DE19651962A1 - Cascadable contact system with interruption and feeding options on every contact element - Google Patents

Abstract

In modules (M, M') adjacent to each others, fitted with an electric apparatus, contact elements (KEP) are mounted which engage matching recesses in the module casing, so that contact elements (KEP) can be contacted from outside, i.e. by a similar contact element (KEP) of the adjacent module (M, M'). The substantially U-shaped contact element (KEP) has a spring rod (SS) and a fixed rod (FS), while the spring rod (FS) of a first contact element (KEP) extends to touch the fixed rod (SS) of an adjacent contact element (KEP).

Description

The present invention relates to a cascadable Kon clock system for potential transmission and for potential isolation voltage or potential feed for electrical devices in mo dular structure with at least one electrically conductive contact element.

So far, have been in such electrical devices feeding of potentials and for the formation of potential islands special separate modules within the electrical device used, but always be its own module slot claim. Each for feeding potentials into the mo dular electrical device inserted module leads however in disadvantageously to an increased space requirement of the modula electrical device.

The object of the invention is therefore for an electrical Ge advises a cascadable contact system in modular construction technology system with which both the forwarding of potential between adjacent modules as well as the potential isolation or potential supply is enabled.

The task becomes a Po for a cascadable contact system potential forwarding and for potential separation or potentials tial feed with at least one electrically conductive Contact element for electrical devices with a modular structure technology, whose modules can be placed next to each other solved that in a first module and a second module, which are arranged adjacent and by means of the contact system are contactable, at least one contact element is ordered, the contact element essentially U  or is Z-shaped and wherein a resilient Schen kel of the contact element arranged in the first module rigid leg of the contact arranged in the second module elements electrically contacted.

In an advantageous embodiment of the invention is for the contact system provides a potential feed in the form seen that one on the rigid leg of the Kontaktelemen tes detachably attachable potential feed connector in the stuck the contact between resilient Schen kel of the contact element arranged in the first module and rigid leg of the contact arranged in the second module element interrupts. Thus, at the point where the Potential feed connector plugged onto the contact element the potential transfer between neighboring Kon Clock elements interrupted and instead from the contact element onto which the potential feed connector is attached was to all other contact elements with this Contacted contact element or electrically conductive with this are connected, which is connected to the potential feed connector fed potential passed on.

If the modules of the electrical device such. B. actuators or sensors to control and / or monitor a tech African process are connected, the supply voltage of these actuators or sensors from those in the modules arranged contact elements is tapped and white then a first group of actuators or sensors a first Need supply voltage and being a second group of actuators or sensors, a second one, from the first one supply voltage require different supply voltage it is still an advantage if each module has one of the number corresponding to the different supply voltages Number of contact elements is arranged.  

If the potential feed connector is attached to the Contact element can be locked to the module if continued with the potential supply plug, an insulating part can be detached is bindable, which ver also attaches to the module is clickable, and the locking of the insulating part is more difficult to solve with the module than the connection with the Potential feed connector, then detaches when the plugged-in potential supply plug the insulating part from Potential feed connector and remains separately between the Legs of the adjacent contact elements. Thus a uncontrolled interconnection of electrically conductive Contact elements of different potential prevented.

Further advantages and inventive details emerge from the following description of an embodiment based on the drawings and in connection with the dependent claims chen. Show in detail

Fig. 1 a cascadable contact system in the base part at reihbarer modules of an electrical appliance,

Fig. 2 shows a contact element,

Fig. 3 contacted contact elements,

Fig. 4 shows a potential feed connector and

Fig. 5 shows a potential feed in the cascadable Kon contact system.

According to FIG. 1, contact elements KEP are placed in the base parts ST of the modules M, M ', which are each arranged adjacent. As can be seen particularly from FIG. 2, the contact element KEP is essentially U-shaped, where in the exemplary embodiment according to FIG. 2 one of the legs of the U-shaped contact element KEP is a rigid leg SS and the other leg of the U-shaped contact element KEP is designed as a resilient leg FS.

To tap the potential forwarded with a contact element KEP, the contact element KEP has further plug contacts SK, which are arranged in the exemplary embodiment according to FIG. 2 on the basis of the U-shaped contact element KEP and z. B. are designed according to FIG. 2 as a direct connector SK or can also be formed as an indirect connector.

The contacting of the contact elements KEP arranged in the base parts ST of the modules M, M 'can be seen particularly well with reference to FIG. 3. The arrangement of the contact elements KEP in the base part of the modules M, M 'is selected in the exemplary embodiment of the art that the base part ST of a first module M has savings in which the contact element KEP this module M engages in such a way that the rigid leg SS this Contact element KEP can be contacted, and that the resilient leg FS of this contact element KEP can contact the rigid leg SS of the contact element KEP arranged in the base part ST of the adjacent module M '. To Potentialwei terleitung the individual contact elements KEP are spaced Lich arranged such that a resilient leg FS of a first contact element KEP is present under moderate pressure on the rigid leg SS of the adjacent contact element KEP.

Such a spatial arrangement is effected directly if at least two modules M, M 'of the electrical device, for. B. on a top-hat rail HS, as shown in Fig. 1, ne are arranged side by side. This results in a closed contact element chain. Applied potentials are thus passed on from contact element KEP to contact element KEP, ie each individual module M, M 'is fed the potential fed in and passed on via module M, M' to the neighboring module M, M '.

For each module M, M 'of the electrical device, several - in the exemplary embodiment three - identical contact elements CEP can be provided for different potentials with independent contact element chains or potential chains form a potential for each transmission. In execution Example are the three contact elements KEP, each are arranged in a base part ST of a module M, M ', aligned parallel to each other. In case of multiple contact elements KEP in a module M, M 'for forwarding under of different potentials are the contact elements KEP one Module M, M 'of course isolated from each other.

To create different potential islands and / or un different potentials for these individual potential islands To have available a new potential will. To do this, the contacts must be lined up th contact elements KEP formed contact element chain ge aims to be interrupted at a defined point. To the previous potential then lies at the point of interruption after the interruption point a new feed-in starts of potential further.

The interruption of the contact element chain and the Einspei solution of a new potential is realized with a special Poten tialeinspeisestecker PS, the exemplary design from the embodiment in Fig. 4 is Darge. With the potential feed connector PS, it is possible due to its design to interrupt the Kon contact element chain, to feed a new potential and to maintain the interruption of the contact element chain even when the plug is removed unintentionally. No additional slot is required for potential supply within the contact element chain, ie in the group of modules M, M 'lined up together.

5 is plugged onto the rigid leg SS of the contact element KEP, where he interrupts the contact point between the rigid leg SS and the lying resilient leg FS of the adjacent contact element KEP and thus has an insulating effect on the side of the previous po t.

While the potential feed connector PS to the side of the potential has an isolating effect, it acts on the side of the new potential to be built electrically conductive. The conductive In the exemplary embodiment, part is designed as a socket BU. On the desired position in the contact element association is the bottom tentialeinspeisestecker PS with the socket part BU on the rigid leg SS of the contact element KEP pushed. Here reaches the isolating area of the potential feed plug kers PS between the rigid leg SS of a contact elements KEP and resilient leg FS of an adjacent con contact elements KEP formed contact pair and presses the springs the leg FS of the adjacent contact element KEP to be te. The electrical connection is at this point interrupted.

The potential feed connector PS snaps into the base part ST of the module M, M 'by means not shown in the figures ter locking elements. As a locking element z. B. one at the poten tialanschlußstecker PS arranged locking lug or positive locking recording and in the base part ST of the module M, M 'a cor responding locking profile or positive locking element for use come. Other detachable mechanical fixings for the pot tial feed plugs PS are conceivable. For example, the Locking also between the PS and rigid leg SS.  

Over the electrically conductive part of the on the rigid legs kel SS of the contact element KEP feed connector PS, in the exemplary embodiment the socket BU, can now via the to the potential supply plug PS closed electrical line EL a new potential be fed and from this point on the Kontaktele ment chain are forwarded. The transmission of potential takes place up to the end of the contact element chain or up to next interruption or feed point.

In the embodiment is according to an advantageous Ausge staltung the invention on the insulating side of the pot tialeinspeisechers PS with this an insulating part IT mecha nisch detachably connected. While potting the pot tialeinspeiseschersers PS on the contact element KEP isolating part IT between the two ning contact element legs SS, FS placed and locked according to the description above with the base part ST of the module M, M 'in which the contact element KEP, on its rigid leg SS the potential feed connector PS was inserted.

If the potential supply plug PS is removed, this will be solved Insulating part IT from the potential supply plug PS and remains continue, regardless of the potential feed connector PS, in Base part ST of the module M, M ', that is between the two separating legs SS, FS of the contact elements KEP. Consequently becomes an uncontrolled connection (short circuit) un different potentials effectively prevented.

This fact can be seen particularly clearly on the basis of FIG. 5. Fig. 5 shows within the contact elements chain formed from adjacent con contact elements KEP a plugged-in potential supply plug PS with insulating part IT.

The insulating part IT of the other potential supply plug PS this figure, which is released from the contact element chain on the other hand remains between the neighboring ones Contact elements KEP and prevents their electrically conductive Contacting.

This is achieved by locking the insulating part IT with the base part ST of the module much more difficult to solve is as the connection between the insulating part IT and the poten tial feed connector PS. The insertion of the potential feed plug PS causes the insulating part to be transferred IT from the potential feed connector PS to the base part ST of the Module M, M '.

Should the connection of the previously separated contact elements te to be restored, d. H. is the removal of the bottom tentialeinspeisesteckers PS deliberately desired, the Iso IT part using a tool (e.g. a screw drehers) or - depending on the design - also by Hand deliberately removed.

The potential feed connector PS also instructs NEN outer surfaces in the figures Rastele not shown elements or positive locking elements or positive locking recordings, with which several potential feed plugs PS can be detachable other can be associated. With so out designed potential supply plugs PS, it is more advantageous possible, a variety of potential feed plugs Combine PS into a jointly manageable unit and then the group of potential feed sticks thus formed core PS together on the corresponding, in the base part ST of the module M, M 'arranged contact elements KEP auftec ken. This leads to both easier work as well to improve the clarity of the management of the electrical lines EL, since related electri  cables via the group of potential supply plugs PS are summarized and can be handled together. The potential feed connector PS is on the contact element KEP of the module M, M 'inserted from which the Feeding a new potential should begin. So that is no additional module slot in the cascaded association Modules M, M 'necessary.

Deviating from the embodiment according to the previously described benen figures, the chain of contact elements from such be formed that the contact element KEP essentially Z- shaped with two essentially parallel legs and egg a diagonal base is formed, one of the legs kel as resilient leg FS and the other leg as rigid leg SS is formed.

Another alternative is that a Kon clock element KEP with two rigid legs SS one contact element KEP with two resilient legs FS adjacent is arranged. In this case also meets at the contact point between two contact elements KEP each a resilient Leg FS on a rigid leg SS, so that at deviatingly designed contact elements KEP be a previously written contacting is enabled.

Claims (6)

1. Cascadable contact system for the transmission of potential and for the supply of potential with at least one electrically conductive contact element (CEP) for electrical devices with modular construction technology,

• - The modules (M, M ') can be placed next to each other and in each case at least one contact element (CEP) is arranged in a first module (M) and a second module (M'), which are arranged adjacent and can be contacted by means of the contact system is
• - The contact element (KEP) is substantially U-shaped or Z-shaped and
• - A resilient leg (FS) of the contact element (KEP) arranged in the first module (M) electrically contacts a rigid leg (SS) of the contact element (KEP) arranged in the second module (M ').

2. Contact system according to claim 1, characterized ge features a staring at the Detachably attach leg (SS) of the contact element (KEP) bbar potential supply plug (PS) in the plugged-in connector was the contact between the resilient leg (FS) of the contact element arranged in the first module (M) (KEP) and rigid leg (SS) of the in the second module (M ') arranged contact element (KEP) interrupts. 3. Contact system according to claim 2, characterized in

• - that when the potential supply plug (PS) is plugged in, it can be locked with the module (M or M '),
• - That an insulating part (IT) can be releasably connected to the potential feed connector (PS),
• - That when plugging the insulating part (IT) with the module (M or M ') can be locked and
• - That the locking of the insulating part (IT) with the module (M or M ') is more difficult to solve than the connection of the insulating part (IT) with the potential feed connector (PS).

4. Contact system according to one of the above claims, because characterized by that of the contact element (KEP) from further contact elements (SK) branches. 5. Contact system according to claim 4, characterized ge indicates that the other contacts elements (SK) as direct plug contact (SK) or as indi right plug contact (SK) are formed. 6. Modular electrical device, the modules of which are each other can be arranged in a touching way records that in him a contact system one of the above claims applies.