DE1108301B - Contact arrangement for electrical switches - Google Patents

Description

Contact arrangement for electrical switches The invention relates to a Contact arrangement for electrical switches, consisting of one of several in parallel switched individual contact pieces consisting of a main contact piece and a breakaway contact piece.

For switches with pressure contacts that are used to interrupt high short-circuit currents are used, main contact pieces and breakaway contact pieces are generally used. The latter are used to take over the arc. The main contact pieces, however, those that carry the continuous current should open without arcing. In practice, however, it works arcing-free switching of the main contacts is not possible, because the voltage drop between the individual contact pieces is too large. The extended current path as well the increased contact resistance of the contact material of the tear-off contact decisive for this.

In order to switch the main contact piece as arc-free as possible to achieve, one has therefore already provided an intermediate contact piece. Here is of course a guarantee for an arc-free switching of the main contact is given. That Intermediate contact is, however, due to the arc to be drawn and the with Consideration of the main contact piece of the material used does not have a long service life own. The voltage drop between the switching path of the intermediate contact and the breakaway contact is still considerable, as is the one between the main and intermediate contact piece existing voltage drop can still be very large.

The invention now proposes a cut-off arc to avoid the voltage drop from its lowest value at the main contact, at which all contact points are closed, up to its maximum value, at which only the adapter pieces are closed, to change in small steps. In this In this case, an arc will only occur at the breakaway contact when it is opened, without which must take over an arc when the main contact is opened.

This change takes place in small steps and as evenly as possible the voltage drop to its maximum value can be achieved in that a larger number of individual contact pieces belonging to the main contact piece can be switched one after the other. According to the order in which the contacts are opened the conductivity of the individual contact plating of silver contacts from up to z. B. graduated to high percentage tungsten contacts. This can reduce the contact resistance be increased on the last single contact piece so that the voltage drop between this and the tear-off contact for drawing an arc on the main contact is no longer sufficient and it is therefore protected. So open according to the invention in the case of a contact arrangement of the type described above, the individual contact pieces successively in time and consist of such different contact material that by increasing the contact resistance in the order of opening the voltage drop rises evenly in small steps up to the value indicated by the closed Abreißschaltstück is given.

An arrangement is known in which the main contact piece is split into individual contact pieces is divided, but the individual contact pieces open at the same time. This arrangement has the purpose of preventing harmful effects on the contacts through the dynamic Forces cannot occur.

Appropriately, the individual contact pieces are together in a carrier Spring action stored and each by a stop at a different distance from the Fixed contact piece held. Another advantageous embodiment of the subject matter of the invention is also that each contact piece is provided with a curved path on the one common to all contact pieces, connected to the drive shaft and a pivoting motion acting role acts, wherein the cam tracks run in such a way, that during the pivoting movement of the roller, the contact pieces open one after the other.

The invention also has the further advantage that by the Division of the current-carrying main contact piece into individual contact pieces the dynamic Load is reduced. This allows smaller spring and restoring forces to be provided. In can also advantageously according to the switching capacity the Abreißschaltstück be subdivided, namely in also opening one after the other and individual contact pieces with different contact plating. To under among other things, an even load on the contact piece carrier when switching on and off to achieve, is further proposed according to the invention, the first opening Contact pieces to be provided on both sides on the outside of the main contact piece.

In addition, it is useful to put the last switching pieces directly to be arranged side by side. The latter has the purpose of keeping the current path short, which has a favorable effect on the voltage drop when opening the contact pieces.

That or the breakaway contact pieces can have the same mechanics as the Have main contact pieces and be stored in the same carrier in which the Individual contact pieces of the main contact piece are housed.

Exemplary embodiments of the invention are shown in greater detail in the drawing. Figure 1 shows a schematic representation of the main contact piece according to the invention For a better understanding of the mode of operation, Figure 2 shows a switching arrangement with main and tear-off contact in side view, Fig. 3 and 4 the switching arrangement in plan view in closed and open position; Pictures 5 to 7 show another one constructive training possibility of the contact piece according to the invention.

As shown in Figure 1, the main contact should be divided into several parallel-connected Individual contact pieces 1 to 6 can be divided. Open these individual contact pieces 1 to 6 but not at the same time, but one after the other, namely the contact piece opens first 1, then 2, then 3 etc. When closing, the process is reversed. So it will be first the single contact piece 6, then 5, then 4, etc. closed. This order serves only to explain the invention. The order of opening and closing can be however, they can also be chosen differently, which will be discussed later. These single contact pieces now have different contact plating, namely the contact material made of silver for the contacts 1 to 3, the chemical designation in Figure 1 for silver, namely Ag, are provided and changes up to a high percentage Tungsten alloy at the last opening contact piece 6. According to the alloys are the contact piece 4 in Figure 1 with the designation W / Ag 50/50, the contact piece 5 with W / Ag 75/25 and the contact piece 6 with W / Ag 90/10. This achieves that the voltage drop increases almost uniformly in small steps up to a value which is given by the closed tear-off contact. You have it in the hand, one in the known arrangements when opening the main contact to completely avoid these arcs.

Figures 2 to 4 show a practical implementation of the subject matter of the invention. The individual contact pieces 1, 2, 3 and 4 of the main contact piece are mounted in a carrier 7. The individual contact pieces are named in the order in which they are opened. The carrier 7 is rotatably mounted at point 8. A switching rod 9 is articulated to a device 10 connected to the carrier 7 and is connected to the switching mechanism. The individual contact pieces are electrically connected to one switch pole by means of current strips 11. The individual contact pieces 1 to 4 are each rotatably mounted around the point 12 in the carrier. They are also each subject to the action of a spring 13 which presses the respective individual contact element with its contact pad 14 against the fixed contact element 15. Each individual contact piece is provided with bolt-like projections 16 which are guided in elongated holes 17. These lugs 16 are now each provided at different points on the individual contact pieces 1 to 4, so that the bolt-like lugs 16 come to the stop at the right end of the elongated holes 17 sooner or later. Conversely, the elongated holes 17 can of course also be designed in different ways and the bolts 16 can be inserted in the individual contact pieces at the same points. This now means that the individual contact pieces under the action of the springs 13 in the open state are unequal distance from the fixed contact piece 15, that is, the opening of the individual contact pieces takes place one after the other, namely, as already noted, in the order of the identification of the contact pieces 1 to 4. In this case, at least the individual contact piece 1 will be provided with a pure silver plating and the individual contact piece 4 will have a high-percentage tungsten alloy. As can be seen in Figure 4, the individual contact pieces 1 to 4 are not opened evenly from one side to the other, but first the single contact piece located above in Figures 3 and 4 opens, then the underlying single contact piece 2, then 3 and then follows the individual contact piece 4. This measure has, inter alia, the purpose of achieving a uniform mechanical load on the contact piece carrier 7 and its bearings. With a sequence of the opener from one side to the other, a twisting or twisting of the carrier and its drive parts would occur.

In the exemplary embodiment according to Figures 2 to 4, the tear-off contact piece is also divided into two individual contact pieces 19 and 20 . These individual contact pieces 19 and 20 interact with the fixed contact piece 21 and can also consist of different contact materials. As can be seen, apart from the attachment of the contact plating and the arc horn, the tear-off contact pieces 19 and 20 have the same shape as the individual contact pieces of the main contact piece and are in the same carrier? stored, in which the individual contact pieces 1 to 4 of the main contact piece are housed. This division of the breakaway contact is not always necessary, but depends on the switching capacity of the respective device.

Figures 5 to 7 show a further design of the Subject of the invention shown. Here are the individual contact pieces of the main contact piece 22 provided with curved tracks 23 and mounted pivotably about a point 24. The fixed contact pieces are denoted by 33. The tear-off contact can also be pivoted about point 24 25, which is provided with a curved track 26. Between the contact pieces and contact compression springs 27 are provided for the cam tracks. Furthermore, attack the Switching pieces or their lever arms opening springs, which, however, are shown in the drawing are not shown. A lever arm 29 is attached to the switch shaft 28, at the end of which a Roll 30 is located. This roller 30 presses in the switched-on state, both the individual contact pieces 1 to 6 of the main contact piece 22 and the Abreißschaltstück 25 via their cam tracks 23 and 26 against the Effect of the opening springs on the fixed contact pieces 33. The lever arm 29 is standing under the action of a spring 31. To limit the movement of the lever 29 is a stop 32 is provided.

The switch-on position is shown in Figure 5. Each individual contact piece 1 to 6 now has a somewhat different course of the cam path, as shown 23, so that when the roller 30 is moved clockwise, the one in front is the first Single contact piece 1, then the contact piece 2, 3, etc. is opened. So here are the individual contact pieces 1 and possibly also 2 with a contact plating made of pure silver, while in turn the contact pieces that open afterwards are made consist of a tungsten alloy with increasing tungsten content. After all the individual contact pieces of the main switching piece 22 have opened, is determined by the course of the curved path 26 of the Abreißschaltstückes 25 also opened this, which is now the cut-off arc takes over. When switching on, the contact pieces are now in reverse order closed. In the open position according to Figure 7, according to the course of the Cam tracks 23 the individual contact pieces 1 to 6 of the main contact piece 22 evenly be far from the fixed contact piece 24.

Claims (7)

PATENT CLAIMS: 1. Contact arrangement for electrical switches, consisting from a main contact piece consisting of several individual contact pieces connected in parallel and a tear-off contact, characterized in that the individual contact pieces (1 to 6) open one after the other and made of such different contact materials exist that by increasing the contact resistance in the sequence of opening the voltage drop increases evenly in small steps up to the value that is given by the closed tear-off contact. 2. Contact arrangement according to claim 1, characterized in that the contact pieces (1 to 4) together in a carrier (7) stored under spring action and each by a stop (17) in different ways Distance to the fixed contact (15) are kept. 3. Contact arrangement according to claim 1 and 2, characterized in that each contact piece (1 to 6) with a curved path (23) is provided on the one common to all contact pieces with the drive shaft (28) connected and a pivoting movement executing roller (30) acts, wherein the cam tracks (23) run in such a way that during the pivoting movement of the roller (30) open the contact pieces (1 to 6) one after the other. 4. Contact arrangement according to claim 1, characterized in that the tear-off contact piece according to the switching capacity is also divided. 5. Contact arrangement according to claim 1 to 3, characterized in that that the first to open contact pieces (1, 2) on both sides on the outside of the main contact piece lie. 6. Contact arrangement according to claim 1 to 5, characterized in that the The last switching contact pieces (19, 20) are directly next to each other. 7. Contact arrangement according to claims 1 to 6, characterized in that the tear-off contact piece (s) (19, 20) essentially the same design and the same drive as the main contact pieces have and are stored in the same carrier (7). Considered publications: German patent specification No. 508 906.