Patent Grant
11258207
The disclosure is based on a system consisting of a first plug connector module and a second plug connector module, each for use in a modular industrial plug connector.
Plug connector modules are required as constituent parts of a plug connector modular system in order to be able to flexibly adapt a plug connector, in particular a heavy-duty industrial plug connector, to meet specific requirements in respect of signal and energy transmission, for example between two electrical devices. To this end, plug connector modules are usually inserted into corresponding holding frames which are sometimes also referred to as articulated frames, module frames or modular frames. Therefore, the holding frames serve to receive a plurality of plug connector modules which are identical to one another and/or different from one another and to safely secure said plug connector modules to a surface and/or a device wall and/or in a plug connector housing or the like.
The plug connector modules typically each have a substantially cuboidal insulating body or a cuboidal housing. These insulating bodies or housings can serve, for example, as contact carriers and accommodate and fix a wide variety of contacts. Therefore, the function of a plug connector formed in this way is very flexible. Pneumatic modules, optical modules, modules for transmitting electrical energy and/or electrical analog and/or digital signals, for example, can be accommodated in the respective insulating body or housing and therefore used in plug connector modular systems. Plug connector modules are increasingly also taking on measurement- and data-related tasks.
For example, holding frames which are formed from two frame halves which are connected to one another in an articulated manner can be used. The plug connector modules are provided with approximately rectangular holder means which project on the narrow sides. Recesses which are designed as openings which are closed on all sides and which the holder means enter when the plug connector modules are inserted into the holding frame are provided in the side parts of the frame halves. The holding frame is folded open, that is to say opened, for inserting the plug connector modules, wherein the frame halves are folded open about the joints only to such an extent that the plug connector modules can be inserted. The frame halves are then folded together, that is to say the holding frame is closed, wherein the holder means enter the recesses and the plug connector modules are securely held in an interlocking manner in the holding frame.
DE 10 2014 110 279 B3 discloses a plug connector module with a centrally arranged contact element. The contact element is designed for transmitting high currents. However, if, for example, further plug connector modules for transmitting high-frequency signals are provided in addition to plug connector modules of said kind, they can unfortunately have a negative influence on the data signals.
Metal plug connector housings, as are disclosed in DE 10 2014 113 481 A1 for example, are usually already used for heavy-duty plug connectors for safety reasons. Plug connector housings of this kind are produced, for example, using a zinc die-casting process or using an aluminum die-casting process. As a result, a certain degree of electrical and/or magnetic shielding is automatically provided. One disadvantage with this design is the very complicated production. Accordingly, said plug connector housings are generally too expensive to be used exclusively for shielding purposes.
The German Patent and Trademark Office has performed a search of the following prior art in the priority application pertaining to the present application: DE 102 32 186 C1, DE 20 2006 012 687 U1, DE 20 2006 016 545 U1, DE 20 2008 004 428 U1, DE 697 22 303 T2, U.S. Pat. Nos. 5,511,992 A, 5,500,788 A.
The object of the disclosure is to propose a plug connector module for a reliable and at the same time cost-effective modular industrial plug connector.
The system according to the disclosure consists of a first plug connector module and a second plug connector module. The plug connector modules are intended especially for a modular industrial plug connector and in particular for being fixed in a modular holding frame.
The two plug connector modules each have a shield transfer element. The shield transfer elements consist of a metal material which has, in particular, good electrically conductive properties. The respective shield transfer element can be connected, on the cable connection side, to a cable and, in particular, to a shield braid of the connected cable. The first and the second shield transfer element are electrically contact-connected to one another on the plug side. This means the shield transfer elements are in physical contact with one another.
The characteristic impedance, also referred to as the characteristic wave impedance, can be considerably reduced by the shield transfer elements of the system.
In a particularly advantageous refinement, the first shield transfer element is of substantially flat configuration and is bent in a wave-shaped manner only on the plug side. In this case, the wave shape can correspond to a kind of round wave shape when viewed from the side or when viewed toward the narrow side. However, an angled variant is also conceivable as an alternative. The first shield transfer element advantageously has, on the plug side, at least one slot which runs in the plugging direction. The first shield transfer element particularly advantageously has, on the plug side, three slots which run in the plugging direction. The first shield transfer element can be produced from a flat sheet-metal material using a stamping and bending process in a simple and cost-effective manner.
The second shield transfer element is preferably of continuously flat design. Contact-making fingers, which catch onto the second, flat shield transfer element for the purpose of making electrical contact, are formed by the abovementioned slots on the plug side. Reliable contact-connection, which can be realized without a large expenditure of force during the plugging process, can be achieved by this refinement.
In a further particularly advantageous refinement, the first and the second shield transfer element are of T-shaped configuration on the cable connection side, wherein the T-bar is formed at the end side. The width of the first and of the second shield transfer element is preferably smaller on the cable connection side than on the plug side. This geometry is very suitable for being connected to a shield braid of a cable to be connected.
In a preferred refinement, the first and the second shield transfer element each have a cable fixing element on the cable connection side. The cable fixing element is preferably designed as a hose clip. In this way, the shield braid of the cable can be electrically conductively fixed to the respective shield transfer element. At the same time, strain relief for the connected cable can be realized by a hose clip.
In a preferred refinement, the first and the second shield transfer element each cover a side surface of the plug connector module at least in regions. This means that the substantially cuboidal housing of the plug connector module has a side surface which is covered by the shield transfer element at least in regions. Said side surface is a side surface which is oriented to an adjacent plug connector module in a holding frame. The shield transfer element can therefore have its desired shielding effect in the desired direction.
The first and the second shield transfer element preferably cover a large portion, preferably at least 75% and particularly preferably at least 90%, of the respective side surface of the plug connector module. These proportions of coverage have proven suitable in practice. This is particularly advantageous in order to achieve shielding which is appropriate for the respective application.
In a further preferred refinement, the first and the second plug connector module each have at least three contact elements by way of each of which a current with a current intensity of at least 16 Amperes can be transmitted. A current with a current intensity of more than 20 Amperes can preferably be transmitted. In order to be able to transmit currents of this kind, a contact element has to have a certain material thickness and a certain surface area (square millimeters). In general, said contacts are so-called turned contacts which are machined from solid material. More delicate contacts, as are used in signal and data plug connectors for example, cannot transmit current intensities of this kind.
In a preferred variant, the first and the second plug connector module each have a holding plate by way of which the contact elements can be secured in the plug connector module. The contact elements are inserted into recesses of a main body and are fixed in the main body by means of the holding plate. In this case, the contact elements still have a certain amount of play in order to make the process of plug-connecting the first plug connector module to the second plug connector module easier. The holding plate has fixing arms which project in a perpendicular manner, point in the plugging direction, engage around the individual contact elements, and in this way hold said contact elements in the insulating body or fix them therein.
An exemplary embodiment of the invention is illustrated in the drawings and will be explained in more detail below.
The figures contain partially simplified, schematic illustrations. In some cases, identical reference signs are used for similar but not identical elements. Different views of the same elements can be shown to different scales.
The first plug connector module 2 and the second plug connector module 3 are each inserted into a modular industrial plug connector by means of a holding frame and are accordingly correspondingly arranged oppositely. In this context, the plug connector modules 2, 3 function as a system 1, as can be seen in
The plug connector modules 2, 3 have a plug side S and a connection side A. The plug side S is also described by “on the plug side” below. Analogously, the connection side A is also referred to as “on the connection side”. A cable (not shown for reasons of illustration) is connected to the respective connection side A. The plug connector modules 2, 3 are combined and plugged together by way of the plug side S.
The first plug connector module 2 and the second plug connector module 3 are each brought together and plugged in the plugging direction SR, SR′. The first plug connector module 2 has a first shield transfer element 5 and the second plug connector module 3 has a second shield transfer element 6. The shield transfer elements 5, 6 are produced from a metal workpiece using a stamping and bending process. A shield braid of a cable can be connected to each of the shield transfer elements 5, 6 on the cable connection side. The shield braid of the cable is electrically conductively connected to the respective shield transfer element 5, 6. The shield transfer elements 5, 6 are electrically conductively connected to one another or contact-connected on the plug side S.
The second shield transfer element 6 is of completely flat design. The first shield transfer element 5 of the first plug connector module 2 is likewise of flat configuration for the most part. The only exception here is the plug side S end of the shield transfer element 5. The shield transfer element 5 is of wave-shaped or corrugated design on the plug side. This shape is achieved by the metal sheet being bent upward once and then bent downward once, or vice versa, over its course in this region. The first shield transfer element 5 has, on the plug side S,—substantially within the wave-shaped region—axial slots 7 which run in the plugging direction SR. Contact-making fingers 8 are formed on the first shield transfer element 5 by the slots 7.
The first and the second shield transfer element 5, 6 each have, on the connection side, two opposite, rectangular notches 10 which form a T-shaped end. The first and the second shield transfer element 5, 6 are each equipped with a hose clip 9 on the connection side A. The hose clip 9 is arranged in the region of the notches 10. The shield braid of a cable (not shown) which is connected to the respective plug connector module 2, 3 can be electrically conductively connected to the respective shield transfer element 5, 6 by way of the hose clip 9. At the same time, the hose clip 9 provides strain relief for the cable.
In each case six contact elements 11, 11′ are arranged in the first and the second plug connector module 2, 3. The plug connector modules 2, 3 are suitable, in particular, as so-called motor plug connectors for an electric motor. At least three contact elements 11, 11′ are configured in such a way that a current with a current intensity of at least 16 Amperes can be transmitted by means of said contact elements.
The first and the second plug connector module 2, 3 each have a holding plate 12 with fingers 13 which are integrally formed in the plugging direction. The contact elements 11, 11′ are secured or fixed in the plug connector module 2, 3 by means of the holding plate 12 in addition to fingers 13. The contact elements 11, 11′ are fixed in a captive manner, but still have a certain degree of play in their respective recess 14 in order to ensure a required tolerance during the plugging process.
The shield transfer elements 5″′, 6 of the alternative system 1′ have, on the connection side, protruding flutes 18 which are arranged between the notches 10′. The cable sheath of the connected cable is placed on said flutes. On the other side, the cable is provided with a pressing element 16 and ultimately fixedly pinched between the flutes 18 and the pressing element 16 with the aid of a cable tie 18. Particularly reliable cable strain relief is realized in this way
Even though various aspects or features of the invention are shown respectively in combination in the figures, it is clear to a person skilled in the art—unless stated otherwise—that the illustrated and discussed combinations are not the only ones possible. In particular, mutually corresponding units or feature complexes from different exemplary embodiments can be exchanged with one another.
1 System
2 First plug connector module
3 Second plug connector module
4 Holder means
5 First shield transfer element
6 Second shield transfer element
7 Slots
8 Contact-making finger
9 Hose clip
10 Notch
11 Contact element
12 Holding plate
13 Finger of the holding plate
14 Recess
15 Slot
16 Pressing element
17 Cable tie
18 Flutes
S Plug side
A Connection side
SR Plugging direction
| Number | Date | Country | Kind |
|---|---|---|---|
| 10 2018 108 968.6 | Apr 2018 | DE | national |
| Filing Document | Filing Date | Country | Kind |
|---|---|---|---|
| PCT/DE2019/100339 | 4/12/2019 | WO | 00 |
| Publishing Document | Publishing Date | Country | Kind |
|---|---|---|---|
| WO2019/201390 | 10/24/2019 | WO | A |
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| Number | Date | Country | |
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| 20210021086 A1 | Jan 2021 | US |
