DE2342737B2 - DEVICE FOR SCANNING A ROTATING DISC-SHAPED RECORDERING MEDIA - Google Patents

Description

The invention relates to a device for scanning a rotating disk-shaped Recording medium with image and / or sound signals coded in optical form, with one below the Rotation surface of the recording medium arranged displaceable optical reading unit with a Radiation source, a first mirror that receives a beam emitted by the source and this forwards in the direction of the recording medium, one in the beam path between the source and the first mirror arranged semitransparent second mirror, onto which one through the recording medium and a first mirror hits the reflected beam, and with a detector unit which receives this reflected beam.

A device of this type has been proposed in a patent application not previously published by the applicant. In this device, the radiation source, the semitransparent mirror and the first mirror, which is preferably rotatably arranged, are aligned one behind the other, parallel to the opening? ; Instruction &, carrier arranged. Such an arrangement has the disadvantage that the circumference of the device, viewed in the radial direction, is relatively large.

The invention has for its object to provide an improved device in a compact To create construction having construction, the dimensions in the radial direction to a minimum have been reduced.

This object is achieved in a device of the type mentioned at the outset according to the invention solved that the arrangement of the radiation source, the semi-transparent mirror and the first mirror is chosen to each other such that with the addition of a third mirror, a mirror emitted by the source Beams corresponding to a path in the form of a rectangle open on one narrow side on the first Mirror meets, and that the rectangular shape in a plane parallel to the surface of rotation of the recording medium and the opening of the rectangle is facing the interior of the device.

The open rectangle thus formed by the beam path, possibly of different lengths May have long sides (legs), has approximately the shape of a capital "U".

By means of the measures according to the invention, an arrangement has been obtained in which the beam path from the radiation source to the first mirror has a U-shaped course. as a result of which optimally favorable dimensions in the radial direction have been obtained, which is particularly useful when a gas laser is used as the radiation source, which is known to have a certain length extension.

A suitable embodiment of the invention is that the semi-transparent mirror on the the bending point of the rectangle closest to the radiation source and the detector unit is arranged behind this mirror in the extension of the narrow side of the rectangle, whereby a get better accessibility of the detector unit

An embodiment of the invention is given the drawing, which shows a diagrammatic representation of the device according to the invention, explained in more detail.

The device according to the invention serves to scan a rotating disk-shaped recording medium 1, which can be a solid disc of relatively rigid material or a thin film. On this record carrier there is an information track which is generally spiral-shaped Course has and in which image and / or sound signals are attached in optical form, which in frequency and amplitude-modulated form are stored. These signals are read using a Beam that depends on the way in which the information has been stored through this Information is amplitude or phase modulated.

The beam is generated and that after being reflected back by the recording medium therein Existing information is displayed with the help of a sliding optical reading unit, which is shown in Embodiment under the Drehiingsfläche of Record carrier is arranged, detected. This unit contains a radiation source 2, which is preferably is formed by a gas laser, a semitransparent mirror 3, onto which the through the source 2 emitted beam strikes a mirror 4 on which the beam reflected by mirror 3 strikes, and a mirror 5, which the beam emitted by the source through the mirrors 3, 4 and receives this bundle via a focusing lens system 6 in the direction of the recording medium 1 forwards. The mirror 5 is rotatably arranged and is read by means not shown in detail twisted.

The beam reflected back by the recording medium strikes the Soieeel 5. thereafter

the mirror 4 and finally aul the semi-transparent mirror 3, which lets through this bundle reflected on the recording medium, which is received by a detector unit 7 behind the mirror 3.

As can be seen from the drawing, the arrangement is the radiation source 2. of the semi-permeable mirror 3 and the mirrors 4 and 5 are selected in this way been that a emitted by the radiation source The beam of rays hits the mirror 5 in a U-shaped path. The U-shaped The configuration lies in a plane parallel to the surface of rotation of the recording medium, the Opening of the U facing the interior of the device

cherishes. The detector unit 7 lies in the extension of the bar of the U behind the semi-transparent mirror 3.

It should be noted that the invention does not apply to the Restricted execution form described above and shown in the drawing, the semitransparent mirror 3 arranged at the bending point of the U which is closest to the radiation source is. The arrangement of the mirrors 3 and 4 can, if desired, be interchanged, with the detector unit 7, which lies behind the semi-transparent mirror 3, in this case then in the vicinity of the others Bending point of the U must be arranged.

1 sheet of drawings

Claims (2)

Patent claims: 1. Apparatus for scanning a rotating disk-shaped recording medium with image and / or sound signals encoded in optical form with a displaceable optical reading unit arranged under the rotating surface of the recording medium with a radiation source, a first mirror that contains a beam of rays emitted by the source receives, and forwards this in the direction of the recording medium, a semitransparent second mirror arranged in the beam path between the source and the first mirror, on which a beam reflected by the recording medium and a first mirror strikes, and with a detector unit which receives this reflected beam characterized in that the arrangement of the radiation source, the half mirror and the first mirror to each other is selected such that with the addition of a third mirror, a light emitted by the source radiation beam in accordance with a The web in the form of a rectangle open on one narrow side meets the first mirror and that the rectangular shape lies in a plane parallel to the surface of rotation of the recording medium and the opening of the rectangle faces the interior of the device. 2. Apparatus according to claim 1, characterized in that the semitransparent mirror on the am next bending point of the rectangle lying at the radiation source and the detector unit behind this mirror is arranged in the extension of the narrow side of the rectangle.