SU1642518A1 - Device for analog data recording on and reproduction from a disk optical medium - Google Patents

Abstract

This invention relates to video engineering, in particular to information recording / reproducing devices. To simplify the design and reduce the size of the device, a drive disk 9 with a driving spiral groove is mounted on the shaft 2 carrying the information-holding disk 1, and the shaft 2 is mounted in the sleeve 7 of the carriage 5. The rotation of the disk 1 is carried out by transmitting the rotation from the electric motor 25 to the driving disk 9 through the pull roller 14 spring-loaded to its smooth end. The linear movement of the carriage 5 with the shaft 2 is accomplished by forcefully closing the ball 11 located on the flat spring 13 with the driving groove of the driving disk 9, and the end rim of the plate spring 13 is fixed rigidly on the chassis. 1 il.

Description

The invention relates to video technology, in particular to devices for recording information reproduction.

The aim of the invention is to simplify the design and reduce the size of the device.

The drawing shows a diagram of the device.

The disk information carrier 1 is mounted on a vertical shaft 2, which is connected with the drive mechanism of the carrier. The carrier drive mechanism is made in the form of two parallel guides 3, rigidly fixed in a housing (not shown), between which a carriage 5 is mounted on ball bearings 4. One pair of ball bearings 4 is mounted on a flat spring 6, which is rigidly connected to the carriage body 5 and provides a power short circuit between the guides 3 and the carriage 5. A sleeve 7 is mounted on the carriage 5, in which a vertical shaft 2 is rotated reversely on a ball bearing 8, at the opposite end of which a disk carrier 1 is mounted, while on the vert Calne shaft 2 is rigidly fixed to the drive disc 9, at the upper end of which is formed a spiral (Archimedes' spiral) groove 10 with an angle a ₀ and increments r mm. It engages the ball 11 of the probe (or another rolling or sliding body, such as a roller, needle, etc.), rolled in the sleeve 12 so that the side surfaces of the ball 11 touch the walls of the groove 10. To ensure a force circuit between the ball 11 and the lateral surfaces of the spiral groove 10, the sleeve 12 is rigidly mounted on an elongated flat spring 13 associated with the mechanism body (not shown).

The lower end of the drive disk 9 is coupled to a pulling roller 14, rotating on the axis 15 of the lever 16, which in turn rotates around the other axis 17. The spring 18 connecting the lever 19, rigidly connected to the axis 17 of the mechanism body, provides a force closure of the pulling roller 14 with a drive disk 9 and a drive roller 20 on a horizontal shaft 21. At the opposite end of the horizontal shaft 21, a pulley 22 is fixedly fixed. acting with a belt 23 with a pulley 24 of the drive motor 25. In the drawing, the optical head is conventionally shown by a micro lens 26 belonging to the optical system for recording and reproducing micro frames.

The vertical axis of the axis, which does not change its position relative to the case of the mechanism (not shown), coincides with the geometric axis of the track of the micro-frames 27 on the disk carrier 1, the center of the mirror 28, the optical axis of the micro-lens 26, and the axes of the sleeve 12, ball 11, with the center line of the spiral the grooves 10 of the drive disk 9 and the axis of symmetry of the pulling roller 14.

The device operates as follows.

Before starting work, the pulling roller 14 is disengaged from the drive disk 9 by rotation on the axis 15, the ball 11 is deflected by the flat spring 13 from the spiral groove 10, the carriage 5 together with the vertical shaft 2, the drive disk 9 and the carrier disk 1 moves to the leftmost the position and the drive disk 9, as well as the carrier disk 1, are installed by turning on the vertical shaft 2 in the initial operating position. The ball 11 is inserted into the peripheral spiral groove 10, and the pulling roller 14 is installed in the working position. After that, the engine 25 is turned on and the optical signal of the recorded or reproduced image is sent to the optical system, conventionally shown by a micro lens 26 and a mirror 28.

The engine 25 rotates the pulley 24 using the belt 23, the rotation is transmitted to the pulley 22 of the horizontal shaft 21, on the opposite end of which a roller 20 is rigidly fixed, which rotates the pulling roller 14 and through it the wire disk 9. Simultaneously with the disk 9, the vertical shaft 2 rotates on a ball the support 8 in the sleeve 7, rigidly mounted in the carriage 5, and a disk carrier mounted on it

1.

In this case, the spiral groove 10 of the drive disk 9 interacts with the ball 11, as a result of which the carriage 5, and with it the vertical shaft 2 and the carrier disk 1 move along the guides 3 on the ball bearings 4 in a horizontal direction relative to the axis 00ι, and therefore and relative to the pulling roller 14 and the micro-lens 26 by ΐ mm pitch for each revolution of the drive disk 9.

In this case, the current value of the radius R of the disk 9 decreases, and in proportion to it, the angular velocity a) of the drive disk 9 and the carrier disk 1 increases with a constant number of revolutions of the drive roller 20, as a result of which the linear recording-playback speed will be constant at any point. The information recorded on the disk-carrier 1 is distributed evenly over its entire surface, the maximum duration of the recorded program is achieved.

The proposed drive system drive 1, based on the power circuit of the conjugate elements, 5 provides high transmission accuracy, while the detonation coefficient Kd <0.1%, and therefore, the necessary accuracy of recording-playback information. 10

On the drive disk 9, the pitch of the spiral groove t = 1.5 mm, the angle of the groove a = 60 °, its depth b = 85 mm, the diameter of the ball 11 d = 1.5 mm. The size of the obtained micro-frame is 0.9x1.2 mm ² , the gap between 15 adjacent tracks of the micro-frames is <3ι = 0.3 mm, the gap between the micro-frames along the center line of the same track is 02 = 0.1 mm.

Claims (1)

Formula of the invention 20 A device for recording and reproducing analog information on a disk optical medium containing a laser optically coupled through a focusing optical system to a disk medium mounted on a shaft, which is connected to a two-axis drive for moving the information medium having an electric motor located in the housing, characterized in that, in order to simplify the design and reduce the dimensions of the device, a two-axis drive for moving the information carrier is made of kinematically connected electric of a motor, a spring-loaded pulling roller, a drive disk with a spiral groove on one of the ends located on the end of a flat spring of an antifriction stop and a carriage with a sleeve, an antifriction support is installed in its blind hole, the drive disk is rigidly fixed to the shaft and with its spiral groove on the end face is mated anti-friction stop, the pulling roller is spring-loaded to the other end of the drive disk, the shaft is installed in the bore of the sleeve on the carriage, and the free end of the flat spring is mounted on the device body.