JPH11149689A - Information processor - Google Patents

Abstract

PROBLEM TO BE SOLVED: To eject a disk when power is turned OFF by detecting the pressing of an eject button or a loading button when power for a storage device is turned OFF, turning a power supply circuit ON to supply power to a storage circuit and actuating a loading mechanism. SOLUTION: When power is turned OFF, a power supply circuit 6 is not actuated while an eject button 2 is not pressed, but when the eject button 2 is pressed in a power OFF state, an ejecting signal is generated. The ejecting signal is passed through reverse flow preventing diodes D1 and D2 to become a power starting signal for a power supply circuit 6, thus a power switch 7 is turned ON and power is supplied from the power supply circuit 6 to a storage device 1. Since the eject signal is also supplied to a loading mechanism part 5 simultaneously, the loading mechanism 5 is also actuated, a tray 3 is ejected/ housed and thus a disk is replaced by another without using any jigs even while power is OFF.

Description

DETAILED DESCRIPTION OF THE INVENTION

[0001]

BACKGROUND OF THE INVENTION 1. Field of the Invention The present invention relates to an information processing apparatus such as a personal computer, and more particularly, to a storage device capable of exchanging a disk-type storage medium without using a jig or the like when the power is turned off. The present invention relates to an information processing apparatus capable of performing ejection or loading.

[0002]

2. Description of the Related Art A disk-type storage medium (hereinafter abbreviated as a disk, for example) is replaceable, for example, a CD-ROM.
2. Description of the Related Art A storage device such as a drive has been generally used in an information processing device such as a personal computer.

FIG. 4 is a perspective view showing an example of an internal structure of a storage device using an electronic ejection system. In the figure, 1 indicates a storage device, 2 indicates an eject button, 3 indicates a tray, and an arrow indicates a tray operation direction.

The storage device 1 is a disk-exchangeable storage device having at least a tray 3 on which a disk is loaded and a tray loading mechanism for moving the tray. Each time the eject button 2 is pressed, the tray 3 is replaced.
Can be electronically ejected or loaded. CD-RO as shown in FIG.
In a storage device such as an M drive, a method of exchanging (removing or mounting) a disk is roughly classified into the following two methods.

[0005] First, the user ejects or loads the disc by mechanically pulling out / retracting it with a lid or a drawer-type tray, or ejecting / loading the disc itself or a protective case containing the disc, thereby replacing the disc. (Mechanical method). Secondly, the disc is ejected or loaded by operation of a switch or the like by electronically pulling out / storing by a lid or a drawer-type tray, or by sweeping / taking in the disc itself or a protective case containing the disc. This is a method of performing exchange (electronic method). Next, an information processing apparatus employing an electronic method for disk exchange will be briefly described.

FIG. 5 is a perspective view showing an example of an external structure of an information processing apparatus having a disk storage device. Reference numerals in the figure are the same as those in FIG. 4, and reference numeral 4 denotes an information processing device.

FIG. 6 is a functional block diagram showing an example of a main configuration of a storage device and a power supply unit in a conventional information processing apparatus. The reference numerals in the figure are the same as those in FIG. 4; 5 is a tray loading mechanism, 6 is a power supply circuit, and 7 is a power switch.

[0008] The tray 3 has a rotating shaft for rotating the disk. Tray loading mechanism 5
Is a drive unit for loading the tray 3 into the storage device 1 by a drive device such as a motor or ejecting the tray 3 to the outside. The eject button 2 is provided when the Vcc power is supplied from the power supply circuit 6. When the button is pressed, the eject signal goes to the low level, and the drive is started in response to the change. However, if the supply of the Vcc power is stopped, the drive is immediately stopped. The power supply circuit 6 is a circuit for supplying power to the storage device 1. When input power is supplied, the power switch 7 is depressed to change the power activation signal to L.
By maintaining at the ow level, it is possible to continue to supply the Vcc power. The storage device and the power supply unit adopting the electronic method for the conventional disk exchange have the above-described configurations.

[0009]

As described in the prior art, there are roughly two types of conventional disk exchange methods in a storage device. In the case of the first mechanical method, the rotation speed of the disk is increased (× 4, × 6,...)
As a result, an accident due to an ejection while the disk is rotating is assumed, so that at least a high-speed CD-ROM drive or the like is becoming an electronic eject that ejects after the rotation of the disk is stopped. On the other hand, in the second electronic method, ejection or loading can be performed while power is supplied to the storage device, but there is a disadvantage that ejection and loading cannot be performed while the power is off.

Therefore, as a countermeasure for exchanging a disk when the power is turned off, there is known a method of performing an emergency eject using a jig such as a clip or a pin. Need. At the same time, there is a need to reduce power consumption when it is not in use, and it is necessary to take measures to cut power supply when not in use. It is essential to let them. SUMMARY OF THE INVENTION It is an object of the present invention to provide an information processing apparatus capable of ejecting or loading a disk without using a jig or the like when the power is turned off.

[0011]

According to the first aspect of the present invention, there is provided an information storage device having a storage device for operating a tray loading mechanism by pressing an eject button or a loading button, and a power supply circuit for supplying power to the storage device. In the processing device, press detection means for detecting press of the eject button or loading button while the power of the storage device is turned off, and while the press detection means detects the press of the button, the power supply circuit is turned on to the storage device. Means for supplying electric power to operate the loading mechanism, so that the disk can be replaced even when the power supply of the storage device is off.

According to a second aspect of the present invention, in the information processing apparatus of the first aspect, a press detection means for detecting a press of an eject button or a loading button while the power of the storage device is turned off, and a button press detection by the press detection means Means for turning on the power supply circuit for a certain period to supply power to the storage device in response to the signal and operating the loading mechanism are provided, so that the disk can be replaced even when the storage device is turned off.

According to a third aspect of the present invention, in the information processing apparatus of the first aspect, while the power of the storage device is turned off, a press detection means for detecting a press of an eject button or a loading button, and a button press detection by the press detection means. A power supply circuit is turned on by a signal to supply power to the storage device to activate the loading mechanism, and a disk position detection signal is output by detecting completion of sweeping or loading of the disk in the storage device in the power-off state. The power supply circuit stops supplying power from the power supply circuit to the storage device in accordance with the disk position detection signal, thereby enabling disk replacement even when the storage device is turned off.

[0014]

DETAILED DESCRIPTION OF THE PREFERRED EMBODIMENTS First Embodiment This first embodiment corresponds to the first aspect of the present invention. In the first embodiment, when the power of the storage device is turned off, the press of the eject button or the loading button is detected, and while the press of the button is detected, the power supply circuit is turned on to supply power to the storage device. It is characterized in that it is configured to supply and operate the loading mechanism.

FIG. 1 is a functional block diagram showing an example of an embodiment of a main configuration of a storage device and a power supply unit in an information processing apparatus according to the present invention. The reference numerals in the figure are the same as those in FIG. 6, and D1 and D2 indicate backflow prevention diodes.

In the information processing apparatus shown in FIG. 1, when the power is turned off, the power supply circuit 6 does not operate unless the eject button 2 is pressed. However, when the eject button 2 is pressed in the power-off state, an eject signal is generated, and the eject signal becomes a power activation signal of the power supply circuit 6 through the backflow prevention diodes D1 and D2. As a result, the power switch 7 is turned on, and power is supplied from the power supply circuit 6 to the storage device 1. In this case, the eject signal is
Since the loading mechanism 5 is also supplied to the loading mechanism 5, the loading mechanism 5 is also operated, so that the tray 3 is swept / stored. FIG. 1 shows a case where the power supply circuit 6 is activated while the eject button 2 is pressed.

As described above, in the first embodiment, the power supply circuit 6 in the off state is connected to the eject button 2.
By turning on only when the button is pressed, loading of the disc is enabled. That is, in the first embodiment, the power supply circuit 6 is temporarily turned on by using the eject signal generated by the eject button as the power activation signal. In FIG. 1, the backflow prevention diodes D1 and D2 activate the power supply circuit 6 not only by the dedicated power switch 7 but also by
It is connected between the power supply circuit 6 and the eject button 2 or another circuit so that it can be generated by pressing the eject button 2 or by another circuit. Therefore, according to the information processing apparatus described in the first embodiment, the disc can be ejected or loaded even when the power is off without using a jig or the like, so that the disc can be easily replaced. It becomes possible.
At the same time, the power supply from the power supply circuit 6 can be completely stopped while the replacement is unnecessary, as in the conventional case, so that power saving is achieved.

Second Embodiment This second embodiment corresponds to the second aspect of the present invention. In the first embodiment, the case where the power supply circuit 6 is activated while the eject button 2 is pressed has been described. However, in the information processing apparatus according to the first embodiment, the user needs to detect the press of the eject or loading button, supply power to the storage device, and keep pressing the button until the disc is ejected or loaded. is there. In the second embodiment, when replacing a disk when the power is off,
As in the case of normal use, it is characterized in that the disc can be ejected or loaded with only one button operation, and the operability of disc replacement is further improved.

FIG. 2 is a functional block diagram showing an example of a configuration of a main part according to a second embodiment of the storage device and the power supply unit in the information processing apparatus of the present invention. The reference numerals in the figure are the same as those in FIG. 1, and reference numeral 11 denotes a temporary holding circuit.

The newly added temporary holding circuit 11 is a circuit for holding a power supply start signal for a certain period of time. When an eject signal is input at a low level, it is transmitted as a power supply start signal while maintaining the signal level. When the power supply circuit 6 is activated and Vcc is transmitted, Vcc to the temporary holding circuit 11
Supply circuit, the internal time constant circuit starts operating, and after its output reaches a certain set level, turns off the power supply start signal. Eject button 2 with power off
Is pressed, the eject signal is output to the temporary holding circuit 11.
, The power supply circuit 6 is activated, and after the Vcc is transmitted, the ejection signal is maintained for a certain period, whereby the power supply to the storage device 1 is also maintained for a certain period.

At the same time, the ejection signal is
The data is input to the loading mechanism unit 5, and the tray 3 is swept / stored. At this time, the power activation signal is held by the temporary holding circuit 11, so that the eject button 2 need only be temporarily depressed without continuing to press it as when the power is turned on. Therefore, according to the second embodiment, the disc can be ejected or loaded by pressing the button once, similarly to the normal use (when the power is turned on), so that the disc can be easily replaced. Can be. Further, as in the case of the first embodiment, the power can be completely turned off during the time when the replacement is unnecessary, so that power saving is achieved.

Third Embodiment This third embodiment corresponds to the third aspect of the present invention. According to the information processing apparatus described in the second embodiment, when replacing a disk, even when the power is off,
As in the case of normal use, the disc can be exchanged with only one button operation. However, in this information processing device, the power is turned off without confirming the completion of the ejection or loading of the disk by ejecting or loading.Therefore, depending on the use environment, the power may be turned off during the ejecting or loading. There is. In the third embodiment, the power is turned off by using the disk position detection signal, so that the power is not turned off during the disk replacement, so that the disk can be reliably replaced. It has features.

FIG. 3 is a functional block diagram showing an example of a configuration of a main part according to a third embodiment of a storage device and a power supply unit in an information processing apparatus according to the present invention. Reference numerals in the figure are the same as those in FIG. 1, 21 is a holding circuit, 22 is a magnet, 23 is a first detection switch, and 24 is a second detection switch.

The holding circuit 21, like the temporary holding circuit 11 of FIG. 2, is a circuit for holding the power supply start signal for a certain period. When the eject signal is input at a low level, the signal is transmitted as a power activation signal while maintaining the signal level, and the disk transmitted from the first detection switch 23 or the second detection switch 24 in the storage device 1 is output. When the position detection signal changes to the low level, the power supply activation signal is turned off. The first detection switch 23 and the second detection switch 24 are magnetic sensing switches including a reed relay or the like. The first detection switch 23 is provided for detecting completion of the ejection of the disk. That is, the tray 3 is ejected,
Simultaneously with the completion of the ejection, the magnet 22 mounted on the tray 3 moves onto the first detection switch 23, turns on the first detection switch 23, and sets the disk position detection signal to the low level.

When the disk position detection signal changes to the low level, the power supply start signal is turned off and the power supply of the storage device 1 is turned off. The second detection switch 24 is used to detect the completion of the loading of the disk. When the tray 3 is loaded, the loading is completed, and at the same time, the magnet 22 mounted on the tray 3 detects the completion of the second detection. The second detection switch 24 is turned on by moving on the switch 24, and the disk position detection signal is set to Lo.
Set to w level. Thus, when the disk position detection signal changes to the low level, the power supply start signal is turned off,
The power of the storage device 1 is turned off.

As described above, in the third embodiment, the disk position detection signal is used to detect the completion of sweeping or loading of the disk in the storage device in the power-off state. That is, since the power supply circuit is turned off after the detection of the disk position detection signal, the inconvenience that the disk exchange fails during the ejection or loading process is avoided. Therefore, the disk can be reliably replaced while the power of the storage device is turned off, and the power is completely turned off during the replacement is unnecessary as in the first and second embodiments. Therefore, power saving can be realized.

[0027]

According to the first aspect of the present invention, while the power of the storage device is turned off, the press detection means for detecting the press of the eject button or the loading button and the press detection means detecting the press of the button. Means for turning on the power supply circuit and supplying power to the storage device to operate the loading mechanism. Therefore,
Even when the power is off, the disc can be ejected or loaded without using a jig or the like, so that the disc can be easily replaced. Further, the power can be completely turned off while the replacement is unnecessary, so that power saving is also realized.

In the information processing apparatus of the present invention, while the power of the storage device is turned off, the press detection means for detecting the press of the eject button or the loading button, and the button press detection signal by the press detection means, for a predetermined period, Means for turning on the power supply circuit to supply power to the storage device to operate the loading mechanism. Therefore, it is not necessary to hold down the eject or loading button even when the power is off, and the disc can be ejected or loaded by pressing the button once as in normal use. Can be. Further, similarly to the information processing apparatus according to the first aspect, the power supply can be completely turned off while the replacement is unnecessary, so that power saving is also realized.

According to a third aspect of the present invention, the power supply circuit is turned on by pressing detection means for detecting pressing of an eject button or a loading button while the power of the storage device is off, and a button pressing detection signal by the pressing detecting means. Means for supplying power to the storage device to operate the loading mechanism, and detecting the completion of sweeping or loading of the disk in the storage device in the power-off state and outputting a disk position detection signal to output a disk position detection signal Means are provided. Therefore, since the power supply circuit is turned off after the detection of the disk position detection signal, the inconvenience that the disk exchange fails during ejection or loading is avoided, and the disk exchange is reliably performed while the power of the storage device is off. It becomes possible. Further, similarly to the information processing apparatus of the first and second aspects, the power can be completely turned off while the replacement is unnecessary, so that power saving is also realized.

[Brief description of the drawings]

FIG. 1 is a functional block diagram illustrating an example of an embodiment of a main configuration of a storage device and a power supply unit in an information processing apparatus according to the present invention.

FIG. 2 is a functional block diagram illustrating an example of a main configuration of a storage device and a power supply unit according to a second embodiment of the information processing apparatus of the present invention.

FIG. 3 is a functional block diagram showing an example of a main configuration of a storage device and a power supply unit in an information processing apparatus according to a third embodiment of the present invention;

FIG. 4 is a perspective view showing an example of an internal structure of a storage device using an electronic ejection method.

FIG. 5 is a perspective view showing an example of an external structure of an information processing apparatus having a disk storage device.

FIG. 6 is a functional block diagram showing an example of a main configuration of a storage device and a power supply unit in a conventional information processing apparatus.

[Explanation of symbols]

DESCRIPTION OF SYMBOLS 1 ... Storage device, 2 ... Eject button, 3 ... Tray, 4 ... Information processing device, 5 ... Tray loading mechanism part, 6 ... Power supply circuit, 7 ... Power switch

Claims (3)

[Claims] 1. An information processing apparatus comprising: a storage device that operates a tray loading mechanism by pressing an eject button or a loading button; and a power supply circuit that supplies power to the storage device. During this, press detection means for detecting press of an eject button or a loading button; and while the press detection means detects the press of the button, the power supply circuit is turned on to supply power to the storage device. And a means for operating a loading mechanism, wherein the disk can be replaced even when the power of the storage device is off. 2. An information processing apparatus comprising: a storage device for operating a tray loading mechanism by pressing an eject button or a loading button; and a power supply circuit for supplying power to the storage device. In the meantime, press detection means for detecting press of an eject button or a loading button, and, based on a press detection signal of the button by the press detection means, turn on the power supply circuit for a certain period to supply power to the storage device. And a means for operating a loading mechanism, wherein the disk can be replaced even when the power of the storage device is off. 3. An information processing apparatus comprising: a storage device that operates a tray loading mechanism by pressing an eject button or a loading button; and a power supply circuit that supplies power to the storage device. A press detection means for detecting press of an eject button or a loading button; and a power supply circuit for turning on the power supply circuit to supply power to the storage device by a press detection signal of the button by the press detection means. And a sweep / capture completion detecting means for detecting completion of sweeping or loading of the disk in the storage device in a power-off state, and outputting a disk position detection signal. Power from the power supply circuit to the storage device By stopping the supply, even in the power-off state of the storage device, the information processing apparatus being characterized in that to enable disk exchange.