DE1111474B - Rebound protection for a part that can be swiveled alternately in two limit positions, especially in magnetic switchgear - Google Patents

Description

Rebound protection for a swiveling device that can be swiveled alternately in two limit positions Part, especially in magnetic switchgear It is known that a moving Mass does not come to rest at the moment it hits a stop, but rather rebounds unless it is plastic. Is the crowd under the influence? a driving force, the rebound occurs several times, according to Art a fading vibration.

To solve the problem, a body executing oscillating movements To bring them to rest as quickly as possible are in various branches of technology so-called dampers, e.g. B. liquid or air dampers, but also friction dampers, used.

These dampers are unsuitable if it is only allowed to take milliseconds. until the mass comes to rest completely, so that the next movement process is initiated can be.

Teletype technology has now turned into a device for reducing the bounce duration of a moving mass caught by a rigid buffer stop is known. In this device, the moving mass, for. B. the type wheel carrier vibratory system excited, which locks the moving mass by when it hits on the buffer stop a locking nose of the vibration system behind a locking shoulder takes hold of the moving mass and thus prevents the mass from rebounding. This method but is expensive, especially if the mass are locked in two end positions target.

For various purposes, e.g. B. in letter distribution technology Rotary magnets used, which consist of two identical halves arranged one above the other exist, which are rotatable about the same axis. The invention has the task based on, with the simplest possible means one that can also be used for very small masses Device for preventing the rebound of a pivotable one running against stops Part to create that consists of two identical halves arranged one above the other.

This object is achieved in that the pivotable part consists of two there is frictionally interconnected halves, one half of which with a the other half of the protruding nose hits the stop first.

The rebound momentum of one half is due to the kinetic energy the second half compensated by moving the opposing movements Inhibit via the frictional connection, and the energies themselves converted into frictional heat will. An additional vibratory barrier is not required here. The device according to the invention is also applicable to rotatable systems that by very weak, e.g. B. magnetic, locking means are held so that pivoting the pivotable part out of the detent position by small, z. B. also magnetic, forces is possible.

In torsional vibration dampers for crankshafts, it is already known to reduce the vibration deflections and the stresses on the engine parts to couple a damper mass with the vibrating part via friction surfaces. This well-known principle, the kinetic energy of acceleration or deceleration impacts to be destroyed by friction between two frictionally connected parts, makes the invention its own by taking advantage of the peculiarity of the structure pivotable Parts that consist of two identical halves arranged one above the other.

The invention is explained using two figures: FIG. 1 shows a pivotable part consisting of two halves, e.g. B. be a rotary magnet can. in side view, FIG. 2 shows the plan view of FIG. 1.

The rotary magnet shown in FIGS. 1 and 2 consists of two identical halves k and 1, which are pivotably mounted about a common axis m. Both k and 1 are each composed of a yoke plate n and two permanent magnets o. Half 1 is firmly connected to hub p, while half k can rotate on hub p. Both halves are compressed in the axial direction by the leaf spring q, which is inserted into a groove in the hub p. The halves k and 1 can rotate relative to each other, the raised edges r of the yoke plates n sliding on each other and generating a friction torque that is determined by the pressure of the leaf spring q and the distance s of the friction surfaces r from the axis of rotation m .

There are stop lugs t and u on half l , which alternately come to a stop on pin v when the entire magnet system is rotated back and forth. Such stop lugs are not attached to half k.

If the entire magnet system, e.g. B. by a magnetic force, quickly rotated 90 'from the stop position shown and brought into the other stop position, the half l striking with the nose u receives a rebound pulse. Due to its kinetic energy, half k initially maintains its rotational movement, but after the impact of system half l it executes a movement relative to it. Half k slides under friction with its surfaces r on those of half l and tries to take it with it against its rebound impulse. As a result, half Z is pressed against pin v for the duration of the relative movement and the rebound pulse is rendered ineffective. Half of k comes to rest when its kinetic energy is consumed by the friction.

Claims (1)

PATENT CLAIM: Rebound protection for a part which can be pivoted alternately in two limit positions, in particular in magnetic switchgear, characterized in that the pivotable part consists of two halves (k, l) connected to one another by frictional engagement, one half f of which protrudes over the other half (k) The nose (t or u) hits the stop (v) first. Considered publications: German Patent Specifications No. 570 211, 937 319; German utility model No. 1687 278; Patent Specification No. 13 404 of the Office for Invention and Patents in the Soviet Zone of Occupation in Germany; U.S. Patent No. 2,436,231; Judge - v. Voss, Components of Precision Mechanics, 5th Edition, Berlin (East), 1952, p. 290.