DE1035772B - Non-scattering armature relay - Google Patents

Description

GERMAN

A lifting magnet is also known, the armatures of which are embodiments of the invention

is rotatable on a leg guiding the magnetic flux. In this known embodiment the parting line runs between the armature and the leg mach a cone shell, and separate Bearing points, namely two neck bearings and a thrust bearing, take over the storage of the armature. This well-known However, the relay is not completely magnetically shielded as the cover is used to avoid a magnetic short circuit not from magnetic Mil bh k '

Material can exist.

The invention relates to a non-scattering armature relay with a magnetic shield from the outside ihl T

^{Hand of the} drawing explained in more detail. _

^Fi S- 1 shows a rotary armature relay in a simplified representation in longitudinal section,

Fig. 2 is a side elevation of this; _

^Fi S- 3 shows a detailed representation with the pot cut open.

Fig. 4 is a side elevation of Fig. 3 cut away Pot base,

^Fi S- ^{5 an} interior view of the pot.

As can be seen from FIGS. 1 and 2, ^{a pole plate 3 is on the bottom} * of a cylindrically drawn pot 2 made of soft iron sheet by means of two screw

^ b

uen magnetically shield

into the closed iron pot and an active 5 ° hen 4 screwed on. This pole plate d i i L klt Pl 5 d 6 D Tf

and a passive air gap between the stator and the rotating armature, the passive air gap being homogeneous runs a cone in the interior of the coil core and angled substantially over its entire length Poles 5 and 6. The pot 2 is closed by a lid 7 on which a cylindrical Core 8 is riveted. On the core 8 sits a coil consisting of the bobbin 9 and the

809 580/420

Winding 10. This coil can practically take up the entire space between the coil core 8 and the pot 2 to complete. The coil core 8 has a conical recess 11. The rotating armature is formed by a cone 12 and an anchor plate 13 riveted to it with two 5 angled poles 14 and 15. The transition from the cone 12 to the anchor plate 13 is designed as a short, truncated cone 16. On a hub 17, which sits on the anchor plate 13, a coil spring 18 is attached, the outer end of which is attached to a pin 19 is attached. The pin 19 is seated on the pole plate 3. The spiral spring 18 holds the armature when it is de-energized Coil in the position shown in FIG. The stops are omitted for the sake of simplicity. In the hub 17 sits a journal 20, which is mounted in a thrust bearing21, which in the anchor plate ^ sits. In the cone 12, an axle 22 is also pressed, which is guided by a longitudinal bearing 23 which is in the Core 8 is seated. The rotary movement of the armature is picked up on the axis 22.

If the winding 10 is excited, the armature poles 14, 15 are rotated in the direction of the stator poles 5, 6. The armature and stator poles form a pair of active air gaps with one another. The anchor cone 12 forms with the conical recess 11 in the core 8 a passive air gap, which extends practically over the whole Length of the core extends. So that this passive air gap in the core is homogeneous over its entire length. it is necessary that the anchor is exactly centered. Since the longitudinal bearing 23 is seated in the core 8, it is centered not difficult. The through holes for the screws provide for centering the thrust bearing 21 4 plenty of play. Centering takes place when the screws are loosened by placing the anchor on the axis 22 is drawn so far into the core 8 that it rests with the flat cone 16, whereupon the screws 4 must be tightened firmly. When the coil 10 is energized, forces in the axial direction also act on the Anchor, in that a tensile force is created in the passive air gap, which pulls the cone 12 into the core 8 want. In contrast, a tensile force acts between the pole plate 3 and the two rotating armature poles 14 and 15, which wants to pull the armature against the pole plate. The ratios of the air gaps are now designed so that the tensile force between the pole plates and armature poles is greater than the tensile force in the conical Air gap so that the armature is supported on the thrust bearing 21.

Since these tensile forces are not present when the coil is not energized, a spring can be arranged which presses the armature into the thrust bearing even when the coil is not energized.

From FIGS. 3 to 5 it can also be seen that the front spool flange 24 has two sector-shaped approaches 25 and 26. A bridge 27, which carries a hub 17, is seated on the anchor plate 13. From the stop 26 to the stop 25, a bracket 28 is passed under the bridge 27. At stop 25 is in a cylindrical recess arranged a helical spring, which the bracket 28 and thus the The armature presses against the thrust bearing 21. A nose 30 is formed on the stop, on which the bracket is hooked. The pot base 1 and the stop each have two holes 31, 32. through which the Winding ends 33 are led out. The outer end of the coil spring 18 is on one of the bracket bent out tabs 34 hung. A bracket 35 is attached to the outside of the pot 2, which is used for fastening of the rotating armature relay is used.

Claims (1)

PATENT CLAIM: Scatter-free rotary armature relay with an iron-closed magnetically shielding from the outside Pot and an active and a passive air gap between stator and rotating armature, whereby the passive air gap runs homogeneously on a cone inside the coil core and is located in the extends substantially over its entire length, characterized in that at the bottom of the Sheet iron drawn jacket pot a pole plate with two angled poles is detachably attached, this pole plate has a neck and thrust bearing for mounting the armature and so does the armature carries a pole plate with two angled poles, the transition from the slender to the passive one The cone forming the air gap to the armature pole plate is formed by a short truncated cone, which serves to center the armature, and that the pot pole plate apart from the tangential magnetic Train exerts an axial pull on the armature pole plate, which is greater than the axial magnetic pull in the passive air gap and counteracts this. Considered publications:
German patent specifications No. 830 225, 639 466. 1 sheet of drawings © 809 580/420 7.58