JP4128372B2 - Disc insertion / ejection device and disc recording / reproducing device - Google Patents

Description

[0001]
BACKGROUND OF THE INVENTION
The present invention relates to a disc identification device for identifying a disc type, a disc insertion / ejection device for inserting / removing a disc, and a disc recording / reproducing device for recording / reproducing on / from a disc.
[0002]
[Prior art]
Conventionally, in a disk recording / reproducing apparatus such as an in-vehicle audio apparatus equipped with a disk identification device for identifying a disk type, a lever driven by contact with a disk or an adapter is used, and the lever detects light. By blocking the light from the light, control of loading start and loading completion, and prevention of false detection by the slit of the adapter were performed.
[0003]
As an example of a conventional disk identification device, a disk identification device disclosed in Japanese Patent Laid-Open No. 2000-163840 is known as described below.
[0004]
26 and 27, a lower substrate 911 is fixed to a housing of a disk changer device (not shown), and the upper substrate 912 is rotatably supported by the lower substrate 911. A disk insertion slot 910 is between the upper substrate 912 and the lower substrate 911.
[0005]
Here, on the lower substrate 911, a light receiving element 913A disposed on the left end side in FIG. 27 in the width direction of the disk insertion port 910, and a light receiving element 913B disposed substantially at the center in the width direction of the disk insertion port 910, A small hole 914A and a small hole 914B are formed in the upper substrate 912, and a diaphragm (lever) 915 is slid in the width direction of the disk insertion port 910 on the side opposite to the disk insertion port 910. It is held freely.
[0006]
The sliding plate 915 has a small hole 916 </ b> A and a large hole 916 </ b> B, and a spring 917 that is also locked to the upper substrate 912. A pin 918 projecting into the disc insertion slot 910 through the notch is implanted. The sliding plate 915 is biased in the direction indicated by the arrow 915a by the elastic force of the spring 917.
[0007]
Further, a light emitting element 919A is attached to a housing of the disk changer device at a position facing the light receiving element 913A, and a light emitting element 919B is attached at a position facing the light receiving element 913B.
[0008]
With the configuration described above, the disc identification device including the light receiving element 913A and the light receiving element 913B as the light detecting means can identify the type of the disc by the output from the light receiving element 913A and the light receiving element 913B.
[0009]
For example, a disc having an outer diameter of 12 cm (hereinafter, usually referred to as a 12 cm disc) 920 (see FIGS. 26 and 28) or a disc having an outer diameter of 12 cm and an outer diameter of 8 cm at the center. (Hereinafter, referred to as an 8 cm disc) and an adapter 921 (see FIG. 29) having a slit 924 (see FIG. 29), or when an 8 cm disc held in the adapter 921 is inserted, When an 8 cm disc is inserted from the left side in the width direction of the insertion slot 910, the pin 918 is driven by the inserted disc or adapter, and the sliding plate 915 moves from the position shown in FIG. 26 to the position shown in FIG. Slide in the direction indicated by 915b. Therefore, since the small hole 914A formed in the upper substrate 912 is closed by the sliding plate 915 as shown in FIG. 28, the light receiving element 913A cannot receive light from the light emitting element 919A. Further, the small hole 914B formed in the upper substrate 912 is not blocked by the sliding plate 915 due to the action of the large hole 916B formed in the sliding plate 915. Therefore, the light receiving element 913B is blocked by a disk or an adapter. Unless light is removed, light from the light-emitting element 919B can be received.
[0010]
On the other hand, when an 8 cm disc is inserted from the center or the right side of the disc insertion slot 910 in the width direction, the pin 918 is not driven by the inserted disc, so the small hole 914A formed in the upper substrate 912 The small hole 914B is not blocked by the sliding plate 915, and the light receiving element 913A can always receive light from the light emitting element 919A. The light receiving element 913B can receive light from the light emitting element 919B as long as it is not blocked by a disk or an adapter.
[0011]
Therefore, the audio device having the disc identification device as shown in FIGS. 26 and 28 can discriminate the disc type by the output from the light receiving element 913A and the light receiving element 913B, and is held by the 12cm disc 920 and the adapter 921. When the inserted 8 cm disc is inserted, the loading is continued and transported to the disc storage portion (not shown), whereas when the 8 cm disc or the adapter 921 not holding the 8 cm disc is inserted. Was discharging.
[0012]
[Problems to be solved by the invention]
However, in the conventional disc identification device, a 12 cm disc (hereinafter referred to as a small data area 12 cm disc) having a data area of only 8 cm smaller than a 12 cm disc having a normal data area at the center (hereinafter referred to as a normal 12 cm disc). Has a problem that it may be handled in the same manner as an 8 cm disc inserted from the center of the disc insertion slot 910 in the width direction.
[0013]
SUMMARY OF THE INVENTION An object of the present invention is to provide a disc identification device for discriminating a small data area 12 cm disc in the same manner as a normal 12 cm disc, and a disc insertion / ejection device and a disc recording / reproducing device equipped with this disc identification device. .
[0014]
[Means for Solving the Problems]
In order to solve the above-described problems, a disc identification device according to the present invention includes a first disc having a light shielding property, a second disc having a smaller outer diameter than the first disc and having a light shielding property, and the first disc. A small data area disc having an outer diameter substantially the same, a data area having the same radius as the second disc and having a light shielding property at the center, and a light transmitting property in a portion other than the data area; And a hollow hole having a substantially same outer diameter as the first disk and a substantially same radius as the second disk is formed in the center, and a disk including a hollow disk having a light shielding property is inserted and removed. A disc insertion / ejection portion, an end-passage contact detection means for detecting the disc passing through one end in the width direction of the disc insertion / ejection portion by contact of the disc, and light being blocked by the disc. Based on the detection results of the contact detection light detection means as the light detection means for detecting the disk passing through and the contact detection light detection means when the end passage contact detection means detects the disk, Discriminating means for identifying the type of the disc, and the light detection means at the time of contact detection detects the small data area disc when the contact detection means at the time of passing the end detects the small data area disc, and The contact detecting means at the time of passing part is configured to be disposed at a position where the hollow disk is not detected when the hollow disk is detected.
[0015]
With this configuration, the disc identification device of the present invention is inserted into the disc insertion / extraction portion when the disc inserted into the disc insertion / extraction portion is any of the first disc, the small data area disc, the hollow disc, and the transparent disc. It can be identified whether the recorded disc is a first disc or a small data area disc, or a hollow disc or a transparent disc. In other words, the disc identification device of the present invention can identify the small data area disc in the same manner as the first disc.
[0016]
In the disk identification device of the present invention, the light detection means at the time of contact detection is detected by the contact detection means at the time of passing the end of the second disk passing through one end portion in the width direction of the disk insertion / ejection portion. Sometimes, the second disk is arranged at a position where it is not detected.
[0017]
With this configuration, the disc identification device according to the present invention is configured such that the disc inserted into the disc insertion / extraction portion passes through the first disc, the small data area disc, the one end in the width direction of the disc insertion / extraction portion, In the case of either a hollow disk or a transparent disk, the disk inserted into the disk insertion / extraction part is the first disk or the small data area disk, or passes through one end of the disk insertion / extraction part in the width direction. Whether it is a second disc, a hollow disc or a transparent disc can be identified.
[0018]
Further, the disc identification device of the present invention comprises a passing disc light detecting means as the light detecting means for detecting the disc that passes when light is blocked by the disc, the contact detecting time light detecting means and the passing light The disk light detecting means is detected by the light detecting means at the time of contact detection when the first disk and the hollow disk are inserted into the disk insertion / extraction portion and first detected by the passing disk light detecting means. When the small data area disk is inserted into the disk insertion / extraction section and is first detected by the passing disk light detecting means, it is detected by the contact detection time light detecting means, or the passing disk light detecting means The second disk passing through one end in the width direction of the disk insertion / ejection part is not inserted into the disk insertion / ejection part. It is arranged at a position not detected by the light detection means at the time of contact detection when first detected by the passing disk light detection means, and the identification means is configured to insert the passing disk light detection means into the disk insertion / extraction portion. The type of the disc is identified based on the detection result of the light detection means at the time of contact detection when the disc is first detected.
[0019]
With this configuration, the disc identification device of the present invention is inserted into the disc insertion / extraction portion when the disc inserted into the disc insertion / extraction portion is a second disc that passes through one end of the disc insertion / extraction portion in the width direction. It is possible to identify that the recorded disc is the second disc that passes through one end of the disc insertion / ejection portion in the width direction.
[0020]
Further, the disc identification device of the present invention includes a disc passage light detection means as the photodetection means for detecting the disc that passes when the disc passes light, and the disc is blocked by light. Passing disk light detecting means as the light detecting means for detecting the passing disk, the width of the disk insertion / extraction part is substantially the same as the outer diameter of the first disk, When the first disk and the hollow disk are inserted into the disk insertion / extraction part and are first detected by the passage-time light detection means, the passage light detection means and the passage disk light detection means are Detected by light detection means, the small data area disk, the second disk passing through one end in the width direction of the disk insertion / extraction part, When the second disk passing through the central portion in the width direction of the disk insertion / extraction part is inserted into the disk insertion / extraction part and first detected by the light detection means at the time of disk passage, the passing disk The second disk that is detected by the light detection means or not detected by the light detection means when passing through the disk and passes through the other end in the width direction of the disk insertion / extraction section is inserted into the disk insertion / extraction section. The disc detecting means is arranged at a position not detected by the passing disc light detecting means when first detected by the disc passing light detecting means, and the discriminating means is inserted into the disc inserting / extracting portion. The disc type is discriminated based on the detection result of the passing disc light detecting means when the disc is first detected.
[0021]
With this configuration, in the disc identification device of the present invention, when the disc inserted into the disc insertion / extraction portion is the second disc passing through the other end portion in the width direction of the disc insertion / extraction portion, the disc insertion / extraction portion It can be identified that the inserted disc is the second disc that passes through the other end of the disc insertion / ejection portion in the width direction.
[0022]
Further, the disc identification device of the present invention comprises a disc passage light detection means as the light detection means for detecting the disc that passes when light is blocked by the disc, and the disc insertion / extraction portion has a width of the disc insertion / extraction portion. The outer diameter and length of the first disk are substantially the same, and the disk passing light detection means and the passing disk light detection means are configured such that the first disk and the hollow disk are inserted into the disk insertion / extraction portion. Then, when the light is first detected by the disk passage light detection means, the second disk is detected by the passing disk light detection means and passes through one end portion in the width direction of the small data area disk and the disk insertion / ejection portion. The disc and the second disc passing through the central portion in the width direction of the disc insertion / extraction portion are inserted into the disc insertion / extraction portion, and the disc is first inserted. Detected by the passing disk light detecting means when detected by the passing light detecting means, or not detected by the passing light detection means and passing through the other end in the width direction of the disk insertion / extraction portion. When the disc 2 is inserted into the disc insertion / ejection section and first detected by the disc passage light detection means, the disc is not detected by the passage disc light detection means. The disc type is discriminated based on the detection result of the passing disc light detecting means when the passing light detecting means first detects the disc inserted into the disc inserting / ejecting portion.
[0023]
With this configuration, in the disc identification device of the present invention, when the disc inserted into the disc insertion / extraction portion is the second disc passing through the other end portion in the width direction of the disc insertion / extraction portion, the disc insertion / extraction portion It can be identified that the inserted disc is the second disc that passes through the other end of the disc insertion / ejection portion in the width direction.
[0024]
Further, the disc identification device of the present invention includes a disc-passing light detecting means as the light detecting means for detecting the disc passing when the light is blocked by the disc, and the disc passing through the contact of the disc. A detecting means for detecting when the disk passes, wherein the width of the disk insertion / extraction portion is substantially the same as the outer diameter of the first disk, and the detecting means for detecting the passage of the disk and the detecting contact when the disk passes Means is detected by the disk passage contact detection means when the first disk and the hollow disk are inserted into the disk insertion / extraction portion and first detected by the disk passage light detection means; A small data area disk, the second disk passing through one end in the width direction of the disk insertion / extraction part, and the disk insertion / extraction part When the second disk passing through the central portion in the width direction is inserted into the disk insertion / extraction portion and first detected by the light detection means when passing through the disk, it is detected by the contact detection means when passing through the disk, Alternatively, the second disk passing through the other end in the width direction of the disk insertion / ejection part is not detected by the light detection means at the time of passing the disk, and is inserted into the disk insertion / ejection part, and passes through the disk first. It is arranged at a position where it is not detected by the contact detection means when the disk passes when detected by the time light detection means, and the identification means first selects the disk into which the light detection means when the disk passes is inserted into the disk insertion / extraction portion. The type of the disc is identified based on the detection result of the contact detection means when the disc passes when detecting.
[0025]
With this configuration, in the disc identification device of the present invention, when the disc inserted into the disc insertion / extraction portion is the second disc passing through the other end portion in the width direction of the disc insertion / extraction portion, the disc insertion / extraction portion It can be identified that the inserted disc is the second disc that passes through the other end of the disc insertion / ejection portion in the width direction.
[0026]
Further, the disc identification device of the present invention detects the disc that passes when light is blocked by the disc, and by the light detection means at the time of contact detection among the second disc that passes through the disc insertion / ejection unit. Non-detection disk light detection means as the light detection means arranged at a position for detecting at least a second disk that is not detected, and the light detection means for detecting the disk that passes when light is blocked by the disk And a disk passage contact detection means for detecting the disk passing by contact of the disk, wherein the width of the disk insertion / extraction portion is the outer diameter and length of the first disk. Are substantially the same, the light detection means at the time of contact detection, the non-detection disk light detection means, the light detection means at the time of passing the disk And the disc passing contact detection means includes the first disc, the small data area disc, the second disc passing through one end of the disc insertion / extraction portion in the width direction, and the width direction of the disc insertion / extraction portion. The second disc passing through the other end of the disc and the hollow disc are inserted into the disc insertion / extraction portion and detected by at least one of the contact detection time light detection means and the non-detection disc light detection means. Before being detected by both the contact detection light detection means and the non-detection disk light detection means, and detected by at least one of the disk passage light detection means and the disk passage contact detection means, The second disk passing through the central part in the width direction of the part is inserted into the disk insertion / extraction part, the light detection means at the time of contact detection, and the Before being detected by at least one of the detection disk light detection means and not being detected by both the contact detection light detection means and the non-detection disk light detection means, the disk passage light detection means and the disk passage contact detection means. The discriminating means is arranged so that at least one of the contact detection time light detection means and the non-detection disk light detection means detects the disk, and the contact detection time light detection means and the non-detection means. The disc type is discriminated based on the detection results of the disc passage contact detection unit and the disc passage light detection unit before both of the disc light detection units detect.
[0027]
With this configuration, the disc identification device according to the present invention is inserted into the disc insertion / extraction portion when the disc inserted into the disc insertion / extraction portion is the second disc that passes through the central portion in the width direction of the disc insertion / extraction portion. It is possible to identify that the recorded disc is the second disc that passes through the central portion in the width direction of the disc insertion / ejection portion.
[0028]
Further, the disc identification device of the present invention detects the disc that passes when light is blocked by the disc, and by the light detection means at the time of contact detection among the second disc that passes through the disc insertion / ejection unit. A non-detection disk light detection means as the light detection means disposed at a position for detecting at least a second disk that is not detected; and a disk passage contact detection means for detecting the disk that passes by the contact of the disk. The contact detection light detection means, the non-detection disk light detection means, the disk passage light detection means, and the disk passage contact detection means are the first disk, the small data area disk, and the disk insertion / ejection unit. The second disk that passes through one end in the width direction, and the other end in the width direction of the disk insertion / extraction part The second disk and the hollow disk are inserted into the disk insertion / extraction portion and detected by at least one of the contact detection light detection means and the non-detection disk light detection means, and the contact detection light is detected. Before being detected by both the detection means and the non-detection disk light detection means, it is detected by at least one of the disk passage light detection means and the disk passage contact detection means, and the center of the disk insertion / ejection part in the width direction is detected. The second disk passing through the section is inserted into the disk insertion / extraction section and detected by at least one of the contact detection time light detection means and the non-detection disk light detection means, and the contact detection time light detection means, Before being detected by both of the non-detection disk light detection means, the light detection means when passing the disk and the disk passage It is arranged at a position not detected by both of the contact detection means, and the identification means detects at least one of the light detection means at the time of contact detection and the non-detection disk light detection means, and detects the light at the time of contact detection, and The disc type is discriminated based on the detection result of the disc passage contact detection unit and the disc passage light detection unit before both the non-detection disc light detection units detect.
[0029]
With this configuration, the disc identification device according to the present invention is inserted into the disc insertion / extraction portion when the disc inserted into the disc insertion / extraction portion is the second disc that passes through the central portion in the width direction of the disc insertion / extraction portion. It is possible to identify that the recorded disc is the second disc that passes through the central portion in the width direction of the disc insertion / ejection portion.
[0030]
Further, the disc identification device of the present invention detects the disc that passes when light is blocked by the disc, and by the light detection means at the time of contact detection among the second disc that passes through the disc insertion / ejection unit. Non-detection disk light detection means as the light detection means disposed at a position at which at least a second disk that is not detected is detected, the contact detection light detection means, the non-detection disk light detection means, and the disk passage light detection And the disk passing contact detection means include the first disk, the small data area disk, the second disk passing through one end of the disk insertion / ejection part in the width direction, and the width of the disk insertion / ejection part. The second disk passing through the other end in the direction and the hollow disk are inserted into the disk insertion / extraction part, and the contact is made. Before the light detection means at detection and at least one of the non-detection disk light detection means are detected by both the contact detection time light detection means and the non-detection disk light detection means, the light detection means at the time of passing the disk and The second disk that is detected by at least one of the disk passage contact detection means and passes through the central portion in the width direction of the disk insertion / extraction part is inserted into the disk insertion / extraction part, and light detection at the time of contact detection is performed. And the non-detection disk light detection means before being detected by both the contact detection light detection means and the non-detection disk light detection means before being detected by the disk detection light detection means and the disk passage. Arranged at a position that is not detected by both of the contact detection means, and the identification means And at least one of the non-detection disk light detection means detects the disk and the contact detection means at the time of passage of the disk before both the light detection means at the time of contact detection and the non-detection disk light detection means stop detecting, and the The disc type is discriminated based on the detection result of the disc passage light detection means.
[0031]
With this configuration, the disc identification device according to the present invention is inserted into the disc insertion / extraction portion when the disc inserted into the disc insertion / extraction portion is the second disc that passes through the central portion in the width direction of the disc insertion / extraction portion. It is possible to identify that the recorded disc is the second disc that passes through the central portion in the width direction of the disc insertion / ejection portion.
[0032]
Further, the disc identification device of the present invention includes a disc-passing light detecting means as the light detecting means for detecting the disc passing when the light is blocked by the disc, and the disc passing through the contact of the disc. A disk passage contact detection means for detecting, the disk passage light detection means and the disk passage contact detection means, wherein the second disk passing through one end in the width direction of the disk insertion / extraction portion is When inserted into the disc insertion / extraction portion and first detected by the light detection means at the time of passing the disc, it is not detected by the contact detection means at the time of passing the disc, or not detected by the light detection means at the time of passing the disc. When the disc is inserted into the disc insertion / ejection portion and is first detected by the light detection means when the disc passes, The detection means is disposed at a position detected by the contact detection means when passing through the disc, and the identification means detects the detection result of the light detection means during contact detection when the contact detection means when passing through the end detects the disc, and the passage of the disc The time light detection means identifies the type of the disk based on the detection result of the contact detection means when the disk passes when the disk inserted into the disk insertion / ejection unit is first detected. .
[0033]
With this configuration, when the disc inserted into the disc insertion / extraction portion is a hollow disc, the disc identification device of the present invention can identify that the disc inserted into the disc insertion / extraction portion is a hollow disc.
[0034]
Also, the disc identification device of the present invention comprises a disc passage contact detection means for detecting the disc passing by contact of the disc, the disc passage light detection means and the disc passage contact detection means comprising the disc insertion means. When the second disk passing through one end portion in the width direction of the ejecting portion is inserted into the disc inserting and ejecting portion and first detected by the light detecting means during passage of the disc, the contact detecting means during passage of the disc is used. Not detected or not detected by the disc passage light detection means, and when the hollow disc is inserted into the disc insertion / extraction portion and first detected by the disc passage light detection means, It is arranged at a position detected by the contact detection means, and the identification means is used when the contact detection means at the end passage detects the disk. Based on the detection result of the light detection means at the time of contact detection and the detection result of the contact detection means at the time of passage of the disk when the light detection means at the time of passage of the disk first detects the disk inserted into the disk insertion / ejection unit. The disc has a configuration for identifying the type of the disc.
[0035]
With this configuration, when the disc inserted into the disc insertion / extraction portion is a hollow disc, the disc identification device of the present invention can identify that the disc inserted into the disc insertion / extraction portion is a hollow disc.
[0036]
In the disc identification device of the present invention, the disc passage light detection means and the disc passage contact detection means may be configured such that the second disc passing through one end of the disc insertion / extraction portion in the width direction is the disc insertion / extraction portion. The hollow disk is inserted into the discharge portion and is not detected by the contact detection means when the disk passes when it is first detected by the light detection means when the disk passes, or not detected by the light detection means when the disk passes. The disc is inserted into the disc insertion / extraction portion, and is firstly detected by the disc passage-time light detection means, and is detected by the disc passage-time contact detection portion, and the identification means passes the end portion. The detection result of the contact detection time light detection means when the contact detection means detects the disk, and the light detection means when the disk passes is in the disk insertion / extraction portion. On the basis of the detection result of said disc passage upon contact detecting means when detecting the disc to be input to the first, it has a structure that identifies the type of the disc.
[0037]
With this configuration, when the disc inserted into the disc insertion / extraction portion is a hollow disc, the disc identification device of the present invention can identify that the disc inserted into the disc insertion / extraction portion is a hollow disc.
[0038]
Further, in the disc identification device of the present invention, the light detection means is the first disc, the small data area disc, the second disc, and the second disc when detected by the contact detection means at the time of passing through the end, The disc is arranged at a position to detect the hollow disc, and the discriminating unit discriminates the type of the disc based on a detection result of the photodetecting unit when the end-passage contact detecting unit detects the disc. It has a configuration.
[0039]
With this configuration, when the disc inserted into the disc insertion / ejection unit is a transparent disc, the disc identification device of the present invention can identify that the disc inserted into the disc insertion / ejection unit is a transparent disc.
[0040]
Also, the disc identification device of the present invention has a configuration in which the diameter of the first disc is 12 cm and the diameter of the second disc is 8 cm.
[0041]
With this configuration, in the disc identification device of the present invention, the first disc is usually a 12 cm disc, the small data area disc is a small data area 12 cm disc, and the second disc is an 8 cm disc having a normal data area. (Hereinafter, usually referred to as an 8 cm disk), and the hollow disk has an outer diameter of 12 cm, and an adapter (hereinafter referred to as a 12 cm adapter) in which a hollow hole with an 8 cm diameter is formed to hold the 8 cm disk at the center. )), And the transparent disk can correspond to a configuration of a transparent 12 cm disk (hereinafter referred to as a transparent 12 cm disk) as a whole, and a small data area 12 cm disk can be identified in the same manner as a normal 12 cm disk. it can.
[0042]
Note that the disc identification device of the present invention handles a 12 cm adapter holding an 8 cm disc at the center in the same manner as a normal 12 cm disc.
[0043]
The disc insertion / ejection device according to the present invention includes a disc identification device, a conveyance unit that conveys and ejects the disc, and a disc insertion / ejection operation of the disc by the conveyance unit based on an identification result of the identification unit. And a control means for controlling.
[0044]
With this configuration, the disc insertion / ejection device of the present invention can insert the small data area disc inserted into the disc insertion / ejection unit in the same manner as the first disc.
[0045]
Also, the disc insertion / ejection device of the present invention includes a disc identification device, a conveyance means for conveying and ejecting the disc, and a light detection at the time of contact detection when the contact detection means at the time of end passage detection detects the disc. Control means for controlling the insertion / extraction operation of the disk by the conveying means so that the conveying means inserts the disk based on the identification result by the identifying means when the means detects the disk. have.
[0046]
With this configuration, the disc insertion / ejection device of the present invention can insert the small data area disc inserted into the disc insertion / ejection unit into the inside like the first disc.
[0047]
Also, the disc insertion / ejection device of the present invention includes a disc identification device, a conveyance means for conveying and ejecting the disc, and a light detection at the time of contact detection when the contact detection means at the time of end passage detection detects the disc. Control means for controlling the insertion / extraction operation of the disk by the conveying means so that the conveying means ejects the disk based on the identification result by the identifying means when the means does not detect the disk have.
[0048]
With this configuration, the disc insertion / extraction device of the present invention is a hollow disc or a transparent disc inserted into the disc insertion / extraction portion, or a second disc passing through one end of the disc insertion / extraction portion in the width direction, and a hollow disc Alternatively, the transparent disk can be discharged to the outside.
[0049]
The disc insertion / ejection device according to the present invention includes a disc identification device, a conveying unit that conveys and ejects the disc, and the disc into which the passing disc light detection unit is inserted into the disc insertion / ejection unit. When the light detection means at the time of contact detection does not detect the disk at the time of detection, the disk is inserted / extracted by the transport means so that the transport means ejects the disk based on the identification result by the identification means. And a control means for controlling.
[0050]
With this configuration, the disc insertion / ejection device of the present invention can eject the second disc that passes through one end in the width direction of the disc insertion / extraction portion to the outside.
[0051]
The disc insertion / ejection device according to the present invention includes a disc identification device, a conveyance unit that conveys and ejects the disc, and a disc that is inserted into the disc insertion / ejection unit when the disc passage light detection unit is inserted into the disc insertion / ejection unit first. When the passing disk light detecting means does not detect the disk when detecting, the disk inserting / ejecting operation of the disk by the conveying means so that the conveying means ejects the disk based on the identification result by the identifying means. And a control means for controlling.
[0052]
With this configuration, the disc insertion / ejection device of the present invention can eject the second disc passing through the other end in the width direction of the disc insertion / extraction portion to the outside.
[0053]
The disc insertion / ejection device according to the present invention includes a disc identification device, a conveyance unit that conveys and ejects the disc, and a disc that is inserted into the disc insertion / ejection unit when the disc passage light detection unit is inserted into the disc insertion / ejection unit first. If the contact detection means at the time of passing the disk does not detect the disk at the time of detection, the insertion / ejection of the disk by the conveyance means is caused to cause the conveyance means to eject the disk based on the identification result by the identification means. And a control means for controlling the operation.
[0054]
With this configuration, the disc insertion / ejection device of the present invention can eject the second disc passing through the other end in the width direction of the disc insertion / extraction portion to the outside.
[0055]
Also, the disc insertion / ejection device of the present invention includes a disc identification device, a conveyance unit that conveys and ejects the disc, and at least one of the contact detection time light detection unit and the non-detection disc light detection unit. If both the contact detection means when passing the disk and the light detection means when the disk passes do not detect the disk before both the detection light detection means and the non-detection disk light detection means detect And a control means for controlling the insertion / ejection operation of the disk by the transport means so that the transport means ejects the disk based on the identification result by the identification means.
[0056]
With this configuration, the disc insertion / ejection device of the present invention can eject the second disc passing through the central portion in the width direction of the disc insertion / extraction portion to the outside.
[0057]
The disc insertion / ejection device according to the present invention includes a disc identification device, a conveyance unit that conveys and ejects the disc, and a disc that is inserted into the disc insertion / ejection unit when the disc passage light detection unit is inserted into the disc insertion / ejection unit first. When the detection is detected by the contact detection means at the time of passing the disk, and the light detection means at the time of contact detection does not detect the disk when the contact detection means at the time of passing the end detects the disk, the identification is performed. And a control unit that controls an operation of inserting and ejecting the disk by the transport unit so that the transport unit ejects the disk based on an identification result by the unit.
[0058]
With this configuration, the disc insertion / ejection device of the present invention can eject the hollow disc inserted into the disc insertion / extraction portion to the outside.
[0059]
The disc insertion / ejection device according to the present invention includes a disc identification device, a conveyance unit that conveys and ejects the disc, and a light detection unit that detects the disc when the end passage contact detection unit detects the disc. And a control means for controlling the insertion / ejection operation of the disk by the transport means so that the transport means ejects the disk based on the identification result by the identification means when the disk is not detected. is doing.
[0060]
With this configuration, the disc insertion / ejection device of the present invention can eject the transparent disc inserted into the disc insertion / ejection unit to the outside.
[0061]
The disc insertion / ejection device according to the present invention includes a disc identification device, a conveying unit that conveys and ejects the disc, and the disc into which the passing disc light detection unit is inserted into the disc insertion / ejection unit. When the light detection means at the time of contact detection does not detect the disk at the time of detection, based on the identification result by the identification means, the disk is inserted and ejected by the transport means so that the transport means inserts the disk. And a control means for controlling.
[0062]
With this configuration, the disc insertion / ejection device of the present invention can insert the second disc that passes through one end of the disc insertion / extraction portion in the width direction.
[0063]
The disc insertion / ejection device according to the present invention includes a disc identification device, a conveyance unit that conveys and ejects the disc, and a disc that is inserted into the disc insertion / ejection unit when the disc passage light detection unit is inserted into the disc insertion / ejection unit first. When the passing disk light detecting means does not detect the disk when detecting, the disk inserting / ejecting operation of the disk by the conveying means to cause the conveying means to insert the disk based on the identification result by the identifying means And a control means for controlling.
[0064]
With this configuration, the disc insertion / ejection device of the present invention can insert the second disc passing through the other end in the width direction of the disc insertion / extraction portion.
[0065]
The disc insertion / ejection device according to the present invention includes a disc identification device, a conveyance unit that conveys and ejects the disc, and a disc that is inserted into the disc insertion / ejection unit when the disc passage light detection unit is inserted into the disc insertion / ejection unit first. If the contact detection means at the time of passing the disk does not detect the disk at the time of detection, the insertion / extraction of the disk by the conveyance means is caused to cause the conveyance means to insert the disk based on the identification result by the identification means. And a control means for controlling the operation.
[0066]
With this configuration, the disc insertion / ejection device of the present invention can insert the second disc passing through the other end portion in the width direction of the disc insertion / extraction portion.
[0067]
Also, the disc insertion / ejection device of the present invention includes a disc identification device, a conveyance unit that conveys and ejects the disc, and at least one of the contact detection time light detection unit and the non-detection disc light detection unit. If both the contact detection means when passing the disk and the light detection means when the disk passes do not detect the disk before both the detection light detection means and the non-detection disk light detection means detect And a control means for controlling the insertion / extraction operation of the disk by the conveying means so that the disk is inserted into the conveying means based on the identification result by the identifying means.
[0068]
With this configuration, the disc insertion / ejection device of the present invention can insert the second disc passing through the central portion in the width direction of the disc insertion / extraction portion.
[0069]
Further, the disc insertion / ejection device of the present invention includes a disc identification device, a conveyance means arranged downstream of the contact detection light detection means in the insertion direction of the disc, and conveys the disc for insertion / extraction, and the contact detection And a control unit that controls an operation of inserting the disc by the transport unit based on a detection result of the hour light detection unit.
[0070]
With this configuration, the disc insertion / ejection device of the present invention allows the disc detected by the light detection means at the time of contact detection to be inserted into the disc before being manually inserted more than half downstream from the conveyance means in the insertion direction while contacting the conveyance means. Insertion can be started by the conveying means, and the operational feeling can be improved.
[0071]
In the disc insertion / extraction device of the present invention, the light detection means at the time of contact detection is inserted into the disc insertion / extraction portion, and the second disc passing through the other end in the width direction of the disc insertion / extraction portion is Prior to contact with the conveying means, the second disk is arranged at a position for detection.
[0072]
With this configuration, the disc insertion / ejection device according to the present invention drives the transport unit before the second disc passing through the other end portion in the width direction of the disc insertion / ejection unit contacts the transport unit, so that the second disc Since the disk is manually inserted up to the transport means and comes into contact with the transport means, the second disk can be started to be inserted by the transport means, and the operational feeling can be improved.
[0073]
The disc insertion / ejection device according to the present invention includes a disc identification device, a conveyance means arranged downstream of the non-detection disc light detection means in the insertion direction of the disc, and conveys and inserts the disc. And a control means for controlling the insertion operation of the disk by the transport means based on the detection result of the detection disk light detection means.
[0074]
With this configuration, the disc insertion / ejection device according to the present invention allows the disc detected by the non-detection disc light detection means to be in contact with the transport means before the disc is manually inserted more than half downstream from the transport means in the insertion direction. Can be started to be inserted by the conveying means, and the operational feeling can be improved.
[0075]
In the disc insertion / ejection device according to the present invention, the non-detection disc light detection means removes the first disc before the first disc inserted into the disc insertion / ejection section contacts the conveyance means. It has the structure arrange | positioned in the position to detect.
[0076]
With this configuration, the disc insertion / ejection device of the present invention is configured so that the first disc inserted into the disc insertion / ejection unit or the hollow disc having substantially the same outer diameter as the first disc contacts the conveying means. When the conveying means is driven and the first disk or hollow disk is manually inserted into the conveying means and comes into contact with the conveying means, the first disk or the hollow disk can be started to be inserted by the conveying means. Feeling can be improved.
[0077]
In the disc insertion / ejection device according to the present invention, the non-detection disc light detection means is inserted into the disc insertion / extraction portion, and the second disc passing through a central portion in the width direction of the disc insertion / extraction portion is Prior to contact with the conveying means, the second disk is arranged at a position for detection.
[0078]
With this configuration, the disc insertion / ejection device according to the present invention drives the transport unit before the second disc passing through the central portion in the width direction of the disc insertion / ejection unit contacts the transport unit, so that the second disc The second disk can be started to be inserted by the conveying means from the point of time when it is manually inserted to the conveying means and comes into contact with the conveying means, and the operational feeling can be improved.
[0079]
In the disc insertion / ejection device of the present invention, the non-detection disc light detection means is inserted into the disc insertion / extraction portion, and the second disc passing through one end in the width direction of the disc insertion / extraction portion is Prior to contact with the conveying means, the second disk is arranged at a position for detection.
[0080]
With this configuration, the disc insertion / ejection device according to the present invention drives the conveying means before the second disc passing through one end in the width direction of the disc insertion / ejection portion contacts the conveying means, so that the second disc The second disk can be started to be inserted by the conveying means from the point of time when it is manually inserted to the conveying means and comes into contact with the conveying means, and the operational feeling can be improved.
[0081]
Also, the disc insertion / ejection device of the present invention includes a disc identification device, a conveyance means arranged downstream of the disc passage contact detection means in the insertion direction of the disc, and conveys and inserts and removes the disc, and the disc And a control means for controlling the insertion operation of the disk by the transport means based on the detection result of the passage contact detection means.
[0082]
With this configuration, the disk insertion / ejection device according to the present invention allows the disk detected by the contact detection means at the time of passing the disk to be manually inserted more than half of the disk downstream of the conveyance means while being in contact with the conveyance means. Can be started to be inserted by the conveying means, and the operational feeling can be improved.
[0083]
Further, the disc insertion / ejection device of the present invention is disposed downstream of the disc identification device, the end-passage contact detection means and the contact detection light detection means in the insertion direction of the disc, and conveys and inserts the disc. The disc by the transport unit based on the identification result by the discrimination unit based on the detection result of the light detection unit at the time of contact detection when the contact detection unit at the time of end passage detection detects the disc It has the structure provided with the control means which controls this insertion / extraction operation | movement.
[0084]
With this configuration, the disc insertion / ejection device of the present invention determines whether the disc is inserted inside or ejected outside before the disc is inserted more than half downstream in the insertion direction from the conveying means. The insertion or ejection can be started by the conveying means, and the operational feeling can be improved.
[0085]
The disc insertion / ejection device of the present invention is disposed at a position where the disc identification device and the disc are discriminated by the discriminating means before the disc is inserted and ejected and contact with the disc being inserted is released. And a control means for controlling the insertion / extraction operation of the disk by the conveyance means based on the identification result by the identification means.
[0086]
With this configuration, the disc insertion / ejection device of the present invention determines whether the disc is inserted into the inside or discharged outside while the disc is in contact with the carrying means, and is inserted or removed by the carrying means. The disc can be ejected, and the disc to be ejected can be prevented from being erroneously inserted.
[0087]
The disc insertion / ejection device according to the present invention includes a disc identification device, a conveyance unit that conveys and ejects the disc, and an ejection of the disc by the conveyance unit based on a detection result of the passing disc light detection unit. And a control means for controlling the operation, wherein the passing disk light detecting means detects the first disk when the first disk is ejected from the disk insertion / ejection section, and then contacts the transport means. The first disk is arranged at a position where the first disk is not detected.
[0088]
With this configuration, the disc insertion / ejection device of the present invention is configured such that the first disc being ejected to the outside or the hollow disc having substantially the same outer diameter as the first disc is in contact with the conveying means. The discharge of the first disk or the hollow disk by the conveying means can be stopped, and the first disk or the hollow disk discharged to the outside can be prevented from dropping from the apparatus.
[0089]
The disc insertion / ejection device according to the present invention includes a disc identification device, a conveyance unit that conveys and ejects the disc, and an ejection of the disc by the conveyance unit based on a detection result of the passing disc light detection unit. Control means for controlling the operation, the passing disk light detection means detects the small data area disk when the small data area disk is ejected from the disk insertion / ejection unit, and then contacts the transport means It has a configuration in which the small data area disk is not detected.
[0090]
With this configuration, the disc insertion / ejection device of the present invention can stop the ejection of the small data area disk by the transport means while the small data area disk being ejected to the outside is in contact with the transport means. It is possible to prevent the small data area disk ejected from being dropped from the apparatus.
[0091]
The disc insertion / ejection device according to the present invention includes a disc identification device, a conveyance unit that conveys and ejects the disc, and an ejection of the disc by the conveyance unit based on a detection result of the passing disc light detection unit. Control means for controlling the operation, the passing disk light detection means, when the second disk passing through the central portion in the width direction of the disk insertion / ejection part is ejected from the disk insertion / ejection part, After detecting a 2nd disc, it has the structure arrange | positioned in the position which stops detecting the said 2nd disc in contact with the said conveyance means.
[0092]
With this configuration, the disc insertion / ejection device according to the present invention is configured so that the second disc passing through the central portion in the width direction of the disc insertion / ejection portion being ejected to the outside is in contact with the conveyance means. 2 can be stopped, and the second disk to be discharged outside can be prevented from dropping from the apparatus.
[0093]
The disc insertion / ejection device according to the present invention includes a disc identification device, a conveyance unit that conveys and ejects the disc, and an ejection of the disc by the conveyance unit based on a detection result of the passing disc light detection unit. Control means for controlling the operation, the passing disk light detection means, when the second disk passing through one end portion in the width direction of the disk insertion / ejection part is ejected from the disk insertion / ejection part, After detecting a 2nd disc, it has the structure arrange | positioned in the position which stops detecting the said 2nd disc in contact with the said conveyance means.
[0094]
With this configuration, the disc insertion / ejection device of the present invention is configured so that the second disc passing through one end portion in the width direction of the disc insertion / ejection portion being ejected to the outside is in contact with the conveyance means. 2 can be stopped, and the second disk to be discharged outside can be prevented from dropping from the apparatus.
[0095]
The disc insertion / ejection device according to the present invention includes a disc identification device, a conveyance unit that conveys and ejects the disc, and an ejection of the disc by the conveyance unit based on the detection result of the light detection unit when the disc passes. Control means for controlling the operation, and when the disc passing light detection means is ejected from the disc insertion / ejection portion, the second disc passing through the other end portion in the width direction of the disc insertion / ejection portion, After the second disk is detected, the second disk that is in contact with the transporting means is disposed at a position where it is not detected.
[0096]
With this configuration, the disk insertion / ejection device according to the present invention is configured so that the second disk passing the other end in the width direction of the disk insertion / ejection part being ejected to the outside is in contact with the conveyance means. The ejection of the second disk can be stopped, and the second disk ejected to the outside can be prevented from falling from the apparatus.
[0097]
The disc insertion / ejection device according to the present invention includes a disc identification device, a conveyance unit that conveys and ejects the disc, and a detection result of the contact detection unit when the disc passes, based on the detection result of the disc by the conveyance unit. A control means for controlling the ejecting operation, and the contact detecting means at the time of passing the disc has a substantially same outer diameter as the first disc, and a transparent disc that is entirely transparent is ejected from the disc insertion / ejection portion. In some cases, after the transparent disk is detected, the transparent disk in contact with the conveying means is not detected.
[0098]
With this configuration, the disk insertion / ejection device of the present invention can stop the discharge of the transparent disk by the transporting unit while the transparent disk being discharged to the outside is in contact with the transporting unit, and the transparent discharge to the outside It is possible to prevent the disk from dropping from the apparatus.
[0099]
The disc insertion / ejection device according to the present invention includes a disc identification device, a conveyance unit that conveys and ejects the disc, and a disc insertion / ejection operation of the disc by the conveyance unit based on an identification result of the identification unit. Control means for controlling, when the disc is inserted into the transport means, and when the end-passage contact detection means detects the disc a plurality of times, the disc by the transport means The insertion operation is stopped.
[0100]
With this configuration, the disc insertion / ejection device of the present invention stops the conveyance of the disc when a plurality of discs are inserted therein by a single insertion operation. It is possible to prevent the disk from being inserted and to prevent failure.
[0101]
The disc insertion / ejection device according to the present invention includes a disc identification device, a conveyance unit that conveys and ejects the disc, and a disc insertion / ejection operation of the disc by the conveyance unit based on an identification result of the identification unit. Control means for controlling, and when the disc is inserted into the transport means, the control means detects the disc a plurality of times when the end passage contact detection means detects the disc a plurality of times. It has the structure which discharges.
[0102]
With this configuration, the disc insertion / ejection device of the present invention ejects the disc to the outside when a plurality of discs are inserted inside by a single insertion operation. It is possible to prevent the disk from being inserted and to prevent failure.
[0103]
Further, the disc insertion / extraction device of the present invention has a configuration in which a restricting portion that restricts passage of the plurality of discs overlapped by contacting with the disc is provided inside the disc insertion / extraction portion. .
[0104]
With this configuration, the disc insertion / ejection device of the present invention can prevent a plurality of discs from being inserted therein by a single insertion operation, and can prevent failure.
[0105]
Further, the disc insertion / ejection device of the present invention includes a limiting unit that restricts movement of the conveyance unit in the thickness direction of the disc passing through the disc insertion / extraction portion by contacting the conveyance unit. Have.
[0106]
With this configuration, the disc insertion / ejection device of the present invention can prevent a plurality of discs from being inserted therein by a single insertion operation, and can prevent failure.
[0107]
In the disc insertion / ejection device of the present invention, the control unit causes the conveyance unit to eject the disc after a predetermined time has elapsed since the insertion of the disc by the conveyance unit.
[0108]
With this configuration, the disc insertion / ejection device of the present invention can eject the disc to the outside when a plurality of discs are inserted therein by a single insertion operation.
[0109]
The disk insertion / extraction apparatus of the present invention has a configuration in which the diameter of the first disk is 12 cm and the diameter of the second disk is 8 cm.
[0110]
With this configuration, in the disk insertion / extraction apparatus of the present invention, the first disk is usually a 12 cm disk, the small data area disk is a small data area 12 cm disk, the second disk is usually an 8 cm disk, and the hollow disk Is a 12 cm adapter, and the transparent disk is a transparent 12 cm disk. A small data area 12 cm disk can be inserted in the same manner as a normal 12 cm disk.
[0111]
Note that the disc insertion / extraction device of the present invention handles a 12 cm adapter holding an 8 cm disc at the center in the same manner as a normal 12 cm disc.
[0112]
The disc recording / reproducing apparatus of the present invention has a configuration including a disc insertion / extraction device.
[0113]
With this configuration, the disc recording / reproducing apparatus of the present invention can insert and record / reproduce a small data area disc (eg, a small data area 12 cm disc) in the same manner as the first disc (eg, a normal 12 cm disc). .
[0114]
Further, the disc recording / reproducing apparatus of the present invention comprises: a rotating unit that rotates the disc; and a rotational force control unit that controls the rotational force of the rotating unit based on the outer diameter of the disc identified by the identifying unit. It has the composition provided with.
[0115]
With this configuration, the disc recording / reproducing apparatus of the present invention can distinguish between the second disc (for example, an ordinary 8 cm disc) and the small data area disc (for example, the small data area 12 cm disc), and the second disc The second disk and the small data area disk can be rotated at the same rotational speed by applying different rotational forces to the disk and the small data area disk depending on the weight of the disk.
[0116]
DETAILED DESCRIPTION OF THE INVENTION
Hereinafter, an embodiment of the present invention will be described with reference to the drawings.
[0117]
First, the configuration of the disc recording / reproducing apparatus according to the present embodiment will be described.
[0118]
1 and 2, the disc recording / reproducing apparatus according to the present embodiment includes a base 101, and the base 101 has a passing direction of a disc such as a normal 12 cm disc 107 inserted therein (that is, loading). By restricting the movement in the width direction (direction indicated by the arrow 201) substantially perpendicular to the direction and the eject direction), contacting the disk guide member 102 forming the insertion path and the inserted disk, and transmitting the power, Roller member 103 as a transport means for transporting the disk, and inserting (loading) and ejecting (ejecting) the disk, and urging the roller member 103 downward (in the direction indicated by arrow 202) with respect to the inserted disk Engaged with an elastic member (not shown) or a gear 103a provided on the roller member 103 to rotate the roller member 103. Power source to (not shown.) Is provided.
[0119]
Here, the disc guide member 102 and the roller member 103 sandwich the disc inserted in the disc recording / reproducing apparatus and transport it in the loading direction or the ejecting direction. A drainage portion 100 is formed. The disc insertion / ejection unit 100 is a normal 12 cm disc (first disc) having a light-shielding data area, or a normal 8 cm disc (first disc) having an outer diameter smaller than that of a normal 12 cm disc and having a light-shielding data area. The width is usually approximately the same length (about 12 cm) as the outer diameter of the 12 cm disc so that a disc such as 2 discs) can pass through.
[0120]
Further, inside the disc insertion / ejection unit 100, the disc guide member 102 comes into contact with the disc to be inserted, thereby restricting the thickness direction of the disc to be inserted and restricting passage of a plurality of overlapping discs. Protrusions 102a and 102b as restricting portions are provided to prevent simultaneous insertion of a plurality of discs into the disc recording / reproducing apparatus. More specifically, when one disc is inserted into the disc recording / reproducing apparatus, the inserted disc can pass between the main body 102c of the disc guide member 102 and the protrusions 102a, 102b. When a plurality of discs are inserted, the inserted discs cannot pass between the main body 102c of the disc guide member 102 and the projections 102a and 102b.
[0121]
Further, the base 101 comes into contact with a shaft member 103b provided at the center of the roller member 103, so that the roller member 103 passes in the disc insertion / ejection unit 100 in the disc thickness direction (the direction indicated by the arrow 203). Protrusions 101a as restricting means for restricting movement and protrusions 101b for restricting displacement in the upward direction of protrusion 102b (in the direction indicated by arrow 203) are provided, and a plurality of protrusions 101b inside the disk recording / reproducing apparatus are provided. It is designed to prevent simultaneous insertion of two discs. More specifically, when one disc is inserted into the disc recording / reproducing apparatus, the inserted disc can pass between the disc guide member 102 and the roller member 103. Is inserted, the protrusion 101a of the base 101 and the shaft member 103b of the roller member 103 come into contact with each other so that the inserted disk cannot pass between the disk guide member 102 and the roller member 103. It has become.
[0122]
In addition, the disc recording / reproducing apparatus includes a housing (not shown), and the disc is inserted into the disc recording / reproducing device on the roller member 103 side with respect to the disc guide member 102. The lever member 104 having a shaft portion 104a that comes into contact with the outer periphery of the disk when contacted, the plurality of light receiving elements 105a, 105b, 105c, and 105d and the protrusion 104b provided on the lever member 104 are brought into contact with the lever member 104. An upper substrate (not shown) provided with push switches 106a and 106b for detecting the displacement of 104, and an elastic member (not shown) for biasing the lever member 104 to the position shown in FIG. Is not provided.)
[0123]
The light receiving elements 105a, 105b, 105c, and 105d and the push switches 106a and 106b output Hi when the disk is detected, and output Lo when the disk is not detected. It has become.
[0124]
Further, a lower substrate (not shown) provided with a plurality of light emitting elements (not shown) paired with the light receiving elements 105a, 105b, 105c, and 105d between the base 101 and the disk guide member 102. ) Is provided.
[0125]
Here, the shaft portion 104 a of the lever member 104 is arranged upstream of the roller member 103 in the disc insertion (loading) direction, and the push switch 106 a is arranged so that the outer periphery of the inserted disc and the shaft portion 104 a of the lever member 104 are arranged. Is provided at a position where the displacement of the lever member 104 is detected immediately after the lever member 104 starts to move in the left direction (the direction indicated by the arrow 204).
[0126]
The push switch 106b is provided at a position for detecting the maximum displacement in the direction indicated by the arrow 204 of the lever member 104 when the outer periphery of the inserted normal 12cm disc 107 and the shaft portion 104a of the lever member 104 contact each other. The lever member 104 and the push switch 106b constitute an end portion contact detection means for detecting a disc that passes through one end portion 100a in the width direction of the disc insertion / ejection portion 100 by contact with the disc.
[0127]
That is, the push switch 106b is a small data area as a normal 12cm disc 107 that passes through the disc insertion / extraction unit 100 as shown in FIG. 3 or a small data area disc that passes through the disc insertion / extraction unit 100 as shown in FIG. As a 12 cm disc 108, a normal 8 cm disc 109 that passes through one end 100a in the width direction of the disc insertion / extraction portion 100 as shown in FIG. 5, or a hollow disc that passes through the disc insertion / extraction portion 100 as shown in FIG. A 12 cm adapter 110 and a transparent 12 cm disk 111 as a transparent disk passing through the disk insertion / ejection unit 100 as shown in FIG. 7 are detected. In FIGS. 3 to 6, the hatched portion of the disk represents a light-shielding portion such as a data area.
[0128]
In addition, the light receiving element 105b detects a passing disc by blocking light from the disc, and when the small data area 12cm disc 108 is detected by the push switch 106b as shown in FIG. 4, the small data area 12cm. When the disk 108 is detected and the normal 8 cm disk 109 passing through one end 100a in the width direction of the disk insertion / extraction part 100 is detected by the push switch 106b as shown in FIG. 5, the normal 8cm disk 109 is not detected. As shown in FIG. 6, when the 12 cm adapter 110 is detected by the push switch 106b, the 12 cm adapter 110 is disposed at a position where the 12 cm adapter 110 is not detected, and constitutes a light detection means at the time of contact detection as a light detection means.
[0129]
Since the normal 12 cm disc 107 (see FIG. 3) has a data area wider than the data area 108a (see FIG. 4) of the small data area 12 cm disc 108 (see FIG. 4), the light receiving element 105b is shown in FIG. When the small data area 12 cm disc 108 is detected by the push switch 106 b as shown in FIG. 4, when the small data area 12 cm disc 108 is arranged at a position where the small data area 12 cm disc 108 is detected, the normal 12 cm disc 107 is pushed as shown in FIG. 3. When detected by the switch 106b, the 12cm disk 107 is normally detected.
[0130]
Since the transparent 12 cm disk 111 shown in FIG. 7 is entirely transparent, the light receiving element 105 b detects the normal 12 cm disk 107 when the normal 12 cm disk 107 is detected by the push switch 106 b as shown in FIG. When the transparent 12 cm disk 111 is detected by the push switch 106b as shown in FIG. 7, the transparent 12 cm disk 111 is not detected.
[0131]
The push switch 106b is the maximum in the direction indicated by the arrow 204 (see FIG. 1) of the lever member 104 when the outer periphery of the inserted normal 12cm disc 107 (see FIG. 3) and the shaft portion 104a of the lever member 104 contact each other. When provided at a position where displacement is detected, a normal 8 cm disc 109 passing through the central portion 100b in the width direction of the disc insertion / extraction portion 100 as shown in FIG. 8 or a disc insertion / extraction portion 100 as shown in FIG. The normal 8 cm disc 109 passing through the other end portion 100c in the width direction is not detected.
[0132]
The light receiving element 105c constitutes a passing disk light detecting means as a light detecting means for detecting a disk that passes when light is blocked by the disk. The light receiving element 105b and the light receiving element 105c are shown in FIG. As shown in FIG. 12, when the normal 12 cm disc 107, the small data area 12 cm disc 108, and the 12 cm adapter 110 are inserted into the disc insertion / ejection unit 100 and first detected by the light receiving device 105c, the light receiving device 105b. As shown in FIG. 13, a normal 8 cm disc 109 passing through one end 100a in the width direction of the disc insertion / extraction portion 100 is inserted into the disc insertion / extraction portion 100, and is first detected by the light receiving element 105c. Sometimes it is arranged at a position where it is not detected by the light receiving element 105b.
[0133]
Note that the normal 8 cm disc 109 passing through the central portion 100b in the width direction of the disc insertion / extraction section 100 shown in FIG. 8 is the same as the data area 108b of the small data area 12 cm disc 108 passing through the disc insertion / extraction section 100 shown in FIG. Since the trajectories are substantially the same, as shown in FIG. 8, the normal 8 cm disc 109 passing through the central portion 100b in the width direction of the disc insertion / extraction portion 100 is also similar to the small data area 12 cm disc 108 (see FIG. 11). When the light receiving element 105c is first inserted into the disc insertion / ejection unit 100, it is detected by the light receiving element 105b.
[0134]
Further, since the transparent 12 cm disc 111 is transparent, it is not detected by the light receiving element 105c.
[0135]
Further, the light receiving element 105d constitutes a disk passage light detecting means as a light detecting means for detecting a disk that passes when light is blocked by the disk. The light receiving element 105d and the light receiving element 105c are shown in FIG. As shown in FIG. 15, when the 12 cm disc 107 and the 12 cm adapter 110 are normally inserted into the disc insertion / ejection unit 100 and first detected by the light receiving device 105d, they are detected by the light receiving device 105c. As shown in FIG. 8, a small data area 12 cm disc 108, a normal 8 cm disc 109 passing through one end portion 100 a in the width direction of the disc insertion / extraction portion 100, and a center portion 100 b in the width direction of the disc insertion / extraction portion 100 are arranged. The normal 8 cm disk 109 passing through is not detected by the light receiving element 105d, and the disk as shown in FIG. A normal 8 cm disc 109 passing through the other end portion 100c in the width direction of the ejecting portion 100 is inserted into the disc inserting / extracting portion 100 and arranged at a position where it is not detected by the light receiving element 105c when it is first detected by the light receiving element 105d. Has been.
[0136]
Since the transparent 12 cm disk 111 is transparent, it is not detected by the light receiving element 105d.
[0137]
Further, the lever member 104 and the push switch 106a constitute a disc passage contact detection means for detecting a disc passing through contact with the disc. The shaft portion 104a and the light receiving element 105d of the lever member 104 are configured as shown in FIG. As shown in FIG. 15, when the 12 cm disc 107 and the 12 cm adapter 110 are normally inserted into the disc insertion / ejection unit 100 and first detected by the light receiving element 105d, they are detected by the push switch 106a. As shown in FIG. 8, a small data area 12 cm disc 108, a normal 8 cm disc 109 passing through one end portion 100 a in the width direction of the disc insertion / extraction portion 100, and a center portion 100 b in the width direction of the disc insertion / extraction portion 100 are arranged. The normal 8 cm disk 109 passing through is not detected by the light receiving element 105d, As shown in FIG. 4, when a normal 8 cm disc 109 passing through the other end portion 100c in the width direction of the disc insertion / ejection portion 100 is inserted into the disc insertion / ejection portion 100 and first detected by the light receiving element 105d, a push switch It is arranged at a position not detected by 106a.
[0138]
Since the transparent 12 cm disk 111 is transparent, it is not detected by the light receiving element 105d as described above.
[0139]
In addition, the light receiving element 105a detects a disk that passes when light is blocked by the disk, and the normal 8 cm disk 109 that passes through the disk insertion / extraction unit 100 is not detected by the light receiving element 105b as shown in FIG. The non-detection disk light detection means is configured as a light detection means disposed at least at a position where the 8 cm disk 109 is detected. The shaft portion 104a of the lever member 104, the light receiving element 105a, the light receiving element 105b, and the light receiving element 105d. 3, 4, 5, 6, and 9, the normal 12 cm disk 107, the small data area 12 cm disk 108, and the disk insertion / extraction portion 100 passing through one end portion 100 a in the width direction are usually 8 cm. The other end in the width direction of the disk 109, the 12cm adapter 110, and the disk insertion / extraction part 100 Before the normal 8 cm disc 109 passing through 100c is inserted into the disc insertion / extraction section 100, detected by at least one of the light receiving element 105a and the light receiving element 105b, and not detected by both the light receiving element 105a and the light receiving element 105b. The normal 8 cm disc 109 detected by at least one of the light receiving element 105d and the push switch 106a and passing through the central portion 100b in the width direction of the disc insertion / extraction portion 100 is inserted into the disc insertion / extraction portion 100 as shown in FIG. Thus, before being detected by at least one of the light receiving element 105a and the light receiving element 105b and not being detected by both the light receiving element 105a and the light receiving element 105b, the light receiving element 105d and the push switch 106a are not detected by both. ing.
[0140]
Since the transparent 12 cm disk 111 is transparent, it is not detected by the light receiving element 105a and the light receiving element 105b.
[0141]
Further, as shown in FIGS. 3 to 6, the light detection means, that is, the light receiving elements 105a, 105b, 105c, and 105d, are normally 12cm disc 107 and small data area 12cm disc 108 when detected by the push switch 106b. Usually, the 8 cm disc 109 and the 12 cm adapter 110 are arranged at positions where any one of the light receiving elements 105a, 105b, 105c, and 105d detects.
[0142]
The light receiving element 105a is upstream of the roller member 103 in the disc insertion direction, and is a normal 12 cm disc 107 (see FIG. 3) inserted into the disc insertion / extraction portion 100, and one end portion in the width direction of the disc insertion / extraction portion 100. Before the normal 8 cm disc 109 (see FIG. 5) passing through 100 a and the normal 8 cm disc 109 (see FIG. 8) passing through the central portion 100 b in the width direction of the disc insertion / extraction portion 100 come into contact with the roller member 103, A normal 12 cm disc 107 (see FIG. 3), a normal 8 cm disc 109 (see FIG. 5) that passes through one end 100a in the width direction of the disc insertion / extraction portion 100, and a central portion 100b in the width direction of the disc insertion / extraction portion 100 It is arranged at a position to detect a normal 8 cm disk 109 (see FIG. 8) that passes.
[0143]
Since the 12 cm adapter 110 (see FIG. 6) is generally the same in outer diameter as the 12 cm disk 107 (see FIG. 3), the light receiving element 105a is inserted into the disc insertion / extraction section 100 as shown in FIG. When the normal 12 cm disc 107 is disposed at a position where the normal 12 cm disc 107 is detected before contacting the roller member 103, as shown in FIG. 6, a 12 cm adapter 110 inserted into the disc insertion / ejection unit 100 is used. Before the contact with the roller member 103, the 12 cm adapter 110 is detected.
[0144]
Further, as shown in FIG. 9, the light receiving element 105 b is located upstream of the roller member 103 in the disc insertion direction, is inserted into the disc insertion / ejection portion 100, and the other end portion 100 c in the width direction of the disc insertion / ejection portion 100 is inserted. Before the normal 8 cm disk 109 passing through contacts with the roller member 103, the normal 8 cm disk 109 is disposed at a position to detect the normal 8 cm disk 109.
[0145]
Further, as shown in FIGS. 8, 10, 11 and 13, the light receiving element 105c includes a normal 8cm disk 109, a normal 12cm disk 107, and small data passing through the central portion 100b in the width direction of the disk insertion / ejection unit 100. When the normal 8 cm disc 109 passing through the area 12 cm disc 108 and the width direction one end portion 100 a of the disc insertion / ejection portion 100 is ejected from the disc insertion / ejection portion 100, the central portion 100 b in the width direction of the disc insertion / ejection portion 100. After detecting the normal 8 cm disk 109 passing through the disk, the normal 12 cm disk 107, the small data area 12 cm disk 108, and the normal 8 cm disk 109 passing through one end 100 a in the width direction of the disk insertion / ejection unit 100, the roller member 103 It passes through the central portion 100b in the width direction of the disc insertion / extraction portion 100 in contact. Normal 8cm disc 109, usually 12cm disc 107, the small data area 12cm disc 108 and are arranged to not detect the position normally 8cm disc 109 which passes through the width direction of the one end portion 100a of the disc insertion-ejection section 100.
[0146]
Since the 12 cm adapter 110 (see FIG. 12) has substantially the same outer diameter as that of the normal 12 cm disk 107 (see FIG. 10), the light receiving element 105c has the normal 12 cm disk 107 inserted into the disk as shown in FIG. When the normal 12 cm disk 107 is detected after being discharged from the discharge unit 100, when the normal 12 cm disk 107 in contact with the roller member 103 is not detected, as shown in FIG. When the 110 is ejected from the disc insertion / ejection unit 100, the 12cm adapter 110 in contact with the roller member 103 is not detected after the 12cm adapter 110 is detected.
[0147]
Further, as shown in FIG. 9, when the normal 8 cm disc 109 passing through the other end portion 100 c in the width direction of the disc insertion / extraction portion 100 is ejected from the disc insertion / extraction portion 100, the light receiving element 105 d After detecting this, the normal 8 cm disc 109 that is in contact with the roller member 103 is not detected.
[0148]
Further, as shown in FIG. 16, the shaft 104a of the lever member 104 has a roller member 103 after the push switch 106a detects the transparent 12cm disc 111 when the transparent 12cm disc 111 is ejected from the disc insertion / ejection portion 100. The transparent 12 cm disk 111 that is in contact with the disk is not detected.
[0149]
The disk guide member 102, the roller member 103, a plurality of light receiving elements 105a, 105b, 105c, 105d, a plurality of light emitting elements paired with the light receiving elements 105a, 105b, 105c, 105d, a lever member 104, The push switches 106a and 106b and a control device (not shown) constitute a disk identification device and a disk insertion / ejection device. Here, the control device recognizes the disc type that passes through the disc insertion / ejection unit 100 based on the outputs from the light receiving elements 105a, 105b, 105c, 105d and the push switches 106a, 106b, and the discriminating unit. On the basis of the identification result, a control means for controlling the disk insertion / extraction operation by the roller member 103 is configured.
[0150]
The roller member 103 is arranged at a position where the disc identification by the control device is completed before the contact with the disc being inserted is released.
[0151]
Next, the operation of the disc recording / reproducing apparatus according to the present embodiment will be described. In the following description, the disc recording / reproducing apparatus transports the normal 12 cm disc 107, the small data area 12 cm disc 108, and the 12 cm adapter 110 holding the normal 8 cm disc 109 in the center to the loading completion position. The operation for forcibly ejecting the adapter 110, the 8 cm disc 109, and the transparent 12 cm disc 111 will be described.
(1) Operation for a normal 12 cm disc 107
[0152]
First, the operation of the disc recording / reproducing apparatus for the normal 12 cm disc 107 will be described. In the disc recording / reproducing apparatus according to the present embodiment, the 12 cm adapter 110 that normally holds the 8 cm disc 109 at the center is handled in the same manner as the normal 12 cm disc 107, and therefore the 12 cm adapter 110 that holds the 8 cm disc 109 at the center. The description of the operation of the disk recording / reproducing apparatus will be omitted.
[0153]
Normally, when a 12 cm disc 107 is inserted into the disc insertion / ejection unit 100 of the disc recording / reproducing apparatus by the user, the light receiving element 105a is located upstream of the roller member 103 in the disc insertion direction, as described above. Since the normal 12 cm disc 107 inserted into the discharge unit 100 is disposed at a position to detect the normal 12 cm disc 107 before contacting the roller member 103, the output of the light receiving element 105 a becomes Hi as shown in FIG. Become.
[0154]
In the disk recording / reproducing apparatus, when a 12 cm disk 107 is normally inserted into the disk insertion / ejection unit 100 by the user and the output of the light receiving element 105a becomes Hi, the operation of the power source is started to rotate the roller member 103. To start.
[0155]
When the normal 12 cm disc 107 is further inserted by the user, the normal 12 cm disc 107 and the roller member 103 come into contact with each other, so that the auto loading of the normal 12 cm disc 107 is started. And the outputs of the light receiving elements 105b and 105c become Hi in order as shown in FIG.
[0156]
Here, as described above, as shown in FIGS. 10 to 12, the light receiving element 105b and the light receiving element 105c are usually a 12cm disk 107, a small data area 12cm disk 108, and a 12cm adapter 110, which are connected to a disk insertion / ejection unit. A normal 8 cm disc 109 that is inserted into the disc 100 and detected by the light receiving device 105b when first detected by the light receiving device 105c and passes through one end portion 100a in the width direction of the disc insertion / extraction portion 100 as shown in FIG. The disc is inserted into the disc insertion / ejection unit 100 and is arranged at a position where it is not detected by the light receiving element 105b when it is first detected by the light receiving element 105c.
[0157]
Therefore, since the output of the light receiving element 105b is Hi when the output of the light receiving element 105c becomes Hi, the control device normally has a center in the width direction of the 12cm disk 107, the small data area 12cm disk 108, and the disk insertion / extraction part 100. It is identified that either the normal 8 cm disc 109 or the 12 cm adapter 110 passing through the section 100 b has been inserted into the disc insertion / ejection unit 100, and the auto loading of the normal 12 cm disc 107 is continued by the roller member 103.
[0158]
When the normal 12 cm disc 107 is further inserted by the roller member 103, as shown in FIG. 17, the outputs of the push switch 106a and the light receiving element 105d are normally transferred to the position shown in FIG. Hi in turn.
[0159]
Here, as described above, the shaft portion 104a and the light receiving element 105d of the lever member 104 are usually formed by inserting the 12cm disc 107 and the 12cm adapter 110 into the disc insertion / extraction portion 100 as shown in FIGS. First, when it is detected by the light receiving element 105d, it is detected by the push switch 106a. As shown in FIGS. 4, 5, and 8, one end portion in the width direction of the small data area 12cm disc 108 and the disc insertion / extraction portion 100 is detected. The normal 8 cm disc 109 passing through 100a and the normal 8 cm disc 109 passing through the central portion 100b in the width direction of the disc insertion / extraction section 100 are not detected by the light receiving element 105d, and the disc insertion / extraction is performed as shown in FIG. The normal 8 cm disc 109 passing through the other end portion 100 c in the width direction of the portion 100 is inserted into the disc insertion / extraction portion 100. It is, are disposed not detected position to the push switch 106a when it is detected in the first light receiving element 105d.
[0160]
Therefore, since the output of the push switch 106a is Hi when the output of the light receiving element 105d becomes Hi, the control device normally inserts either the 12cm disc 107 or the 12cm adapter 110 into the disc insertion / ejection unit 100. The roller member 103 normally continues to autoload the 12 cm disc 107.
[0161]
Further, as described above, the light receiving element 105d and the light receiving element 105c are, as shown in FIGS. 14 and 15, normally, the 12cm disk 107 and the 12cm adapter 110 are inserted into the disk insertion / ejection unit 100, and the light receiving element is first inserted. When detected by 105d, it is detected by the light receiving element 105c and normally passes through the small data area 12cm disc 108 and the width direction end portion 100a of the disc insertion / extraction portion 100 as shown in FIGS. The normal 8 cm disc 109 passing through the 8 cm disc 109 and the central portion 100b in the width direction of the disc insertion / extraction portion 100 is not detected by the light receiving element 105d, and the width direction of the disc insertion / extraction portion 100 as shown in FIG. A normal 8 cm disc 109 passing through the other end portion 100c is inserted into the disc insertion / ejection unit 100, and the light receiving element 1 is first inserted. It is arranged not detected position to the light receiving element 105c when it is detected to 5d.
[0162]
Therefore, since the output of the light receiving element 105c is Hi when the output of the light receiving element 105d becomes Hi, the control device normally passes the other end part 100c in the width direction of the disk insertion / extraction part 100 and the normal 8 cm disk 109. It can also be determined that a disc other than the disc has been inserted into the disc insertion / ejection unit 100.
[0163]
When the normal 12 cm disc 107 is further inserted by the roller member 103, the output of the push switch 106b becomes Hi while the normal 12 cm disc 107 is conveyed to the position shown in FIG. 3, as shown in FIG.
[0164]
Here, as described above, the light receiving element 105b detects the small data area 12cm disk 108 when the small data area 12cm disk 108 is detected by the push switch 106b as shown in FIG. Thus, when the normal 8 cm disk 109 passing through one end portion 100 a in the width direction of the disk insertion / extraction section 100 is detected by the push switch 106 b, the normal 8 cm disk 109 is not detected, and the 12 cm adapter 110 as shown in FIG. Is detected at the push switch 106b, the 12 cm adapter 110 is not detected.
[0165]
Therefore, since the output of the light receiving element 105b is Hi when the output of the push switch 106b becomes Hi, the control device has either the normal 12cm disc 107 or the small data area 12cm disc 108 of the disc insertion / extraction unit 100. It is discriminated that it has been inserted inside, and the auto-loading of the normal 12 cm disc 107 is continued on the roller member 103, and the normal 12 cm disc 107 is conveyed to the loading completion position.
[0166]
Note that detection of the completion of loading of the normal 12 cm disc 107 is performed by a detection means (not shown).
[0167]
Further, in the case of ejecting the normal 12 cm disc 107 from the inside, the disc recording / reproducing apparatus normally detects that the 12 cm disc 107 is inserted into the disc storage portion (not shown) by a detecting means (not shown) before the 12 cm disc 107 contacts the roller member 103. It is detected that the disc is ejected from a disc recording / reproducing unit (not shown).
[0168]
When the disc recording / reproducing apparatus detects that the 12 cm disc 107 is normally ejected from the disc storage unit (not shown) or the disc recording / reproducing unit (not shown), the operation of the power source is started. As a result, rotation of the roller member 103 is started.
[0169]
When the normal 12 cm disc 107 is further ejected by a mechanism (not shown), the normal 12 cm disc 107 and the roller member 103 come into contact with each other, so that the normal 12 cm disc 107 is automatically ejected. 10 is conveyed to the position shown in FIG.
[0170]
When the normal 12 cm disc 107 is conveyed to the position shown in FIG. 10, as described above, the light receiving element 105 c detects the normal 12 cm disc 107 when the normal 12 cm disc 107 is ejected from the disc insertion / extraction unit 100. Since the normal 12 cm disc 107 in contact with the roller member 103 is disposed at a position where it cannot be detected, the output of the light receiving element 105 c becomes Lo.
[0171]
Accordingly, when the output of the light receiving element 105c becomes Lo, the control device stops the operation of the power source and completes the normal ejection of the 12 cm disc 107 normally.
[0172]
As shown in FIG. 10, the normal 12 cm disc 107 is prevented from dropping from the disc recording / reproducing apparatus because the contact with the roller member 103 is not removed when the output of the light receiving element 105c becomes Lo. It is also possible to start autoloading again by user operation.
(2) Operation for small data area 12 cm disc 108
[0173]
Next, the operation of the disc recording / reproducing apparatus for the small data area 12 cm disc 108 will be described.
[0174]
As described above, the small data area 12 cm disc 108 has the data area 108 a (see FIG. 4) of only 8 cm, and the outer peripheral portion is transparent from the data area 108 a. When inserted into the disk insertion / ejection unit 100 of the disk recording / reproducing apparatus, light from the light emitting element to the light receiving element passes through the outer periphery of the data area 108a of the small data area 12cm disk 108. The output of each light receiving element before 108 and the roller member 103 contact is Lo.
[0175]
Even if the small data area 12 cm disk 108 and the roller member 103 come into contact with each other, until the data area 108a passes the position of the light receiving element 105a arranged on the upstream side in the disk insertion direction from the roller member 103 as described above. The power source operation is not started, and autoloading is not started.
[0176]
In the disc recording / reproducing apparatus, when a small data area 12 cm disc 108 is inserted into the disc insertion / ejection unit 100 by a user and the output of the light receiving element 105a becomes Hi as shown in FIG. The rotation of the roller member 103 is started.
[0177]
When the rotation of the roller member 103 is started, the small data area 12 cm disc 108 and the roller member 103 are already in contact with each other, so that the auto loading of the small data area 12 cm disc 108 is started, and the push switch 106 a The output becomes Hi in the order of the elements 105b and 105c.
[0178]
Here, as described above, as shown in FIGS. 10 to 12, the light receiving element 105b and the light receiving element 105c are usually a 12cm disk 107, a small data area 12cm disk 108, and a 12cm adapter 110, which are connected to a disk insertion / ejection unit. A normal 8 cm disc 109 that is inserted into the disc 100 and detected by the light receiving device 105b when first detected by the light receiving device 105c and passes through one end portion 100a in the width direction of the disc insertion / extraction portion 100 as shown in FIG. The disc is inserted into the disc insertion / ejection unit 100 and is arranged at a position where it is not detected by the light receiving element 105b when it is first detected by the light receiving element 105c.
[0179]
Therefore, since the output of the light receiving element 105b is Hi when the output of the light receiving element 105c becomes Hi, the control device normally has a center in the width direction of the 12cm disk 107, the small data area 12cm disk 108, and the disk insertion / extraction part 100. It is identified that either the normal 8 cm disc 109 or the 12 cm adapter 110 passing through the section 100 b is inserted into the disc insertion / ejection unit 100, and the roller member 103 continues to autoload the small data area 12 cm disc 108.
[0180]
When the small data area 12 cm disc 108 is further inserted by the roller member 103 and conveyed to the position shown in FIG. 4, the output of the push switch 106b becomes Hi as shown in FIG.
[0181]
Here, as described above, the light receiving element 105b detects the small data area 12cm disk 108 when the small data area 12cm disk 108 is detected by the push switch 106b as shown in FIG. Thus, when the normal 8 cm disk 109 passing through one end portion 100 a in the width direction of the disk insertion / extraction section 100 is detected by the push switch 106 b, the normal 8 cm disk 109 is not detected, and the 12 cm adapter 110 as shown in FIG. Is detected by the push switch 106b, the 12 cm adapter 110 is not detected.
[0182]
Therefore, since the output of the light receiving element 105b is Hi when the output of the push switch 106b becomes Hi, the control device has either the normal 12cm disc 107 or the small data area 12cm disc 108 of the disc insertion / extraction unit 100. It is discriminated that it has been inserted inside, and the automatic loading of the small data area 12 cm disc 108 is continued on the roller member 103 to convey the small data area 12 cm disc 108 to the loading completion position.
[0183]
The detection of the completion of loading of the small data area 12 cm disc 108 is performed by a detecting means (not shown) as in the case of the normal 12 cm disc 107 described above.
[0184]
Further, when the small data area 12 cm disk 108 is ejected from the inside, the disk recording / reproducing apparatus detects the small data area 12 cm disk by a detecting means (not shown) before the small data area 12 cm disk 108 contacts the roller member 103. 108 detects that the disc has been ejected from a disc storage unit (not shown) or a disc recording / reproducing unit (not shown).
[0185]
When the disc recording / reproducing apparatus detects that the small data area 12 cm disc 108 is ejected from the disc storage unit (not shown) or the disc recording / reproducing unit (not shown), the operation of the power source The rotation of the roller member 103 is started.
[0186]
When the small data area 12 cm disc 108 is further ejected by a mechanism (not shown), the small data area 12 cm disc 108 and the roller member 103 come into contact with each other, so that auto ejection of the small data area 12 cm disc 108 is started. The small data area 12 cm disc 108 is conveyed to the position shown in FIG.
[0187]
When the small data area 12 cm disc 108 is conveyed to the position shown in FIG. 11, as described above, the light receiving element 105 c causes the small data area 12 cm disc 108 when the small data area 12 cm disc 108 is ejected from the disc insertion / ejection unit 100. Since the small data area 12 cm disk 108 in contact with the roller member 103 is not detected after detecting 108, the output of the light receiving element 105c becomes Lo.
[0188]
Accordingly, when the output of the light receiving element 105c becomes Lo, the control device stops the operation of the power source and completes the auto-ejection of the small data area 12cm disc 108.
[0189]
As shown in FIG. 11, the small data area 12 cm disc 108 is prevented from dropping from the disc recording / reproducing apparatus because the contact with the roller member 103 is not released when the output of the light receiving element 105c becomes Lo. At the same time, it is possible to restart autoloading by the user's operation.
(3) Operation for a normal 8 cm disc 109 passing through one end portion 100a in the width direction of the disc insertion / extraction portion 100
[0190]
Next, the operation of the disc recording / reproducing apparatus with respect to the normal 8 cm disc 109 passing through one end portion 100a in the width direction of the disc insertion / ejection portion 100 will be described.
[0191]
Normally, when the 8 cm disc 109 is inserted into the disc insertion / ejection unit 100 from the one end 100a in the width direction of the disc insertion / extraction unit 100 of the disc recording / reproducing apparatus by the user, as described above, the light receiving element 105a is a roller member. Before the 8 cm disc 109 that is inserted into the disc insertion / ejection portion 100 and passes through one end portion 100a in the width direction of the disc insertion / ejection portion 100 comes into contact with the roller member 103, it is upstream of the disc 103 in the insertion direction of the disc. Since the 8 cm disc 109 is disposed at the position where it is detected, the output of the light receiving element 105a becomes Hi as shown in FIG.
[0192]
In the disk recording / reproducing apparatus, when an 8 cm disk 109 is normally inserted into the disk insertion / ejection part 100 from the one end 100a in the width direction of the disk insertion / ejection part 100 by the user and the output of the light receiving element 105a becomes Hi, The operation of the source is started, and the rotation of the roller member 103 is started.
[0193]
When the normal 8 cm disc 109 is further inserted by the user, the normal 8 cm disc 109 and the roller member 103 come into contact with each other to start auto loading of the normal 8 cm disc 109. The normal 8 cm disc 109 is shown in FIG. As shown in FIG. 19, the outputs of the push switch 106a and the light receiving element 105c become Hi in order.
[0194]
Here, as described above, as shown in FIGS. 10 to 12, the light receiving element 105b and the light receiving element 105c are usually a 12cm disk 107, a small data area 12cm disk 108, and a 12cm adapter 110, which are connected to a disk insertion / ejection unit. A normal 8 cm disc 109 that is inserted into the disc 100 and detected by the light receiving device 105b when first detected by the light receiving device 105c and passes through one end portion 100a in the width direction of the disc insertion / extraction portion 100 as shown in FIG. The disc is inserted into the disc insertion / ejection unit 100 and is arranged at a position where it is not detected by the light receiving element 105b when it is first detected by the light receiving element 105c.
[0195]
Therefore, since the output of the light receiving element 105b is Lo when the output of the light receiving element 105c becomes Hi, the control device detects that the normal 8 cm disk 109 passing through one end portion 100a in the width direction of the disk insertion / extraction part 100 is inserted into the disk. The roller member 103 is identified as having been inserted into the discharge unit 100, and the auto-loading of the normal 8 cm disc 109 is stopped by the roller member 103 and the rotation direction of the drive source is reversed to start the auto eject of the normal 8 cm disc 109.
[0196]
When the normal ejection of the normal 8 cm disc 109 is started and the normal 8 cm disc 109 is conveyed, the light receiving element 105 c passes through one end portion 100 a in the width direction of the disc insertion / extraction portion 100 as described above. Is disposed at a position where the normal 8 cm disk 109 in contact with the roller member 103 is not detected after the normal 8 cm disk 109 is detected when the disk is ejected from the disk insertion / ejection unit 100. Become Lo.
[0197]
Therefore, when the output of the light receiving element 105c becomes Lo, the control device stops the operation of the power source and completes the normal ejection of the 8 cm disc 109 normally.
[0198]
As shown in FIG. 13, the normal 8 cm disc 109 is prevented from dropping from the disc recording / reproducing apparatus because the contact with the roller member 103 is not removed when the output of the light receiving element 105c becomes Lo.
(4) Operation for a normal 8 cm disc 109 passing through the central portion 100b in the width direction of the disc insertion / extraction portion 100
[0199]
Next, the operation of the disc recording / reproducing apparatus for the normal 8 cm disc 109 passing through the central portion 100b in the width direction of the disc insertion / ejection portion 100 will be described.
[0200]
Normally, when the user inserts the 8 cm disc 109 into the disc insertion / ejection portion 100 from the center portion 100b in the width direction of the disc insertion / ejection portion 100 of the disc recording / reproducing apparatus, the light receiving element 105a becomes a roller member as described above. Before the 8 cm disc 109 that is inserted in the disc insertion / ejection portion 100 and passes through the central portion 100b in the width direction of the disc insertion / ejection portion 100 comes into contact with the roller member 103, it is upstream of the disc 103 in the insertion direction of the disc. Since the 8 cm disc 109 is arranged at a position to detect, the output of the light receiving element 105a becomes Hi as shown in FIG.
[0201]
In the disc recording / reproducing apparatus, when an 8-cm disc 109 is normally inserted into the disc insertion / ejection portion 100 by the user from the central portion 100b in the width direction of the disc insertion / ejection portion 100 and the output of the light receiving element 105a becomes Hi, The operation of the source is started, and the rotation of the roller member 103 is started.
[0202]
When the normal 8 cm disc 109 is further inserted by the user, the normal 8 cm disc 109 and the roller member 103 come into contact with each other to start auto loading of the normal 8 cm disc 109. The normal 8 cm disc 109 is shown in FIG. As shown in FIG. 20, the outputs of the light receiving elements 105b and 105c become Hi in order.
[0203]
Here, as described above, as shown in FIGS. 10 to 12, the light receiving element 105b and the light receiving element 105c are usually a 12cm disk 107, a small data area 12cm disk 108, and a 12cm adapter 110, which are connected to a disk insertion / ejection unit. A normal 8 cm disc 109 that is inserted into the disc 100 and detected by the light receiving device 105b when first detected by the light receiving device 105c and passes through one end portion 100a in the width direction of the disc insertion / extraction portion 100 as shown in FIG. The disc is inserted into the disc insertion / ejection unit 100 and is arranged at a position where it is not detected by the light receiving element 105b when it is first detected by the light receiving element 105c.
[0204]
Therefore, since the output of the light receiving element 105b is Hi when the output of the light receiving element 105c becomes Hi, the control device uses a disk other than the normal 8 cm disk 109 that passes through one end portion 100a in the width direction of the disk insertion / extraction part 100. Is inserted into the disc insertion / ejection unit 100, and the roller member 103 continues to auto-load the normal 8cm disc 109.
[0205]
Normally, when the 8 cm disc 109 is further inserted by the roller member 103, the light from the light emitting element to the light receiving element 105a normally passes through the center hole of the 8 cm disc 109. Therefore, as shown in FIG. After the output changes from Hi to Lo and again from Lo to Hi, the outputs of the light receiving elements 105b and 105a become Lo in order.
[0206]
Here, the shaft portion 104a, the light receiving element 105a, the light receiving element 105b, and the light receiving element 105d of the lever member 104 are usually a 12 cm disc 107, as shown in FIG. 3, FIG. 4, FIG. 5, FIG. Small data area 12cm disk 108, normal 8cm disk 109 passing through one end 100a in the width direction of the disk insertion / extraction part 100, 12cm adapter 110, and normal passing through the other end part 100c in the width direction of the disk insertion / extraction part 100 Before the 8 cm disc 109 is inserted into the disc insertion / ejection unit 100 and detected by at least one of the light receiving element 105a and the light receiving element 105b and not detected by both the light receiving element 105a and the light receiving element 105b, the light receiving element 105d and As detected in at least one of the push switches 106a and shown in FIG. A normal 8 cm disc 109 passing through the central portion 100b in the width direction of the disc insertion / extraction portion 100 is inserted into the disc insertion / extraction portion 100 and detected by at least one of the light receiving element 105a and the light receiving element 105b, and the light receiving element 105a and Before being detected by both of the light receiving elements 105b, the light receiving element 105d and the push switch 106a are disposed at positions where they are not detected.
[0207]
Therefore, the control device is inserted into the disc insertion / ejection unit 100 as shown in FIG. 20, detected by at least one of the light receiving element 105a and the light receiving element 105b, and not detected by both the light receiving element 105a and the light receiving element 105b. Since it is not detected by both the light receiving element 105d and the push switch 106a before, it is identified that the normal 8 cm disc 109 passing through the central portion 100b in the width direction of the disc insertion / extraction portion 100 has been inserted into the disc insertion / extraction portion 100. Then, the auto-loading of the normal 8 cm disc 109 is stopped on the roller member 103, and the normal ejection of the normal 8 cm disc 109 is started by reversing the rotation direction of the drive source.
[0208]
When the normal ejection of the 8 cm disc 109 is started and the normal 8 cm disc 109 is conveyed to the position shown in FIG. 8, the light receiving element 105 c moves the central portion 100 b in the width direction of the disc insertion / extraction portion 100 as described above. When the normal 8 cm disk 109 passing through is ejected from the disk insertion / ejection unit 100, the normal 8 cm disk 109 that is in contact with the roller member 103 is detected after the normal 8 cm disk 109 is detected. The output of the light receiving element 105c becomes Lo.
[0209]
Therefore, when the output of the light receiving element 105c becomes Lo, the control device stops the operation of the power source and completes the normal ejection of the 8 cm disc 109 normally.
[0210]
As shown in FIG. 8, the normal 8 cm disc 109 is prevented from dropping from the disc recording / reproducing apparatus because the contact with the roller member 103 is not removed when the output of the light receiving element 105c becomes Lo.
(5) Operation for a normal 8 cm disc 109 passing through the other end portion 100c in the width direction of the disc insertion / extraction portion 100
[0211]
Next, the operation of the disc recording / reproducing apparatus for the normal 8 cm disc 109 passing through the other end portion 100c in the width direction of the disc insertion / ejection portion 100 will be described.
[0212]
Normally, when the 8 cm disc 109 is inserted by the user into the disc insertion / ejection portion 100 from the other end portion 100c in the width direction of the disc insertion / ejection portion 100 of the disc recording / reproducing apparatus, the light receiving element 105b becomes a roller as described above. Before the normal 8 cm disc 109 that is inserted into the disc insertion / ejection portion 100 and passes through the other end portion 100c in the width direction of the disc insertion / ejection portion 100 contacts the roller member 103, upstream of the member 103 in the disc insertion direction. Since the 8 cm disc 109 is normally disposed at a position where it is detected, the output of the light receiving element 105b becomes Hi as shown in FIG.
[0213]
In the disc recording / reproducing apparatus, when an 8 cm disc 109 is normally inserted into the disc insertion / ejection unit 100 from the other end 100c in the width direction of the disc insertion / extraction unit 100 by the user and the output of the light receiving element 105b becomes Hi, The operation of the power source is started, and the rotation of the roller member 103 is started.
[0214]
When the normal 8 cm disc 109 is further inserted by the user, the normal 8 cm disc 109 and the roller member 103 come into contact with each other to start auto loading of the normal 8 cm disc 109. The normal 8 cm disc 109 is shown in FIG. As shown in FIG. 21, the outputs of the light receiving elements 105a and 105d become Hi in order.
[0215]
Here, as described above, as shown in FIGS. 14 and 15, the light receiving element 105d and the light receiving element 105c first receive light when the 12cm disk 107 and the 12cm adapter 110 are normally inserted into the disk insertion / ejection unit 100. element 105c When the light receiving element is detected 105d 4, a small data area 12 cm disc 108, a normal 8 cm disc 109 passing through one end 100 a in the width direction of the disc insertion / extraction portion 100, and a disc insertion / extraction portion, as shown in FIGS. The normal 8 cm disc 109 passing through the central portion 100b in the width direction of 100 is not detected by the light receiving element 105d, and the normal 8 cm disc passing through the other end portion 100c in the width direction of the disc insertion / extraction portion 100 as shown in FIG. 109 is inserted into the disc insertion / ejection unit 100 and is disposed at a position where it is not detected by the light receiving element 105c when first detected by the light receiving element 105d.
[0216]
Further, as described above, the shaft portion 104a and the light receiving element 105d of the lever member 104, as shown in FIG. 14 and FIG. 15, are usually the 12cm disc 107 and the 12cm adapter 110 inserted into the disc insertion / extraction portion 100, At first Push switch 106a When detected Light receiving element 105d 4, a small data area 12 cm disc 108, a normal 8 cm disc 109 passing through one end 100 a in the width direction of the disc insertion / extraction portion 100, and a disc insertion / extraction portion, as shown in FIGS. The normal 8 cm disc 109 passing through the central portion 100b in the width direction of 100 is not detected by the light receiving element 105d, and is normally 8 cm passing through the other end portion 100c in the width direction of the disc insertion / extraction portion 100 as shown in FIG. When the disk 109 is inserted into the disk insertion / ejection unit 100 and first detected by the light receiving element 105d, the disk 109 is disposed at a position where it is not detected by the push switch 106a.
[0217]
Therefore, since the outputs of the light receiving element 105c and the push switch 106a are Lo when the output of the light receiving element 105d becomes Hi, the control device normally passes through the other end part 100c in the width direction of the disk insertion / extraction part 100. The disc 109 is identified as being inserted into the disc insertion / ejection unit 100, and the auto-loading of the normal 8cm disc 109 is stopped by stopping the autoloading of the normal 8cm disc 109 on the roller member 103 and reversing the rotation direction of the drive source. Let it begin.
[0218]
When auto-ejection of the normal 8 cm disc 109 is started and the normal 8 cm disc 109 is conveyed, the light receiving element 105 d passes through the other end portion 100 c in the width direction of the disc insertion / extraction portion 100 as described above. When 109 is ejected from the disc insertion / ejection unit 100, the normal 8 cm disc 109 is detected, and then the normal 8 cm disc 109 in contact with the roller member 103 is not detected, so the output of the light receiving element 105d Becomes Lo.
[0219]
Therefore, in response to the output of the light receiving element 105d becoming Lo, the control device stops the operation of the power source and completes the normal 8 cm disc 109 auto-eject.
[0220]
As shown in FIG. 9, the normal 8 cm disc 109 is prevented from dropping from the disc recording / reproducing apparatus because the contact with the roller member 103 is not removed when the output of the light receiving element 105d becomes Lo.
(6) Operation for 12 cm adapter 110
[0221]
Next, the operation of the disc recording / reproducing apparatus for the 12 cm adapter 110 will be described.
[0222]
When the 12 cm adapter 110 is inserted into the disc insertion / extraction unit 100 of the disc recording / reproducing apparatus by the user, the light receiving element 105a is upstream of the roller member 103 in the disc insertion direction, as described above. Since the 12 cm adapter 110 inserted into the section 100 is arranged at a position to detect the 12 cm adapter 110 before contacting the roller member 103, the output of the light receiving element 105a becomes Hi as shown in FIG.
[0223]
In the disc recording / reproducing apparatus, when the 12 cm adapter 110 is inserted into the disc insertion / ejection unit 100 by the user and the output of the light receiving element 105a becomes Hi, the operation of the power source is started to rotate the roller member 103. Start.
[0224]
When the 12 cm adapter 110 is further inserted by the user, the 12 cm adapter 110 and the roller member 103 come into contact with each other, whereby the auto loading of the 12 cm adapter 110 is started, and the 12 cm adapter 110 is transported to the position shown in FIG. At the same time, as shown in FIG. 22, the outputs of the light receiving elements 105b and 105c become Hi in order.
[0225]
Here, as described above, as shown in FIGS. 10 to 12, the light receiving element 105b and the light receiving element 105c are usually a 12cm disk 107, a small data area 12cm disk 108, and a 12cm adapter 110, which are connected to a disk insertion / ejection unit. A normal 8 cm disc 109 that is inserted into the disc 100 and detected by the light receiving device 105b when first detected by the light receiving device 105c and passes through one end portion 100a in the width direction of the disc insertion / extraction portion 100 as shown in FIG. The disc is inserted into the disc insertion / ejection unit 100 and is arranged at a position where it is not detected by the light receiving element 105b when it is first detected by the light receiving element 105c.
[0226]
Therefore, since the output of the light receiving element 105b is Hi when the output of the light receiving element 105c becomes Hi, the control device normally has a center in the width direction of the 12cm disk 107, the small data area 12cm disk 108, and the disk insertion / extraction part 100. It is identified that either the normal 8 cm disc 109 or the 12 cm adapter 110 passing through the section 100 b has been inserted into the disc insertion / ejection unit 100, and the auto-loading of the 12 cm adapter 110 is continued by the roller member 103.
[0227]
When the 12 cm adapter 110 is further inserted by the roller member 103, as shown in FIG. 22, the outputs of the push switch 106a and the light receiving element 105d are sequentially Hi while the 12 cm adapter 110 is conveyed to the position shown in FIG. become.
[0228]
Here, as described above, the shaft portion 104a and the light receiving element 105d of the lever member 104 are usually formed by inserting the 12cm disc 107 and the 12cm adapter 110 into the disc insertion / extraction portion 100 as shown in FIGS. First, when it is detected by the light receiving element 105d, it is detected by the push switch 106a. As shown in FIGS. 4, 5, and 8, one end portion in the width direction of the small data area 12cm disc 108 and the disc insertion / extraction portion 100 is detected. The normal 8 cm disc 109 passing through 100a and the normal 8 cm disc 109 passing through the central portion 100b in the width direction of the disc insertion / extraction section 100 are not detected by the light receiving element 105d, and the disc insertion / extraction is performed as shown in FIG. The normal 8 cm disc 109 passing through the other end portion 100 c in the width direction of the portion 100 is inserted into the disc insertion / extraction portion 100. It is, are disposed not detected position to the push switch 106a when it is detected in the first light receiving element 105d.
[0229]
Therefore, since the output of the push switch 106a is Hi when the output of the light receiving element 105d becomes Hi, the control device normally inserts either the 12cm disc 107 or the 12cm adapter 110 into the disc insertion / ejection unit 100. The roller member 103 continues to auto-load the 12 cm adapter 110.
[0230]
Further, as described above, the light receiving element 105d and the light receiving element 105c are, as shown in FIGS. 14 and 15, normally, the 12cm disk 107 and the 12cm adapter 110 are inserted into the disk insertion / ejection unit 100, and the light receiving element is first inserted. When detected by 105d, it is detected by the light receiving element 105c and normally passes through the small data area 12cm disc 108 and the width direction end portion 100a of the disc insertion / extraction portion 100 as shown in FIGS. The normal 8 cm disc 109 passing through the 8 cm disc 109 and the central portion 100b in the width direction of the disc insertion / extraction portion 100 is not detected by the light receiving element 105d, and the width direction of the disc insertion / extraction portion 100 as shown in FIG. A normal 8 cm disc 109 passing through the other end portion 100c is inserted into the disc insertion / ejection unit 100, and the light receiving element 1 is first inserted. It is arranged not detected position to the light receiving element 105c when it is detected to 5d.
[0231]
Therefore, since the output of the light receiving element 105c is Hi when the output of the light receiving element 105d becomes Hi, the control device normally passes the other end part 100c in the width direction of the disk insertion / extraction part 100 and the normal 8 cm disk 109. It can also be determined that a disc other than the disc has been inserted into the disc insertion / ejection unit 100.
[0232]
When the 12 cm adapter 110 is further inserted by the roller member 103, as shown in FIG. 22, the output of the push switch 106b becomes Hi while the 12 cm adapter 110 is conveyed to the position shown in FIG.
[0233]
When the output of the push switch 106b becomes Hi, the light from the light emitting element to the light receiving element 105b passes through the hollow hole 110a formed in the center portion of the 12cm adapter 110. Therefore, the output of the light receiving element 105b is Lo It becomes.
[0234]
Here, as described above, the light receiving element 105b detects the small data area 12cm disk 108 when the small data area 12cm disk 108 is detected by the push switch 106b as shown in FIG. Thus, when the normal 8 cm disk 109 passing through one end portion 100 a in the width direction of the disk insertion / extraction section 100 is detected by the push switch 106 b, the normal 8 cm disk 109 is not detected, and the 12 cm adapter 110 as shown in FIG. Is detected by the push switch 106b, the 12 cm adapter 110 is not detected.
[0235]
Therefore, since the output of the push switch 106a is Hi when the output of the light receiving element 105d becomes Hi and the output of the light receiving element 105b is Lo when the output of the push switch 106b becomes Hi, the control device The 12 cm adapter 110 is identified as having been inserted into the disc insertion / ejection unit 100, and auto-loading of the 12 cm adapter 110 is started by stopping the auto-loading of the 12 cm adapter 110 by the roller member 103 and reversing the rotation direction of the drive source. Let
[0236]
When auto-ejection of the 12 cm adapter 110 is started and the 12 cm adapter 110 is transported to the position shown in FIG. 12, as described above, the light receiving element 105 c is, when the 12 cm adapter 110 is ejected from the disc insertion / ejection unit 100, Since the 12 cm adapter 110 that is in contact with the roller member 103 is detected after the 12 cm adapter 110 is detected, the output of the light receiving element 105 c becomes Lo.
[0237]
Therefore, when the output of the light receiving element 105c becomes Lo, the control device stops the operation of the power source and completes the 12cm adapter 110 auto-eject.
[0238]
As shown in FIG. 16, when the output of the light receiving element 105c becomes Lo, the 12 cm adapter 110 is prevented from dropping from the disk recording / reproducing apparatus because it does not come out of contact with the roller member 103.
(7) Operation for transparent 12 cm disc 111
[0239]
Next, the operation of the disk recording / reproducing apparatus for the transparent 12 cm disk 111 will be described.
[0240]
When the transparent 12 cm disc 111 is inserted into the disc insertion / extraction section 100 of the disc recording / reproducing apparatus by the user, the light from the light emitting element to the light receiving element passes through the transparent 12 cm disc 111. The output of each light receiving element before contact with the member 103 is Lo.
[0241]
Even if the transparent 12 cm disk 111 and the roller member 103 come into contact with each other, the lever member 104 starts to be displaced in the direction indicated by the arrow 204 (see FIG. 1) by the contact between the outer periphery of the transparent 12 cm disk 111 and the shaft portion 104a. Until then, the operation of the power source is not started, and autoloading is not started.
[0242]
In the disk recording / reproducing apparatus, a transparent 12 cm disk 111 is inserted into the disk insertion / ejection unit 100 by a user, and the outer circumference of the transparent 12 cm disk 111 and the upstream side in the disk insertion direction from the roller member 103 as shown in FIG. The lever member 104 starts to displace in the direction indicated by the arrow 204 (see FIG. 1) by contact with the shaft portion 104a of the lever member 104 arranged in FIG. 23, and the output of the push switch 106a as shown in FIG. Becomes Hi, the operation of the power source is started, and the rotation of the roller member 103 is started.
[0243]
When the rotation of the roller member 103 is started, since the transparent 12 cm disc 111 and the roller member 103 are already in contact with each other, the auto loading of the transparent 12 cm disc 111 is started, and the transparent 12 cm disc 111 is positioned as shown in FIG. And the output of the push switch 106b becomes Hi as shown in FIG.
[0244]
Here, as described above, the light receiving elements 105a, 105b, 105c, and 105d are, as shown in FIGS. 3 to 6, a normal 12cm disk 107 and a small data area 12cm disk 108 when detected by the push switch 106b. Usually, the 8 cm disc 109 and the 12 cm adapter 110 are arranged at positions where any one of the light receiving elements 105a, 105b, 105c, and 105d detects.
[0245]
Therefore, since the output of all the light receiving elements is Lo when the output of the push switch 106a becomes Hi, the control device identifies that the transparent 12 cm disc 111 has been inserted into the disc insertion / ejection unit 100, and the roller member The auto-loading of the transparent 12 cm disc 111 is stopped at 103 and the rotation direction of the drive source is reversed to start auto ejection of the transparent 12 cm disc 111.
[0246]
When auto-ejection of the transparent 12 cm disc 111 is started and the transparent 12 cm disc 111 is conveyed to the position shown in FIG. 16, as described above, the shaft portion 104a of the lever member 104 has the transparent 12 cm disc 111 inserted into the disc insertion / extraction portion. Since the push switch 106a detects the transparent 12cm disc 111 when it is ejected from 100, it is arranged at a position where the transparent 12cm disc 111 in contact with the roller member 103 is no longer detected. become.
[0247]
Therefore, when the output of the push switch 106a becomes Lo, the control device stops the operation of the power source and completes the auto-ejection of the transparent 12cm disc 111.
[0248]
As shown in FIG. 16, when the output of the push switch 106a becomes Lo, the transparent 12cm disc 111 is prevented from falling out of the disc recording / reproducing apparatus because it does not come out of contact with the roller member 103.
[0249]
As described above with reference to FIGS. 1 and 2, the disk recording / reproducing apparatus has the protrusions 102 a and 102 b provided inside the disk insertion / ejection unit 100 and the protrusion 101 a provided on the base 101. Therefore, it is possible to prevent a plurality of discs from being inserted in a single insertion operation, and to prevent failure.
[0250]
Here, the disc recording / reproducing apparatus can be internally inserted by a single insertion operation if the control device is configured to cause the roller member 103 to eject the disc after a certain period of time has elapsed from the start of the disc insertion by the roller member 103. When a plurality of discs are inserted, the discs can be ejected to the outside.
[0251]
Further, when the push switch 106b detects the disk a plurality of times while the disk is being inserted into the roller member 103, the control device stops the disk insertion operation by the roller member 103.
[0252]
More specifically, as shown in FIG. 24, the disk recording / reproducing apparatus includes a normal 12 cm disk 107, a 12 cm adapter 110 holding a normal 8 cm disk 109 in the center, a small data area 12 cm disk 108, and a 12 cm adapter. When the discs 112 and 113 having an outer diameter of 12 cm such as 110 and the transparent 12 cm disc 111 are inserted into the inside by the roller member 103, the output of the push switch 106b is the output of the push switch 106a as shown in FIG. Is changed from Lo to Hi by the disk 112 and from Hi to Lo, then changed from Lo to Hi again by the disk 113 and from Hi to Lo.
[0253]
On the other hand, when the disc recording / reproducing apparatus inserts only one disc having an outer diameter of 12 cm into the inside by the roller member 103, the state shown in FIG. 24 does not occur. As shown in FIG. 25 (b), while the output of the push switch 106a is Hi, it changes from Lo to Hi only once and from Hi to Lo.
[0254]
Therefore, in the disc recording / reproducing apparatus, as shown in FIG. 25A, the output of the push switch 106b changes from Lo to Hi and changes from Hi to Lo while the output of the push switch 106a is Hi. If this is repeated, it can be determined that a plurality of discs have been inserted therein.
[0255]
Then, when a plurality of discs are inserted in a single insertion operation, the disc recording / reproducing apparatus stops the conveyance of the disc, thereby inserting a plurality of discs in the single insertion operation. Can be prevented, and failure can be prevented.
[0256]
According to the present invention, the disc recording / reproducing apparatus causes the roller member 103 to eject the disc when the control device has inserted the disc into the roller member 103 and the push switch 106b detects the disc a plurality of times. It may be configured, and when a plurality of discs are inserted inside by one insertion operation, the discs are ejected to the outside, so that a plurality of discs are inserted inside by one insertion operation. Can be prevented, and failure can be prevented.
[0257]
As described above, the disc recording / reproducing apparatus according to the present embodiment can identify, insert, record and reproduce the small data area 12 cm disc 108 in the same manner as the normal 12 cm disc 107.
[0258]
In the above description, the disc recording / reproducing apparatus conveys the normal 12 cm disc 107, the small data area 12 cm disc 108, and the 12 cm adapter 110 holding the normal 8 cm disc 109 at the center to the loading completion position. The 12 cm adapter 110, the 8 cm disc 109, and the transparent 12 cm disc 111 were forcibly ejected. However, according to the present invention, the 12 cm disc 107, the small data area 12 cm disc 108, A configuration in which the 12 cm adapter 110 that normally holds the 8 cm disc 109 and the 8 cm disc 109 are transported to the loading completion position and the 12 cm adapter 110 and the transparent 12 cm disc 111 are forcibly ejected can be similarly implemented. .
[0259]
Also, a normal 12 cm disc 107, a small data area 12 cm disc 108, a 12 cm adapter 110 holding a normal 8 cm disc 109 at the center, and one end 100a, a center 100b and the other end of the disc insertion / extraction portion 100 in the width direction At least one of the normal 8 cm discs 109 passing through the portion 100 c is transported to the loading completion position, and the normal 8 cm disc passing through the one end portion 100 a, the central portion 100 b and the other end portion 100 c in the width direction of the disc insertion / extraction portion 100. The remaining 109, the 12 cm adapter 110, and the transparent 12 cm disc 111 may be forcibly discharged.
[0260]
In the disk recording / reproducing apparatus according to the present embodiment, when the light receiving element 105b detects a disk when the push switch 106b detects the disk, the disk inserted into the disk insertion / extraction unit 100 is normally Since the 12 cm disk 107, the small data area 12 cm disk 108, and the 12 cm adapter 110 that normally holds the 8 cm disk 109 at the center, the disk is transported to the loading completion position. If the light receiving element 105b does not detect the disk when the lever member 104 and the push switch 106b detect the disk, the disk may be automatically ejected.
[0261]
In the disk recording / reproducing apparatus, the shaft 104a and the light receiving element 105b of the lever member 104 are arranged upstream of the roller member 103 in the insertion direction of the disk. Before the disk is inserted, it can be determined whether the disk is inserted inside or discharged to the outside, and can be started to be inserted or discharged by the roller member 103, so that the operation feeling can be improved.
[0262]
Further, in the present embodiment, the light receiving element 105b is normally used when the push switch 106b detects a normal 8 cm disc 109 passing through one end portion 100a in the width direction of the disc insertion / extraction portion 100 as shown in FIG. According to the present invention, for example, the disk recording / reproducing apparatus is a position where loading of the normal 8 cm disk 109 passing through one end 100a in the width direction of the disk insertion / ejection unit 100 is completed. When the normal 8 cm disk 109 passing through one end part 100 a in the width direction of the disk insertion / extraction unit 100 is detected by the push switch 106 b, the normal 8 cm disk 109 may be disposed. .
[0263]
When the light receiving element 105b is disposed at a position where the normal 8 cm disk 109 is detected when the normal 8 cm disk 109 passing through one end 100a in the width direction of the disk insertion / extraction portion 100 is detected by the push switch 106b, In the disc recording / reproducing apparatus, the light receiving element 105b detects the disc when the push switch 106b detects the disc, so that one end in the width direction of the normal 12cm disc 107, the small data area 12cm disc 108, and the disc insertion / ejection unit 100 is used. The normal 8 cm disc 109 passing through the section 100a and the 12 cm adapter 110 holding the normal 8 cm disc 109 in the center can be identified and inserted to the loading completion position.
[0264]
In the present embodiment, the light receiving element 105b and the light receiving element 105c include a normal 12cm disk 107, a small data area 12cm disk 108, and a 12cm adapter 110 as shown in FIGS. A normal 8 cm disc 109 that is inserted into the disc 100 and detected by the light receiving device 105b when first detected by the light receiving device 105c and passes through one end portion 100a in the width direction of the disc insertion / extraction portion 100 as shown in FIG. Since the disc is inserted into the disc insertion / extraction portion 100 and is initially located at a position that is not detected by the light receiving element 105b when detected by the light receiving device 105c, the control device has one end in the width direction of the disc insertion / extraction portion 100. A normal 8 cm disc 109 passing 100a could be identified.
[0265]
However, according to the present invention, although not shown in the drawings, the light receiving element 105b and the light receiving element 105c are usually the same as the 12cm disk 107 and the 12cm adapter 110 inserted into the disk insertion / ejection unit 100, and the light receiving element 105c is first inserted. Is detected by the light receiving element 105b, and the small data area 12cm disk 108 is not detected by the light receiving element 105c, and the normal 8cm disk 109 passing through one end 100a in the width direction of the disk insertion / extraction part 100 is Even if it is inserted in the disc insertion / extraction part 100 and is arranged at a position where it is not detected by the light receiving element 105b when it is first detected by the light receiving element 105c, the control device will end the one end part 100a in the width direction of the disc insertion / extraction part 100. The normal 8 cm disc 109 that passes through can be identified.
[0266]
Further, in the present embodiment, the light receiving element 105d and the light receiving element 105c, as shown in FIG. 14 and FIG. 15, are normally received first when the 12cm disk 107 and the 12cm adapter 110 are inserted into the disk insertion / ejection unit 100. When the light is detected by the element 105d, it is detected by the light receiving element 105c and passes through the small data area 12cm disk 108 and the one end part 100a in the width direction of the disk insertion / extraction part 100 as shown in FIGS. The normal 8 cm disc 109 and the normal 8 cm disc 109 passing through the central portion 100b in the width direction of the disc insertion / extraction portion 100 are not detected by the light receiving element 105d, and the width direction of the disc insertion / extraction portion 100 as shown in FIG. A normal 8 cm disc 109 passing through the other end portion 100c of the disc is inserted into the disc insertion / extraction portion 100, and light is received first. Since the control device is arranged at a position not detected by the light receiving element 105c when detected by the child 105d, the control device can identify the normal 8 cm disc 109 passing through the other end portion 100c in the width direction of the disc insertion / extraction portion 100. did it.
[0267]
However, according to the present invention, although not shown, the light receiving element 105d and the light receiving element 105c are usually detected by the light receiving element 105d first when the 12cm disk 107 and the 12cm adapter 110 are inserted into the disk insertion / ejection unit 100. Is detected by the light receiving element 105c, and the small data area 12cm disc 108, the normal 8cm disc 109 passing through one end portion 100a in the width direction of the disc insertion / extraction portion 100, and the center of the disc insertion / extraction portion 100 in the width direction. At least one of the normal 8 cm discs 109 passing through the portion 100b is inserted into the disc insertion / ejection unit 100 and detected by the light receiving element 105c when it is first detected by the light receiving element 105d, and the rest is detected by the light receiving element 105d Not passing through the other end portion 100c in the width direction of the disc insertion / extraction portion 100. Even if the 8-cm disc 109 is inserted into the disc insertion / extraction section 100 and is arranged at a position where it is not detected by the light receiving element 105c when it is first detected by the light receiving element 105d, the control device does not change the width of the disc insertion / extraction section 100. A normal 8 cm disc 109 passing through the other end 100c in the direction can be identified.
[0268]
Further, according to the present invention, although not shown, the light receiving element 105d and the light receiving element 105c are usually detected by the light receiving element 105d first when the 12cm disk 107 and the 12cm adapter 110 are inserted into the disk insertion / extraction portion 100. Is detected by the light receiving element 105c, and the small data area 12cm disc 108, the normal 8cm disc 109 passing through one end portion 100a in the width direction of the disc insertion / extraction portion 100, and the center of the disc insertion / extraction portion 100 in the width direction. When the normal 8 cm disc 109 passing through the portion 100b is inserted into the disc insertion / extraction portion 100 and first detected by the light receiving element 105d, it is detected by the light receiving element 105c, and the other end in the width direction of the disc insertion / extraction portion 100 When the normal 8 cm disc 109 passing through the portion 100c is inserted into the disc insertion / extraction portion 100, Even if the control device is arranged at a position that is not detected by the light receiving element 105c when detected by the light receiving element 105d, the control device identifies the normal 8 cm disc 109 that passes through the other end portion 100c in the width direction of the disc insertion / extraction portion 100. Can do.
[0269]
Further, in the present embodiment, the shaft portion 104a and the light receiving element 105d of the lever member 104 have a normal 12cm disc 107 and a 12cm adapter 110 inserted into the disc insertion / extraction portion 100 as shown in FIGS. First, when it is detected by the light receiving element 105d, it is detected by the push switch 106a. As shown in FIGS. 4, 5, and 8, one end portion in the width direction of the small data area 12cm disc 108 and the disc insertion / extraction portion 100 is detected. The normal 8 cm disc 109 passing through 100a and the normal 8 cm disc 109 passing through the central portion 100b in the width direction of the disc insertion / extraction section 100 are not detected by the light receiving element 105d, and the disc insertion / extraction is performed as shown in FIG. The normal 8 cm disc 109 passing through the other end portion 100c in the width direction of the portion 100 is a disc insertion / extraction portion 100. Since it is inserted and placed at a position where it is not detected by the push switch 106a when it is first detected by the light receiving element 105d, the control device normally passes the other end portion 100c in the width direction of the disc insertion / extraction portion 100. The disc 109 could be identified.
[0270]
However, according to the present invention, although not shown in the drawings, the shaft portion 104a and the light receiving element 105d of the lever member 104 normally receive the light first after the 12cm disc 107 and the 12cm adapter 110 are inserted into the disc insertion / ejection portion 100. When detected by the element 105d, the push switch 106a detects the small data area 12cm disc 108, the normal 8cm disc 109 passing through one end 100a in the width direction of the disc insertion / extraction portion 100, and the disc insertion / extraction portion 100. At least one of the normal 8 cm discs 109 passing through the central portion 100b in the width direction is inserted into the disc insertion / ejection unit 100 and detected by the push switch 106a when first detected by the light receiving element 105d, and the rest is received. The width of the disk insertion / ejection unit 100 without being detected by the element 105d Even if the normal 8 cm disc 109 that passes through the other end portion 100c of the disc is inserted into the disc insertion / ejection portion 100 and disposed at a position that is not detected by the push switch 106a when it is first detected by the light receiving element 105d, The apparatus can identify the normal 8 cm disc 109 that passes through the other end portion 100 c in the width direction of the disc insertion / extraction portion 100.
[0271]
Further, according to the present invention, although not shown in the drawings, the shaft portion 104a and the light receiving element 105d of the lever member 104 are normally received first after the 12cm disc 107 and the 12cm adapter 110 are inserted into the disc insertion / ejection portion 100. When detected by the element 105d, the push switch 106a detects the small data area 12cm disc 108, the normal 8cm disc 109 passing through one end 100a in the width direction of the disc insertion / extraction portion 100, and the disc insertion / extraction portion 100. When the normal 8 cm disc 109 passing through the central portion 100b in the width direction is inserted into the disc insertion / extraction portion 100 and first detected by the light receiving element 105d, it is detected by the push switch 106a, and the width of the disc insertion / extraction portion 100 is detected. The normal 8cm disc 109 passing through the other end 100c in the direction is the disc Even if the control unit is inserted into the discharge unit 100 and is disposed at a position where it is not detected by the push switch 106 a when it is first detected by the light receiving element 105 d, the control device moves the other end 100 c in the width direction of the disk insertion / extraction unit 100. The passing normal 8 cm disc 109 can be identified.
[0272]
Further, in the present embodiment, the light receiving element 105b detects a passing disc by blocking light on the disc, and when the small data area 12cm disc 108 is detected by the push switch 106b as shown in FIG. When a small data area 12 cm disk 108 is detected and a normal 8 cm disk 109 passing through one end 100 a in the width direction of the disk insertion / extraction part 100 is detected by the push switch 106 b as shown in FIG. When the 12 cm adapter 110 is detected by the push switch 106b as shown in FIG. 6 without detecting the disk 109, the shaft 109a and the light receiving element 105d of the lever member 104 are disposed at positions where the 12cm adapter 110 is not detected. As shown in FIG. 15, the 12 cm adapter 110 is It is detected by the push switch 106a when it is first inserted into the disc insertion / extraction portion 100 and detected by the light receiving element 105d, and passes through one end portion 100a in the width direction of the disc insertion / extraction portion 100 as shown in FIG. Since the 8 cm disk 109 is normally disposed at a position where it is not detected by the light receiving element 105 d, the control device can identify the 12 cm adapter 110.
[0273]
However, according to the present invention, the light receiving element 105b detects a passing disc by blocking light on the disc, and when the small data area 12cm disc 108 is detected by the push switch 106b as shown in FIG. When a small data area 12 cm disk 108 is detected and a normal 8 cm disk 109 passing through one end 100 a in the width direction of the disk insertion / extraction part 100 is detected by the push switch 106 b as shown in FIG. When the 12 cm adapter 110 is detected by the push switch 106b as shown in FIG. 6 without detecting the disk 109, the shaft 109a and the light receiving element 105d of the lever member 104 are disposed at positions where the 12cm adapter 110 is not detected. Although the illustration is omitted, the 12 cm adapter 110 is A normal 8 cm disc 109 inserted into the disc insertion / extraction section 100 and detected by the push switch 106a when first detected by the light receiving element 105d and passing through one end portion 100a in the width direction of the disc insertion / extraction section 100 is a disc. The control device can identify the 12 cm adapter 110 even if it is inserted in the insertion / extraction unit 100 and disposed at a position where it is not detected by the push switch 106a when it is first detected by the light receiving element 105d.
[0274]
In the present embodiment, as shown in FIG. 9, the control device detects the detection result of the light receiving element 105 c when the light receiving element 105 d first detects the disk inserted into the disk insertion / ejection unit 100, and the light receiving element. Based on both the lever member 104 and the detection result of the push switch 106a when 105d first detects the disk inserted into the disk insertion / extraction part 100, the other end part 100c in the width direction of the disk insertion / extraction part 100 is determined. Although the normal 8 cm disk 109 passing is identified and insertion / extraction is controlled, according to the present invention, the normal passing through the other end part 100c in the width direction of the disk insertion / extraction part 100 is based on only one of them. The 8 cm disc 109 may be identified and insertion / extraction may be controlled.
[0275]
In this embodiment, the disc recording / reproducing apparatus has a light receiving element 105a on the upstream side of the roller member 103 in the disc insertion direction, and is a normal 12 cm disc 107 inserted into the disc insertion / ejection unit 100 (see FIG. 3). The normal 8 cm disc 109 (see FIG. 5) that passes through one end portion 100 a in the width direction of the disc insertion / extraction portion 100 and the normal 8 cm disc 109 (see FIG. 8) that passes through the central portion 100 b in the width direction of the disc insertion / extraction portion 100. Before contact with the roller member 103, a normal 12cm disc 107 (see FIG. 3), a normal 8cm disc 109 (see FIG. 5) passing through one end 100a in the width direction of the disc insertion / extraction portion 100, and a disc Arranged at a position to detect a normal 8 cm disc 109 (see FIG. 8) passing through the central portion 100b in the width direction of the insertion / extraction portion 100 Therefore, the outer diameter of the normal 12 cm disc 107 (see FIG. 3), the normal 8 cm disc 109 (see FIG. 5) passing through one end 100a in the width direction of the disc insertion / extraction portion 100, and the outer diameter of the normal 12 cm disc 107 are substantially the same. 12 cm adapter 110 (see FIG. 6) or a normal 8 cm disc 109 (see FIG. 8) passing through the central portion 100b in the width direction of the disc insertion / extraction portion 100 before the roller member 103 is brought into contact with the roller member 103. When driven, a normal 12 cm disc 107 (see FIG. 3), a normal 8 cm disc 109 (see FIG. 5) passing through one end 100a in the width direction of the disc insertion / extraction portion 100, a 12 cm adapter 110 (see FIG. 6), or A normal 8 cm disc 109 (see FIG. 8) that passes through the central portion 100 b in the width direction of the disc insertion / extraction portion 100 is a roller member 10. From the point of time when it is manually inserted until it comes into contact with the roller member 103, a normal 12cm disc 107 (see FIG. 3), a normal 8cm disc 109 (see FIG. 5) passing through one end portion 100a in the width direction of the disc insertion / extraction portion 100, The 12 cm adapter 110 (see FIG. 6) or the normal 8 cm disc 109 (see FIG. 8) that passes through the central portion 100b in the width direction of the disc insertion / extraction portion 100 can be started to be inserted by the roller member 103, and the operation feeling Can be improved.
[0276]
However, according to the present invention, in the disk recording / reproducing apparatus, even if the light receiving element 105 a is disposed upstream of the roller member 103 in the disk insertion direction, the disk detected by the light receiving element 105 a is applied to the roller member 103. The disk can be started to be inserted by the roller member 103 before being manually inserted more than half of the roller member 103 downstream from the roller member 103 in contact with the roller member 103, and the operational feeling can be improved.
[0277]
Further, in the present embodiment, in the disk recording / reproducing apparatus, as shown in FIG. 9, the light receiving element 105b is on the upstream side in the disk insertion direction from the roller member 103 and is inserted into the disk insertion / ejection unit 100. Since the normal 8 cm disc 109 passing through the other end portion 100 c in the width direction of the discharge portion 100 is disposed at a position where the normal 8 cm disc 109 is detected before contacting the roller member 103, the width of the disc insertion / extraction portion 100 is determined. The normal 8 cm disk 109 passing through the other end 100 c in the direction is driven before the roller member 103 contacts the roller member 103, and the normal 8 cm disk 109 is manually inserted up to the roller member 103 and contacts the roller member 103. From the point of time, it is usually possible to start inserting the 8 cm disc 109 by the roller member 103, and the operation fee It is possible to improve the packaging.
[0278]
However, according to the present invention, even if the light receiving element 105b is arranged upstream of the roller member 103 in the disk insertion direction, the roller member 103 is in contact with the roller member 103 while the disk detected by the light receiving element 105b is in contact with the roller member 103. The disk can be started to be inserted by the roller member 103 before being manually inserted more than half in the downstream in the insertion direction, and the operation feeling can be improved.
[0279]
In the present embodiment, in the disk recording / reproducing apparatus, the shaft portion 104a of the lever member 104 is disposed upstream of the roller member 103 in the disk insertion direction, and the disk detected by the push switch 106a is the roller member. The disk can be started to be inserted by the roller member 103 before being manually inserted more than half of the roller member 103 in the insertion direction downstream side while being in contact with the roller 103, and the operation feeling can be improved.
[0280]
In the present embodiment, the disc recording / reproducing apparatus detects the lever member 104 and the push switch 106a because the shaft portion 104a of the lever member 104 is disposed upstream of the roller member 103 in the disc insertion direction. The disk can be started to be inserted by the roller member 103 before it is manually inserted more than half of the roller member 103 in the insertion direction downstream side while contacting the roller member 103, and the operational feeling can be improved. it can.
[0281]
Further, in the disk recording / reproducing apparatus, the roller member 103 is disposed at a position where the disc identification by the control device is completed before the contact with the inserted disk is released. The disc can be inserted or ejected by the roller member 103 by determining whether the disc is inserted inside or ejected outside while the disc is to be accidentally inserted. Can do.
[0282]
In addition, when the disc recording / reproducing apparatus normally transports the 8 cm disc 109 to the loading completion position, the control device turns on the rotating means for rotating the disc based on the identified outer diameter of the disc during recording / reproducing of the disc. What is necessary is just to comprise the rotational force control means which controls the rotational force of a table (not shown).
[0283]
When the disc recording / reproducing device normally transports the 8 cm disc 109 to the loading completion position and the control device constitutes the rotational force control means, the control device has a data area of 8 cm in diameter and the outer diameter is 8 cm. A normal 8 cm disk 109 and a small data area 12 cm disk 108 having a data area of 8 cm in diameter but having an outer diameter of 12 cm can be distinguished from each other. By applying different rotational force to the disk 108 according to the weight of the disk, the normal 8 cm disk 109 and the small data area 12 cm disk 108 can be rotated at the same predetermined number of rotations.
[0284]
In the present embodiment, the first disk and the second disk are a normal 12 cm disk and a normal 8 cm disk, respectively. However, according to the present invention, the outer diameters of the first disk and the second disk are as follows. It may be other than 12 cm or 8 cm.
[0285]
In the present embodiment, the disk passage contact detection means and the end passage contact detection means have been described with the lever member 104 and the push switches 106a and 106b. However, according to the present invention, the contact If the configuration is such that the disc passing through the disc insertion / ejection unit 100 can be detected, the contact detection means when passing the disc and the contact detection means when passing the end are detected directly by a push switch without using the lever member 104. For example, a configuration using a member other than the lever member 104 and the push switches 106a and 106b, such as a device using a photo interrupter or a device using a photo LED and a photo transistor, may be used.
[0286]
【The invention's effect】
As described above, according to the present invention, the disk inserted into the disk insertion / ejection part is the first disk, the small data area disk, the second disk passing through one end in the width direction of the disk insertion / ejection part, In the case of either a hollow disk or a transparent disk, the disk inserted into the disk insertion / extraction part is the first disk or the small data area disk, or passes through one end of the disk insertion / extraction part in the width direction. Can identify whether it is a second disc, hollow disc or transparent disc A hollow disc or transparent disc inserted into the disc insertion / extraction portion, or a second disc that passes through one end of the disc insertion / extraction portion in the width direction can be discharged to the outside. A disc insertion / ejection device and a disc recording / reproducing device can be provided.
[Brief description of the drawings]
FIG. 1 is a top view of a main part of a disc recording / reproducing apparatus according to an embodiment of the present invention.
2A is a front view of the main part of the disc recording / reproducing apparatus shown in FIG.
(B) Front view of the main part of the disc recording / reproducing apparatus shown in FIG. 1 in a state different from FIG.
3 is a top view of the main part of the disk recording / reproducing apparatus shown in FIG. 1 when a normal 12 cm disk passes through the disk insertion / ejection unit.
4 is a top view of the main part of the disc recording / reproducing apparatus shown in FIG. 1 when a small data area 12 cm disc passes through the disc insertion / ejection unit. FIG.
5 is a top view of the main part of the disc recording / reproducing apparatus shown in FIG. 1 when a normal 8 cm disc passes through one end of the disc insertion / extraction portion in the width direction.
6 is a top view of the main part of the disc recording / reproducing apparatus shown in FIG. 1 when the 12 cm adapter passes through the disc insertion / ejection unit. FIG.
7 is a top view of the main part of the disk recording / reproducing apparatus shown in FIG. 1 when a transparent 12 cm disk passes through the disk insertion / ejection unit.
8 is a top view of the main part of the disc recording / reproducing apparatus shown in FIG. 1 when a normal 8 cm disc passes through the central portion in the width direction of the disc insertion / extraction portion.
9 is a top view of the main part of the disc recording / reproducing apparatus shown in FIG. 1 when a normal 8 cm disc passes through the other end in the width direction of the disc insertion / extraction portion.
10 is a top view of the main part of the disc recording / reproducing apparatus shown in FIG. 1 when a normal 12 cm disc passes through the disc insertion / ejection unit in a state different from the state shown in FIG.
11 is a top view of the main part of the disc recording / reproducing apparatus shown in FIG. 1 when a small data area 12 cm disc passes through the disc insertion / ejection unit in a state different from the state shown in FIG.
12 is a top view of the main part of the disc recording / reproducing apparatus shown in FIG. 1 when the 12 cm adapter passes through the disc insertion / ejection unit in a state different from the state shown in FIG.
13 is a top view of the main part of the disc recording / reproducing apparatus shown in FIG. 1 when a normal 8 cm disc passes through one end in the width direction of the disc insertion / ejection unit in a state different from the state shown in FIG.
14 is a top view of the main part of the disc recording / reproducing apparatus shown in FIG. 1 when a normal 12 cm disc passes through the disc insertion / ejection unit in a state different from the state shown in FIGS. 3 and 10. FIG.
15 is a top view of the main part of the disc recording / reproducing apparatus shown in FIG. 1 when the 12 cm adapter passes through the disc insertion / ejection unit in a state different from the state shown in FIGS. 6 and 12. FIG.
16 is a top view of the main part of the disc recording / reproducing apparatus shown in FIG. 1 when the transparent 12 cm disc passes through the disc insertion / ejection unit in a state different from the state shown in FIG.
FIG. 17 is a timing chart of the output of each detection means of the disk recording / reproducing apparatus shown in FIG. 1 when a normal 12 cm disk passes through the disk insertion / ejection unit.
18 is a timing chart of the output of each detection means of the disk recording / reproducing apparatus shown in FIG. 1 when a small data area 12 cm disk passes through the disk insertion / ejection unit.
19 is a timing chart of the output of each detection means of the disc recording / reproducing apparatus shown in FIG. 1 when a normal 8 cm disc passes through one end in the width direction of the disc insertion / extraction portion.
20 is a timing chart of the output of each detection means of the disc recording / reproducing apparatus shown in FIG. 1 when a normal 8 cm disc passes through the central portion in the width direction of the disc insertion / ejection portion.
FIG. 21 is a timing chart of the output of each detection means of the disk recording / reproducing apparatus shown in FIG. 1 when a normal 8 cm disk passes through the other end in the width direction of the disk insertion / ejection unit.
22 is a timing chart of the output of each detection means of the disk recording / reproducing apparatus shown in FIG. 1 when the 12 cm adapter passes through the disk insertion / ejection unit.
23 is a timing chart of the output of each detection means of the disk recording / reproducing apparatus shown in FIG. 1 when a transparent 12 cm disk passes through the disk insertion / ejection unit.
24 is a top view of the main part of the disc recording / reproducing apparatus shown in FIG. 1 when two 12 cm discs pass through the disc insertion / ejection unit. FIG.
FIG. 25A is a timing chart of the outputs of the detection means of the disc recording / reproducing apparatus shown in FIG. 1 when two 12 cm discs pass through the disc insertion / ejection unit.
(B) Timing chart of the output of each detection means of the disk recording / reproducing apparatus shown in FIG. 1 when one 12 cm disk passes through the disk insertion / ejection unit
FIG. 26 is a top view of the main part of a conventional disc recording / reproducing apparatus before a 12 cm disc is inserted.
27 is a front view of the main part of the disc recording / reproducing apparatus shown in FIG. 26. FIG.
28 is a top view of the main part of the disc recording / reproducing apparatus shown in FIG. 26 when a 12 cm disc passes through the disc insertion slot.
FIG. 29 is a top view of a 12 cm adapter.
[Explanation of symbols]
100 Disc insertion / extraction section
100a one end
100b center
100c The other end
101a Protrusion (limitation means)
102a, 102b Protrusion (regulator)
103 Roller member (conveying means)
104 Lever member (contact detection means when passing through disk, contact detection means when passing through end)
105a Light receiving element (non-detection disk light detection means, light detection means)
105b Light receiving element (contact detection light detection means, light detection means)
105c Light-receiving element (passing disk light detection means, light detection means)
105d Light receiving element (light detecting means when passing through disk, light detecting means)
106a Push switch (contact detection means when the disc passes)
106b Push switch (contact detection means when passing through the end)
107 Normal 12cm disc (first disc, disc)
108 Small data area 12cm disk (small data area disk, disk)
108a Data area
109 Normal 8cm disc (second disc, disc)
110 12cm adapter (hollow disk, disk)
110a hollow hole
111 Transparent 12cm disc (transparent disc, disc)
112, 113 12cm disc (disc)

Claims (36)

A first disk having a light-shielding property, a second disk having a smaller outer diameter than the first disk and having a light-shielding property, and the outer diameter is substantially the same as the first disk, and the second disk at the center. small data area disk radius having translucency in a portion other than the pre-Symbol data area have a data area with and shielding properties substantially the same, and the outer diameter of the first disk is substantially the same, wherein the center second disc and radius is formed a hollow bore is substantially the same, and the disc insertion-ejection section for insertion and ejection of the disk that contains a hollow disk having a light shielding property, the disc inserted by the disc are in contact light for detecting that the time of contact detection means ends pass for detecting that one end portion in the width direction of the discharge portion is the disk passes before SL disk by that light is blocked in the disk passes A contact detection when the light detecting means as means output, conveying means for insertion and ejection by transporting the disc, and control means for controlling the insertion and ejection operation of the disk by the transport means, the contact detection when the light detecting means the when the end passes when the contact detecting means detects the passage of the small data area disk to detect the passage of a small data area disk, said end passage time of contact detection means detects the passage of the hollow disc wherein a no detection position the passage of the hollow disc, and the passage of the second disk passing through the end portion in the width direction of the disc insertion-ejection section is detected in said end pass when contact detection means when when, disposed in a position that does not detect the passage of the second disk, said control means, said contact detection when the end passes when the contact detecting means detects said disk If the light detection means does not detect the disk, the disk insertion-ejection device, characterized in that for discharging the disc to the transporting unit. Passing disk light detection means as the light detection means for detecting the disk that passes when light is blocked by the disk,
The contact detection time light detection means and the passing disk light detection means are configured such that the first disk, the small data area disk, and the hollow disk are inserted into the disk insertion / extraction portion, and the passing disk light detection is performed first. The second disk passing through one end in the width direction of the disk insertion / extraction part is detected by the light detection means at the time of contact detection when the means detects the passage of the disk; When inserted into the insertion / extraction portion, when the passage of the disc is first detected by the passage disc light detection means, it is arranged at a position where the passage detection of the disc is not detected by the light detection means at the time of contact detection. When the passing disk light detection means first detects the passage of the disk inserted into the disk insertion / ejection portion, the contact detection light detection means is If you do not detect the passage of click, as described above ejects the disk conveying means, the disc insertion-ejection device according to claim 1, wherein the controlling the insertion and ejection operation of the disk by the conveying means. Light detecting means for passing through a disk as the light detecting means for detecting the disk that passes when light is blocked by the disk, and the light detection for detecting the disk that passes when light is blocked by the disk A passing disk light detection means as a means,
The width of the disc insertion / extraction portion is substantially the same as the outer diameter and length of the first disc,
The disk passage light detection means and the passage disk light detection means are configured such that the first disk and the hollow disk are inserted into the disk insertion / extraction portion and the passage of the disk is first detected by the passage disk light detection means. The passage of the disc is detected by the light detection means when the disc passes, and the second disc passes through one end of the disc insertion / extraction portion in the width direction, and the disc insertion / extraction portion When the second disk passing through the central part in the width direction of the disk is inserted into the disk insertion / ejection part and the passage of the disk is first detected by the passing disk light detection means, The second disk passing through the other end in the width direction of the disk insertion / ejection part is not inserted into the disk insertion / ejection part and is When the passage of the disk is detected by the light detection means at the time of passing through the disk, the control means is disposed at a position where the passage of the disk is not detected by the passage disk light detection means. If the passing disk light detecting means does not detect the passing of the disk when the passing of the inserted disk is first detected, the insertion of the disk by the conveying means is caused to cause the conveying means to eject the disk. The disk insertion / ejection device according to claim 1, wherein the ejection operation is controlled. A disk passage light detection means as the light detection means for detecting the disk that passes when light is blocked by the disk; and a disk passage contact detection means for detecting the disk that is passed by contact of the disk. Prepared,
The width of the disc insertion / extraction portion is substantially the same as the outer diameter and length of the first disc,
The disc passage light detection means and the disc passage contact detection means are configured such that when the first disc and the hollow disc are inserted into the disc insertion / ejection portion, the passage detection of the disc is first detected by the disc passage contact detection means. The passage of the disc is detected by the light detection means when the disc passes, and the second disc passes through one end of the disc insertion / extraction portion in the width direction, and the disc insertion / extraction portion When the second disk passing through the center in the width direction of the disk is inserted into the disk insertion / ejection part and the passage detection of the disk is first detected by the disk passage contact detection means, Is not detected, and the second disk passing through the other end in the width direction of the disk insertion / extraction part is inserted into the disk insertion / extraction part. First, when the passage of the disk is detected by the light detection means at the time of passage of the disk, the contact detection means at the time of passage of the disk does not detect the passage of the disk, and the control means includes the light detection means at the time of passage of the disk. When the disk passage contact detection means does not detect the passage of the disk when the passage of the disk inserted into the disk insertion / ejection section is first detected, the transporting means ejects the disk. 2. The disc insertion / extraction apparatus according to claim 1, wherein the disc insertion / extraction operation by the conveying means is controlled. The disk that passes when light is blocked by the disk is detected , and at least a second disk that is not detected by the light detection means at the time of contact detection is detected among the second disks that pass through the disk insertion / ejection unit. A non-detection disk light detection means as the light detection means disposed at a position; a disk passage time light detection means as the light detection means for detecting the disk that passes when light is blocked by the disk; and A disc passage contact detection means for detecting the disc passing by contact of the disc,
The width of the disc insertion / extraction portion is substantially the same as the outer diameter and length of the first disc,
The contact detection light detection means, the non-detection disk light detection means, the disk passage light detection means, and the disk passage contact detection means include the first disk, the small data area disk, and the width of the disk insertion / extraction portion. The second disk passing through one end in the direction, the second disk passing through the other end in the width direction of the disk insertion / extraction part, and the hollow disk are inserted into the disk insertion / extraction part. The passage of the disk is detected by at least one of the contact detection time light detection means and the non-detection disk light detection means, and the passage of the disk is detected by both the contact detection time light detection means and the non-detection disk light detection means. Before the disc is detected, the passage of the disc is detected by at least one of the disc passage light detection means and the disc passage contact detection means. The second disk passing through the central part in the width direction of the disk insertion / extraction part is inserted into the disk insertion / extraction part, and a disk is provided as at least one of the contact detection time light detection means and the non-detection disk light detection means. Before the detection of the passage of the disk and the passage of the disk is not detected by both the light detection means when detecting the contact and the non-detection disk light detection means, both the light detection means when passing the disk and the contact detection means when passing the disk Is arranged at a position where the passage of the disk is not detected, and the control means detects at least one of the contact detection light detection means and the non-detection disk light detection means to detect the passage of the disk, and detects the light detection means at the time of contact detection. And the non-detection disk light detection means before the disk passage detection is stopped before the disk passage detection is detected. And when the disc passing light detection means does not detect the passage of the disc, the disc drive operation of the disc is controlled by the carrying device so that the disc is ejected by the carrying device. The disc insertion / extraction apparatus according to claim 3. The disk that passes when light is blocked by the disk is detected, and at least a second disk that is not detected by the light detection means at the time of contact detection is detected among the second disks that pass through the disk insertion / ejection unit. a non-detection disk light detecting means as said light detecting means disposed in a position, before SL and a disk pass upon contact detecting means for detecting the disk to pass by the contact of the disc,
Before SL contact detection when the light detecting means, the non-detection disk light detecting means, said disc when passing light detecting means and said disk passage time of contact detecting means, said first disk, the small data area disk, the disk insertion-ejection section The second disk passing through one end in the width direction, the second disk passing through the other end in the width direction of the disk insertion / extraction part, and the hollow disk are inserted into the disk insertion / extraction part. Te, on at least one is detected the passage of the disk of the contact detection when the light detecting means and the non-detection disk light detecting means, detects the passage of the disk to both the touch detection when the light detecting means and the non-detection disk light detecting means before being longer be, detected the passage of the disc to at least one of the disk when passing light detecting means and the disk pass when contact detection means Said second disk passing through the center in the width direction of the disc insertion-ejection section, the inserted into the disc insertion-ejection section, the contact detection when the light detecting means and on at least one disk of the non-detection disk light detecting means both of pass is detected and, both before is not detected the passage of the disc of the contact detection when the light detecting means and the non-detection disk light detecting means, said disc when passing light detecting means and the disk pass when contact detection means Is arranged at a position where the passage of the disk is not detected, and the control means detects at least one of the contact detection light detection means and the non-detection disk light detection means to detect the passage of the disk, and detects the light detection means at the time of contact detection. And the non-detection disk light detection means before the disk passage detection is stopped before the disk passage detection is detected. And when the disc passing light detection means does not detect the passage of the disc, the disc drive operation of the disc is controlled by the carrying device so that the disc is ejected by the carrying device. The disc insertion / extraction apparatus according to claim 3. The disk that passes when light is blocked by the disk is detected, and at least a second disk that is not detected by the light detection means at the time of contact detection is detected among the second disks that pass through the disk insertion / ejection unit. is arranged at a position with a non-detection disk photodetection hand stage as said light detecting means,
The contact detection light detection means, the non-detection disk light detection means, the disk passage light detection means, and the disk passage contact detection means include the first disk, the small data area disk, and the width of the disk insertion / extraction portion. The second disk passing through one end in the direction, the second disk passing through the other end in the width direction of the disk insertion / extraction part, and the hollow disk are inserted into the disk insertion / extraction part. The passage of the disk is detected by at least one of the contact detection time light detection means and the non-detection disk light detection means, and the passage of the disk is detected by both the contact detection time light detection means and the non-detection disk light detection means. before disappears, it detected the passage of the disc to at least one of the disk when passing light detecting means and the disk pass when contact detection means Said second disk passing through the center in the width direction of the disc insertion-ejection section, the inserted into the disc insertion-ejection section, the contact detection when the light detecting means and on at least one disk of the non-detection disk light detecting means both of pass is detected and, both before is not detected the passage of the disc of the contact detection when the light detecting means and the non-detection disk light detecting means, said disc when passing light detecting means and the disk pass when contact detection means Is arranged at a position where the passage of the disk is not detected, and the control means detects at least one of the contact detection light detection means and the non-detection disk light detection means to detect the passage of the disk, and detects the light detection means at the time of contact detection. And the non-detection disk light detection means before the disk passage detection is stopped before the disk passage detection is detected. And when the disc passing light detection means does not detect the passage of the disc, the disc drive operation of the disc is controlled by the carrying device so that the disc is ejected by the carrying device. The disc insertion / extraction device according to claim 4. A disk when passing light detecting means as said light detecting means for detecting the disk to pass by the light is blocked in the disc, the detection disk passes upon contact detecting said disk to pass I by the contact of the disc Means and
The light detection means at the time of contact detection detects the passage of the small data area disk when the small data area disk detects the passage of the disk by the contact detection means at the time of end passage, and the width of the disk insertion / extraction portion When the second disk passing through one end of the direction is detected by the contact detection means when the end is passing, the second disk is not detected, and the hollow disk is passing through the end. It is disposed at a position where it does not detect the passage of the hollow disk when the passage detection of the disk is detected by the contact detection means, and the control means is configured such that the light detection means when the disk passes is inserted into the disk insertion / extraction portion. When the passage is first detected, the disk passage contact detection means detects the passage of the disk, and the end passage contact detection means detects the passage of the disk. When the contact detection light detection means does not detect the passage of the disk, the disk insertion / extraction operation by the conveyance means is controlled so that the conveyance means ejects the disk. Item 1. The disk insertion / extraction device according to item 1. The light receiving element non-detection disk light detection means, the contact detection time light detection means, the passing disk light detection means, and the disk passage time light detection means are detected when the passage of the disk is detected by the end passage contact detection means. The first disk, the small data area disk, the second disk, the hollow disk, the light receiving element non-detection disk light detection means, the contact detection light detection means, the passing disk light detection means, the disk When any of the passage-time light detection means is disposed at a position for detecting the passage of the disk, and the light detection means does not detect the passage of the disk when the end-passage contact detection means detects the passage of the disk. Control means for controlling the insertion / extraction operation of the disk by the conveying means so that the conveying means ejects the disk. Disk insertion-ejection device according to any one of claims 5 to 7, characterized in that to obtain. If the light detection means at the time of contact detection does not detect the passage of the disk when the passage disk light detection means first detects the passage of the disk inserted into the disk insertion / ejection unit, the disk is inserted into the transport means. The disc insertion / ejection device according to claim 2, further comprising a control unit that controls an insertion / ejection operation of the disc by the transport unit so as to be inserted. If the passing disk light detection means does not detect the passing of the disk when the passing light detection means first detects the passing of the disk inserted into the disk insertion / ejection unit, the disk is inserted into the transport means. 4. The disc insertion / extraction apparatus according to claim 3, further comprising a control unit that controls an insertion / extraction operation of the disc by the transport unit so as to be inserted. When the disc passage-time contact detection means does not detect passage of the disc when the disc passage-time light detection means first detects passage of the disc inserted into the disc insertion / ejection section, The disc insertion / ejection device according to claim 4, further comprising a control unit that controls an insertion / ejection operation of the disc by the transport unit. At least one of the contact detection time light detection means and the non-detection disk light detection means detects the passage of the disk, and both the contact detection time light detection means and the non-detection disk light detection means detect the passage of the disk. Before the disk passing contact detection means and the disk passing light detection means do not detect the passage of the disk, the insertion of the disk by the conveyance means is caused to cause the conveyance means to insert the disk. 9. The disc insertion / ejection device according to claim 6, further comprising control means for controlling the ejection operation. A conveying means that is arranged downstream of the contact detection light detection means in the insertion direction of the disk and conveys and inserts and removes the disk;
  10. The disc insertion device according to claim 1, further comprising a control unit that controls an insertion operation of the disc by the transport unit based on a detection result of the light detection unit at the time of contact detection. Drainage device. The light detection means at the time of contact detection is inserted into the disk insertion / ejection part, and before the second disk passing through the other end in the width direction of the disk insertion / ejection part comes into contact with the transport means, the second The disk insertion / ejection device according to claim 14, wherein the disk insertion / ejection apparatus is disposed at a position where the passage of the disk is detected. A conveying means disposed downstream of the non-detecting disk light detecting means in the insertion direction of the disk, for conveying the disk and inserting and ejecting the disk;
The disc insertion / ejection device according to claim 5 or 6, further comprising a control unit that controls an insertion operation of the disc by the transport unit based on a detection result of the non-detection disc light detection unit. . The non-detection disk light detection means is disposed at a position for detecting the passage of the first disk before the first disk inserted into the disk insertion / ejection unit contacts the transport means. The disk insertion / ejection device according to claim 16, wherein The non-detection disc light detection means is inserted into the disc insertion / extraction portion, and the second disc passing through the central portion of the disc insertion / extraction portion in the width direction comes into contact with the transport means before the second disc. The disk insertion / ejection device according to claim 16 or 17, wherein the disk insertion / ejection apparatus is disposed at a position where the passage of the disk is detected. The non-detection disk light detection means is inserted into the disk insertion / ejection part, and before the second disk passing through one end portion in the width direction of the disk insertion / ejection part comes into contact with the conveyance means, the second 19. The disk insertion / ejection device according to claim 16, wherein the disk insertion / ejection apparatus is disposed at a position where the passage of the disk is detected. Conveying means disposed downstream of the contact detection means when passing through the disk in the insertion direction of the disk, for conveying and inserting and discharging the disk;
  9. The disc according to claim 4, further comprising a control unit that controls an insertion operation of the disc by the transport unit based on a detection result of the contact detection unit when the disc passes. Insertion and removal device. Conveying means for conveying and inserting and ejecting the disk, arranged on the downstream side in the insertion direction of the disk from the contact detecting means at the end passage and the light detecting means at the time of contact detection,
Control means for controlling the insertion / extraction operation of the disk by the transport means based on the detection result of the light detection means at the time of contact detection when the contact detection means at the time of end passage detection detects the passage of the disk. 10. The disc insertion / extraction device according to claim 1, wherein the disc insertion / extraction device is characterized in that: A conveying means disposed at a position where the disc is identified before the disc is inserted and removed, and before contact with the disc being inserted is released;
  10. The disc insertion / extraction apparatus according to claim 1, further comprising a control unit that controls an insertion / extraction operation of the disc by the transport unit. The passing disk light detecting means detects the first disk when the first disk is ejected from the disk inserting / ejecting portion, and then detects the passage of the first disk that is in contact with the conveying means. 4. The disc insertion / ejection device according to claim 2 or 3, wherein the disc insertion / ejection device is arranged at a position where it is not detected. The passing disk light detecting means detects the passing of the small data area disk when the small data area disk is ejected from the disk insertion / ejection section, and then detects the small data area disk in contact with the conveying means. The disk insertion / ejection device according to claim 2 or 3, wherein the disk insertion / ejection device is disposed at a position where passage is not detected. The passing disk light detecting means detects the passage of the second disk when the second disk passing through the central part in the width direction of the disk inserting / ejecting part is ejected from the disk inserting / ejecting part. 4. The disc insertion / extraction apparatus according to claim 2, wherein the disc insertion / ejection device is disposed at a position where the second disc in contact with the transport means is not detected. The passing disk light detecting means is configured to detect the second disk when the second disk passing through one end portion in the width direction of the disk insertion / ejection portion is ejected from the disk insertion / ejection portion. 4. The disc insertion / ejection device according to claim 2, wherein the disc insertion / ejection device is disposed at a position where the second disc in contact with the transporting unit is not detected after the passage of the disc is detected. The disc light detection means detects the passage of the second disc when the second disc passing through the other end in the width direction of the disc insertion / ejection portion is ejected from the disc insertion / ejection portion. 9. The disk insertion / ejection device according to claim 3, wherein the disk insertion / extraction apparatus is disposed at a position where the second disk in contact with the transporting unit is not detected. After the disc passing contact detection means detects the passage of the transparent disc when the transparent disc having the same outer diameter as the first disc and the whole transparent disc is ejected from the disc insertion / ejection section. 9. The disc insertion / ejection device according to claim 5, wherein the disc insertion / ejection device is disposed at a position where the passage of the transparent disc in contact with the transport means is not detected. The control means stops the insertion operation of the disk by the conveying means when the end passage contact detecting means detects the disk a plurality of times when the conveying means is inserting the disk. 10. The disc insertion / extraction device according to claim 1, wherein the disc insertion / extraction device is characterized in that: A disk identification device according to any one of claims 1 to 9,
Conveying means for conveying and inserting and ejecting the disk;
Control means for controlling the insertion / extraction operation of the disk by the conveying means,
The control means causes the conveying means to eject the disk when the end-passage contact detecting means detects the passage of the disk a plurality of times when the disk is inserted into the conveying means. Disc insertion and removal device. 31. The disc insertion / extraction portion according to claim 10, further comprising a regulation portion that regulates the passage of the disc, in which a plurality of discs overlap each other, by contacting the disc. Disc insertion and removal device. 32. The apparatus according to claim 10, further comprising a limiting unit configured to limit movement of the transport unit in a thickness direction of the disk passing through the disk insertion / ejection unit by contacting the transport unit. The disc insertion / ejection device according to any one of the above. The disk insertion / ejection device according to claim 31 or 32, wherein the control unit causes the conveyance unit to eject the disk after a predetermined time has elapsed from the start of insertion of the disk by the conveyance unit. . 34. The disk insertion / ejection device according to claim 1, wherein the diameter of the first disk is 12 cm, and the diameter of the second disk is 8 cm. 35. A disc recording / reproducing apparatus comprising the disc insertion / ejection device according to any one of claims 10 to 34. Rotating means for rotating the disk;
36. The disc recording / reproducing apparatus according to claim 35, further comprising: a rotational force control unit that controls a rotational force of the rotating unit based on the identified outer diameter of the disc.

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