EP1844527A1

EP1844527A1 - Plug-in connector

Info

Publication number: EP1844527A1
Application number: EP06701379A
Authority: EP
Inventors: Andreas Genesius; Matthias Kassner
Original assignee: Amphenol Tuchel Electronics GmbH
Current assignee: Amphenol Tuchel Electronics GmbH
Priority date: 2005-01-28
Filing date: 2006-01-30
Publication date: 2007-10-17
Also published as: US7597562B2; DE102006004238A1; US20080194150A1; DE102006004238B4; WO2006079555A1

Abstract

The invention relates to a first plug-in connector comprising a first plug and a first socket, the first plug having a plug contact carrier for supporting in particular plug contacts and the first socket having a socket contact carrier for supporting in particular socket contacts. According to the invention: the plug-in connector has system-induced tolerances in the plug-in direction; the first plug contact carrier comprises first plug contact elements and the first socket contact carrier comprises first socket contact elements, (which make contact when the plugs are connected in the sockets); and an additional or second plug-in connector is introduced or integrated into the first plug-in connector, said second connector having an additional or second plug and an additional or second socket. The second plug comprises a plug contact carrier with additional or second plug contact elements and the second socket comprises a socket contact carrier with additional or second socket contact elements. The second plug-in connector has smaller system-induced tolerances in the plug-in direction than the first plug-in connector and the second plug contact carrier and/or the second socket contact carrier can be displaced in the plug-in direction.

Description

Connectors

The invention relates to a connector having a first connector and a first socket, wherein the first connector has a first plug contacts carrying particular plug contacts and the first socket carrying a particular socket contacts first socket contact carrier.

The invention has the object to integrate in a connector of the above type another connector, in particular in a modular connector system.

Erfinduήgsgemäß this is done by the measures specified in claim 1 in particular. Preferred embodiment of the invention will become apparent from the dependent claims.

Further . Advantages, objects and details of the invention are described below with reference to the drawing.

In the drawing shows:

FIG. 1 is a plan view of a first connector according to the invention, consisting of a first connector and a first connector;

FIG. FIG. 2 is a schematic sectional view taken along line 2-2 of FIG. 2A through the first connector with omission of the housing, wherein the first connector is shown consisting of a frame and inserted therein plug modules of different types;

FIG. 2A is a plan view of the mating side of the first connector, omitting the housing; FIG. Figure 3 is a side view of the first socket without showing the housing, the first socket being shown consisting of a frame and socket modules of different types inserted therein; FIG. FIG. 4 is a plan view of the embodiment shown in FIG. 2A shown mating side of the first connector cooperating mating side of the first socket, with the omission of the housing;

FIG. 5 shows a section of a second connector consisting of a second plug and a second socket, wherein the second plug

Part of a first connector module and the second socket is part of a first socket module, further wherein the second plug is partially inserted into the second socket, so has not yet reached the maximum insertion depth; FIG. 6 is a view similar to FIG. 5, wherein here the second plug module and the second socket module are completely pushed together;

FIG. FIGS. 7 and 8 are sections taken along lines 7-7 and 8-8 in FIGS. 9 and 10, respectively, of those shown in FIGS. 5 and 6 in a non-inserted state;

FIG. FIGS. 9 and 10 are plan views of FIGS. 7 and 8 shown components.

In FIG. 1 is a first or higher-level connector (parent connector system) 10, which includes a connector, pin side, referred to as a first connector 11 for short, and a connector, female side, referred to as a first connector 12 for short. The plug 11 has a housing 13 and a plug contact carrier 14. The socket 12 has a socket contact carrier 15 and a housing 16. Both the plug contact carrier 14 and the female contact carrier ^"15 may have inserted into the respective contact support their respective contact elements.

Preferably, the plug contact carrier 14 and also the socket contact carrier 15 from a plug contact carrier frame 23 or socket contact carrier frame 123 with preferably inserted different plug modules 20, 21 or preferably different bushing modules 30, 31 consist, as in the illustrated embodiment - based on Integration of the RJ45 plug system in a modular connector system - is shown.

In FIG. FIG. 2 shows a schematic sectional view of the plug contact carrier 14 with the plug contact carrier frame 23. Of the frame 23, an upper frame portion 24 and a lower frame portion 25 and a frame side 26 are shown. In the plug contact carrier 14 and in the plug contact carrier frame 23, a first pin or plug module 21 and one or more second pin or plug module 20 is used.

In FIGS. FIGS. 3 and 4 show that a first socket module 31 and a plurality of second socket modules 30 are inserted into the socket contact carrier 15 and the socket contact carrier frame 123, respectively.

The second plug module 20, which can be plugged together with the second socket modules 30, form conventional plug connections for the power transmission. The first plug-in module 21, which can be plugged together with the first socket module 31, preferably serves for signal transmission and also has additional contact elements 69.

The FIG. FIGS. 5 to 8 show a connector module 39 formed by the first connector module 21 and the first jack module 31, which has a second connector 40 (subordinate connector system 40). The connector 40, which is also referred to as a signal connector 40, consists of a second plug 41 (hereinafter referred to as signal connector 41) and a second socket 42 (hereinafter referred to as signal socket 42). The signal connector 41 is in the first connector module 21 - more precisely its cartridge body 22 - preferably arranged by latching on this fixed. The signal socket 42 is arranged in the first socket module 31 on a circuit board 51. The circuit board 51 is slidably mounted in the first socket module 31 or in a socket module body 32 of the first socket module 31 in or counter to the plugging direction. EP2006 / 000770

Preferably, the second connector 40 shown here is an RJ45 connector consisting of an RF45 connector 41 and an RJ45 socket 42.

From the structure of the first or parent connector 10, in particular from the first plug contact carrier 14 and the first socket contact carrier 15, each plug modules 20, 21 and socket modules 30, 31 record, and wherein all components are subject to certain manufacturing tolerances, there is a systemic Tolerance in the insertion direction (first insertion depth tolerance) of the first connector 10. This first insertion depth tolerance is greater than the width of the insertion depth variations that the second or signal connector 40, in particular the RJ45 connector, tolerates. This smaller systemic tolerance in the insertion direction of the signal connector 40 is also referred to as a second insertion depth tolerance. In FIG. 5, the first plug-in module 21 and the first socket module 31 are shown in a first position, wherein all manufacturing tolerances of the first connector 10 are assumed to be the smallest component size resulting in the plug-in direction. In this case, the signal connector 40 or the signal connector 41 is already plugged into the second or signal socket 42 for producing a standardized contact.

In FIG. 6, the first connector module 21 and the first socket module 31 shown in a position, all manufacturing tolerances of the connector 10 have been assumed to be maximum in the direction of insertion. In this case, the first connector module 21 is completely pushed to the first socket module 31. Since the second insertion depth tolerance of the second or signal connector 40 can not compensate for this due to the larger first insertion depth-related offset in the insertion direction, the second or signal socket 42 is fastened to the board 51 which is displaceably arranged in the first socket module 31. The board 51 is inserted together with the second or signal socket 42 of the second connector 40 in the insertion direction displaceable in the first socket module 31. The circuit board 51 is provided with a biasing force, preferably a spring force which is greater than the insertion force, which is required for the assembly. menckecken the second or signal connector 40 is necessary, biased against the insertion direction against an end face or end face 53 of the first socket module 31. A support surface 102 of the second bushing 32 then bears against the inwardly facing end face 53. A spring 72 which generates this spring force is braced against a U-carrier 172 fastened to the socket module body 32 and presses against the second socket 42. The position of the circuit board 51 is selected so that the plug connection of the first connector 10 is at maximum plug-in distance second connector 40 is completely inserted, as shown in FIG. 5 shown. If the plug-in distance of the first connector 10 is smaller, then the board 51 of the second connector 40 is moved to tolerance recording against the biasing force and in the plugging direction, after the second connector 40 is completely inserted, as shown in FIG. 6 is shown.

For easier connection, a second RJ45 socket 75 (connection socket) can preferably be arranged on the board 51. The connection socket 75 has a connection socket body 76, which carries contact elements.

By compressing the board 51 with the second socket 75 is achieved that the second connector 40 is not damaged or the first

Connector system 10 can be fully inserted. The arrangement of board 51 and socket 42 and socket 75 is also referred to as intermediate piece 100. This is reciprocally mounted in the socket module body 32 and biased against the end face 53.

To relieve the second plug 41, in particular for relieving a latching hook 65 of the RJ45 plug 41, ribs or lugs 54 are attached to the second plug module 21, which bear against abutment surfaces 102 of the second bush 42 after the second connector 40 has been plugged in, and in the case of FIG FIG. 6, the second socket 42 with the board 51 - so that

Between piece 100 - push against the biasing force of the spring 72 in the insertion direction in the first socket module 31. By an arranged in the first connector module 21 element 98, the second plug 41 is secured against slipping out against the plugging direction, and in particular hooked when RJ45 plug 41, SiCh the element 98 with the latching hook 65 and pushes it also to the second plug 41 back to a latch to prevent in the inserted state of the second connector 40 in the second socket.

It is also possible to provide only a second connector 40, in particular a RJ45 connector 40, in the first connector system 10.

It is also possible to arrange the second connector 41 and / or the second socket 42 slidably in the insertion direction.

Likewise, further modules, in particular pneumatic modules, may be arranged in the first connector.

The modules 20, 21, 30 and 31 may be latched to the associated frame by means of modulatory hooks. By way of example, a modulatory hook 61 is shown in FIGS. 5 to 7.

According to the invention - as shown - in a modular system C146M (first or higher-level connector system 10) a connector (second or subordinate connector system 40) are integrated with RJ45 connectors. Completely assembled standard cables can be used so that an RJ45 plug 41 and an RJ45 socket 42 in the C146 plug connection meet. This is made possible by the intermediate piece 100 with the two RJ45 sockets 42, 76.

In a plugged C146 system, as mentioned, the tolerance of the distances of the RJ45 modules receiving frame is greater than the permissible insertion depth tolerance of the RJ45 connector. According to the invention, the intermediate piece 100 with the two RJ45 sockets 42, 76 is resilient in the socket module. body 32, ie attached to a frame of the C146 system. Also mentioned above, the spring tension of the spring 72 is greater than the insertion force of the RJ45 connector and acts in the insertion direction. The distance between the RJ45 plug 41 in the first plug-in module 21 in the first frame to the RJ45 socket 32 in the socket module body 32 of the second frame 123 of the inserted C146 system is such that the minimum insertion depth of the RJ45 plug-in connection is ensured even with the greatest distance between the frames , If the distance between the frames of the C146 system is too small, then the RJ45 adapter 100 will spring into place with the sockets 42, 76, so that the RJ45 connector system will not be damaged and at the same time the C146 connector system can be fully inserted 54 on the support surface formed by the face of the socket body 42 (s) 102 and this against the spring force of the spring 72 moves together with the circuit board 51.

The second plug 41, which is an RJ45 plug 41 in the illustrated embodiment, must be held in the plug module body to accommodate the insertion force can.

It should be noted that the second plug 41, which is designed as RJ45 plug 41, when plugging into the corresponding second socket 42, which is designed as RJ45 socket 42, is not locked, and that as a result of the element 98, which the latch hook 65th locks. Preferably, the element 98 is designed so that the latching hook 65 is not permanently under load when plugging. According to the invention, as shown in FIG. 1, a sealed housing accommodating the housing may be provided. There are also several modules adjacent to each other within the housing possible as already mentioned. The first and second RJ45 sockets are preferably arranged on a printed circuit board as mentioned. 00770

8 list of reference numerals

10 first or higher-level connector or higher-level connector system 11 connector, pin side short: first connector

12 connector, female side short: first female

13 housing

14 plug contact carrier

15 female contact carrier 16 housing

20 connector module (second)

21 connector module (first)

22 plug module body

23 first frame, plug contact body volume 24 upper frame section

25 subframe section

26 frame side

30 second socket module

31 first jack module 32 jack module body

39 connector module

40 second RJ45 type connector (subordinate connector system)

41 second connector 42 second socket

43 insulator RJ45 plug

44 Insulating body RJ45 socket

45 contact elements

46 Contact elements 51 PCB

53 front side of the female module body 32nd

54 ribs or noses 60 plug module body 006/000770 Q

61 modular latch hook

69 contact elements

70 socket module body

71 residual hook 72 spring

73 spring bearing (U-shaped)

74 socket back

75 connection socket

76 connector body 77 contact elements (one shown)

78 connector receiving space

98 element

10Ö intermediate piece

102 contact surfaces of the second sleeve 42 123 second frame, female contact body frame

140 frames

172. U-beam

Claims

claims

1. A first connector having a first connector and a first socket, wherein the first connector has a particular plug contacts carrying first plug contact carrier and the first socket carrying a particular socket contacts first socket contact carrier, and wherein the first connector has system-related tolerances in the insertion direction, wherein further first plug contact carrier first plug-in contact elements and the first socket contact carrier carries first female contact elements

(In the mating plug and socket come into contact engagement), wherein further in the first connector at least one further or second

Plug connector is inserted or integrated and this has a further or second plug and a further or second socket, the second plug has a further or second plug contact elements carrying plug contact carrier and the second socket carrying a further or second female contact elements socket contact carrier, and wherein the second connector smaller system-related tolerances in the insertion direction than the first connector, wherein the second plug contact carrier and / or the second socket contact carrier are displaceable in the insertion direction or is.

2. Connector according to claim 1, characterized in that the second or further connector is biased against the insertion direction.

3. Connector according to claim 1, characterized in that the second socket contact carrier is slidably disposed in the insertion direction.

4. Connector according to claim 1, characterized in that the second socket contact carrier is biased against the insertion direction.

5. Connector according to claim 1, characterized in that at least one adjacently disposed adjacent to the second or further connector nose or rib on, or next to, the second or further socket at fully inserted second connector is supported (and the socket upon further pushing in the insertion direction ) shifts.

6. Connector according to claim 1, characterized in that the first plug contact elements and first socket contact elements, and the second or further plugs and sockets in each Steckerbzw. Bushing modules are arranged.

7. Connector according to claim 1, characterized in that the second connector is a RJ45 connector.

8. A parent connector system (10) having a first connector (11) and a first socket (12), wherein the first connector (11) has a plug contract carrier (14) and the first socket (12) a socket contact carrier (15), and wherein at least a first plug module (21) and at least a second plug module (22) in the plug contact carrier (14) or in the socket contact carrier (15) are arranged to form a subordinate connector system together with a first socket module (31) and a second socket module (30).

9. The superior connector system according to claim 1, wherein the first plug module is arranged in a first frame or plug contact body frame, while a first socket module is arranged in a second frame or socket contact body frame ) is arranged.

10. The higher-level connector system according to claim 1, wherein the first connector module has a plug module body, which has ribs or lugs running in the plug-in direction, wherein the first socket module has a socket module body ) which forms abutment surfaces (102) for contact with said ribs or lugs (54).

11. A high-level connector system (10) according to any one of the preceding claims, wherein the subordinate connector system

(40) belongs to the RJ45 type.

12. The superordinate connector system (10) according to one of the preceding claims, wherein one or more elements (98) are formed on the plug module body (22), which are in engagement with a second plug (41) on the one hand, and on form other lugs (54), for cooperation with the bearing surfaces (102) of the second sleeve (42).

13. Superior connector system (10) according to any one of the preceding claims, wherein the second or signal socket (42) is mounted on a in the first socket module (31) arranged board, which in turn is displaceable in the direction of insertion back and forth.

14. Superordinate connector system (10) with a first connector (11) and a first socket (12) according to one of the preceding claims, wherein the board together with the signal socket (42) and a further connection socket (75) forms an intermediate piece (100) . which is biased against the abutment surface (53) on the socket module body (32).

15. A superior connector system (10) having a first connector (11) and a first socket (12) according to one of the preceding claims, wherein the intermediate piece (100) is biased against the insertion direction, such that the intermediate piece (100) on one of the end face (53) of the sleeve module body (32) formed abutment surface.