DE1614739C - Protection tube anchor contact with spring-loaded anchor - Google Patents

Description

The invention relates to a protective tube armature contact with one under the influence of an outside of the Protective tube generated magnetic field movable, spring-loaded armature, the at least one stationary Contact piece faces and forms part of the magnetic circuit of a relay, wherein the protective tube armature contact is designed as a cylinder with a larger diameter in relation to the height and on the front sides with large-area discs that serve for magnetic coupling. is limited.

Such a protective tube armature contact is known from German patent specification 1 116 817 in which a closed contact with low reluctance is shown and described. the physical requirements and the advantages of such a contact are mentioned in the Patent specification explained. In contrast to the well-known elongated, tubular protection tube anchor contacts, which are usually designed as a tongue anchor cone are formed, this contact has a cylindrical shape Shape with a larger diameter in relation to the height and is due to large-area on the front sides Coupling discs limited. The between Koniakia installation arranged on these discs (piston anchor, Diaphragm spring) is relatively expensive.

The invention is based on the object of a particularly simple and economical contact installation for a thermowell anchor contact of the type mentioned in the designation. According to the invention this is achieved by moving the armature contact in the direction of the central axis of the protective tube magnetically permeated contact anchor between the coupling disks in his The center of gravity is suspended by means of a torsion spring.

According to one embodiment of the invention, the contact anchor has an essentially rod-shaped shape on and the torsion spring is attached to two approaches of a coupling disc.

According to a further embodiment of the invention, the contact anchor has the shape of an annular disk Shape and the torsion spring is on a centrally arranged attachment of a coupling * - disk attached.

A further development of the invention provides that the contact armature consists of a permanent magnetic Alloy. This turns the protective tube anchor contact into a rest or adhesive contact.

In a further embodiment of the invention, the permanent magnetic contact anchor is in its longitudinal direction, d. H. transversely to the central axis of the protective tube anchor contact, premagnetized.

The protective tube armature contact described has various advantages. Except the one in simple and economical way to produce storage or suspension of the contact anchor by means of Torsion spring on one of the coupling disks can make the entire contact compared to previously known Coniases can be kept even flatter, with the interior being largely magnetically conductive Matter is filled. This has a particularly favorable effect on the magnetic resistance of the contact arrangement off, so that the magnetic voltage required to actuate the contacts will be very low can.

The invention; is based on drawings described. In the figures, two exemplary embodiments of the described are shown in a non-scale enlargement Sheathed armature contact shown, which is only in the formation of the contact armature differentiate. In the drawings shows

1 shows a protective tube armature contact in plan view, cut open,

F i g. 2 the protective tube anchor contact according to FIG. 1 in side view, cut open,

F i g. 3 another embodiment of a protective tube armature contact in plan view, cut open.

F i g. 4 the protective tube anchor contact according to FIG. 3 in side view, cut open.

1 and 2 show the protective tube armature contact in the non-actuated state with a rod-shaped trained armature 6. Two large coupling disks 1 and 2 made of soft magnetic Materia! form together with an insulating ring 4, preferably made of ceramic, that Geliäuse of the Schulz pipe anchor contact. The items of the housing are gas-tight to each other at the points of contact by a metal solder or a glass flux connected. The coupling disks 1 and 2 are made of a suitable nickel-iron alloy and are matched to that of the insulating material ring 4 in terms of their thermal expansion halls. The discs 1 and 2 can be flanged (not shown) so that sic the insulating ring 4 on include its cylindrical circumference, wherein the connecting material and the ceramic material Pressure are stressed and the security of the connection is increased in a known manner.

The armature 6 is fastened and supported on a torsion spring 3, which is attached to two lugs 5 of the one coupling disk! is hung. The contact is made between a contact piece 5 of the armature ίί and the other coupling disk 2. In order to achieve a specific force-displacement characteristic of the armature movement and the direction of rotation, the armature can be provided with approaches or widened areas and embossed areas (not shown). This creates different areas and lengths of the air spaces between armature 6 and the respective coupling disks 1 or 2. The material for armature 6 should have the highest possible saturation induction and a low coercive force, such as magnetic clean iron or about 50 "cobalt iron. To improve contact the armature 6 and the disc 2 are coated with noble metal.

If the armature 6 is made from a permanent magnetic alloy, there is contact with Resting or sticking characteristic. The armature 6 is biased in its longitudinal direction and off made of a material that has a stable magnetic working position in this shape. Especially An iron-cobalt alloy with added vanadium and chromium is suitable for this.

The F i g. 2 and 3 show the protective tube armature contact in the actuated state with an annular disk formed armature 7. The direction of the magnetic flux is indicated by the arrow 9. The armature 7 is also attached to a torsion spring 3 'and mounted, but on a centrally arranged approach 5 'of the coupling disc 1' is suspended. The case and the The contact-making points are designed exactly as in the one in the Fis. 1 and 2 shown

thermowell anchor contact shown. There is also the option of installing a permanent magnet Anchor 7 given.

Since the protective tube armature contact described has a high magnetic conductance, the Length of the working air gap can be chosen so that at the contact point noble metal supports of one up to several tenths of a millimeter thick can be applied. So that the contacting bodies When assembling the protective tube armature contact, the coupling disks 1,1 'and 2 with approaches, notches or the like. Provided that when inserted into a mounting device cause these parts to be determined automatically. The length of the working air gap is required no setting. It is obtained with sufficient accuracy from the difference in the height of the insulating ring 4 and the sum of the precisely maintained thickness of the flat parts, such as armature 6, 7, torsion spring 3, 3 'and Approaches 5, 5 'of the coupling disc 1,1'.

The individual parts of several protective tube armature contacts are stacked in a common device and connected under light mechanical pressure. This process takes place under protective gas, so that the protective tube armature contacts are filled with inert gas.

The protective tube armature contacts described can also have a square shape. Likewise, several contact arrangements can be used as multiple contacts in a common insulating material housing be housed.

Claims (5)

Patent claims: 1. Protection tube anchor contact with one under the influence of one outside the protection tube generated magnetic field movable, spring-loaded armature, the at least one stationary Contact piece faces and forms part of the magnetic circuit of a relay, wherein The protective tube armature contact is designed as a cylinder with a larger diameter in relation to the height and on the front sides by large-area discs, the magnetic coupling serve, is limited, characterized that the magnetically flowed through in the direction of the central axis of the protective tube armature contact Contact anchor (6, 7) between the coupling disks (1, Γ and 2) in his The center of gravity is suspended by means of a torsion spring (3, 3 '). 2. Protection tube armature contact according to claim 1, characterized in that the contact armature (6) has an essentially rod-shaped shape and the torsion spring (3) has two attachments (5) which is attached to a coupling disc (1). 3. Protective tube armature contact according to claim 1, characterized in that the contact armature (7) has an annular disk shape and the torsion spring (3 ') on a centrally arranged Approach (5 ') to which a coupling disc (1') is attached. 4. Protective tube anchor contact according to claim 1 to 3, characterized in that the contact anchor (6, 7) consists of a permanent magnetic alloy. 5. protection tube armature contact according to claim 4, characterized in that the permanent magnetic Contact anchor (6,7) in its longitudinal direction, d. H. transversely to the central axis of the protective tube anchor contact, is premagnetized. 1 sheet of drawings