DE945276C - Swing armature - Google Patents

Description

ISSUED JULY 5, 1956

S 3936z VIII c 12ig

Swing armature

In electrical engineering, contacts are used for various purposes, in fractions of Seconds of successive switching operations with great temporal and spatial accuracy have to perform continuously. For these purposes it is known, inter alia, so-called rocker arm anchors to be used in which the armature is designed as a rocker arm mounted in the middle, the at carries contacts at both ends. The toggle anchors are spring-loaded. They have the disadvantage that the Storage has a bearing play and a bearing friction that is increased by the spring load and as sliding friction consumes force, wear and tear is subject to and requires lubrication and thus constant maintenance.

According to the invention, these disadvantages are avoided in that the with contact pieces provided anchor no longer on a lever, but on the movable end of one on the other End firmly clamped bending rod is attached and that a support is the movable end of the Prevents the bending rod from moving sideways during the anchor movement.

An embodiment of a swing armature according to the invention is shown schematically in FIG shown. The anchor is with 1, the flexible rod with 2, its movable end with 3, the fixed the clamped end is denoted by 4 and the support is denoted by 5. The anchor 1 carries at both ends Contact pieces 6 and 7, the fixed so

Contact pieces 8 and 9 are opposite. 10 and 11 are two electromagnets that influence the armature 1. The end 4 of the bending rod 2 is fixed in the base plate 13 by soldering 14, for example. The support 5, for example a steel wire, is in the movable end 3 of the bending rod 2, for example guided through a bore 16 and fixed in this there, for. B. soldered. · The support 5 is also firmly clamped at both ends at 17 and "18".

The arrangement works as follows: If the armature 1 is activated by the electromagnet 10 or 11 attracted on one side or the other, the contact 7, 9 or the contact 6, 8 is closed.

Figs. 2 and 3 show in an exaggerated manner, the setting of the armature 1. Since the SUPPORTED ^e i ⁿ prevents lateral deflection of the armature during its movement, the bending bar to bend in the manner shown exaggerated in accordance with the

so bending lines 23, 24 through.

FIG. 2 shows the position when the magnet 11 and FIG. 3 shows the position when the magnet 10 is excited. The effect of the support 5 on the movement of the anchor or on the change in shape of the

a ₅ bending rod results from the comparison of FIGS. 2 and 3 with FIG. 4, in which the change in position of the bending rod 2 is exaggerated when no support 5 is present. The support S can, as FIG. 5 shows, consist of only one wire. But you can also intercept the bending rod in several directions as' in one direction, as shown, for example, FIGS. 6 and 7. According to FIG. 6, the two support wires 19 and 20 form an acute angle 21, according to FIG 24 designated.

The force that returns the armature to its rest position is generated by the bending rod itself. The arrangement works smoothly and without wear. The bending rod is according to the further Invention dimensioned so that its stress ■ is well below the buckling limit. Consequently the switching process can be repeated as often as required without the bending rod being thrown by the permanent changing stress breaks.

The bending rod can have any cross-sectional shape. A circle or a is preferred Circular ring as a cross section.

In order to set the distances between the contact pieces 7, 9 and 6, 8 (in FIG. 1), one proceeds according to FIG further invention in such a way that the armature 1 is brought into its rest position, in which one puts, for example, between the contact pieces 7, 9 or 6, 8 gauge plates. In this Position is the end 4 of the bending rod 2 in the bore of the part 13. In this position, the End 4 secured in that the space between part 4 and part 13, for example is poured out by hard solder 14.

Another setting option would be that the end 4 of the bending rod 2 in one all-round adjustable joint in the part 13 is mounted. This also makes it possible to do the bending bar 2 can be adjusted axially and radially. Axially adjustable ball joints are particularly suitable for this.

The material used for the flexible rod is metal, in particular steel and bronze, or insulating material, especially glass and nylon, perlon, etc., into consideration.

The oscillating armature according to the invention can be used wherever there is. friction wear-free storage and the shortest switching times are important. This is e.g. B. with contact converters the case in which the contact pieces with great temporal and spatial accuracy have to be moved.

In addition, the oscillating armature according to the invention can be used for relays and switches. In particular, it is suitable for control relays for synchronous switches because the arrangement according to the invention, in addition to the advantages specified above, has the further advantage that the masses of the armature and the bending rod to be moved can be kept very low, and because the paths to be carried out by these parts, thus with the movement of the anchor and with ^; the change in shape of the bending rod are very small, in particular so small that they cannot be observed with the naked eye. In addition, the arrangement according to the invention can also be used for high-voltage switches and for blocking magnet systems and changeover contactors.

A particular embodiment of a vibrating armature according to the invention for controlling three-phase Currents is shown in FIGS. 8 and 9. The oscillating armature consists of a swash plate 34, which is attached to the bending rod 35. The plate carries anchor parts 25 to 27. It is through Support wires 28-30 held. Magnetic coils 31 to 33 are arranged above the anchor plates 25 to 27. The solenoid coils are connected to a three-phase system RST. The arrangement is used for control in the cycle of a three-phase system. The disc itself is made of a non-magnetic material. At. Place of three magnet systems 6, 12 and multi-phase systems can also be used with anchors.

Claims (7)

PATENT CLAIMS: 1. oscillating armature, characterized in that the armature provided with contact pieces (1) at the movable end (3) of a bending rod (2) firmly clamped at the other end (4) is attached and that a support (5) the movable Prevents the end (3) of the bending rod (2) from moving sideways during the armature movement. 2. oscillating armature according to claim 1, characterized in that the support (5) from tensioned Wires, tapes and the like. consists.. 945 27 « 3 · oscillating armature according to claim ι, characterized in that the clamping points (4) of the Flexural rod (2) are adjustable on all sides. 4. oscillating armature according to claim 3, characterized by a ball bearing for the all-round Adjustability of the clamping point (4) of the bending rod (2) for the purpose of setting the oscillating armature contact pieces. 5: Swing armature according to claim 3, characterized in that the clamping point (4) of the Bending rod (2) soldered after setting the oscillating armature contact pieces, encapsulated or is cemented. 6. oscillating armature according to claim 1 °, characterized in that a swash plate (23) ig is used with anchors (25 to 27) arranged on the circumference. 7. oscillating armature according to claim 6, characterized in that the three anchors are influenced by a three-phase system. 1 sheet of drawings © 609 544 6.