DE900114C - Synchronous drive of a step control device working under load for transformers or choke coils - Google Patents

Description

In order to use step regulating devices of transformers, Chokes, or the like, which are switched under load ■. To protect the switching contacts in order to To prevent sooting of the switched and around possibly make the switches smaller «! being able to do so, according to an older suggestion switched that the or those Absehaltvocgang the Over-switching from stage to stage at or shortly before the zero crossing of the current or the

ίο There is tension. It is best to use automatic switches, their energy storage by a motor, for example by the one driving the stage selector Motor charged and by control devices working synchronously with the voltage or current phase (Synchronous motor, release relay or the like) are triggered. The driving and braking forces acting on the switch and the masis forces must be so <balanced and the time of tripping compared to the current and voltage phase be set so that the shutdowns, as mentioned, at or shortly before the zero crossing of current or voltage.

According to the invention, a precisely timed Worked such synchronously actuated step control devices achieved in that between the synchronous switching causing control means (Synchronous motor) and the load switch shaft a gear is provided, which via plug-in couplings with the load switch shaft and the synchronous circuit effecting control means is coupled,

and the play of the gearbox and the plug-in couplings are compensated for by springs and / or adjustable by means of adjusting screws . Means known per se can be used for this purpose. If the play is made adjustable, it is best to attach the adjustment device to a shaft that runs faster than the one that drives the load switch directly! Wave.

An exemplary embodiment of the invention is shown in the drawing.

ι to 4 are the fixed contacts, 5 is the movable contact of a circuit breaker of a step control device. The contact ι is with the one · step selector 6 and via a resistor 7 with the contact! 2 connected. Contact 4 is included the other tap selector 8 and over buckets, resistor 9 milt connected to contact 3, during the movable contact 5 on one load conductor 10 connected). Since the structural shape and mode of operation Such control devices are known per se and will not be explained in more detail here. The movable contact 5 is connected to the knee joint 11 by an angle lever 12 by means of one provided with a backdrop 13 and by the pawls 14, 15 in the end positions adjustable slide 16 is operated. To the Slide 16 is the one end, on another slide 17, the other end of a power storage spring 18 attached. The slide 17 is also provided with a raft 19 which milts the pawls 14, 15 cooperates. It is via a crank 20, a plug-in coupling 21, a gear reduction 22 and another plug-in coupling 23 driven by an asynchronous motor 214, which is not in indicated in more detail by actuating control switches 25, 26 by means of the slide 17 attached finger 27, 28 can be excited for the purpose of synchronous operation with direct current. The motor is due, for example, to the step voltage or a converter excited by the load current. He is> like the transformer, without this being shown in the drawing, three-phase.

The play of the plug-in coupling 21 is! balanced by springs 210, which deir in a slot Coupling disc2ii protruding expandable plug 212 Force it apart so that it sits on the Slotted walls. That. A gear of the gear transmission 22 consists of two halves 221, 222, seek to twist the springs 223 against each other. This is the game of the gear transmission aush equalized. The plug 231 of the coupling 23 protruding into the shoulder of the coupling disc 230 is double forked shaped. Diet forks can be adjusted by turning the screws 232 more or less be spread. This allows the play of the clutch 23 to be adjusted. The clutch 23 The supporting shaft rotates much faster than the crank 20 of the switch®. By adjusting the Screws 232 can determine the time of synchronous release relative to the current or voltage phase be moved.

The device works as follows: As soon as the plunger 19 approaches the release pawl 14 when the slide 17 moves in the direction of the arrow, the control switch 25 is closed and the previously asynchronous motor 24 is connected to a synchronous excitation so that it continues to run as a synchronous motor. As a result, each rotor position is assigned to a specific instantaneous value of the transformer red or voltage phase. During the movement of the slide 17 in the direction of the arrow, the force storage spring 18 was charged, since the pawl 14 prevents the slide 16 from moving along with it. As soon as the ram ro. the pawl 14 disengages, swings under Enth tension of the spring 18 of the slide 16 in the direction of the arrow to the left. As a result, the movable contact 5 is switched through the stationary contacts 1 to 4. The time of the latch release is based on the current or voltage phase and the driving and dampening switch forces and masses are balanced so that the bridging initially brought about between contacts 1 and 2 is just at or shortly before the voltage or desi zero crossing Current is canceled and that the subsequent bridging of contacts 2 and 3 disappears at a later zero crossing of the voltage or the current. Shortly thereafter, the slider 16 reaches ita the other end position, in which it is locked by the pawl 15, while 17 releases during further travel of the slide counter to the arrow direction of the fingers 27 wileder the control switch 25, so ¹ that the engine 24 can be executed as an asynchronous motor again . It is shut down in a known manner by a stop switch, not shown, or after a device for self-retention has expired. For the sake of simplicity, these control and switching means are omitted. If * °° is to continue turning, then the motor 24 is set again ita gear. The slides 16, 17 move in the opposite direction, and the movable contact 5 is folded back onto the contact 1 via the contacts 3, 2. * ° 5 Otherwise all operations are the same as above. The invention offers the following advantages: By compensating for the gear play, the synchronous switching device works reliably, which can be conveniently set to the correct synchronous release point more quickly than the shaft rotating around the switch shaft 20 by adjusting the play on the other.

Claims (2)

Patent claims: i. Synehron drive one working under load Step control device for transformers or choke coils, in which the Lasit circuit depends on the instantaneous values of the Switching current or the stage voltage takes place, characterized in that between the Synchronous switching causing control means, z. B '. Synchronous motor, and the load switch shaft (20) a gear (22) is provided, which over Plug-in couplings are coupled to the load switch shaft and the control means effecting the synchronous shift, and that the play of the gearbox and the plug-in couplings are compensated for by springs (223, 210) and / or adjustable by adjusting screws (232) . 2. Synchronous drive according to claim 1, characterized characterized in that the adjusting device (232) for the play on a shaft (the coupling 23) is housed, which runs faster than the one directly driving the load switch (5) Shaft (crank 20). 1 sheet of drawings 1 5652 12.53