DE287411C - - Google Patents

Description

IMPERIAL

PATENT OFFICE.

In the previously known, electromagnetically operated maximum time relays, the. the trigger causing electromagnets attracted against the force of a spring, which the Tripping current is tensioned accordingly and so during the attraction of the magnet remains tensioned for a long time until it is de-energized as a result of the main switch being switched off. The electromagnetic armature can only do that

ίο do work which is the difference in its tightening force and corresponds to the force required to tension the spring. Because the spring force must be in a certain ratio to the attraction force of the electromagnet, a considerable part of the tightening force is lost to tension the spring.

According to the invention, a device is now made which allows the force of the electromagnet for the switching work itself. Then takes place through the Overcurrent in a known manner only a partial attraction of the electromagnetic armature up to an inhibiting stop, which is used to brake the timer to release the driving motor and to couple the motor with the timer. As long as that The timer then runs, the counter spring of the electromagnetic armature is tensioned; as soon as that However, when the timer has expired, the return spring is released at the same time as the electromagnetic armature is inhibited released so that the spring force no longer counteracts the now full attraction of the armature. Through this

is the full attraction force of the electromagnet for the largest part of the attraction path Actuation of the main switch has become free.

An embodiment of a timing relay according to the invention is shown in the drawings. Axes are fixed in space hatched in the drawing.

Fig. Ι shows. The timing relay in de-energized or such a state in which the force of the electromagnet 1, 2 does not attract his armature 3 rotatable about the fixed axis 4 is sufficient. This anchor has one Lever extension 5, which by a particularly strong spring 6 is coupled to the pawl 7 which is also rotatable about the axis 4. the The pawl 7 rests against a nose 8 which is rotatable about the point 9. which in turn in the mounted free end of the lever 10 and therefore around the fixed axis 11 of this two-armed lever is movable. The counter spring 12 of the solenoid armature engages on the other arm of the lever 10 3, which in the rest position has a small extension 13 of the lever 10 presses against the rotor 14 of the timer and thus brakes it. The Zeitwerk itself consists of the gear 15, which translates the number of revolutions of the rotor 14 into slow speed. The last link in the transmission gear is the toothed segment 16. It is rotatable about the axis 9 and is only with the Gear 15 engaged when the response of the relay, the lever 10 to the Axis 11 is rotated (Fig. 2). The segment

i6 has a stop pin 17, which is located in the rest position against the fixed pointer 18 sets. This can be used to set the release time regulate by hand. For the purpose of setting the tripping current strength, the spring 12 can by means of of the pointer 19 are more or less tensioned. 20 is the operating rod of the Main switch. ·

If overcurrent occurs, the mode of operation is as follows:

The armature 3 is attracted and presses against the force of the spring 12 by means of Pawl 7, which remains coupled unchanged to the armature 3 by the spring 6, the Nose 8 so far to the right until the segment 16 has come into engagement with the gear 15 is. At the same time, the brake attachment 13 of the lever 10 is thereby removed from the rotor 14 of the Zeitwerk motor solved, the stator of the iron circuit 1 of the electromagnet in a known manner and its winding 2 is formed. The timer motor starts to close rotate and so moves the toothed segment 16 about its axis 9 upwards. After a certain The time set by means of the pointer 18 (cf. FIG. 2), the pin 17 lifts the nose 8 and releases the pawl 7. Now the connection of the armature 3 with its counter spring is 12 released, and it can be freely tightened into its end position. It beats the extension 5 on the switching rod 20 and triggers the main switch with full force (see Fig. 3). At the same time, the spring 12 pulls the lever 10 back into its initial position, whereby the timer 15, 16 is uncoupled again and the rotor 14 is braked. The segment 16 and the nose 8 fall into their initial position due to their own weight. To When the winding 2 becomes de-energized, the armature 3 also falls, thereby causing the renewed latching of the pawl 7 with the nose 8, as shown in FIG.

As you can see, the spring 6 does not come into effect during normal operation of the time relay, but the mechanism works as if the pawl 7 with the anchor extension 5 consisted of one piece. The spring 6 now has a different purpose, namely in the event of exceptionally high overcurrents, especially in the event of a short circuit, the main switch to be triggered momentarily by bypassing the timer. The attraction force of the electromagnet becomes so great at the high currents that it, overcoming the force of the spring 6, momentarily pulls the armature 3 into its end position and by means of the projection 5, the shift rod 20 knocks down. This is shown in Fig. 4, and it can be seen from this that the electromagnet has attracted its armature 3 completely and under tension of the spring 6, the pawl 7 is lifted from its stop on the lever 5 has without the latch 7, 8 having been released beforehand.

In the illustrated timing relay, the tripping time is independent of the current strength, because the Zeitwerk motor is an asynchronous motor which runs almost idle until the Pin 17 pushes against the nose 8. According to the principle of the invention, however, can also be done without build another current-dependent time relay. In general, the figure, as mentioned, only represents represent an embodiment of the invention, which may be designed differently can.

Claims (2)

Patent Claims: i. Maximum time relay, consisting of an electromagnet with a movable armature and timer driven by the same electromagnet, which in the event of overcurrent is put into operation by partial attraction of the electromagnetic armature, characterized in that the connection is made by the expiry of the timer the electromagnetic armature (3) and its counter spring (12) is released (at 7, 8), so that the full attraction of the armature is not inhibited by the force of the return spring. 2. Time relay according to claim 1, characterized in that the pawl (7) of the Electromagnetic armature (3), which ensures its complete attraction while running of the timer, with the electromagnet armature by a spring (6) is coupled of such strength that this (6) only with particularly high overcurrents, is overcome, especially in the event of a short circuit, whereby the instantaneous triggering of the Main switch is effected by bypassing the timer. For this purpose 2 sheets of drawings.