DE1002459B - Device for shielding magnetic fields - Google Patents

Description

Device for shielding magnetic fields In many devices in electrical engineering, measurement technology and communications engineering, magnetic fields, Iron cores and the like are used. Often times it is a difficult task to make the magnetic ones Concentrating fields in the place where you want them and removing them from the To keep away from places where they disturb. The latter is especially the case when it is are magnetic fields that are generated by alternating currents and that are caused by penetration in circles with high amplification then disturbances caused by unwanted tones or but in television technology, for example, cause picture errors, stripes in the picture and the like.

The invention provides a new means of avoiding such juicy errors or at least to lower it below a tolerable limit. This exists according to the invention then that in places or rooms of the device that should remain field-free, an or several screens made of "antiferromagnetic" material are arranged. This from substances called "antiferromagnetic" in science (cf. for example "Journal for Applied Physics", 1952, issue 9, p. 350) represent a special one Type of diamagnetic substances.

Magnetic shields were already known per se. Previously used for this purpose body made of ferromagnetic material, which surrounds the aggregate to be shielded were ordered. Such ferromagnetic shields had the effect of that stray magnetic field lines, which were shielded by the, emanated from the unit, were sucked into the ferromagnetic body, so that their scattering to the outside world was avoided. The disadvantage of these known shields is there but in the fact that the field lines sucked into the ferromagnetic substances the unit to be shielded is lost, which results in a weakening of the useful magnetic field affects.

The inventive use of antiferromagnetic materials, which have diamagnetic properties, a field displacement is achieved. Otherwise Occurring magnetic stray field lines are pushed back and are therefore only to a much lesser extent than stray field lines from the shielded To withdraw from the establishment.

In FIGS. 1 and 2, arrangements are chosen as exemplary embodiments, in which the magnetic field preferably remain confined to the space of the core should, in which a scattering outside the core has a disruptive effect. In Fig. 1 a transformer is shown, which consists of the ferromagnetic core 1 and the Windings 2 consists. According to the invention, a manr is around the whole transformer tel 3 laid out of an antiferromagnetic substance.

In the embodiment according to FIG. 2, in which the ferromagnetic The core of parts 4 and 5 stands at and on the legs of the core part 4 Windings 6 are arranged, is only the zone that is due to the jump in the core substance is particularly prone to scattering, with a cladding 7 made of an antiferromagnetic Surrounded by substance. There are also cases where the geometric shape of the core is a causes preferred scattering of the magnetic field. Even in these cases it will attach the shielding jacket to the appropriate places.

In Fig. 3, an embodiment is shown for the case that the magnetic field can get out of the core, but certain parts of the device do should not hit, for example the amplifier circuits or the tube itself, which are partially field-sensitive.

This is the case with deflection coils for oscilloc graphene tubes or picture tubes and is shown in FIG. The neck of the picture tube is in denoted by 8 in this figure. The ablution system consists of the ferromagnetic one Ring 10 with the pole pieces 9 to which the windings 11 are applied. For shielding of the Strenfeld are the plates consisting of an antiferromagnetic substance 12 provided.

In all figures the course of the magnetic field is within the ferromagnetic body is shown in dashed lines.

To carry out the invention, it is advisable to use substances in which, based on the known formula for magnetized substances B the Constant 11 is far below 1, as close as possible to zero; based on the formula BD H a (where a is the antiferromagnetic character and D is a dimension) the constant a should be well above 1.

Claims (4)

PATENT CLAIMS: 1. Device for shielding. Magnetic fields, preferably in measuring devices, telecommunications equipment and the like, characterized in that that at the places or rooms of the device that should remain field-free, an or several Screens made of "antiferromagnetic" material are arranged. 2. Device according to claim 1, characterized by one or more complete encapsulation of the organ producing a magnetic field. 3. Apparatus according to claim 1, characterized by one or more complete encapsulation of organs sensitive to disturbance. 4. Apparatus according to claim 1, characterized by attaching individual Zones. of "antiferromagnetic" substances, for the purpose of directing the magnetic field in certain rooms and keeping them away from other rooms. Printed publications considered: German Patent No. 893 385.