DE462666C - Electromagnetic relay, especially for switching on a shunt to a power consumer - Google Patents

Description

GERMAN EMPIRE

ISSUED ON JULY 18, 1928

REICH PATENT OFFICE

PATENT LETTERING

JVl 462 CLASS 21c GROUP

N 25233 VIII / 2IC * Date of publication of the patent grant: June 28th

Neufeldt & Kuhnke operating company m. B. H. in Kiel)

to an electricity consumer

Patented in the German Empire on November 14, 1925

This means that several electrical systems connected in series, even if one of if they fail, the others can continue to work, and indeed below the planned Stress, it is known to those of these plants, with their occasional Failure must be expected, a suitably dimensioned (ohmic or - and - inductive) To put resistance in parallel, which in the event that the system is de-energized, through a Relay is switched on. This relay was built so far in such a way that one in the When the coil is switched on, an armature is attracted by its Waste produced the shunt after interruption of the current.

However, such a relay also comes into effect whenever the system is shut down

so activity. Therefore, all relays had to be reset as soon as the system was installed was re-energized. This unwieldiness, as well as the size of the required, for switching sometimes quite right

The facility to be measured with high currents In spite of their advantages, they have opposed the introduction of such devices. According to the invention, the disadvantages are overcome by a relay that is not in operation occurs when the power is turned off, but only when the circuit in question experiences an interruption. This is done according to the invention in that the anchor of a relay is under the influence of two forces generated by magnetic coils, wherein one of the two coils in series with the one to be replaced by a shunt in the event of failure Load is placed, while the other is connected to a voltage that is independent of the current in this load circuit lies. In such a device, the anchor changes its position only if the Utility circuit fails, and according to the invention can then be advantageous Trigger the short-circuit lever tensioned by the spring force, with the help of which the desired shunt is established can be switched on.

Even if such a relay is carried out (as in the one given below Embodiment) that it must be reinserted after each response, so this handle can be turned on with ease with the measure of the circuit that has become de-energized. An arrangement can be made that switching on the lamp again (inserting a new bulb, a new carbon stick, Glow plug, etc.) is not possible before the relay is returned to its operating position. If the whole plant

') From the pdtentsuclier has been given as the inventor:

Helmut Chappu \ eau in Kiel.

is switched off, however, such a relay does not come into action.

Of the two figures, Fig. Ι represent a relay known from the above, Section 2 represents a relay according to the invention in a schematic circuit diagram.

In Fig. Ι three series-connected electrical lamps G ₁ , G ₂ , G ₃ are shown, of which only the latter contains a representation of the ίο relay. S is a coil connected upstream of the lamp, which, if current flows through it, attracts the armature (4 of the relay, which is connected to one of the long sides of the light bulb via a balanced resistor W. If the armature falls due to the loss of current, it establishes the connection with a contact Ιζ that leads directly to the other side of the lamp cable.

In Fig. 2 only one incandescent lamp G is given as an example of the application of the invention, which is also preceded by a coil S which exerts an attractive force on a rotatable armature D. From the other side, this armature is attracted by an auxiliary coil H connected in parallel to the lamp or directly connected to the voltage, which auxiliary coil H can be placed in series with the other such auxiliary coils when several such relays are used. As soon as, for example, after the incandescent lamp has failed, only the force of attraction of the auxiliary coil // acts, the armature D is turned there so that its nose releases the pin of a changeover switch U which is attracted by a spring F and which short-circuits the two contacts K. so that the resistor W is turned on.

The position in the state after the relay has responded is indicated by dashed lines in both figures. By means of a two-part pull cord Z with a common handle it can be achieved that the changeover switch U and the rotating armature D are brought back into their rest position required for the effectiveness of the relay by a single pull. If you want to avoid the two-part cord, you can, as also indicated in Fig. 2, build the lugs of the changeover switch and the rotating armature so that when a mechanical pull only needs to be exerted on the changeover switch, its front end V pushes aside the rotating armature D, which has meanwhile been attracted again by the current of the coil Si, by pushing back the beveled nose N against the pull of the electromagnetic forces. After this part of the changeover switch has passed, the rotary armature automatically returns to its equilibrium position and now holds the changeover switch firmly, even if the pull cord Z is released.

Such a relay based on the equilibrium of electromagnetic forces has very special advantages when used in accordance with the exemplary embodiment, because electric lamps are much more common, especially by non-experts, switched on, a relay would be reinserted each time it is switched on extremely obstructive. If, on the other hand, you want to build one of the known relays so that it can automatically through your own strength, after restoration · of normal conditions again inserts, you get much larger versions than when using the relay according to the invention is the case.

But also with signal systems that sound as soon as a circuit is interrupted by damage or failure of a part, the invention can be used with great advantage, since it is undesirable in many cases for the signals to sound when the entire system is switched off. In such a case, the design could be similar to that according to Fig. 2, only that contact K and resistor W belong to the signal circuit. In such cases, in which a signal is also to be given when the entire system is switched off, it is nevertheless advisable to use a device according to Fig. 2, which can then be actuated by another relay of the usual type (for example by one of the auxiliary coils) . After switching on again, only this one common relay needs to be set again, which is easier than setting as many relays as there are devices working in series.

One can also achieve, by a small change in the arrangement, that the part damage which causes the relay to operate, can only then be replaced can when the relay is returned to its operating position. Are z. Am a lighting system with several lamps connected in series with such relays switched on, you can, for example, elastically connect a pin to the relay armature, which protrudes into a recess in the lamp socket. As soon as the damaged lamp is removed, the ■ pin closes the Opening and thus prevents a new lamp can be attached. When the anchor is returned to its operating position is, the pin attached to it is the opening for screwing the lamp free again, so that the damaged part through a new one can be replaced.

Claims (5)

Patent claims: i. Electromagnetic relay, especially for switching on a secondary Conclusion to a power consumer, on whose armature two forces act, thereby characterized in that the two forces generated by two electromagnetic coils one of which is connected to the power consumer in Series is, while the other is independent of the current in this circle of use is due to voltage, so that the two forces are in equilibrium in the operating position, in particular in the event of malfunctions Power interruptions, however, fall out of balance and the advantageously rotatable armature itself can move according to the change in equilibrium. 2. Relay according to claim i, characterized in that the armature at his Actuation releases a switch. 3. Relay according to claim 2, characterized by a pulling device by which the switch and the armature return to their tensioned position after responding to be brought. 4. Electric lamp, characterized by an on or secondary circuit Relay according to one of Claims 1 to 3. 5. Lamp according to claim 4, characterized by the arrangement of a locking device, which is activated when the relay is triggered and the insertion of a new lamp (bulb, Coal, etc.) until the gearshift lever is brought back into the operating position is. For this purpose ι sheet of drawings BERI IN PRINT IN DfR