DE1090764B - Device to improve the operational safety of electromagnetic relays - Google Patents

Description

GERMAN

Electromagnetic relays have the task of performing the switching functions assigned to them as much as possible: To carry out operational safety. This is only guaranteed if the operating values of the relay be kept constant, d. H. if the values of the response and release excitation and the holding force of the relay do not change. The holding force and the drop-out excitation of a relay are highly dependent on the size and nature of the contact surface between anchor and core. At this point there is an air gap, even when the armature is applied, which reduces the magnetic resistance of the relay iron circuit, sensitively affected. It is therefore advantageous to protect this part of a relay from external influences if possible to protect.

Known arrangements for increasing the reliability of relays are that the whole relay is used in a protective housing. This makes the contacts just like the moving ones Parts of the magnetic circuit protected from moisture and the accumulation of foreign bodies. However, this arrangement has the disadvantage that it considerably increases the space required for a relay. aside from that there is no possibility of such a protective device on an already installed relay to arrange.

It is also known to accidentally press the armature of a relay through a protective cap to prevent.

In addition, relays have already been built in which the contact space and possibly the armature are enclosed in a common chamber.

The present invention is based on the object for electromagnetic relays, which already are built in to form an effective dust protection to maintain the constant holding force. This dust protection should not prevent the movement of the armature and the magnetic conductivity of the iron circle affect without having the disadvantages of the known arrangements. In addition, the assembly the dust protection device with the least possible work time.

For a facility to improve operational safety of electromagnetic relay is therefore provided according to the invention that only those Parts of the relay, which form the contact surface between armature and core, through a protective cap elastic material of low magnetic conductivity are covered and that the protective cap only is held by the fit of its inside diameter to the relay.

This measure is particularly important in the case of remanence relays whose holding force is de-energized the relay through the remanent flow of the iron facility for improvement

operational safety
of electromagnetic relays

Applicant:

Telefunken G. mb H. _r
Berlin-Charlottenburg 1, Ernst-Reuter-Platz

Rudolf Böhnisch, Backnang (Württ),

and Josef Blab, Munich,
have been named as Eirunder

circle is determined. If with such a relay the air gap between the core and the applied armature by oxidation of the bearing surfaces or by

a5 the accumulation of foreign bodies is increased, then the holding force drops considerably.

The invention is explained in more detail with reference to the figures. Fig. 1 shows the most important part a flat relay with an attached protective cap 2.

The essential parts of the relay consist of the armature I _1, the core 4 and the contact springs 7. The actuating bracket 3 is attached to the armature 1. When the armature 1 is attracted by the core 4, this bracket moves upwards, whereby the contacts of the contact springs 7 are actuated. In order to protect the contact surface between the core and the anchor, the protective cap 2 is pushed onto the anchor 1. It consists of a particularly light, elastic, magnetically non-conductive material. The weight of the anchor and the properties of the iron circle are therefore not significantly changed. The protective cap 2 is guided on the actuating bracket 3 and on the armature 1 by ribs 5 and 8, respectively. The core 4 of the relay protrudes into the cavity of the protective cap 2. This cavity is designed so that the movement of the protective cap connected to the armature is not hindered. In order to hold the protective cap in a fixed position, it can also be held by the head of a screw 6.

In Fig. 2, the bottom surface of the protective cap 2 is shown in the sectional plane AA . The rib 8, which extends from the opening of the protective cap to approximately half of the cap cavity, is arranged in the center line of the bottom surface. Forehead-

009 627/317

Sides of this rib 8 are beveled so that the protective cap 2 is easily placed on the armature 1 and can be removed again if the sliding of the ribs is hindered by unevenness of the anchor will. These bumps can consist, for example, in the fact that on the armature 1 in the slideway of the ribs protruding screw heads or rivets are arranged.

FIG. 3 shows a front view of the protective cap 2 on an enlarged scale when it is viewed in the direction of the arrow P shown in FIG. The two ribs 5 are beveled at 9. They protrude into the cavity of the protective cap and have a distance d from the counter rib 8. This distance d corresponds to the thickness of the armature 1 with such a tolerance that the protective cap can be easily removed despite the good holding effect. Since the protective cap is made of elastic material, its diameter is variable in the area of the cap opening. This creates a slight tension of the ribs against the anchor, by means of which the cap is held on the anchor.

The protective cap 2 can also be attached to the core 4 of the relay. In this case the cavity is the To form protective cap 2 so that the armature 1 is freely movable.

Claims (9)

PATENT CLAIMS: 1. Device to improve the operational safety of electromagnetic relays, thereby characterized that only those parts of the relay, which the contact surface between armature and core form, covered by a protective cap (2) made of elastic material of low magnetic conductivity and that the protective cap only by the fit of its inner diameter on the relay is held. 2. Arrangement according to claim 1, characterized in that the protective cap on the core (4) or Anchor (1) is held. 3. Arrangement according to claims 1 and 2, characterized in that the protective cap has a Forms a cavity in which the armature (1) can move freely. 4. Arrangement according to claims 1 and 2, characterized in that the core (4) of the relay protrudes into a cavity of the protective cap, this cavity being designed so that the Movement of the protective cap (2) connected to the armature (1) is not hindered. 5. Arrangement according to claims 1 to 4, characterized in that the inside of the Protective cap has ribs (5, 8), the end faces of which are beveled. 6. Arrangement according to claims 1 to 5, characterized in that the protective cap (2) the tip of the armature of a flat relay is put on. 7. Arrangement according to claims 1 to 6, characterized in that the protective cap (2) is removable is. 8. Arrangement according to claims 1 to 7, characterized in that the armature (1) of the relay between the ribs (5) and mating ribs (8) of the protective cap (2) is fitted and the protective cap is held by the mutual tensioning of the ribs. 9. Arrangement according to claims 1 to 8, characterized in that the ribs (5) of the Protective cap (2) are guided on parts (3, 6) which are attached to the armature (1). Considered publications:
German utility model No. 1 765 484;
Austrian patent specification No. 126 069. 1 sheet of drawings © 009 627/317 10.60