The disclosure relates to a system comprising a first plug connector module and a second plug connector module that may be plugged into said first plug connector module. The disclosure likewise relates to a method for plugging a plug connector module to a second plug connector module.
Systems of this type are used in current circuits that are not to be interrupted. Current circuits of this type are in particular found in safety technology and comprise by way of example transformers and/or inverters
EP 2 510 590 B1 discloses a heavy plug connector that may be fitted with various plug connector modules. The individual contact elements of the plug connector modules may be bridged via so-called adaptor elements.
However, this bridging arrangement is permanent and active as long as the adaptor element is attached on the plug connector module. The bridging arrangement cannot be interrupted in the plugged state. Plug connector modules of this type may therefore only be used in current circuits that may be at least temporarily interrupted if by way of example a plug connector that is connected is pulled out.
The German Patent and Trademark Office has researched the following prior art in the priority application with regard to the current application: DE 31 44 580 A1; DE 34 42 056 A1; DE 44 28 323 A1; DE 10 2005 041 472 A1 and DE 10 2016 204 743 A1.
The object of the invention resides in proposing a system of two plug connector modules, which may be used in current circuits that are not to be interrupted.
The object is achieved by the system and the method as claimed.
The system comprises a first plug connector module and a second plug connector module that may be plugged into said first plug connector module. Plug connector modules of this type are used in so-called heavy plug connectors that may be fitted in a modular manner with various types of plug connector modules.
The plug connector modules are in general attached in a holding frame that is subsequently installed in a plug connector housing. Such a holding frame is disclosed by way of example in DE 10 2013 113 975 A1.
The plug connector modules comprise respectively at least two contact elements. In this case, these are preferably electrical contact elements that are embodied from a metal basic material having a particularly conductive metal alloy that is applied to said basic material. The first plug connector module comprises at least one spring bridge, wherein in the unplugged state, the at least one spring bridge connects the at least two contact elements of the first plug connector module to one another in an electrically conductive manner. This means that the spring bridge is produced from a conductive material and, in the unplugged state of the first plug connector module, is in physical contact with the at least two contact elements.
The spring bridge is advantageously arranged between the two contact elements. The spring bridge is embodied from resilient elastic electrically conductive material. In the unplugged state, the spring bridge presses on one side against a first contact element and on the other side against a second contact element, as a result of which a so-called electrical bridging arrangement is provided between the contact elements. This arrangement is particularly effective at saving space.
The plug connector module advantageously comprises at least four contact elements and at least two spring bridges. A spring bridge is arranged respectively between two contact elements.
It is preferred that the spring bridge is produced in a stamping and bending method. The spring bridge is embodied in a mirror-symmetrical manner along its main axis of symmetry. The spring bridge is ideally embodied as omega-shaped, wherein the ends are curved inward in order to place the surface of the contact element or contact elements under as small a mechanical load as possible if the two are brought into physical contact with one another.
In one advantageous embodiment, the contact elements comprise a contact region and a connecting region. Conductors of a cable that is to be connected on the plug connector are connected on the connecting region of the contact element. In this case, by way of example the crimping technique is used. The contact region of the contact element makes physical contact with a contact element of an opposite-lying plug connector module as soon as the plug connector modules are plugged to one another. In the unplugged state, the at least one spring bridge connects the at least two contact elements of the first plug connector module to one another in the connecting region in an electrically conductive manner. A physical contacting arrangement is produced with the spring bridge in the connecting region of the two contact elements. Producing the physical contacting arrangement remote from the contact region of the contact elements has the advantage that the metal alloy of the contact element is preserved in the contact region. As a consequence, multiple plug cycles may be achieved using the plug connector module. The contact region of the contact elements is mechanically loaded during the plugging procedure. An additional loading by means of a spring bridge in this region would lead to an accelerated wear of the relevant contact elements.
In one advantageous embodiment, the second plug connector module comprises a sliding element. If the first and the second plug connector module are plugged to one another, the sliding element disconnects the electrically conductive connection between the two contact elements of the first plug connector module and the spring bridge that is arranged therebetween. The physical contacting arrangement between the contact elements and the spring bridge is interrupted.
It is preferred that the sliding element is embodied in the second plug connector module as U-shaped. The ends of the omega-shaped spring bridge may be simultaneously brought out of the physical contacting arrangement with the associated contact elements by means of the U-shape. Moreover, it is possible by means of the U-shape in the second plug connector module to reach the connecting region of the contact elements in the first plug connector module.
It is particularly advantageous if the first plug connector module comprises at least two, however preferably four, contact elements that are embodied as socket contacts. As a consequence, the first plug connector module may be mounted in a so-called mounting flange on a system and/or machine. Since a mounting flange in contrast to a plug connector is placed under a smaller mechanical load, because said mounting flange cannot fall out, the first plug connector module is also mechanically preserved. Consequently, the second plug connector module comprises at least two, however preferably four, contact elements that are embodied as pin contacts.
It is advantageous if the first plug connector module comprises at least one holding plate that fixes the at least one spring bridge within the first plug connector module. This fixing arrangement is ideally provided on the interface of the axis of symmetry of the spring bridge. The spring element comprises resilient elastic arms to the left-hand side and right-hand side of the fixing region and said resilient elastic arms respectively may be pressed against a contact element.
The holding plate advantageously assumes a double function. The holding plate fixes both the spring bridge as well as the two associated contact elements in the first plug connector module. This simple construction makes the first plug connector module equally robust and cost effective to produce.
The two above-mentioned plug connector modules are plugged to one another. In this case, the first and the second plug connector module are guided to one another in the plugging direction. A sliding element of the second plug connector module in this case presses against at least one spring bridge of the first plug connector module. As a consequence, the at least one spring bridge is brought out of the physical contacting arrangement with at least two associated socket contacts. The contact elements of the first plug connector module and the contact elements of the second plug connector module are brought into physical contact. The pin contacts of the second plug connector module are inserted in this case into the socket contacts of the first plug connector module. This occurs prior to the at least one spring bridge being brought out of the physical contacting arrangement with the at least two associated socket contacts.
An exemplary embodiment is illustrated in the drawings and is further explained below.
The figures include in part simplified, schematic illustrations. In part, identical reference numerals are used for identical but where applicable non-identical elements. Various views of the same elements could be scaled differently.
The first plug connector module 1 comprises on its outer side holding lugs 7 via which the first plug connector module 1 may be fixed in a holding frame (not illustrated) of a heavy plug connector (not illustrated) or of a mounting flange (not illustrated). The first plug connector module comprises cylindrical, first openings 8, 8′, 8″, 8′″ in which socket contacts 4 may be fixed. The first plug connector module 1 comprises therebetween cuboid-shaped, second openings 9, 9′ in which a spring bridge 6 may be respectively fixed. In the unplugged state, a spring bridge 6, 6′ is respectively in physical contact with two socket contacts. Such a physical contacting arrangement is circled in
The second plug connector module comprises a base body 10, four contact elements that are arranged therein, in this case pin contacts 11, and a holding plate 12. The pin contacts 11 are fixed via the holding plate 12 in the base body 10. A sliding element 13 is formed in the second plug connector module 2. It is possible via the sliding element 13 to bring the spring bridge 6 of the first plug connector module 1 out of the physical contacting arrangement with the socket contacts 4. The precise manner in which this functions is explained more precisely below. The second plug connector module 2 also comprises holding lugs 7′ for fixing in a holding frame (not illustrated).
The sliding element 13 is only indicated schematically in
The plugging procedure of the above-described plug connector modules is illustrated in the
Number | Date | Country | Kind |
---|---|---|---|
10 2017 103 996.1 | Feb 2017 | DE | national |
Filing Document | Filing Date | Country | Kind |
---|---|---|---|
PCT/DE2018/100128 | 2/14/2018 | WO | 00 |