DE926382C - Contact for periodically switching devices - Google Patents

Description

Contact for periodically switching devices E: s are means b: e '@ can become t, z. B. Switching throttles, with .den you can relieve mechanical contacts so largely of switching fire when switching on and off that they can be used to switch: in periodically operating devices, e.g. B. converters or converters can be used. In the case of large currents, mau zi7,7eckanäß, ig uses double interruption in order to bring movable power supply lines. In this way (see Fig. R) contacts are obtained which consist of two fixed contact pieces, r and 2, on which a bridge 3 is placed periodically. The bridge is opened, for example, by a spring force. The electrical resistance of such a contact is approximated (see FIG. 2) (O = specific conductance), "where according to Fig. R L is the length, b the width and h the height of the moving contact piece. In the case of high currents, one will try to reduce the resistance by reducing L. This encounters the difficulty Duss using a Schratzben @ spring for generating the pressure P, the diameter D must be of the spring is small compared to the spacing of the fixed Kontaktstüdke a, ie. e. small compared to L, maintained, because otherwise no guarantee gegebenis .t, @ that the spring force P acts in the middle between i and 2 and is evenly distributed between i and 2. However, helical springs with a small diameter D cannot be produced for the large spring forces required for large currents :. In addition, if the spring diameter D is large, the mass of the lower coils of the spring, @velche the risk of bouncing when switched on, increases.

The invention overcomes this difficulty by providing between Compression spring and; moving I #, ontaktstüdlc a resilient plate, which the pressure of. the spring transfers to the contact socket. The suspension of this plate is to be coordinated with the mass of the lower: Windungent of the helical spring; that the natural frequency of this structure is small and is movable compared to the bounce frequency I # ', - ontaktstüclze when switching on: In this case the spring mass acts in relation on that. bouncing not harmful, but rather. it increases the pressure in the first moment the contact. To make sure that the pressure P is on the center of the moving Contact piece works, one helps the: spring plate on the lower side so., that it only touches the contact piece near its center line.

In. Fsg. 3 shows the invention as an example. i and 2 are fixed contact pieces, - 3 the contact bridge. A helical spring q, which at its upper end is held in a socket 5, carries one as possible at the lower end light springy plate 6. The power transmission from the spring: to the contact piece 2 is carried out by two rivet heads 7 and 8, which are on the center line a-b of the contact piece : are arranged. By using two such rivet heads, it is possible to prevent : That the rectangular contact plate 3 rotates around its axis, namely, when both the spring plate 6 and the socket 5 secure against rotation with the helical spring are connected. At the contact surfaces. are inserts 9. made of special contact material, z. B. Silberle @ gierurngen, welded in. On, plunger OK lifts the contact piece 3 periodically from its edition i and 2. So when lifting the contact piece .this tilt is performed, the plunger receives a recess i i, which is wider as the contact surface of the rivet heads 7 and $: is. The compression spring 4 carries on her upper and lower end one or two consecutive turns and, is flat ground: so that your force acts exactly centrally on the contact piece. To the Spring against damage in the event of short circuits. Which arcs on the contacts and thus the splashing of metal can result in protection of the bondage 5 bit to be pulled down over the spring plate 6.

The specified means make it possible to achieve the distance A (see Fig. i) small even with high currents, z. B. to keep smaller than 2o mm. this also has the consequence that each contact can handle currents of 100,000 A and more can be. At such high currents, however, it is. required, all iron and steel parts in the vicinity of the contact, i.e. rivet heads 7 and 8, spring plate 6 and compression spring q., made of non-magnetic material,: in order to heat them up to be prevented by stray fields.

Claims (5)

PATENT CLAIMS: i. Contact for periodically switching devices, in particular with switching throttles, in which a moving I7, ontäktstück is pressed by a spring against fixed contact pieces, thereby marked, that there is between the compression spring and. moving contact piece a lightest possible, resilient plate is arranged. 2. Contact; according to claim i, characterized in that the natural frequency of the resilient plate with the effective part .der spring mass together a natural frequency z results, which is smaller than the pressing frequency of the contact piece on his; Documents. 3. Contact according to claim i, characterized in that the pressure transmission between the resilient plate and the contact piece only in the immediate vicinity of the center line of the latter takes place. q .. Contact according to Claim 3, characterized in that the pressure transmission through two arranged on the center line of the contact piece Rivet heads done. 5. Contact according to claim i to q., Characterized in that Compression spring, resilient plate and rivet heads are made of non-magnetic metal. fr. Contact according to claim i to 4 ", characterized in that the distance between the fixed Contact between each other is less than 20 mm. Drawn up scriptures: ETZ, 19q.-1, booklet i, p. 15.