WO2006105988A1

WO2006105988A1 - Locking of a detent element using a socket

Info

Publication number: WO2006105988A1
Application number: PCT/EP2006/003211
Authority: WO
Inventors: Michael Grimm
Original assignee: Amphenol-Tuchel Electronics Gmbh
Priority date: 2005-04-08
Filing date: 2006-04-07
Publication date: 2006-10-12
Also published as: DE102005016265A1; DE102005016265B4; EP1869731B1; EP1869731A1

Abstract

The invention relates to a socket element comprising a detent element that locks with a connector element. Said socket element comprises a socket body with an outer connector receiving chamber. A contact socket that is located in the outer connector receiving chamber holds the detent element in the connector receiving chamber.

Description

LOCKING OF A RASTELMENTS WITH A JACK

The invention relates to a plug connection with a plug and a socket, wherein the plug locks in the inserted state with the socket. For this purpose, a catch is attached to the circumference of the plug or the socket. The latching can be solved preferably by using a tool and the socket and the plug can then be separated. When latching, there is the danger of destruction under mechanical stress, especially in connection with low temperatures.

The object of the invention has been found to provide a tool-free release of the connector and a non-destructive function, preferably in cold and additional mechanical stress.

According to the invention, this is done by the measures specified in claims 1 and 13 in particular. Preferred embodiments will be apparent from the dependent claims.

Further advantages, objects and details of the invention are described below with reference to the drawings.

Brief description of the drawings:

Fig. 1 shows a schematic section through a female member in the unassembled state; Fig. 2 shows a schematic section through a socket element in the assembled state and a plug-in element; FIG. 3 shows a schematic section of the socket element and the plug element according to FIG. 2 in the inserted and latched position; FIG.

4 shows a schematic section through a plug connection with contact connections according to FIG. 3; Fig. 5 shows a schematic section through a latching element;

6a-6d show schematic views of various embodiments of the locking element; Fig. 7a-7c show various embodiments of the plug-in element.

In Figure 1, a female member 21 is shown prior to assembly. In Figure 2, the socket member 21 is assembled, shown, further, a plug-in element 22 can be seen. The socket element 21 and the plug-in element 22 form a contact connection 20. The contact connection 20 is shown in FIG. 2 in a separate or non-inserted position and in FIG. 3 in an inserted and latched arrangement.

The embodiment according to the invention will be described in more detail below with reference to FIGS. 1-3.

The female member 21 has a female body 24. The socket body 24 has a preferably circular-cylindrical plug receiving space 25 and a conductor receiving space 30. The plug receiving space 25 has an inner plug receiving space 26 and an outer plug receiving space 27. The inner connector accommodating space 26 has a smaller diameter than the outer connector accommodating space 27. The outer connector accommodating space 27 thus has a larger diameter than the inner connector accommodating space 26. At the transition from the outer larger diameter connector receiving space 26 to the smaller diameter inner connector accommodating space 26 is a Stop 28 is formed. The stopper 28 is preferably formed by the reduction of the diameter. On the outer circumference of the socket body 24 latching means 29 are arranged. The latching means 29 are preferably arranged on the outside of the socket body 24 in the region of the stop 28 arranged internally in the socket body 24. The conductor receiving space 30 serves to receive a conductor with which the socket element 21 can be connected to a circuit. In the outer connector receiving space 27, a latching element 32 is then provided to the stop 28. At the locking element 32 closes, on the opposite side of the stop 28, preferably a gap 35 at. Subsequent to the preferably existing gap 35, located in the outer plug receiving space 27, a contact socket 34. The contact socket 34 closes outwardly with the socket body 24, preferably flush. The contact socket 34 is connected in an electrically conductive manner to the socket body 24 of the socket element 21. As a result, an electrically conductive connection is made from the contact socket 34 to the conductor arranged in the conductor receiving space 30. The contact socket 34 is in the outer connector receiving space 27, preferably by pressing, attached. The attachment can also be performed by soldering, gluing or other suitable fastening.

The intermediate space 35 serves to accommodate tolerances, so that it is ensured that the latching element 32 still has enough play when the socket element 21 is assembled. Preferably, the outer diameter of the locking element 32 is slightly smaller than the inner diameter of the outer connector receiving space 27. When assembling the female member 21, the locking element 32 can thereby be easily introduced into the outer connector receiving space 27.

The bushing body 24 is preferably a rotary member of cylindrical shape, in particular also a cylindrical plug receiving space 25 and a cylindrical conductor receiving space 30. The contact bushing 34 is preferably a cylindrical RADSOK bushing. In this case, located in the interior of the contact socket 34 individual contact surfaces 37 cylindrical contact surface means 36th

The locking element 32 is preferably a disc made of thermoplastic

Material, in particular plastic material. The locking element 32 may also be made of bent wire or a suitably slotted metal disc be prepared. The latching element 32 has a recess 38, preferably a hole 38, on.

FIG. 5 shows a section through the latching element 32. A top view of the latching element 32 is shown in FIGS. 6a-d. In this case, Figure 6a shows a locking element 32 with a circular receiving opening. In Figure 6b, the locking element 32 is shown with an elliptically shaped receiving opening. Figure 6c shows the locking element 32 with additional outgoing from the receiving opening incisions, which facilitate the latching or unlatching. FIG. 6d shows a latching element 32 formed from spring wire. Other embodiments for the locking element 32 are also possible.

The socket element 21 forms a contact connection 20 together with a plug-in element 22.

The plug-in element 22 has a contact pin 40 and a connection part 41. The connection part 41 has a conductor accommodating space. The plug-in element 22 has fastening means 42 arranged between the contact pin 40 and the connection part 41. The plug-in element 22 is preferably designed as a cylindrical rotary part. Subsequent to the fastening means 42, the contact pin 40 has a first section 44, with a first diameter D1. The first section 44 is followed by a second section 45 with a second diameter D2. The second diameter D2 is smaller than the first diameter D1. The second section 45 is followed by a third section 46. Subsequent to the second section 45, the third section 46 has locking means 47. The third section 46 points towards the second section 45, a diameter which is larger than the first diameter D1 but smaller or at most equal to the first diameter D1. With increasing distance from the second section

45 and the locking means 47, the diameter of the third portion 46 decreases, ie, the third portion 46 is conical. The surface of the first portion 44 forms a contact surface 43 of the contact pin 40. In the inserted state of the contact connection 20, the contact surface 43 comes into contact with the contact surface means 36 and establishes an electrical connection between the socket element 21 and the plug element 22. In the inserted latched position, as shown in Figure 3, the locking element 22 of the female member 21 is in the region of the second portion 45 of the male member 22. When inserting the male member 22 in the female member 21 expands the. conical portion 46, the recess 38 of the locking element 32 (or bends the preferably spring wire of the locking element 32) in such a way that the third portion 46 including the locking means 47 can be pushed through the locking element 32. When unplugging or pulling the plug element 22, from the latched position, the transition from the second section 45 to the third section 46 expands the recess 38 in the latching element 32, and the contact connection 22 can be solved. The plugging and pulling force of the contact connection 20 can be set in a relatively simple manner via the bevelling angles of the third section 46 and the transition from the second section 45 to the third section 46.

In Figure 7a, the transition from the second section 45 to the third section 46, d. H. the latching means 47 designed as an edge. Compared to the embodiment described later, a relatively high pulling force is required.

In Figure 7b, the locking means 47 by. an oblique edge is formed as a transition from the second portion 45 to the third portion 46. As a result, a lower pulling force is required in comparison with FIG. 7a.

In FIG. 7c, the conical section 46 is formed at a steeper angle. This facilitates insertion of the plug element 22 into the socket element 21, but a higher force is required for latching. The transition from the second section 45 to the third section 46 is formed here with radii. The pulling force is thereby the steepest increase, ie the strongest increase in the diameter of the male member 22 is substantially determined.

The locking element 32 is disposed in the outer connector receiving space 27 between the stop 28 and the contact socket 34.

In the inserted locked state, the third section 46 of the contact pin 40 extends into the inner plug receiving space 26.

The latching of the contact connection takes place in the region of the second section 45 and the third section 46 of the contact pin 40. The first section 44, and thus the contact surface 43, is not involved in the latching process. As a result, the surface of the first portion 44 or the contact surface 43 is not damaged even with multiple plugs. Since the diameter of the third section 46 is at most as large as the diameter D1 of the first section 44, the contact bushing 34 is also not damaged during the insertion process. The contact connection 20 thus has an inner latching contour, which can be solved without tools and at the same time allows the use of an existing socket contact, in particular an existing high-current, or RADSOK contact. The contact connection 20 allows a tool-free release of the connector in connection with minimal mechanical wear on the contact parts in particular the contact surface 43 of the plug element 22. Furthermore, the contact connection 20 has only a very small footprint.

FIG. 4 shows a plug connection 100. Plug connection 100 consists of a socket 101 and a plug 102. The socket 101 has two socket elements 21, which are arranged in a socket insulation body 103. The plug 102 has two plug-in elements 22, which are arranged in a plug isomer body 104. The connector 100 is shown in Figure 4 in a mated and latched position. The latching takes place by the embodiment of the socket elements 21 and plug-in elements 22 described in FIGS. 1 to 3. by means of appropriate latching means necessary, 'ie there are no problems that external latching hooks could break off in cold or additional mechanical stress.

By using the described contact connection 20 can be a connector 100, with extremely compact design, produce.

The contact bush 34 has at its inner end a recess 50 and at its outer end a recess 51.

The socket body 24 and the plug-in element 22 are preferably formed in one piece. The socket body 24 and the plug element 22 are preferably formed as a rotating part. However, other training such as by casting, or the combination of several sections are also possible.

The socket body 24 and the plug-in element 22 are made of electrically conductive material, preferably of metal.

Preferably, the latching between the socket element 21 and the plug-in element 22 in the region of the front, ie the plug-side end of the plug element 22 is provided. An arrangement wherein the detent element is provided closer to the attachment means 42 and the detent element 32 is in the connector receiving space 25 on the plug side in front of the socket body 24 and is held by a separate element in the connector receiving space 25 is also possible. Reference numeral list

20 contact connection

21 socket element

22 plug element

24 socket body

25 connector receiving space

26 inner connector receiving space with a smaller diameter

27 outer connector receiving space with a larger diameter

28 stop (formed between 26 and 27) 29 locking means

30 conductor receiving space

32 locking element (plastic or metal disc, bent metal or spring wire)

34 contact socket; preferably RADSOK socket

35 space

36 cylindrical contact surface means

37 single contact surface 38 recess or hole in the locking element 32nd

40 contact pin

41 connecting part (with conductor receiving space)

42 fasteners

43 contact surface 44 first section; D1 first diameter 45 second section; D2 second diameter 46 third section (tapered)

47 Locking means 50 recess on the RADSOK contact socket

51 recess on RADSOK contact socket

100 plug connection

101 socket

102 plug 103 socket insulation body

104 plug insulation

Claims

Pate Rita Proverbs

1. socket element (21), with a latching element (32), for latching with a plug-in element (22), wherein the socket member (21) has a Buchs senkörper (24) with an outer plug receiving space (27); and a contact socket (34) arranged in the outer plug receiving space (27) holds the detent element (32) in the plug receiving space (27).

2. socket element (21) according to one or more of the preceding claims, wherein the socket body (24) is preferably formed in one piece.

3. bush element (21) according to one or more of the preceding claims, wherein the latching element (32) is preferably made of thermoplastic material.

4. bushing element (21) according to one or more of the preceding claims, wherein the latching element (29) is made of bent wire.

5. bushing element (20) according to one or more of the preceding claims, wherein the latching element (32) is made of metal.

6. bush element (20) according to one or more of the preceding claims, wherein the latching element (32) is disc-shaped and has a recess (38), preferably centrally.

7. socket element (20) according to one or more of the preceding claims, wherein the socket body (24) is electrically conductive.

8. socket member (20) according to one or more of the preceding claims, wherein the socket body (24) is made of metal.

9. socket element (20) according to one or more of the preceding claims, wherein the contact socket (34) is a high-current socket, preferably a RADSOK socket.

10. socket member (20) according to one or more of the preceding claims, wherein the contact socket (34) in the outer plug receiving space (27) is pressed.

1 1. A socket member (20) according to one or more of the preceding claims, wherein the contact socket (34) is soldered into the outer plug receiving space (27).

12. socket element (20) according to one or more of the preceding claims, wherein the outer plug receiving space (27) has a cylindrical inner contour seen and the contact bush (34) has a cylindrical outer contour.

13. plug-in element (22) with a contact pin (40) and a connecting part (41) and fastening means (42), wherein the contact pin (40) a first portion (44) having a first diameter D1, a second

Section (45) having a second diameter D2 and a third portion (46), wherein the second diameter is smaller than the first diameter and between the third portion (46) and the second portion (45) locking means (47) are arranged and said third portion (46) toward the second portion (45) has a diameter greater than the second diameter D2 but at most as large as the first diameter D1 and the diameter of the third portion (46) increasing Distance from the second section (45) is smaller, ie tapered; and the second section (45) for latching with a

Locking element (32) is used.

14. Contact connection (20) which has a socket element (21) according to one or more of claims 1 to 12 and a plug-in element (22) according to claim 13.

A socket-side connector (101) or socket (101) having a socket insulation body (103) in which at least one socket element (21) according to one or more of claims 1 to 12 is arranged.

16. Plug-side connector (102) or plug (102) with a Steckerisolierkörper (104) in the at least one plug-in element (22) is arranged according to claim 13.

17. Plug connection (100) which has a socket-side connector (101) according to claim 15 and a plug-side connector (102) according to claim 16.