DE336505C - Automatic electric regulator - Google Patents

Description

Automatic electric regulator. That described in patent 334001 and resilient coupling shown by drawing between the regulating contact h and the magnet armature z of the electrical regulator, which by one on the armature is achieved with this movably arranged spring r can also be fixed by a arranged spring are effected.

The subject of the invention is a regulator arrangement according to the patent 334001, whose regulating contact H, which of the one to be regulated by the electrical quantities (voltage or current) influenced armature is controlled, its contact pressure is obtained by a spring, which is firmly clamped on one side or is supported.

This arrangement, which is shown in Fig. I, offers the advantage that flexible leads to the movable contact connected to the armature be avoided. In addition, its effect is the one specified in the main patent Arrangement completely equivalent.

In Fig. Ra the armature, b the field winding, w the excitation resistance of the machine to be regulated. g is the eccentric of the drive. h and k are contact and mating contact that sit on springs r and l. s is the winding of the regulating magnet, p its core "z4 the movable stop firmly connected to it. f is an adjustable spring, c the capacitor to suppress the sparks. The limits of the magnet stroke are marked by xl and x2.

The contact h can be compared to that of the drive eccentric g in oscillating Move movement, approach contact k more or less, depending on the from Magnet armature ¢ adjusted under the influence of the voltage to be regulated. movable Stop u lowers or raises.

The tension of the spring r is transferred to the armature via u in the opposite direction of the magnetic force, as long as the contacts h and k are out of contact. When the contact closes, the oscillating 'contact k lifts the contact h from u and relieves the armature from the spring pressure of the spring r for the duration of the contact. The full value of the spring pressure is transferred to the armature when the contacts h, k are permanently out of contact, ie when the regulating resistor is permanently switched on. In the intermediate positions of the regulation, a mean force reaction comes into play, so that the mean contact pressure acting back on the armature varies between zero and a maximum over the entire regulating path of the magnet armature.

In Fig. 2, a force diagram is shown as an example, which the change in the magnetic force M at a given voltage, which counteracts this Contact pressure force K and the resulting from both, from the adjustable Spring f the force F absorbed as a function of the stroke from x to x2 indicates. x, corresponds to the permanent contact closure (maximum excitation field), x2 to the permanent Activation of the resistor w (minimum excitation field).

The arrangement shown in Fig. I represents only one embodiment There are other designs possible, for. B. with clamped at both ends Leaf springs and the contact h in the middle, with coil springs and the like.

The leaf spring l of the driven, oscillating contact k is for the arrangement is insignificant and can be replaced by a rocker of any type.

Claims (1)

PATENT CLAIM: Automatic electrical controller according to patent 334001, characterized in that the independently driven oscillating contact opposing mating contact by a firmly clamped or supported spring is pressed against the driven, oscillating contact and the free stroke of the Counter-contact by a connected to the regulating armature, with this movable stop is limited.