DE434270C - Trip device on overcurrent switches - Google Patents

Description

GERMAN EMPIRE

ISSUED ON SEPTEMBER 22, 1926

REICH PATENT OFFICE

PATENT LETTERING

CLASS 21c GROUP

(V 18763

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

Trip device on overcurrent switches. Patented in the German Empire on December 11, 1923.

If you use overcurrent switches for motors that are more powerful when switched on Power surges result than the setting for normal operation is desirable considers, be it that it is short-circuit motors or motors that are under very have to attract severe starting conditions, in many cases one has gone over to by strongly tensioning the release spring, e.g. B. by a special hand- ίο

*) The patent seeker stated as the inventor:

Paul Brinkmann in Frankfurt a. M.

handle to increase the tripping current significantly during the start-up time in order to avoid unnecessary disconnection. In order to do not require special handling by bssondere handles by hand, made the innovation in the present arrangement that existing for normal triggering devices are put out of action at power up and during ίο the turn-only -under for triggering short existing guards in Activity. This can be done in a number of ways. You can z. B., as shown in Fig. Ι to 3, hold by the drive lever α of the motor starter the triggering of the switch armature b of the magnet c by a lever d like a pawl, and this hold will only be canceled when the lever d falls, if the current has dropped to a certain level after starting, because by then the magnet c will attract the armature b so strongly that the attachment e , which forms an angle lever _{with the limiting lever ^ 1,} is held by the latching of d. The limiting lever b _x is coupled to the armature b by a spring f. In a simple way it is thereby achieved that in the event of a short circuit during starting the armature pulls through (Fig. 3) by the spring / is overdrawn in the event of excessive current and the lever b triggers the switch, e.g. B. by acting on a latch device caused. The problem can be solved even more easily if the overcurrent switch is provided with thermal tripping by a hot wire in a manner known per se (Fig. 4 to 6). In it, g denotes the magnet with its armature h, and if i is the latch nose sitting on it, then it is held in a position corresponding to the start of the overload by a lever k . The latter is held in place by the hot wire / in the normal state. The angle lever m , which can be rotated about the point η, is hinged to the lever k. 0 is the point at which the hot wire I locks the lever m , p is a spring that tries to pull k down to release the armature h , r is the normal release spring, ^ the short-circuit spring. In the normal state (Fig. 4) the lever k holds the approach i and thus the anchor h locked in a position that is intended for heavy loads. During the start-up time, the magnet g will not be able to bring it into a position in which the overcurrent switch is switched off. In normal operation, the hot wire I will lengthen in the event of a minor overload that lasts for a longer period of time, thereby releasing the lever m at 0 , so that it can rotate around η , and the lever k , following the pull of its spring p , becomes the Loosen the latch i on the armature h so that the disconnection can then proceed according to a tripping current determined by the spring r (Fig. 5). Only if a short circuit occurs, the spring s will be pulled through (Fig. 6), and the switch-off takes place (i.e. in all cases in which it is a short-term overload and the hot wire Z has not yet been able to warm up accordingly, a switch-off occurs only in the event of a very severe overload or short circuit).

Claims (3)

Patent claims: 1. Trip device on overcurrent switches, which protect short-circuit motors and motors with very difficult starting conditions and which have a combined overload and short-circuit tripping, characterized in that the armature of the magnet with a locking lug of a latch device is held during the start-up period in this case If normal overcurrents occur, a tightening of the armature for the overload release prevents, however switching off the overcurrent switch even when switching on under a short circuit by stretching one of the locking lugs the armature coupling spring takes place. 2. Arrangement according to claim 1, characterized in that the latching of the anchor is released by falling back the pawl when it has faded away of the starting current the pulling force of the release magnet on the armature is reduced. 3. Arrangement according to claim 1, characterized in that the over-current switch is provided with a hot wire, which only releases the lever when the overload lasts for a long time, which Anchor in the locking position during the start-up time holds. no 1 sheet of drawings.