DE674914C - Contactor or switch activated by a switching magnet, in particular oil contactor - Google Patents

Description

Contactor or switch operated by a solenoid, in particular Oil contactor The well-known switches, which have a moving contact system through a switching magnet be switched on and off in the manner of contactors, as opposed to mechanical latched switches difficulty when the task is set the contact pressure, z. B. for larger nominal currents to increase beyond its certain level. Of the Switching magnet, which holds the moving contacts än the switch-on position, must namely Apply the great tensile force given by the high contact pressure, falls, so very large and expensive and consumes a lot of power. The recorded Performance may be like this. become large that the temperature of the contacts or des the oil in oil switches increases so much even when the switch is in a currentless state, that for the watt losses that occur in the main power parts and contacts of the switch occur with the passage of current, only a small temperature difference up to the permissible maximum temperature is available. As a result, such switches must over-dimensioned with regard to the switching magnet.

There are also electromagnetic oil contactors with straight, vertical switching movement of the switch armature known, in which by means of a lever arrangement, z. B. his toggle lever assembly, the gear ratio during switching between the effective force arm on the magnet armature and the effective load arm increased will. In such shooters, however, only the power arm was changed, which means often did not allow a sufficient translation of the shifting forces to be achieved. According to the invention the lever assembly consists of two um. fixed points in relation to the switching magnet rotatable angle levers, which lever arms so with the switch armature and the switch bridge are connected that, based on the pivot points, during the switch-on movement the effective load arm reduced to almost zero and the effective force arm enlarged to about its highest value.

The object achieved by the invention enables easy mastery high contact pressures, such as those found in switchgear for higher rated power and longer, less frequent circuits are possible.

Figs. I to 3 of the drawings show an embodiment of the Invention. Fig. I and 3 show the contactor with the omission of insignificant parts from the front in the "off" or "on" position, while Fig. a shows the "off" position of the side seen represents.

The switching magnet i with the switching coil a pulls the switch armature when energized q. at. At the Switching armature q: the tie rods 6 are hinged to the attack the power lever arms io of the angle levers 9, io. The Winkgl @ hebel9, iö are in axes of rotation 15, which are connected by the rails 3 to the festex @ `l of the magnet body i are connected.

Carry load arms 9 of the angle lever. with their ends the contact bridge carrier 7, on which the contact bridge i z is attached by means of the guide rods 5. In store this. the contacts i i with their contact compression springs 13. Will the magnet i excited by the coil 2, the armature q, is attracted, the Winkelhebe1 j, i o are pivoted about their axes of rotation i 5. The Anne g lift the bridge girder 7 and with it the bridge 12 until the armature at the end of the switch-on process (Fig. 3) q. is applied to its magnetic poles and the contact bridges i i under compression the springs 13 are pressed against the fixed contact pieces 8. (In Fig. I is the For the sake of clarity, only one fixed contact 8 is shown, in the same way as the contacts 8 of Fig. 3 only indicated as a fragment.) The switch-off process takes place by de-energizing the solenoid in reverse order.

How far you go with the point of application of the load lever 9 to the dead center approach and thus increase the transmission ratio when switched on only depends on how small the angle between the load lever and the direction of force is with regard to a safe and not too slow switch-off when de-energized of the solenoid may be selected.

The load lever arms 9 can therefore expediently with their free end a roller 1g possibly running in ball bearings to reduce the friction to reduce between them and the contact bridge carrier 7. The power in the first To raise moment for the initiation of the switching movement of the switching magnet is, is larger in the arrangement shown than under almost identical conditions without transmission lever. But this can easily be done, e.g. B. by asking for the switching coil selects a well-known pull-in circuit with its series resistor, the is short-circuited during the switch-on process and at the end of the switch-on movement is switched on in the coil circuit. With alternating current you can use the pull-in circuit in a familiar way so. train that initially only uses part of the switching coil and the rest is switched on at the end of the switch-on process.

Claims (2)

PATENT CLAIMS: i. Electromagnetic oil contactor with rectilinear vertical switching movement of the switch armature and the contact bridges controlled by it, in which by means of a lever arrangement during switching on the transmission ratio between the effective force arm on the magnet armature and the effective load arm increased is characterized by two angle levers that can be rotated around points fixed to the switching magnet, whose lever arms are connected to the switch armature and the switch bridge in such a way that The effective load arm is related to the pivot points during the on-switching movement reduced to almost: value zero and the effective force arm to about his the highest value. 2. Arrangement according to claim i, characterized in that that the load arm (9) its movement via a roller attached to its free end (1q.) Transmits.