SU448496A1 - Sealed magnetic contact - Google Patents

Description

one

The invention relates to the field of radio electronics and can be used when switching electrical circuits of various electronic devices and when designing electromagnetic relays.

Sealed magnetic contacts with a contact system are known, whose elements combine the functions of sections of an electric and magnetic circuit.

In the proposed magnetically controlled contact, in order to increase reliability, manufacturability and increase the temperature range of stable operation, one electrode is made in the form of a disk mounted on a thin conductive rod located in an insulating tube, which can be rotated in the transverse direction, and the other electrode is made in the form of elastic conductive concentric arranged

along the axis of the above mentioned groundrod, one end of which is fixed in a flask, and the other end is rigidly connected to a ferromagnetic element, at 5 which is affected by a control magnetic flux.

FIG. I shows the proposed magnetically controlled contact in FIG. 2 - section A-A in FIG. B.

0 Sealed magnetic contact consists of two electrodes, one S3 of which is made in the form of a disk I, planted on a thin conductive element 2,

5 and the other in the form of three conducting elastic petals 3 concentrically equi-rectangular with respect to the disk electrode along the axis of the latter. The petals 3 of the second electrode at one end are rigidly sunk into the glass bulb, for example, have one output, and the other nod is rigidly connected to the ferromagnetic element 4, which has the freedom

5 I displacements along the axis of the electrode (disk I). For the consolidation of a possible minor difference in the length of the petals and for reliable contact of all three petals 3, the carrier element 2, carrying the disk, is made of a sufficiently thin rod that is easily displaced in the transverse direction, which ensures self-centering of the disk electrode at the moment of contact. In order to increase the vibration and impact resistance, the movable element 2 is located in a rigid tube 5, which limits the disc electrode oscillations and excludes the possibility of spontaneous closure due to vibrations, impacts and post-contact bounce, but allows a slight transverse movement of the disc electrode for self-centering at the moment of closure. The tube can be made of any non-magnetic material. Management of the reed switch. produced by the action of a magnetic field of an electric winding or a permanent magnet on a ferromagnetic element 4. When exposed to a magnetic field, the ferromagnetic element moves along the axis of the disk I, bringing the lobes 3 radially closer and ensuring their contact with the disk electrode. This reed switch design makes it possible to use nonmagnetic materials with high current-conducting and elastic properties of materials (for example, copper-based alloys) for electrodes, which allows to achieve high contact reliability and low contact resistance even without coating due to three contact points and self-cleaning effect. The used ferromagnetic element does not experience mechanical deformations when closing and opening the contact and can be made of a corresponding ferromagnetic material, to which the requirements for elasticity and conductance no longer apply. NOTES OF THE INVENTION A sealed magnetically controlled contact comprising a flask of insulating material and electrodes, characterized in that, in order to increase reliability, manufacturability and increase the temperature range of stable operation, one electrode is made in the form of a disk mounted on a thin conductive rod, located in an insulating tube, with the possibility of oscillation in the transverse direction, and the other electrode is made in the form of elastic conductive petals located concentrically along the axis of the said ektroda, one end of which is fixed in the flask, while the other is rigidly connected with the ferromagnetic element, which is exposed to control magnetic flux.

Included is the qjeppOMuzt uma gender

Starting position qieppQ magnet

needles