DD259937A1 - ELECTROMAGNETIC REMANEOUS DRIVE SYSTEM, ESPECIALLY FOR RELAY - Google Patents

Abstract

The invention may, for. B. as electromagnetic remanence drive system in relays and Schuetzen, in microelectronics and data processing, etc. are used. The remanence drive system should realize an optimal adhesion force with an effective and reduced material usage. According to the invention, the magnetic circuit of a remanence drive system consists of a hardened by its residual magnetism an adhesion and tapered towards its Polflaeche core of hardened Cr steel and the remaining parts of provided with a corrosion protection layer and / or corrosion-resistant soft magnetic material. Due to the special structural design of the core, the magnetic bond strength is increased at the pole surface. By reducing the material and manufacturing costs, the entire production of the remanence drive system is made more effective. figure

Description

For this 1 page drawing

Field of application of the invention

The invention relates to an electromagnetic remanence drive system, as used, for example, as a partner of microelectronics, in data processing, robotics, electromagnetic relays and contactors.

Characteristic of the known state of the art

Electromagnetic remanent drive systems are known in which one or more magnetic circuit parts (preferably the core) consist of high-alloyed co-material.

This co-alloyed material is made by very complicated technologies that require a high economic outlay. All other parts of the magnetic circuit consist of pure soft iron, which by means of. galvanic coating is protected against corrosion.

Also, in the material currently being used for the magnetic circuit parts, a relatively high manufacturing effort is required in the most airless joining of the magnetic circuit parts.

The co-material used in the known remanence drive systems is associated with a high economic outlay. Although it meets the requirements with regard to the adhesive force, however, it places increased manufacturing requirements on the magnetic circuit with regard to the technologically caused parasitic air gap.

As a result, the known remanence drive systems require a high material and manufacturing costs, which has an economically unfavorable effect on the production of the entire assembly.

Object of the invention

The aim of the invention is an electromagnetic remanence drive system, which can be produced very efficiently with respect to the production and the use of materials.

Explanation of the essence of the invention

The invention has for its object to provide an electromagnetic remanence drive system in which an effective adhesive force is realized in addition to an effective use of materials.

According to the invention, the object is achieved in that a by its residual magnetism an adhesive effect and tapered towards its pole face hardened Cr steel core and the remaining parts of the magnetic circuit made of corrosion-resistant and soft-magnetic material or consist.

Due to the hitherto not customary use of hardened Cr steel, which is economically much cheaper than the material used from a Co alloy, a significant material cost savings is achieved.

The material used according to the invention made of hardened Cr steel requires no additional technology in terms of the air gap in the magnetic circuit and is also technologically easy to work.

Overall, the material and production costs are considerably reduced by the invention and thus ensures an economically favorable production of the remanence drive system according to the invention.

embodiment

The invention will be explained in more detail below using an exemplary embodiment.

The accompanying drawing shows a sectional view of the electromagnetic remanence drive system according to the invention.

The electromagnetic remanence drive system according to the invention consists of the core 1, the yoke 2, the coil 7 and the armature third

The core 1 made of hardened Cr steel (e.g., X 40 Cr 13) is provided in the direction of and near the pole face 4 with a taper 5 through which the pole face 4 has a smaller cross section than the remainder of the core 1.

Due to the taper 5 and the cross-sectional smaller pole face 4 extend the magnetic lines of force analogous to the taper 5 and reinforce in the working air gap 6, the magnetic adhesive force.

The taper 5 may, as shown in the drawing, be frusto-conical or other shapes which cause a reduction of the pole face 4 with respect to the core cross-section.

The yoke 2 and the armature 3, as the remaining parts of the magnetic circuit, may consist of soft magnetic material RFe and / or corrosion-resistant soft magnetic material NiFe _max provided with a corrosion protection layer. The electromagnetic remanence drive system according to the invention can, for example, continue to be designed as a rotary armature, flat armature and plunger armature drive.

Claims (1)

Claim: Electromagnetic Remanenztriebsystem, in particular for relays, which consists of coil, core, yoke and armature and in which one or more parts of the magnetic circuit are made of magnetic material, characterized in that a by its residual magnetism an adhesive force effecting and near its pole face ( 4) in its direction with a taper (5) provided core (1) made of hardened Cr-beam and the remaining parts of the magnetic circuit yoke (2) and armature (3) provided with a corrosion protection layer and / or corrosion resistant soft magnetic material.