DE1665759A1 - Contact arrangement - Google Patents

Description

Contact arrangement. The invention relates to an arrangement for the satisfaction of at least two contact members existing magnetizable Kcr, tukten with 1ül.ic: of permanent magnets, especially for contact clock control of telecommunication technology. Such allegations can be used to set up mechanically operated contact points, with:; pielswci- "e with keys or chalürn as well as with electrical Iüi t / S t 1 magnetically actuated contact sets, for example in relays or dials, can be used.

The invention aims to arrange contact members and permanent magnets in such a way that even with a low power of the permanent magnet a high one through good coupling Switching safety is guaranteed and that the type of mutual arrangement of Permanent magnet and contact members allow versatile application possibilities.

This purpose is achieved in that the contact members with their largest dimensions are essentially perpendicular to each other and at least a permanent magnet with variable magnetic influence on the contact members in the F-Iinkel formed by this is arranged.

The arrangement according to the invention dea permanent magnets in that of the Kontaktträgerezn formed angle has the particular advantage that the contact members the permanent magnet almost encompassing from one pole to the other, making them practical as baffles for the lines of force of the permanent magnet trying to get from one roll to the other, serve, so that in this way a greater proportion of de; from the poles a rough rage exiting force line field in the contact glasses geoarinel-t and as switching capacity au becomes accessible, a1: in other known arrangements. S`lenn namely, as is generally customary, the contact members essentially in a line of alignment and the permanent magnet is approaching or passing the contact point is, the contact members each form only one parallel to the connecting line the two poles or an iron line running parallel to the pole face, the according to their distance from the scrolls is only hesitant, a slight one Proportion of: to collect lines of force. Even with a dees parallel to the follow surface a FOles and in the immediate vicinity of the iron line because of the particularly great distance between the iron line and the iron line in this arrangement others, only a small part of the lines of force can be valued. A premagnetization can therefore be advantageous as a result of the arrangement according to the invention take place over wide areas of both contact members, so that the influence is also less yeldändexungen will be much greater than if only a limited part of one Catact limb and this is only influenced by a small part of the permanent magnetic field will.

The contact gliders lying essentially perpendicular to one another can be trained in different ways. So at ^ pielsteise two similar Lamellae must be in front of the movement, the movements of which are in phase and in a vertical plane to the Contact level run. According to a preferred embodiment one of the two contact members can also be rigidly scia. This has advantages in that than the contact members with their larger cross-sectional dimension then the permanent magnet can be facing, as the plane of movement of a movable contact member in the axis of the rigid contact member or also in the axis of the permanent magnet lies. In the @ u way, a more favorable flow through the contact members the lines of force of the permanent magnetic field achieved. Besides c, - @ - it is advantageous if at least one of the clock elements remains rigid, since the influence of the Daüermagnetfelc 'is easier to control when one of the two interacting Parts, contact link or permanent magnet, immobile and only there: other is movable.

Roof an embodiment of the invention can be the permanent magnet along the greatest extent of the one contact member, preferably the rigid one Contact member, be movable. The movable coupling of the permanent magnet results a simple way to change the magnetic influence at the contact point, The above-mentioned advantage arises from the arrangement according to the invention shows that the premagnetization of one contact member on which the permanent.::agret is moved along, is extraordinarily high, while the other contact member, that scnkrccht to Direction of movement of the permanent magnet is arranged is, its magnetization is preserved much earlier than in the case of an whose contact links are in a straight line.

According to a further embodiment, the permanent magnet can be fixed arranged and its field can be changed by a further, movable permanent magnet be. The permanent magnet can advantageously be dimensioned so that the contact members keep a tolurisation that is not yet ready for contact. The final contact is then possible with only a little extra effort. This additional effort is made by amplifying or weakening the permanent magnetic field by the large permanent magnet, which is the pole of the first-mentioned permanent magnet approaches a pole of the same or a different name. This creates contact arrangements with high switching speed and good switching reliability.

Expediently, the further permanent magnet can have a; of the contact elements, preferred ages dc :; rigid contact members, be movable. The above-mentioned five-term pretensioning influence when one of the contact elements is touched also applies to the further permanent magnet, which can be moved in the same context. According to a further idea of the invention, the or the permanent magnets share several magnetizable contacts be assigned to sam. Here, for example, the duration. magnets have such an extension that they are two mutually exclusive mirror-inverted magneti ~. ..rable contacts influence. For this it is necessary, for example old people to expand the width of the permanent magnet so far that its field is in the mood to unite the two parallel to each other., n the running Contact elements of the two magnetizable contacts equally to be influenced early. When the. expansion the magnet in the other, perpendicular to the first, lying dimension can have several magnetizable contacts lined up next to each other by the same permanent magnets be flowing. Finally, the two arrangements can be combine insofar as two mirror images of cincnder gcj -r.- i.ibcx @ ätehenE? e rows of magnetizable contacts of common-- amen permanent magnets can be influenced. Another T, _possibility of - # ncrdning can be made of permanent magnets with circular shaped ground planes are built up. The magnetizable Contacts are grouped in a star shape and the permanent magnets are v; above: i at: spic @ l @ r: eiae the rigid contact members are all parallel to the axis of the permanent magnet and the related contact links c: he parallel. to the circular base curses. With the aid of the permanent magnets, a wide variety of switching sequences of the various magnetizable co-clocks can be achieved with such anomalies. For example, the permanent magnets can influence all contacts at the same time. Such a structure would be advantageous for push buttons or relays with high numbers of contacts, for example.

Likewise, the arrangement can be constructed so that the fixed permanent magnet all contacts at the same time and the bendable permanent agnt meal individually or affects multiple contacts. The permanent magnet would be for all contacts take over the Vormagnetisicrung, while the movable permanent magnet a sequence of movements something like a slide switch, a rotary switch or a rotary selector would have and in each case at the point covered by it by reinforcing the shaft of the Field of the fixed permanent magnet, the magnetizable contacts arranged there influenced. Finally, the fixed permanent magnet can also have all contacts at the same time and the movable permanent magnet in the course of its movement successively several or affect all contacts. This structure would be like a stepping mechanism Correspond, whereby, if a round structure is assumed, the relatable one Permanent magnet on a circular bar influences the individual contacts one after the other. Further Details of the invention like the exemplary embodiments shown below can be removed.

It shows: -Fig. 1 and 2 the basic arrangement of a working and a normally closed contact, FIG. 3, a pushbutton, FIGS. 4 and 5, a rotary switch.

The magnetizable contact in Figures 1 and 2 consists of one rigid contact member -1 and a movable contact member 2, which is with a spring 3 is attached to a housing 4. The magnetizable contact is thus protected Contact formed, which is closed off from external influences and possibly is secured against contact burn-off by a protective gas atmo: # rliiz-e. The rigid The contact member is in a base plate 5, which is connected to the housing 4 in an airtight manner tet, used in isolation. The permanent magnet 6 in Fig. 1 is fixed, for example attached to the base plate 5, and dimensioned so that its magnetic field is straight is not sufficient to close the contact. When guiding a permanent magnet 7 with correct rotation of the two permanent magnets, the field of the permanent magnet 6 reinforced by that of the permanent magnet 7, so that the contact members close. In Fig. 2, a permanent magnet 8 is fixedly arranged and ao directed that it makes contact closes. When a permanent magnet 9 is brought up, the field of the permanent 8 so weakened that the contact opens. The permanent magnets 7 and 9 can be straight along the fixed contact member 1 or perpendicular to Image plane can be loaded in a straight line or in a circle. Of course is also an equal influence on the contact members possible if the permanent magnets 7 and 9 brought up or past above the cover 4.

The push button in FIG. 3 has two magnetizable contacts 10 arranged opposite one another in mirror image. Can perpendicular to the image plane Any number of contacts in a row, depending on the extension and strength of the permanent magnet arranged (t erden. The magnetizable contacts are in one of for example three plastic parts 11, 12 and 13 existing housing and are supported by a permanent magnet 14 influenced, which has a "key button 15 and --ir = ückholfeder 16 is movable. For coupling to the contact members 17 of the magnetizable contacts is a Plußleitblcch 18 is provided, which together nit the permanent magnet 14 of the Key button 15 or the return spring 16 is bcwcgt. When you press the Key button 15 is the permanent magnet down on the base plate of the magnetisiorbarcn Contacts 10 moved to and actuated all in its' influence area arranged Contacts as soon as the end position is reached.

The arrangement shown in two views in FIGS. 4 and 5 represents a rotary switch. Around a rotatable 19 are star-shaped magnetizable contacts arranged. As the outlines 21 and 22 indicate, contacts can be in several Arranged levels and influenced by the same shaft 19. The housing 23 has receptacles 24 for permanent magnets 25, which are used to polarize the magnetizable-n Contacts 20 are used and can optionally be used with different polarities can. A rotatable arm 26 is arranged on the shaft 19 in each plane which a permanent magnet 27 is attached. When the shaft rotates, it is attached to the individual magnetizable contacts 20 moved past and depending on the arrangement of the Dwrmagnete 25 may or may not influence the contact as working or break contact. A feather 28, which is also attached to the shaft 19, shows through locking points 29 in one Housing part the correct position of the permanent magnet 27 to the contacts 20.

Claims (3)

P a t e n t a n s p r ü c h e 1. Arrangement for actuating off at least two contact members existing magnetizable contacts with the help of permanent magnets, in particular for contact devices in telecommunications technology, thereby characterized in that the contact members with their largest dimensions in the resentliehen run perpendicular to one another and at least one permanent magnet with changeable magnetic Influence on the contact members is arranged in the angle formed by these. 2. Arrangement according to claim 1, characterized in that one of the two contact members is rigid. 3. Arrangement according to claim 1 or 2, characterized in that the permanent magnet is movable along the largest extension of the one contact member, preferably the rigid contact member. .. Arrangement according to nspruch 1 or 2, characterized in that the lurking magnet is fixed and its field can be changed by a flexible, movable permanent magnet. 5. Arrangement according to Linspnuch 4, characterized in that the further Dauermagnet.entlang the largest extent of one of the contact members, preferably the rigid contact member, is beEreg-bar. 6. Arrangement according to claim 3 or 4, and 5, characterized in that the permanent magnet or magnets are assigned to a plurality of magnetically beer-compatible contacts. 7. Arrangement according to? Claim 6, characterized in that the permanent magnet or magnets influence all contacts at the same time. B. Arrangement according to claim 6, characterized gekennzciehnet that the fixed permanent magnet affects all contacts at the same time and the beecgbare permanent magnet either individual or several contacts. 5. Arrangement according to claim 6, characterized in that the fixed permanent magnet all contacts at the same time and the assignable permanent magnet in the course of its disposition sequentially several or all contacts becinfluences.