SU1016826A1 - Flopping disk drive device - Google Patents

Abstract

A DEVICE FOR FAST MAGNETIC DISC HARNESS containing a power unit, a control flare and a rotary electric motor connected through a main coupling with a spindle with a magnetic disk fixed on the hub, characterized in that, in order to increase the reliability of preserving the working surface of the flexible magnetic disk in the process its rotation and vertical movement, an electromagnet fixed on the spindle shaft is inserted into the device, a linear electric motor with a bore coaxially spindle, rigidly fastened with this the control gear rod is an additionally inserted coupling, the first coupling half of which is located coaxially to the stem between the spindle face and the inner plane of the hub, and the second coupling half is rigidly connected to the rod end, and also connected in series to the converter and amplifier connected between the output of the control unit and the input of the power supply unit, and connected With the VOEYLM converter input, the rotation speed sensor (L C spindle, the power supply unit with the electromagnet and the linear electric motor. is connected directly, and the mouth With an electric motor through the control unit.

Description

O) 00

ISD

A) The invention relates to instrumentation, in particular, to a device with which a flexible magnetic disk can be driven in an optical magnetic recording and signal reproduction. A device for driving a flexible magnetic disk is known in which a massive faceplate is attached to the hsM spindle, on which the magnetic disk Cl is fixed. At the beginning of the rotation of the faceplate and at the end of its rotation, the air flow through the flexible disk weakens, which can lead to deformation of the working surface of the magnetic disk itself, and magnetic heads. In addition, the drive in such a device should be of increased power due to the large weight of the faceplate, which leads to increased power consumption. Closest to the present invention is a device for driving a flexible magnetic disk comprising a power supply unit, a control unit, and a rotary electric motor connected through a main coupling with a spindle,. on the hub of which is fixed magnetic disc 2 i. However, the known device does not sufficiently reliably maintain the working surface of the flexible magnetic disk during its rotation and vertical movement. The purpose of the invention is to increase the reliability of preserving the working surface of a flexible magnetic disk during its rotation and vertical movement. The goal is achieved by j4TO into a device for driving a flexible magnetic disk containing a power supply unit, a control unit and a rotary electric motor connected the spindle, on the hub of which the magnetic disk is fixed, is inserted a fortified spindle end electromagnet, fixed coaxially with the spindle, a linear electric motor with a cow, rigidly fastened The control rod with this coupling is additionally inserted in the coupling, the first one on the lumft coupling of which is located coaxially between the spindle face and the inner plane} of the hub, and the second coupling half is rigidly connected to the end of the rod, as well as the transducer and amplifier connected in series the input power unit, and the rotational speed sensor spindle connected to the second converter input, the power supply unit being directly connected to the electric, magnet and linear motor, and electric motor - through block j / right. The drawing shows the design of the proposed device. : The rotor electric motor 1 has a shaft 2, on which the main coupling 3 is mounted. In the housing 4 there is a spindle 5, above which is placed a flexible magnetic disk 6 fixed in the hub 7. The peripheral portions of the disk 6 are located above the upper section 8 of the housing 4. Close to Electromagnet 9 is installed at the level of this section on the spindle, and below it the spindle is linear. Electrodvitatel 10 having a measles 11 Each of the elements 12 and 13 is a separate coupling half, and together they constitute the additional coupling inserted into the device y, the half coupling 13 of which is rigidly connected to the rod 14, the other end of which is also rigidly connected to the core 11. Under the coupling half 12 is located the spring 15, and below it the contacts 16, which, when they are in the lower position, interact with the contacts 17. In the device There is a second spring 18, as well as the first spindle centered, and between springs 15 and 18 there is a stop 19 for axial movement of the rod 14 resting in the upper position against the protrusion 20. Both electrical elements of the device, i.e. The electromagnet and the linear electric motor, as well as the contacts 17 are connected to the current collector 21, to which the power supply unit 22 is connected on the other side, connected together with the rotational speed sensor 23 of the spindle to the converter 24. But the power supply unit is connected to the converter via the control unit 25, and the sensor The converter is connected directly. The output of the converter to the input of the power supply unit is connected via an amplifier 26. A rotor motor is also connected to the control unit. In the initial non-operating state, the hub 7 lies on the half coupling 12, which, under the influence of the spring 15, occupies the upper position. When starting the device, both electric motors are turned on, the spindle starts to rotate: at a predetermined speed, hub and yes (2 mechanical clutch. With a gutter - at a lower speed, the linear electric motor moves the bore outward, coupling half 13 is pressed to the hub 7 and when further moving down. Coupling 12 is attracted by an electromagnet, contact 16 is in contact with cone 17 and at this moment the spindle, and with it together and the magnetic disk begins to rotate at the required speed. 23, which allows through the preformer.

And the amplifier to give a signal to the piPhany unit, and; through it and on the control unit, as a result of which, with increasing spindle rotational speed, the retraction force of the electric motor's roots, and hence the more reliable position of the floppy disk relative to the upper section of the device, will occur

occur in reverse order. . .

Increasing the safety of a magnetic disk leads to an increase in the reliability of recorded and reproducible information, to prolonging the life of the disk itself and the elements of the drive device, since the need to duplicate the recording and playback processes is reduced.

€ 2f

lg

/ J

WA € 17

Claims (1)

DEVICE FOR DRIVING A FLEXIBLE MAGNETIC DISK, comprising a power supply unit, a control unit and a rotary electric motor connected through a main coupling with a spindle, 'a magnetic disk is fixed on the hub, characterized in that, in order to increase the reliability of maintaining the working surface of a flexible magnetic disk during it rotation and vertical movement, the electromagnet mounted on the spindle trot, a linear electric motor fixed to the spindle coaxially with the spindle, rigidly fastened to this anchor control current of an additionally inserted coupling, the first coupling half of which is located coaxially with the rod between the end face of the spindle and the inner plane of the hub, and the second coupling half is rigidly connected to the rod end,, also the converter and amplifier connected in series, connected between the output of the control unit and the input of the power supply, and connected to the second input of the converter is a spindle speed sensor, while the power supply with Λ electromagnet and linear electric J motor is directly connected, and (, with a rotary electric engine - through the control unit. 2 1 1016826