RU23518U1 - MAGNETIC MEDIA Eraser - Google Patents

Abstract

A device for erasing records on a magnetic medium containing the main and additional oscillatory circuits, each of which is formed by a constant voltage source and connected in parallel by a solenoid, a damping diode and a capacitor with a two-position switch mounted on the connection of the capacitor with the solenoid and with a constant voltage source with the possibility of closing the capacitor either to the specified source or to the solenoid and with the possibility of shifting the moment of closure relative to the specified moment to another m of the oscillatory circuit, and the solenoid of the auxiliary circuit is installed relative to the solenoid of the main circuit with the possibility of providing a displacement of the magnetic field vector of its magnetic field by an angle not equal to 180 and 360 relative to the magnetic field vector of the solenoid of the main circuit, characterized in that each solenoid is made in the form of at least , two sections connected in series, located coaxially to each other with an interval between the turns of adjacent sections.

Description

20pvT j,.,

 at 5/024

Device for erasing magnetic recordings

The invention relates to the field of physics, to means for recording or erasing a recording by magnetizing or demagnetizing a storage medium.

Known devices used to erase records on a magnetic medium containing a constant voltage source, a solenoid, a capacitor connected to a constant voltage source and a solenoid, and a key in the form of thyristors installed with the ability to control capacitor connections (A. Lagutin, V. Ozhogin. I., Strong pulsed magnetic fields in a physical experiment, M., Energoizdat, 1988, p. 51, Fig. 230).

A disadvantage of the known devices is the lack of reliability of erasing records and significant dimensions.

A more perfect and closest analogue is a device for erasing records on a magnetic medium, containing the main and additional oscillatory circuits, each of which is formed by a constant voltage source and connected in parallel by a solenoid, a damping diode and a capacitor with a two-position switch installed on the connection of the capacitor with the solenoid and with the source DC voltage with the ability to close the capacitor to either the specified source or to the solenoid and with the possibility of bias moment and short circuits relative to the indicated moment on another oscillatory circuit, and the solenoid of the additional circuit is installed relative to the solenoid of the main circuit with the possibility of providing a displacement of the vector of its magnetic field by an angle unequal 180 ° and 360 °

relative to the magnetic field vector of the solenoid of the main circuit (RU, No. 2144223, G 11 V 5/024, 2000).

However, the specified device at a given erase energy does not provide the required reliability of erasing records, in particular, on sections of magnetic media located near the edges of the solenoids.

The technical result, the achievement of which the claimed invention is directed, is to increase the reliability of erasing records from sections of a magnetic medium located near the edges of the solenoids for a given erase energy.

The specified technical result is achieved in a device for erasing records on a magnetic medium containing the main and additional oscillatory circuits, each of which is formed by a constant voltage source and connected in parallel by a solenoid, a damping diode and a capacitor with a two-position switch installed on the connection of the capacitor with the solenoid and with a constant source voltage with the possibility of shorting the capacitor to either the specified source or to the solenoid and with the possibility of shifting the torque clicks relative to the indicated moment on another oscillatory circuit, and the solenoid of the auxiliary circuit is installed relative to the solenoid of the main circuit with the possibility of providing a displacement of the magnetic field vector of its magnetic field by an angle unequal 180 ° and 360 ° relative to the magnetic field vector of the solenoid of the main circuit, due to the fact that each solenoid is made in the form of at least two sections connected in series, located coaxially to each other with an interval between the turns of adjacent sections.

iic-o 4i

in FIG. 2 is a graph of changes in magnetic field strength (H) along the longitudinal axis X of the solenoid windings.

A device for erasing records on a magnetic medium contains a main 1 and an additional 2 oscillatory circuits. The main oscillating circuit 1 is formed by a constant voltage source 3 and connected in parallel by a capacitor 4, a damper diode 5 and a solenoid in the form of at least two sections 6 and 7 connected in series, located coaxially to each other with an interval of 8 between turns of adjacent sections 6 and 7.

On the connection of the capacitor 4 with a constant voltage source 3 and with a solenoid from sections 6 and 7, respectively, with lines 9, 10 and 11, a two-position switch 12 is installed with the possibility of closing the capacitor 4, either to a constant voltage source 3, or to a solenoid from sections 6 and 7.

An additional oscillatory circuit 2 is formed by a constant voltage source 13 and connected in parallel with a capacitor 14, a damping diode 15 and a solenoid in the form of at least two sections 16 and 17 connected in series, located coaxially to each other with an interval of 18 between the turns of adjacent sections 16 and 17. On the connection of the capacitor 14 with a constant voltage source 13 and with a solenoid from sections 16 and 17, respectively, by lines 19, 20 and 21, a two-position switch 22 is installed with the possibility of closing the capacitor 14 or to the source oyannogo voltage 13 or the solenoid of the sections 16 and 17.

The keys 12 and 22 are also installed with the possibility of mixing the moment of closure, for example, of the capacitor 4 in the main oscillatory circuit 1, relative to the same moment of closure of the capacitor 14 in the additional oscillatory circuit 2.

The solenoid from sections 16 and 17 is installed relative to the solenoid from sections 6 and 7 due to the corresponding arrangement of the turns of sections 16 and 17 with the possibility of providing a displacement of the vector of the magnetic field strength by an angle unequal to 180 and 360 ° relative to the magnetic field vector of the solenoid from sections 6 and 7 of the main oscillating circuit 1.

When the device is operating, the intensity maxima (see the curve Not in Fig. 2) of the magnetic field of the solenoids from the sections are shifted to their edges, thereby increasing the tension at the edges (X 1 and X 16 values in Fig. 2) in comparison with the value achieved at a similar device with non-sectional solenoids (see curve H in Fig. 2).

An increase in the magnetic field strength and an increase in the uniformity of its distribution inside the solenoid increases the reliability and efficiency of erasing records from magnetic media.

Claims (1)

A device for erasing records on a magnetic medium containing the main and additional oscillatory circuits, each of which is formed by a constant voltage source and connected in parallel by a solenoid, a damping diode and a capacitor with a two-position switch mounted on the connection of the capacitor with the solenoid and with a constant voltage source with the possibility of closing the capacitor either to the specified source or to the solenoid and with the possibility of shifting the moment of closure relative to the specified moment to another m of the oscillatory circuit, and the solenoid of the auxiliary circuit is installed relative to the solenoid of the main circuit with the possibility of providing a displacement of the vector of its magnetic field by an angle not equal to 180 ^o and 360 ^o relative to the magnetic field vector of the solenoid of the main circuit, characterized in that each solenoid is made in the form at least two series-connected sections arranged coaxially to each other with an interval between the turns of adjacent sections.