case a latching arm 30, 32 in engagement with the radial detents 28. In the in Fig. 9 shown position are both locking arms 30, 32 between radial latches 28 and the area 25. Upon rotation of the locking ring 16 in a clockwise direction, the catch 32 comes into engagement with the radial latches 28, while the catch 30 enters the area 25 without latches 28. Upon rotation in the counterclockwise direction of the locking arm 30 would come into engagement with the radial detents 28 and the locking arm 32 disengaged, so that here also an alternate locking on the latching arms 30, 32 is given, in each position of the locking ring 16 either the latching arm 30 or the latching arm 32 engages.

The alternating latching shown represents independent of the use of a profile seal 15 is an independent inventive idea.

Claims (14)

Connector with a plug part (2) and a socket part (3), wherein the plug part (2) and the socket part (3) each have a contact carrier (5, 6), wherein one of the contact carrier (6) carries a union nut (9), and wherein rotatably with the union nut (9) connected locking means are provided which cooperate with non-rotatably connected to the contact carrier (6) counter-locking means, and wherein the connector (1) has a sealing element which acts between the two contact carriers (5, 6),
characterized in that the sealing element is designed as a profile seal (15). Connector according to claim 1,
characterized in that the profile seal (15) has at least one radial sealing surface (19). Connector according to claim 1 or 2,
characterized in that the profile seal (15) has at least one axial sealing surface (20). Connector according to one of claims 1 to 3,
characterized in that the profile seal (15) is molded onto one of the contact carriers (6). Connector according to one of claims 1 to 4,
characterized in that the profile seal (15) on the socket part (3) is held and on the housing (11) of the plug part (2) rests. Connector according to one of claims 1 to 5,
characterized in that the latching means and counter-latching means form an axial latch (40) acting in the direction of the longitudinal central axis (4) of the connector (1). Connector according to claim 6,
characterized in that the axial latch (40) comprises at least one axial catch (27) which cooperates with latching recesses (29). Connector according to claim 7,
characterized in that the number of axial detents (27) is smaller than the number of detent recesses (29). Connector according to one of claims 1 to 8,
characterized in that the latching means and counter-latching means form a radial latch (41) which acts in the radial direction of the connector (1). Connector according to claim 9,
characterized in that the radial catch (41) comprises at least one radial catch (28) which cooperates with a latching arm (30, 32, 34, 36). Connector according to claim 10,
characterized in that at least two latching arms (30, 32, 34, 36) are provided, wherein in each position of the latching means and counter-latching means at least one latching arm (30, 32, 34, 36) in a region (25) without radial notches (28 ) is arranged. Connector according to one of claims 1 to 11,
characterized in that the non-rotatably connected to the union nut (9) locking means are formed on a locking ring (16) which is rotatably connected to the union nut (9). Connector according to claim 12,
characterized in that the union nut (9) has a bent edge (17) which holds the locking ring (16). Connector according to claim 12 or 13,
characterized in that at least one latching arm (30, 32, 34, 36) on the locking ring (16) is integrally formed.

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