The disclosure relates to a plug connector module for an industrial plug connector and a method for fitting a holding frame with one or more plug connector modules.
Plug connector modules are required as a constituent part of a plug connector modular system in order to be able to match a plug connector, in particular a heavy-duty industrial plug connector, to specific requirements in respect of signal and power transmission, for example between two electrical devices, in a flexible manner. To this end, plug connector modules are usually inserted into appropriate holding frames, which are also referred to as articulated frames, module frames or modular frames, amongst others. Therefore, the holding frames serve to receive a plurality of plug connector modules which are similar to one another and/or also different and to securely fasten said plug connector modules to a surface and/or a device wall and/or in a plug connector housing or the like.
In general, the plug connector modules each have a substantially cuboidal insulating body or a cuboidal housing. These insulating bodies or housings can serve, for example, as contact carriers and receive and fix contacts of very different kinds. The functioning of a plug connector formed in this way is therefore highly flexible. For example, pneumatic modules, optical modules, modules for transmitting electrical energy and/or electrical analog and/or digital signals can be received in the respective insulating body or housing and therefore used in the plug connector modular system. Plug connector modules increasingly perform measurement- and data-related tasks too.
Holding frames which are formed from two frame halves which are connected to one another in an articulated manner are optimally used. The plug connector modules are provided with approximately rectangular holder means or devices which project from the narrow sides. Recesses or openings which are designed as openings that are closed on all sides and which the holder means or devices enter when the plug connector modules are inserted into the holding frame are provided in the side parts of the frame halves. So-called articulated frames are used most frequently. For the purpose of inserting the plug connector modules, the holding frame 1 is folded open, i.e., opened, wherein the frame halves are folded open about the articulations only to such an extent that the plug connector modules can be inserted. The frame halves are then folded together, i.e., the holding frame is closed, wherein the holder means or devices enter the recesses and create secure, interlocking holding of the plug connector modules in the holding frame.
The above-described modular industrial plug connectors provide a high degree of flexibility and can be configured for a very wide variety of fields of use by way of plug connector modules with different functions being installed together in a common holding frame. However, the number of plug connector module spaces in a holding frame is limited. As a result, the flexibility of an industrial plug connector of this kind is limited.
The German Patent and Trade Mark Office has searched the following prior art in the priority application relating to the present application:
DE 10 2017 123 331 B3, DE 10 2014 108 847 A1 and DE 202 14 132 U1.
According to embodiments of the invention, a plug connector module is provided which expands the spectrum of use of an industrial plug connector.
The plug connector module according to embodiments of the invention is intended for use in a modular industrial plug connector. In this case, a plurality of similar and/or different plug connector modules are generally installed in a so-called holding frame. The holding frame is then subsequently installed in a plug connector housing or a device wall. The plug connector module according to embodiments of the invention is formed from at least two independent functional units.
A functional unit forms an independent component. This means that the functional unit can function independently, that is to say without a further functional unit connected to it. A functional unit is not rendered technically usable just by joining together two or more functional units to form a plug connector module.
A functional unit advantageously has at least one contact element and/or one sensor and/or one edge computer. The edge computer can collect, store, process and transmit data for example. The contact element may be, for example, an electrical contact element for power or signal transmission. The contact element may also be an optical contact element to which, for example, an optical waveguide is connected. A functional unit can have a plurality of contact elements, in particular also a plurality of different contact elements. For example, electrical and optical contact elements can be mixed with one another. The sensor may be, for example, a current sensor which monitors an adjacent contact element, for example arranged in an adjacent functional unit. However, temperature sensors, optical sensors, in particular scattered light sensors or other sensors, can also be provided. A functional unit can also contain a plurality of sensors, in particular also different sensors. A functional unit can also contain a sensor or a plurality of sensors and at the same time a contact element or a plurality of contact elements.
The functional units of a plug connector module can operate entirely independently of one another. However, the functional units may also experience a synergy effect due to the joining, in particular when sensors of one functional unit are combined with contact elements of another functional unit.
In an advantageous development of the invention, the plug connector module comprises or consists of a first functional unit and at least one second functional unit, wherein the first functional unit has another type of contact elements and/or a different number of contact elements and/or contact elements with a different cable connection technique to the second functional unit. For example, solid contact elements for transmitting power, for example for an electric motor, can be provided in a first functional unit. More delicate contact elements for signal transmission, for example for controlling said electric motor, can be present in the second functional unit which is connected to the first functional unit. The contact elements of the first functional unit can be electrically connectable to a conductor of a connected cable, for example using the so-called crimping technique. The contact elements of the second functional unit can be equipped, for example, with a so-called screw connection. In this way, different cable connection techniques can be realized within one plug connector module.
The individual functional units can be welded or adhesively bonded to one another to form a plug connector module for example. However, it is advantageous when a fastening means or device is integrally formed on the side wall of the functional unit, by way of which fastening means or device a first functional unit and a second functional unit can be reversibly fixed to one another. As a result, the functional units can be combined with one another in a simple manner and possibly also reused.
Advantageously, a first fastening means or device is integrally formed on a side wall of the first functional unit and a second fastening means or device is integrally formed on a side wall of the second functional unit, wherein the first and the second fastening means or devices are configured in a complementary manner to one another. As a result, reliable and primarily tool-free assembly of the plug connector module can be ensured. The contours of the fastening mean(s) or devices can be designed differently, so that only specific functional units can be combined with one another. For example, it makes no sense to combine an optical sensor of a first functional unit with an electrical contact element of a second functional unit. As a result, faulty assembly of a plug connector module can be pre-emptively prevented.
The functional unit may include a holder means or device on a side wall thereof for fixing the plug connector module in a holding frame. The holding frame which is completely fitted with plug connector modules can be installed in an industrial plug connector. In general, a first functional unit has a first holder means or device on a side wall and a second functional unit has a second holder means or device on a side wall. The holder means or devices then engage in corresponding openings of a holding frame, for fixing the plug connector module in the holding frame, as already described above.
The fastening means or devices and the holder means or devices are arranged on opposite side walls of the functional unit. The first and the second holder means or devices may have a different geometry. The openings in the holding frame are matched to the respective geometry. As a result, the orientation of the plug connector module, the so-called polarization, is defined. This measure facilitates the assembly of an industrial plug connector comprising the plug connector modules according to embodiments of the invention.
In a particularly advantageous embodiment of the invention, the plug connector module has a shielding element, wherein the shielding element, for electromagnetic shielding, is arranged between two adjacent functional units. The shielding element is formed from a metal material, in particular a sheet metal. If, for example, signal contact elements are arranged in the functional units, so-called crosstalk of the signal contact elements is prevented by the shielding. As a result, the plug connector module provides good signal integrity.
The plug connector module may also include a strain-relief element. The strain-relief element prevents excessively high transverse forces acting on the plug connector module, as a result of which the functional units could otherwise be torn apart. The strain-relief element can be arranged between two adjacent functional units and can form a functional unit with the shielding element for example.
The way in which a holding frame is fitted with a plug connector module according to embodiments of the invention is described below:
First, a first functional unit is combined with at least one second functional unit to form a plug connector module. The plug connector modules produced in this way can then be inserted into a holding frame. If the holding frame is a so-called articulated frame, the frame halves of the holding frame are folded open and the combined plug connector module is then inserted between the frame halves. This process can be repeated until the capacity of the holding frame for receiving plug connector modules is exhausted. However, insertion spaces can also remain free in a holding frame in order to be able to possibly retrofit yet further plug connector modules later if, for example, a machine is technically upgraded. Plug connector modules which are constructed from functional units can be used when fitting the holding frame. However, commercially available plug connector modules which do not consist of functional units of this kind can also be used. Depending on the proportion of holding frames which comprise plug connector modules consisting of functional units, the first method step “combining” has to be carried out n times. The method step “inserting” takes place m times analogously to the total number of plug connector modules. The numbers n and m originate from the set of natural numbers, wherein n is less than or equal to m.
Openings are respectively provided in the respective frame halves, the holder means or devices of the plug connector module(s) entering said openings during insertion. When the frame halves are folded together, the holder means or devices enter the openings completely, as a result of which interlocking holding of the plug connector module or of the plug connector modules in the holding frame is produced.
Conductors of a generally multi-core cable are respectively connected to the individual plug connector modules. After the holding frame has been fitted with a desired number of plug connector modules, said holding frame is installed in a plug connector housing of an industrial plug connector.
Embodiments of the invention are illustrated in the drawings and will be explained in more detail below. In the drawings:
The figures may contain partially simplified, schematic illustrations. In some cases, identical reference signs are used for similar, but not necessarily identical, elements. Various views of similar elements may be shown at different scales.
Contact elements and/or sensors (not shown for reasons of illustration), in any desired number in each case, are respectively arranged in the individual functional units 6, 6′. A first fastening means or device 7 is integrally formed on a side wall of the first functional unit 6. A matching second fastening means or device 7′ is integrally formed on a side wall of the second functional unit 6′. The first and the second fastening means 7, 7′ are configured in a complementary manner to one another. In the exemplary embodiment shown here, fastening means or devices 7, 7′ are respectively integrally formed on two opposite side walls of the respective functional units 6, 6′. The fastening means or devices 7, 7′ shown here have an outer geometry of the kind that such they can simultaneously serve as the holder means or device already mentioned above in order to fasten the plug connector module 5 in a holding frame 2. The fastening means or devices 7, 7′ shown here have a dual function as it were and are therefore provided with the reference signs 7 and 8 in
Contact elements with a large cross section or diameter can also be used owing to transverse division of the plug connector modules 5, 5′ . . . of this kind.
The holding frame 2 consists of two frame halves are 9 which are connected to one another in an articulated manner. Openings 10 are respectively provided in the respective frame halves 9 of the holding frame 2, the holder means or devices 8 of the plug connector module 5, 5′ or of the plug connector modules 5, 5′ entering said openings during insertion. When the frame halves are 9 are folded together, the holder means or devices 8 enter the openings 10 completely, as a result of which interlocking holding of the plug connector module 5, 5′ or of the plug connector modules 5, 5′ is produced in the holding frame 2. The holder means or devices 8 have different dimensions. The associated openings 10 are adapted in a corresponding manner, so that so-called polarization is created by way of the holder means or devices 8. The plug connector modules 5, 5′, 5″, . . . can be inserted into the holding frame 2 only with a specific orientation.
Even though various aspects or features of the invention are shown respectively in combination in the figures, it is clear to the 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.
In general, in the following claims, the terms used should not be construed to limit the claims to the specific embodiments disclosed in the specification and the claims, but should be construed to include all possible embodiments along with the full scope of equivalents to which such claims are entitled.
Number | Date | Country | Kind |
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10 2018 115 371.6 | Jun 2018 | DE | national |
Filing Document | Filing Date | Country | Kind |
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PCT/DE2019/100545 | 6/13/2019 | WO | 00 |
Publishing Document | Publishing Date | Country | Kind |
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WO2020/001687 | 1/2/2020 | WO | A |
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20170117655 | Meier et al. | Apr 2017 | A1 |
Number | Date | Country |
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201417871 | Mar 2010 | CN |
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202 14 132 | Jan 2003 | DE |
10 2014 108 847 | Dec 2015 | DE |
10 2016 223 955 | Jun 2018 | DE |
10 2016 223-995 | Jun 2018 | DE |
10 2017 123 331 | Mar 2019 | DE |
2 779 875 | Dec 1999 | FR |
Entry |
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Chinese Office Action, dated Aug. 25, 2021, for Chinese Application No. 201980041898.8, 12 pages. |
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Number | Date | Country | |
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20210273370 A1 | Sep 2021 | US |