DE307822C - - Google Patents

Description

IMPERIAL

PATENT OFFICE.

PATENT LETTERING

- JV £ 307822 CLASS 21 d. GROUP

SIEMENS-SGHUCKERTWERKE G. m. B. H. in SIEMENSSTADT b. BERLIN.

Addendum to patent 286403.

Patented in the German Empire on April 28, 1915. Longest duration: April 29, 1928.

In the main patent 286403 is a rotary transformer described, the rotor of which is coupled to its adjusting device in such a way that when the permissible torque is exceeded a clutch is released so that the rotor is independent of the adjusting device can turn. The purpose of the special coupling is to deal with impermissible current surges, such as "caused by overloads" or Short circuits in the network are caused, damage to the adjustment device impede. There is now the risk that the decoupled rotor will be under the influence of the current acting on him from the network continues to rotate and causes damage in the rotary transformer by z. B. Lines that lead from its winding to terminals on the stator of the rotary transformer, tears, or the insulators that these terminals are attached to, tears off.

According to the invention, such destruction is prevented that also the effect of overload or short-circuit currents on the rotary transformer itself is canceled by actuating a switching device when the clutch is released, which de-energizes the transformer.

Two exemplary embodiments of the invention are shown in the drawing. In the example according to FIG. 1, resistance is first connected in front of the exciter winding of the transformer and this winding is then short-circuited. Then the winding in series with the power lines is also short-circuited. With ι the rotor shaft of the rotary transformer is referred to, which can be rotated by means of the worm wheel 2 of the worm 3 and the drive 4. A shear pin 5 serves as a releasable connection between the rotor shaft and the worm wheel. According to the invention, an annular member 6 with a nose 7 is rigidly connected to the rotor shaft 9 adjusted. By turning the toggle lever, a switch locked by the locking lever 10 is triggered, which carries out the desired switching by sliding contact bridges 12 and 13 over contacts 14, 15, 16, 17 'and contact rails 18 under the influence of a spring 11 for each phase leaves. In this case, the resistors 19 are first connected in front of the phases 21, 22 and 23 of the exciter winding of the transformer, which are fed from the mains lines 20, and then these are short-circuited via the electrically interconnected contacts τη. 'By connecting the

Bridges 12 with contacts 14 and 15 also becomes the one connected to terminals 24 and 25, in series with the busbars 26 and the power lines 20 lying

5. 'winding of transformer short-circuited. 27 and 28 are disconnectors for these windings.

The resistors 19 also prevent a short-circuiting of the network when the switch passes to the short-circuit position for the excitation winding.

In Fig. 2, an embodiment is illustrated in which resistors in the rotor circuit are introduced and then immediately the one in series with the network Winding of the rotary transformer is short-circuited. The excitation winding in in this example is fed from the busbars, is then switched off by them. The same parts are identified as in FIG. 1. The coupling elements are springs 30, 31, 32 and 33 selected, which are connected between the worm wheel and the rotor, so that it can move against the worm wheel in the event of strong current surges. The springs are about to act as a clutch too. act so strong that they are replaced by small Fluctuations that are at the level of the normal torques remain completely unaffected and only take effect under loads that are considerably higher than the normal torque, possibly even several times over the same amount.

When releasing this mechanical clutch, an electromagnetic clutch is used Tripping device actuated by touching contacts 34 and 35 or 36 and 37 is, a rotary switch 38 is put into action. Thereby 39 contact bridges are made by a spring 40 drawn over contacts 41, 42, 43 and associated contact rails. Here resistors 19 are connected in front of the excitation winding of the transformer, which are from the busbars 26 is fed from via the lines 45, and then the in series with the bus bars 26 and the power lines 20 lying winding of the transformer short-circuited via lines 45 and 46.

If the isolating switches 27 and 28 are also connected to the "switches" described, see above the rotary transformer can be automatically switched off completely from the mains.

Claims (4)

Patent Claims: ι. . Rotary transformer according to patent 286403, whose rotor when exceeded a permissible torque as a result of excessive current load from its drive device is decoupled so that it can rotate independently of this, characterized in that when loosening the clutch a switching device is operated mechanically or electrically, the de-energizes the transformer. 2. Protection device for a rotary transformer according to claim 1, characterized '' by a switching device which, after connecting a resistor in front of the field winding of the rotary transformer this and then the winding of the same in series with the power line short-circuits. 3. Protection device for a rotary transformer according to claim 1, characterized by a switching device that after the upstream connection of resistance before the excitation winding of the rotary transformer immediately which is in series with the power lines short-circuiting the lying winding of the transformer. 4. Protection device for a rotary transformer according to claim 1, characterized by a switching device that completely disconnects the rotary transformer from the mains. 1 sheet of drawings.