KR860001386Y1 - Galvano mirror of laser disc palyer - Google Patents

Abstract

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Description

Galvanometer Mirror of Laser Disc Player

1 is an exploded perspective view of the present invention.

Figure 2 is a perspective view of the combination of the present invention.

3 is a cross-sectional view taken along the line A-A in FIG.

4 is a cross-sectional view of a conventional galvano mirror.

5 is a partial schematic diagram of a laser disc player.

* Explanation of symbols for main parts of the drawings

1: mirror 2: coil

3: elastic pad 4: permanent magnet

5: holder

The present invention relates to a galvano mirror (GALVANO MIR RCR) used in a laser disc player, and in particular, by improving the structure of the galvano mirror, it is possible to reduce the manufacturing cost as well as miniaturization.

In general, in a laser disc player, a galvanometer mirror detects a signal recorded on a laser disc by vibrating the laser light when the laser beam is projected onto the disc or when the signal of the disc is sent to the optical diode. The minute vibration that causes the light beam to tremble by several micros to read the signal contained in the laser disk is performed by the galvano mirror, and the laser beam vibrates by the minute vibration width of the galvano mirror.

These galvano mirrors are made of special glass and are attached with coils and permanent magnets for fine vibration. In the conventional galvano mirrors, permanent magnets are formed in double cylinders to install recesses in the middle and coils at the recesses. The mirror is vibrated according to the electric signal by attaching a special mirror in front of the coil mount, but this structure, that is, the conventional galvano mirror which fixes the permanent magnet to the outer circumference of the coil and installs the mirror on the coil mount faceplate It is not only suitable for laser disc players that are miniaturized, but also costly to manufacture due to the complexity and cost of materials.

The object of the present invention is to provide a galvano mirror so that the permanent magnet is located inside the coil by installing a coil and elastic pad on the back of the mirror in order to eliminate the above problems.

The present invention will be described in detail based on the configuration and operation effects as follows.

The present invention attaches the coil (2) and the elastic pad (3) on the back of the mirror (1) and attaches the permanent magnet (4) to one end of the elastic pad (3), and attaches the fixture (5) on the back of the permanent magnet (4) It is a structure.

Reference numeral 6 is a laser tube, 7 is a grating, 8 is a magnifying lens, 9 is a first mix mirror, 10 is a second mix mirror, 11 is a prism, 12 is a quarter wave plate, 13 is a tracking mirror, 14 is a tangent mirror, 15 is an objective lens, 16 is a disk, 17 is a cylindrical lens, and 18 is a photodiode.

FIG. 1 is an exploded perspective view of the present invention, in which the coil 2 and the elastic pad 3 are attached to the rear side of the mirror 1 in FIG. 1, and the permanent magnet 4 is attached to one end of the elastic pad 3, but the permanent magnet is attached thereto. (4) is installed inside the coil (2) and one end of the permanent magnet (4) is installed so that the galvano mirror can be easily fixed.

In this case, the elastic pad 3 vibrates the mirror 1 installed in the elastic pad 3 while smoothly absorbing the vibrations of the coil 2 and the permanent magnet 4. When the current flows in the coil 2 at 2 degrees, a magnetic force is generated in the coil 2, and the magnetic force interacts with the permanent magnet 4 and vibrates the coil 2 itself. When the coil 2 vibrates, the coil (2) and the mirror 1 is fixedly vibrated.

As shown in FIG. 3, the elastic pad 3 provided between the mirror 1 and the permanent magnet 4 to protect and support the mirror 1 and the coil 2 effectively absorbs the vibration of the mirror 1, Maintain a gap between the coil (2) and the permanent magnet (4).

4 is a schematic cross-sectional view of a conventional galvano mirror, in which the coil is vibrated while being positioned in the permanent magnet, which not only consumes a lot of permanent magnets but also becomes bulky, and forms a separate mounting table for attaching the mirror and the coil. Because of the vibrating body that needs to vibrate, that is, mirrors, coils and coil mounts, delicate operations could not be performed properly.

FIG. 5 is a schematic view of a part of a laser disk player for illustrating an example in which the galvano mirror of the present invention is used. In FIG. 5, the laser beam emitted from the laser tube 6 is formed by the grating 7 and the magnifying lens. 8) is reflected by the first mix mirror 9 and the second mix mirror 10, and the laser beam reflected from the second mix mirror 10 passes through the prism 11 and the ¼ wavelength plate 12. The laser beam reflected by the tracking mirror 13 and the tangental mirror 14 and reflected by the tangental mirror 14 is projected onto the disc 16 through the objective lens 15 and stored on the disc. The laser beam signal is detected by the objective lens 15 and the tangent mirror 14, the tracking mirror 13, ¼ wavelength plate 12, prism 11 and the cylindrical lens 17 Arrived at the photodiode 18.

Here, the galvano mirror is used for the tracking mirror 13 and the tangental mirror 14, and the galvano mirror used for the tracking mirror 13 and the tangental mirror 14 vibrates at a minute interval of several micros. The laser beam is projected to detect the signal contained in (16).

As described above, the present invention has a simpler structure than conventional galvano mirrors, which can realize miniaturization, reduce manufacturing costs, and lightly vibrate the mirrors and coils. It works.

Claims (1)

A laser disk with a coil (2) and a resilient pad (3) attached to the back of the mirror (1), a permanent magnet (4) attached to one end of the resilient pad (3), and a holder (5) attached to the rear of the permanent magnet (4). The player's galvanometer mirror.