DE179414C - - Google Patents

Description

PATENT OFFICE.

PATENT LETTERING

- JVl 179414 CLASS 74 c. GROUP

Rotary field remote pointer receiver. Patented in the German Empire on June 17, 1906.

The previous versions of rotary field remote pointer receivers are based on generation a resulting field in which a polarized armature oscillates. This anchor adjusts itself like a compass needle in the field direction. The resulting field, the is made up of the three individual fields in a known way, goes through the middle the receiver pole hole and has the

ίο greatest homogeneity and the direction given to him is prescribed by the control lever. The more one moves away from the center and the Approaching pole pieces, the lower the homogeneity and the harder it can be Determine the direction of a resulting field. The individual fields are asserting themselves more and more. So if you want to achieve that the anchor is always in the direction of the resulting Field, it must be made very short. The air space between the anchor and Feldpol will therefore be very large. With a receiver built in this way one can theoretically Transfer any number of positions, the number of which is only limited by the remanence errors of the iron. So you will too for this reason seek to make the anchor as small as possible, d. H. him if possible to give little iron. ·

A magnet system with a large air space and a small armature naturally only has a low torque. . .

A relatively small number is sufficient for certain types of signaling apparatus of signals that have to be transmitted precisely and with great traction. To achieve a large tractive force is a small air space with the rotary field remote pointer receiver required, which excludes the utilization of the resulting field. The setting the anchor must therefore be made through the individual fields. Such a recipient ' system forms the subject of the present invention.

The mode of operation of the system shown in FIGS. 1 and 2 is as follows:

In a magnetically closed pole housing, the armature rotates with a small air gap, the two pole legs of which are of unequal width. The pole of the leg α is so wide that it extends from one field pole to the adjacent field pole (Fig. 2), while the leg c is only the width of one pole (Fig. 1). The receiver is connected to a known transmitter, e.g. B. to one in which on a number of Stromschlussplatteü with a power source connected brushes grind such that they touch a number of Stromschlussplatten and this number can be larger or smaller and equal or unequal in the different positions. With the assumed three conductors, twelve signals can therefore be transmitted. The receiver has six poles, the windings of which are connected in pairs, so that two opposite poles always form a phase. The three phases are connected in star. If twelve armature positions are to be achieved during a full revolution, the armature described above must always be either with its pole c in front of a field pole (FIG. 1) or with its pole α in front of two field poles (FIG. 2). So it's always a good force

(2nd edition, issued January 18

Line closure available, whereby a large pulling force is achieved.

In the armature position (Fig. I) all coils are energized. The coils i, 2, 3 generate each a north pole, the coils 4, 5, 6 each have a south pole. The anchor turns in that direction 2-5 a. In the armature position (Fig. 2), the coils 1, 2 and 4, S are excited. the Coils 1, 2 each generate a north pole, the Coils 4.5 each have a south pole.

During the transition from the first position to the second, i.e. when the coils 3 and 6 are switched off, the armature can be held in front of the pole due to the small air gap between c and e. To prevent this, the anchor is provided with the horns d. These horns have a small iron cross-section so that they cannot influence the precise setting (Fig. 1).

On the other hand, they favor the precise setting (Fig. 2) and reduce the air gap of the pole ι in front of the anchor iron, so that the armature immediately changes from position 1 to position 2 when switching and is held in this position by the pole end α .

The respective setting of the armature is made directly through the pole ends below Abandonment of the effect of a resulting field, which is due to the small air spaces can not form. Rather, the individual forces of the field poles settle in the anchor iron together to a resulting straightening force.

Claims (2)

Godfather sayings: 1. Rotary field remote pointer receiver, characterized in that the exact setting of the armature takes place through its pole ends, one of which (c) has the width of a field pole (e) , while the other (a) from a field pole to the adjacent field pole is sufficient for ■ the purpose of bringing about the setting alternately through one or the other end of the pole. 2. Embodiment of the receiver according to claim 1, characterized in that the narrow pole end (c) of the armature is provided with two pole horns (d, d) which, when passing from a position of the armature determined by the narrow pole, into a neighboring position, the air gap after the adjacent field pole 55, decrease. 1 sheet of drawings.