EP1976072A1 - Bus connector with at least two cable connections for bus lines - Google Patents

Abstract

The bus connector (40) has a screen connector (1) provided as a flat screening of cable connections. The screen connector has contact elements (9) to contact bus screen lines (43,44) automatically by clamping such that the bus screen lines are connected to screening elements, when installing the housing of bus connector.

Description

The invention relates to a bus connector having at least two cable connections for bus lines, wherein the cable connections are each provided for electrical connection with at least one bus signal line and a bus shielding of a cable, wherein a shield connector of the cable connection for electrically contacting the bus shielding of the cable with the bus connector shielding elements is provided.

Such a connector is used in conjunction with field buses, in particular with PROFIBUS. The bus connector allows coupling of a bus device to the bus lines, wherein the bus connector is usually provided for the connection of two cables, optionally coaxial cables, each having a Busschirmleitung and at least one shielded control line. By means of a socket, such as a D-Sub connector, the connection between bus subscriber and the bus connector is established. The bus connector may have additional connection options for other devices, such as programming devices, which are intended for programming or configuration of the bus station.

Conventional bus connectors have shielding elements to prevent damage to circuits within the bus connector or in the bus device. Conventional bus connectors are realized, for example, with metallized housings, with asymmetrical shielding plates or with open, skeletal shielding plate frameworks. If the shielding of interference currents is ensured by metallized housings, then it is necessary to carry out the respective housing with a very high precision in order to generate interference fields, which arise especially in the case of uncovered cracks or gaps, to safely prevent.

Due to the continuous use, the housings of the bus connectors are affected, so that a closing strength can not be guaranteed over the entire service life.

In open or skeletal shielding scaffolds also arise without further interference fields to the shielding components that greatly reduce the burst strength or electromagnetic compatibility (EMC). In the aforementioned shroud solutions, but especially in the metallized housings is a permanent, safe contact (for example, vibration and environmental stress) within the shield system difficult or impossible to ensure.

The invention has for its object to provide a bus connector, which ensures a durable, secure contacting of the shielding elements and can be produced inexpensively.

This object is achieved in a bus connector of the type mentioned above in that the shield connector is designed as a flat shielding of the cable connections and in the contact area of the bus shield contact elements, which for automatically contacting the Busschirmleitungen with the shielding elements of the bus connector through Clamping are provided during assembly of the housing of the bus connector.

According to the invention, the bus connector has at least two cable connections for bus lines. The cable connections are each provided for electrical connection to at least one bus signal line and a bus screen line of a cable, in particular a coaxial cable. (If necessary, the cable connection is provided for several signal lines of a bus.) A shield connector of the cable connection is guaranteed the electrical contacting of the bus shield cable of the cable with the shielding elements of the bus connector. Thus, the shield of the cable is combined with the shield of the bus connector to a total umbrella system, short umbrella system.

The shield connector combines according to the invention at least two functions, namely the connection of the Busschirmleitung with the shielding elements of the bus connector and at the same time performs a shielding function in which the cable connections and possibly other electrical components of the bus connector to be shielded. For this purpose, the connector is formed flat and is optionally adapted to the shape of the cables that contain the bus lines. In the area of the contacting of the bus screen lines, the shield connector has contact elements which are provided for the automatic contacting of the bus lines. During assembly, the stripped Busschirmleitung the cable is placed on the or the contact elements and pressed by means of clamping during assembly of the housing or a housing part on the contact element. The cable is thus fixed in position and the contact, and thus the production of the overall shield system, ensured with the shield connector.

Advantageously, the mentioned clamping of the bus screen lines of several cables happens simultaneously, whereby a very simple assembly is guaranteed.

Advantageously, the shielding effect of the shield connector is supported by a partially undulating and / or trough-shaped form thereof. It is advantageous that the shielding effect of the shield connector is ensured due to the metallic material and at the same time a housing part can be used for clamping due to the shape of the shield connector, which does not necessarily have a shielding effect. Although a metallic housing part further contributes to the shielding, but can also by a non-shielding housing part, such as a plastic housing part to be replaced because the shield connector already sufficiently shields.

Advantageously, the shield connector for soldering to the bus connector shielding elements, in particular a screen shielding a shield plate, and shielding layer, is provided. A soldering of the shield connector promotes structural stability of the overall screen system, wherein a decontacting, such as in Drucksteckkontaktierungen does not occur by a sustained or heavy use of the bus connector. Consequently, the screen characteristics of the overall screen system are not or hardly affected by use. In addition to the long-term stability and a touch contact or their possible sources of error are excluded, with a higher process reliability, lower noxious gas corrosion and a sufficient vibration resistance can be guaranteed.

Advantageously, a metallized or a full metal housing is not required because the required measures, the standard (EN61000-4-4) corresponding electromagnetic behavior is achieved by the measures mentioned.

Advantageously, when using a plastic housing part or plastic housing, a relief in terms of design conditions compared to the metallized or full metal housing, in which prescribed voltage intervals must be met and consequently usually lead to voluminöseren bus connectors. Due to the use of a plastic housing part or housing must be taken on such stress intervals no consideration, which is profitable to the housing periphery.

Advantageously, the shield connector is integrated into a bus connector shielding element or designed in one piece with this. This also contributes to the stability of the overall umbrella concept and further simplifies the process Plug structure, wherein the number of parts is reduced. Thus, in particular a combination with shielding construction or housing parts is conceivable, which are also carried out flat.

In an advantageous embodiment of the shield connector is formed as a shield plate, whose shape is adapted to the shape of the cable. It is also advantageous to perform the shield plate without openings or holes that could possibly cause interference. Furthermore, make sure that the bus signal lines are inside the shielding plate when the bus connector is properly mounted.

Advantageously, the shield connector is partially wave-shaped and / or trough-shaped, wherein the cables or the bus signal lines are located within the "tub".

In an advantageous embodiment of the shield connector is designed as a metallic embossed part, whereby the manufacturing cost can be further reduced not only by the smaller number of components, but also by the manufacturing cost.

Advantageously, in addition to at least one connection connector (Male), such as a D-Sub connector (Male), for connection to a bus station and a female connector for example, a programming device provided, which can be used to program the bus station.

In an advantageous embodiment, the shield connector also performs the shielding functions of other components of the bus connector, such as the D-sub female connector, the printed circuit board or other shielding elements.

Advantageously, the bus connector is designed as a PROFIBUS connector.

Further advantageous embodiments and preferred developments of the invention can be taken from the description of the figures and / or the dependent claims.

In the following the invention will be described and explained in more detail with reference to the embodiments illustrated in the figures.

FIG 1

einen an als Schirmblech ausgeführten Schirmverbinder,

FIG 2

einen Bus-Steckverbinder mit dem Schirmverbinder aus FIG 1,

FIG 3

einen integrierten Schirmverbinder und

FIG 4

einen Bus-Steckverbinder mit dem integrierbaren Schirmverbinder aus FIG 3.

Show it:

FIG. 1

a screen connector designed as a shield plate,

FIG. 2

a bus connector with the shield connector FIG. 1 .

FIG. 3

an integrated shield connector and

FIG. 4

a bus connector with the integrable shield connector FIG. 3 ,

1 and FIG. 2 show a shield plate designed as a shield connector 1, which is provided for attachment to a bus connector 40.

As a mechanical connection to the bus connector 40 terminals 4, 5 can be used, which are pressed behind a holding device of the bus connector 40, then to hold the shield connector 1 on the bus connector 40 due to their elasticity. The soldering surface 8 is provided for soldering with a shield plate 15, which in turn is provided for shielding the circuit board, which is contacted with bus control lines 45, 46. The circuit board and the cable connections are in the assembled state on the screen plate 15 or possibly partially within the shield connector 1, but are in the 1 and 2 not shown.

The shield connector 1 further has shielding surfaces 2, 3, which are required to achieve the EMC compatibility and at the same time take into account a certain connection geometry of the cables 41, 42 by their shape.

In addition to the soldering surface 8 and solder joints 6, 7 are provided which improve the electrical conductivity within the overall screen. The pin 14 can be used only for positioning the shield connector 1 on the screen plate 15 or also as a solder joint.

The contact elements 9 are arranged in the region 12 and 13 of the contacting of the bus screen lines 43, 44. The arrangement of the contact elements 9 corresponds to the lowest points of the partial trough-shaped formations of the shield connector 1. The trough shape is supported in particular by the elevation 11, whereby the cables 41, 42 can be pressed into the respective "trough" so to speak "automatically" when the housing part the cables 41, 42 is pressed (housing part is not shown). The housing part could in this case for example cover the entire shield connector 1 or also other parts of the bus connector 40. Here, the housing part, for example, a part of an overall housing, which consists of plastic and is arranged around the bus connector or its shielding around.

Advantageously, a D-sub connector 16 is attached to the bus connector 40, whereby it can be easily connected to a bus device, such as an actuator, a sensor, a controller or the like. Another socket 17 allows the connection to the circuit board by means of contacts 18, wherein a connection of a programming or configuration device is possible, which can locally program or project the bus station.

The connectors 16, 17 are arranged on the flat shields 19, 20 of the bus connector, the elements represent its shielding. These are also via the terminals 4, 5 and the solder joints 6, 7 with the shield connector 1 electrically contacted.

3 and FIG. 4 show an integrated shield connector 21, which is integrated in a bus connector 60.

The remarks to the 3 and 4 essentially correspond to those 1 and 2 , wherein the connector is now designed as a connector 21 and substantially with the shielding element 23 in one piece. This embodiment results in a smaller number of components and a certain simplicity of the bus connector 60 compared to the bus connector 40 of 1 and 2 , The bus connector 60 has fewer contact surfaces within the overall screen and is therefore better protected against burst currents.

The connection of configuring or programming devices is not possible with bus connector 60.

It is envisaged that the screen connector 21 embodied as a shroud plate will also take on further shielding functions by integrating further components of the bus connector 60 into this. Thus, for example, it is conceivable that the shielding element 38 and / or the shield plate 35 are also integrated with this or executed in one piece with this.

The recesses 39 facilitate the electrical contact with the shield plate 35 and are arranged in the vicinity of the openings 37, which serve to carry out screw-like fastening means.

For the contacting elements 29, the regions 33 and the elevation 31, the corresponding applies as for the contacting elements 9, the regions 12, 13 and the elevation 11 of FIG FIG. 1 ,

Advantageously, mechanical contact mechanisms (such as the terminals 4, 5, from FIG. 1 the shield connector for contacting the shield plate 35 in this embodiment is not necessary.

In summary, the invention relates to a bus connector with at least two cable connections for bus lines, wherein the cable connections in each case for electrical connection are provided with at least one bus signal line and a Busschirmleitung a cable, wherein a shield connector of the cable connection is provided for electrically contacting the bus shield connection of the cable with the bus connector shielding elements. The aim is to achieve a cost savings in manufacturing and component costs compared to metallized or metal housings such bus connectors, with an identical or more favorable EMC behavior is achieved. For this purpose, the shield connector are formed as a planar shielding of the cable connections and arranged in the contact area of the bus shield contact elements, which are provided for automatically contacting the Busschirmleitungen with the shielding by clamping during assembly of the housing elements of the bus connector.

Claims (8)

Bus connector (40, 60) having at least two cable connections for bus lines (43, 44, 45, 46), wherein the cable connections are each for electrical connection to at least one bus signal line (45, 46) and a bus screen line (43, 44) of a cable ( 41, 42) are provided, wherein a shield connector (1, 21) of the cable connection for electrically contacting the bus shield line (43, 44) of the cable (41, 42) with the bus connector (40, 60) shielding elements (15, 19 , 20, 35, 38) is provided, characterized in that the shield connector (1, 21) is formed as a planar shielding of the cable connections and in the region (12, 13) contacting the bus screen lines (43, 44) contact elements (9, 29 ), which for automatically contacting the Busschirmleitungen (43, 44) with the by clamping during assembly of the housing of the bus connector (40, 60) shielding elements (15, 19, 20, 35, 38) of the bus connector ( 40, 60) are provided. Bus connector (40, 60) according to claim 1, wherein the shield connector (1, 21) for soldering to a bus connector (40, 60) shielding element (15, 19, 20, 35, 38), in particular one Circuit board shielding shield plate (15), is provided. Bus connector (40, 60) according to one of the preceding claims, wherein the shield connector (1, 21) in a shielding the bus connector element (15, 19, 20, 35, 38), in particular a shielding a printed circuit board (15 ), is provided. Bus connector (40, 60) according to any one of the preceding claims, wherein the shield connector (1, 21) is formed as a shield plate, whose shape is adapted to the shape of the cable (41, 42). Bus connector (40, 60) according to any one of the preceding claims, wherein the shield connector (1, 21) is formed partially wave-shaped and / or trough-shaped. Bus connector (40, 60) according to any one of the preceding claims, wherein the shield connector (1, 21) is formed as a metallic or metallized embossed part. Bus connector (40, 60) according to any one of the preceding claims, wherein the bus connector (40, 60) at least one connection socket (16, 36) is provided for connection to a bus subscriber. Bus connector (40, 60) according to any one of the preceding claims, wherein the bus connector (40, 60) is designed as a PROFIBUS connector.

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