DE457615C - Overcurrent thermal time release - Google Patents

Description

GERMAN EMPIRE

ISSUED ON MARCH 20, 1928

REICH PATENT OFFICE

PATENT LETTERING

CLASS 21c GROUP

Voigt & Haeffner Akt-Ges. in Frankfurt a.M. *).

Overcurrent thermal time release. Patented in the German Empire on April 10, 1925.

The present innovation shows an overcurrent magnet with thermal time release, at which is a fusible mass from a special, short-circuited secondary winding heated and thus a current-dependent time release is achieved. Here, the special arrangement is made that the on short-circuited secondary winding attached to one magnet leg from a single umbilical turn, which extends over the entire leg and into the direct a melting relay is installed. This relay gives in a known way through the overcurrent generated heat releases a pen.

by which the effect of an additional spring force is canceled, so that only the for the normal tripping current strength certain spring force has to be overcome. With sudden In the event of a severe overload, the overcurrent magnet not only overcomes this spring force, but also also the force of the spring attached to the melting relay, as this is done in the short time cannot be released.

In order to regulate the operating current without changing the tripping time, is the pivot point of the armature and the point of application of the spring acting on the armature like that of the setting so stored that a change in the air gap is possible.

The drawing shows an embodiment of this overcurrent thermal time release shown, namely show:

Fig. Ι the relay before responding,
Fig. 2 after prolonged overload and
Fig. 3 with sudden heavy overload. α is the overcurrent magnet, b the U-shaped magnet core, on one leg of which the secondary coil c, which consists of a single turn, is attached. A thermal release device d is built into this secondary winding , which releases the pin e in the event of a prolonged overload after this device has been heated. This guides one end of a lever I mounted in the pivot point h of the armature i , while the other end of the lever is bent in the direction of the armature i and is pulled by a spring / against the armature. By means of an adjusting screw k it is possible to regulate the distance between this lever and the armature and thus its distance from the magnet. A spring g intended for overcurrent release acts on the armature. If the overload persists for a long time, the heat relay comes into operation after a certain time, releases pin e and releases lever I , which is located in the pivot point of the armature. The overcurrent magnet only needs the

*) The patent seeker stated as the inventor:

Friedrich Jung in Frankfurt a. M.

the strength of the spring force g to be exceeded! twist, since the attraction of the j. Armature i the lever / mounted in pivot point h , together with the spring / rotates. But there arises a \ short circuit, thereby overcoming the magnet. not only the force of the spring g intended for the overcurrent release, but also: the force of the between armature i and lever I ! mounted spring /, and switching off ι

ίο follows immediately by activating the contact m. \ If the short circuit was only temporary, the two springs will immediately pull the armature i back into its rest position, since that
Melting relay has not been heated sufficiently,

to turn off the spring /. With one now. If there is still an overcurrent, the timeout will proceed in the normal way.
By mounting the fulcrum h apart
of the magnetic core b can within wide limits

thus the flux of the lines of force by increasing the: anchor spacing by means of the adjusting screw k
be changed so that with the same spring _; force and equal time release the same
Overcurrent relays for various currents

can be used.

Claims (3)

^Claims: i. Overcurrent thermal time release, for: the one overcurrent solenoid except for the
the tightening of the armature necessary j coil is provided with a second short-circuited coil for actuating a fuse relay, characterized in that the second coil consists of a single turn which extends over the entire magnet leg and is closed via a fuse relay. 2. Arrangement according to claim. 1, thereby characterized in that an angle lever mounted in the pivot point of the armature is controlled by a pin of the melting relay and a spring attached to the controlled leg of the angle lever and to the armature an adjusting screw on other leg of the angle lever parallel to the armature presses against the armature in such a way that. at low overload The spring force does not respond to the melting relay when the pin is released comes into effect and the magnet only has to overcome the spring intended for the overcurrent release. 3. Arrangement according to claim 1 and 2, characterized in that the pivot point of the anchor and the anchor point of the spring as that of the setting are mounted one behind the other that a regulation by changing the air gap and thus the flow of force lines the operating current is achieved without changing the tripping time. 1 sheet of drawings.