DE9301553U1 - Power supply connector for a multi-pole transfer system - Google Patents

Description

I O 3 &iacgr; DE

Siemens AG

Power supply connector for a multi-pole transfer system 5

The invention relates to a power supply plug for a multi-pole transfer system, consisting of two U-shaped cover caps that overlap on the sides, as well as two interlocking U-shaped support frames arranged inside the plug-in area for a socket housing with a plurality of contact springs.

In today's communication systems, transfer systems consisting of male and female connectors, which allow several hundred plug connections in a very small space, are known. These transfer systems are used, for example, to connect modules of a large system to one another. These transfer systems are primarily used to transmit information. It is not possible to supply power to the individual system components via a normal transfer system because the load from the supply current is too great. A power supply must therefore be provided separately. Different transfer systems are therefore required.

The object of the present invention is to provide a power supply plug for an information transfer system with a large number of contact elements, without having to make major interventions in the configuration of the transfer system.

This object is achieved according to the invention by a power supply plug of the type mentioned at the beginning, which is characterized in that the incoming wires of the power line are each connected to conductor tracks of a circuit board via feedthrough filters located in a shield wall, and that a predetermined number of contact springs are connected to each conductor track via wire bridges.

G 1 O 3 1 EN

The plug according to the invention enables the power supply of system components or individual devices and is similar in external structure to a plug of the information transfer system. The power supply plug according to the invention enables a system component to be supplied via a transfer system with both information and with one or more supply voltages. Two differently configured transfer systems are not necessary.

An embodiment of the power supply plug according to the invention is characterized in that a predetermined number of contact chambers of the socket housing that are not provided with contact springs are closed with coding pins. In this way, incorrect insertion of the power supply plug is avoided and sensitive, information-processing circuit components are prevented from being destroyed.

The invention is described in more detail below using an embodiment shown in the drawings. 20

Show it:

Fig. 1 is an exploded view of a power supply plug according to the present invention, and

Fig. 2 shows a transfer system in which the power supply plug according to the invention can be used.

First, let us refer to Figure 2, which shows an example of a transfer system. The multi-pole transfer system shown essentially consists of the transfer plugs A and the male connector B, which is attached to a rear-panel wiring board C, for example. A shielding plate with shielding contacts can be seen on the long sides of the male connector B. The object of the invention is to design a plug A that is predefined on the outside in such a way that it can be used for power supply.

6 1 O 3 1 EN

Figure 1 shows the power supply plug according to the invention in an exploded view.

A shielding wall 2 is mechanically attached to the existing U-shaped cover cap 1 in such a way that a good ground connection is guaranteed. This can be done, for example, by spot welding. The free side of the shielding wall 2 can, for example, be slotted and bent at an angle of less than 90° so that spring tabs 3 are formed. This measure and the choice of the appropriate material result in spring tabs 3 which, when assembled, come into contact with the outer cover cap 4 and ensure a good shielding effect.

By installing feedthrough filters 5 in holes in the shield wall 3, the interfering frequencies on the incoming power supply cable (not shown) are filtered out and the plug-side chamber of the power supply plug is EMC and ESD-tight when plugged in. In the plug-side chamber there is a socket housing 6, a left support frame 7 that is slightly shorter than the normal one, a right support frame 8 and a circuit board 9. The socket housing 6 consists of two halves and serves as a carrier for the contact springs 10. Since these contact springs 10 can only be loaded with a maximum current of 1 A each, it is necessary to divide the 4 A required, for example, between five contacts each. Therefore, the contact springs are crimped with wire bridges 11 of a specified length before they are plugged into the socket housing 6. The circuit board 9 is placed in the correct position on the wire bridges 11 protruding from the socket housing and soldered at a specific distance from the socket housing 6.

The task of the circuit board 9 is to combine the contacts for each connection wire into one connection hole each for the feedthrough filters 5.

G t O 3 1 DE

The left support frame 7 is snapped into the cover cap 1. The prefabricated socket housing 6 with the contact springs 10 including the wire bridges 11 and the circuit board 9 are installed in such a way that the connections of the feedthrough filters, which have been shortened to the appropriate length, protrude into the corresponding holes in the circuit board 9. Before the connections are soldered, the socket housing 6 is fitted into the recesses in the left support frame 7. The cable (not shown) is partially assembled and soldered according to the assembly instructions. The right support frame 8 is snapped onto the left support frame 7, the outer cover cap 4 is put over the inner cover cap 1, and the cable is fully assembled according to the assembly instructions.

To avoid incorrect plugging in of the power supply plug, the four outer contact chambers, in which there are no contact springs, can be closed with coding pins. The corresponding contact pins must then be removed from the opposite side of the male connector.

Claims (2)

G j O 3 1 DE Protection claims 1. Power supply plug for a multi-pole transfer system, consisting of two U-shaped cover caps overlapping on the sides, as well as two interlocking U-shaped support frames arranged inside the plug-in area for a socket housing with a large number of contact springs,
characterized in that the incoming wires of the power line are each connected to conductor tracks of a circuit board (9) via feedthrough filters (5) located in a shielding wall (2), and that a predetermined number of contact springs (10) are connected to each conductor track via wire bridges (11). 2. Power supply plug according to claim 1, characterized in that a predetermined number of contact chambers of the socket housing (6) not provided with contact springs (10) are closed with coding pins (12).