DE29701838U1 - Electrical device with a shield connection - Google Patents

Description

GR 97 G 3048

Description

Electrical device with a shield connection

The present invention relates to an electrical device with a shield connection. A shield connection to electrical devices is made, for example, by means of suitable connection means, e.g. round plug connectors, which interact with suitable mating connection means, wherein the connection means is provided at at least one end of a shielded electrical line and wherein electrical signals or electrical potentials can be supplied to the electrical device by means of the shielded electrical line.

In the case of circular connectors as connection devices, these are electrically connected, for example, to built-in couplings placed in a housing. The built-in couplings have a contact insert with a metal threaded nut. The circular connector is connected to the built-in coupling placed in the housing. The housing is made of metal or plastic, for example. The shield is transferred from the metal union nut of the circular connector to the thread of the built-in coupling.

It is also known to place a spring contact in the contact carrier insert, which is screwed tight with the threaded nut so that a metallic contact is created between the threaded nut and the spring contact. The spring contact is then soldered onto the circuit board so that the shield is electrically connected to the circuit board as soon as the circular connector is screwed onto the metallic threaded nut of the built-in coupling. Starting from the circuit board, the shield is then derived in a module-specific manner.

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However, this solution is not yet completely optimal, as the shield is always routed via the circuit board of an electrical or electronic assembly located in the housing. In the event that particularly strong interference signals are diverted via the shield, an influence of these interference signals, which are also routed via the assembly's circuit board, on the assembly itself and the circuit implemented there cannot always be completely ruled out.

The object of the present invention is therefore to create an electrical device with a shield connection, in which interference caused by the shield discharge on the circuit provided in the device is avoided.

The problem is solved by the features of the main claim.

The electrical devices of the present invention are, for example, input and/or output modules of a programmable logic controller for controlling and/or monitoring a technical process.

The present invention can be implemented particularly advantageously if a spring element is provided as the contact means, whereby the spring force of the spring element when connecting the connecting means to the counter-connecting means directly effects the electrically conductive contact with the connecting means electrically conductively connected to the shield.

The use of a compression spring as a spring element is particularly advantageous because a compression spring is an inexpensive standard component with which the desired contact can be achieved both with comparatively small distances between the housing and the contact area of the connection device and

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can be achieved even with comparatively large distances between the housing and the contact area of the connecting device.

In contrast, a spring element designed as a disc spring or corrugated washer is particularly suitable for applications in which the distance between the housing and the contact area of the connection device is comparatively small.

Such assemblies are transmitted states of the technical process by means of sensors located in the technical process, or control and management information is transmitted to actuators located in the technical process by means of such assemblies.

The electrically conductive connection between sensors or actuators and modules is made via electrical conductors combined to form a cable, whereby the cables are shielded in a conventional manner to avoid interference with the signals or potentials transmitted by the respective electrical conductors. At the ends of the cables, connecting means, e.g. round connectors, are usually provided, by means of which the electrical conductors of the cable can be contacted with electrically conductive contacts of corresponding counter-connecting means, e.g. a built-in coupling on the housing of the sensor, actuator or on the housing of the module. For shielding, a shielded connecting means is provided at at least one end of the cable, the shield of which can be electrically connected to the shield of the cable.

0 A shield connection at the sensor or actuator in the process is often not possible, so that a shield connection in the area of the assembly is required. Accordingly, the advantage of the present invention is that it provides a possibility of accomplishing the shield connection in the area of the assembly, whereby the shield is not connected to the

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electrical circuit arranged in the assembly or its

circuit board is introduced.

Further advantages and inventive details emerge from the following description of an embodiment, based on the drawings and in conjunction with the subclaims. Shown here are:

FIG 1 and FIG 2 show a shield connection according to the present invention.

According to FIG 1 or FIG 2, a shielded electrical line EL is connected to a housing G of an electrical device or assembly using the shielded circular connector RS. The circular connector RS is therefore the connection means RS of the present invention. To accommodate the circular connector RS, a built-in coupling EK with a contact carrier insert KT is arranged in the housing G of the assembly. The contact carrier insert KT is therefore the counter-connection means KT of the present invention.

The contact carrier insert KT has a thread which is designed, for example, as a plastic thread and which interacts with a union nut UM of the circular connector RS, the union nut UM being designed, for example, as an electrically conductive metallic union nut UM, as a union nut UM having at least partially an electrically conductive coating, or as a union nut UM having an electrically conductive contact element.

For shielding, a spring element FE is used in the embodiments according to FIG 1 and FIG 2, which is placed on the outside of the housing G in the area of the built-in coupling EK and is electrically connected at least to the union nut UM of the circular connector RS. The

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Spring element FE is therefore the contact means FE of the present invention.

The spring element FE is, for example, an electrically conductive compression spring FE (FIG 1), an electrically conductive corrugated washer FE, an electrically conductive disc spring FE (FIG 2), or an electrically conductive shield plate FE with a corresponding recess, whereby the electrical conductivity is achieved, for example, with one of the designs described above for the union nut UM.

If a corrugated washer FE or a disc spring FE is used as the spring element FE, as shown in the embodiment according to FIG, the corrugated washer FE or the disc spring FE has an essentially circular recess. The diameter of the circular recess is based on the diameter of the circular connector RS. The diameter of the recess is at least large enough for the contact area of the circular connector RS to be electrically conductively contactable with the contact carrier insert KT of the built-in coupling EK.

If the recess of the corrugated washer FE or the disc spring FE is only slightly larger than the contact area of the circular connector RS, the corrugated washer FE or the disc spring FE can be positioned on the outside of the housing G above the contact carrier insert KT, so that the circular connector RS can be contacted with the contact carrier insert KT through this recess. Analogous conditions apply to the inside diameter of the compression spring FE. 30

When connecting the connection thread of this union nut UM with the corresponding thread of the contact carrier insert KT, the union nut UM rests on the spring element FE and thus makes electrical contact with it.

5 Since the union nut UM is electrically conductive with the shield

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of the circular connector RS is contacted, this is a

Shield transmission to the spring element FE is guaranteed.

According to the embodiment, a ring/fork cable lug KS is connected to the spring element FE. A further electrical conductor can be connected to such a cable lug KS to transmit the shield. This further electrical conductor can be connected to a reference potential, for example ground potential.

The advantages of the solution according to the invention are that the housing G can be manufactured without metal parts and the shielding is already connected in front of the circuit board. Disturbances to the electrical and/or electronic circuit of the assembly implemented on the circuit board due to interference pulses and/or static discharges introduced via the shield are thus largely excluded.

In addition, the possibility of producing the housing G without metal parts due to the solution according to the invention contributes to a reduction in the costs of producing the housing G and to a simplification of production. The electrically conductive elements previously required for the contact carrier insert KT and the built-in coupling EK for shield forwarding are no longer needed.

Claims (4)

GR 97 G 3048 Protection claims 1. Electrical/electronic device with a printed circuit board LP that can be placed in a housing G and to which electrical potentials or signals can be fed by means of at least one electrical line EL, - the electrical cable EL has a shield, - wherein the electrical line EL has a connection means RS at at least one end, which can be contacted with a counter-connection means KT provided on the housing G of the electrical device, - wherein the shield is electrically connected at least to the connecting means RS and - whereby a contact means FE is provided on the housing G in the contact area of the connection means RS, which which is electrically connected to the connecting means RS which is electrically connected to the shield and which can be connected to another electrical line which can be connected to ground potential, for example. 20 2. Electrical/electronic device according to claim 1, characterized in that a spring element (FE) is provided as the contact means (FE). 3. Electrical/electronic device according to claim 1, characterized in that a compression spring (FE) is provided as the contact means (FE). 4. Electrical/electronic device according to claim 1, characterized in that a corrugated washer (FE) or a disc spring (FE) is provided as the contact means (FE).