DE309621C - - Google Patents

Description

IMPERIAL

PATENT OFFICE.

PATENT LETTERING

CLASS 21 c. GROUP

Time setting for thermal overcurrent time relays.

Patented in the German Empire on March 24, 1917.

The thermal inertia of the electrically heated time elements of overcurrent time relays is given by their dimensions and material, and inherently unchangeable; the S The switching times of these relays are therefore always the same.

For those heating elements where the heating current is transmitted through an alternating field where the heating element is the secondary winding ' of a current transformer, the invention provides a means that To change the thermal inertia of the effective time element and thus the switching times. This means consists of the following equipment: In addition to the effective time element, that for example from a mercury or any other to be expanded or to a tube designed as a short-circuit ring containing evaporating liquid,

ao are still one or more short-circuit turns attached, the heating of which in itself has no effect on the operation of the relay. These short-circuit rings or windings can be connected to the Heating element are brought to intimate contact. According to the invention is now the thermal inertia of these additional rings selected to be different from that of the heating element, However, their resistance and surface area so dimensioned that the final temperature at the Limit current for heating element and additional rings is the same. Touch the heating element and one or more of the additional rings, the thermal inertia of the combined Body another, while the limit current remains unchanged.

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An exemplary embodiment of the subject matter of the invention is shown schematically in the drawing shown.

A magnetic core ι is excited by the consumption current by means of the coil 2. The power flow passes through several secondary short-circuit turns 3, 4 and 5. The short-circuit turn 3 is designed, for example, as a thermometer tube in which the liquid, For example, mercury, when the limit temperature is reached, to the point of contact rises with the contact tips 6 of a relay circuit; the short-circuit rings 4 and 5 are displaceable and can be approached to the tube 3 and with it up to Be brought into contact. Material (possibly different for a ring), Resistance and surface are chosen so that the rings have the same end temperature. rature at limit current, but each reach in a different time. You bring the one or the other or both rings for contact with the thermometer ring 3, see above without changing the limit current strength of the relay, the thermal inertia of the short-circuit body united with the tube 3 and thus also the switching time changed.

Claims (2)

Patent Claims: ι. Time setting for thermal we-> kende overcurrent time relays, in which the heating current is generated by an alternating magnetic field transferred to the heating element designed as a short-circuit winding 55 60 is, characterized in that further short-circuit turns with the heating element are brought into contact, for the purpose of the thermal inertia of the effective heating element and thus the To change switching times. 2. Embodiment according to claim i, characterized in that the material and the dimensions of the additional rings are such that despite various Thermal inertia The end temperatures at limit current are the same as those of the heating element alone, for the purpose of different settings of the thermal inertia change the limit current strength allow. For this purpose ι sheet of drawings.