JP2006044228A - Image forming device - Google Patents

Abstract

<P>PROBLEM TO BE SOLVED: To provide an image forming device wherein a user is not kept waiting because of power SW off, nor disappears data being stored in a HDD because of a user's misoperation during his/her access to the HDD. <P>SOLUTION: The image forming device having a storage device 5 is provided with triacs 2 and 3 in parallel with a power SW 1 to a power supply line to a DC power circuit 4, and their drive control is made by a CPU 7 in a control substrate 6. <P>COPYRIGHT: (C)2006,JPO&NCIPI

Description

  The present invention relates to an image forming apparatus (a copying machine, a printer, an MFP, a FAX, etc.) provided with a storage device (hard disk).

  Currently, an image forming apparatus that includes a hard disk (HDD) and has a memory function for storing a large amount of data such as a FAX document and various types of information is commercially available. In such an image forming apparatus having a memory function, if the power switch (power SW) is turned off due to an erroneous operation by the operator while accessing the HDD, the data stored in the HDD has not yet been written and is lost. There is. In order to solve such a problem, a technique has been proposed that makes it impossible to operate the power supply SW when accessing the HDD.

As described above, there has already been proposed a technique in which an operation to the power supply SW cannot be performed while accessing the HDD. However, during the HDD access time, the operator waits for the operation of the power supply SW. The operator was stressed.
SUMMARY OF THE INVENTION An object of the present invention is to provide an image forming apparatus in which data stored in the HDD is not lost due to an erroneous operation during HDD access by the operator without waiting for the operator to turn off the power switch. .

In order to achieve the above object, according to a first aspect of the present invention, there is provided an image forming apparatus including a storage device, and a triac disposed in parallel to a power switch inserted in a power supply line to a DC power circuit. And a control means for performing drive control of the triac.
According to a second aspect of the present invention, in the image forming apparatus provided with the storage device, the triac arranged in parallel to the power switch inserted in the power supply line to the DC power circuit, the power switch, and the DC power source And a control unit that controls driving of the triac using a signal from the zero-cross detection circuit as a trigger.
According to a third aspect of the present invention, in the image forming apparatus provided with the storage device, the TRIAC arranged in parallel with the power switch inserted in the power supply line to the DC power circuit, and the power switch on / off A switch state detection circuit for detecting the signal, and a control means for performing drive control of the triac using a signal from the switch state detection circuit as a trigger.
According to a fourth aspect of the present invention, in the image forming apparatus according to any one of the first to third aspects, the image forming apparatus includes key input control means for controlling input of operation keys from the outside. When it is determined that the power switch is off during data access to the storage device, the key input control means controls so as not to receive an operation key input.
According to a fifth aspect of the present invention, in the image forming apparatus according to any one of the first to fourth aspects, it is determined that the power switch is turned off when the control unit accesses the data to the storage device. In this case, it is characterized by comprising display means for displaying that data is being stored in the storage device.
According to a sixth aspect of the present invention, in the image forming apparatus according to any one of the first to fourth aspects, it is determined that the power switch is turned off when the control means accesses the data to the storage device. In this case, it is characterized by comprising a notifying means for notifying that the data is being stored in the storage device by a buzzer sound.
According to a seventh aspect of the present invention, in the image forming apparatus according to any one of the first to sixth aspects, the control unit determines that the power switch is turned off during data access to the storage device. In this case, the data at the time of the data access is held, and when the power switch is turned on next time, the image output operation to the transfer paper is performed without the output request operation.
According to an eighth aspect of the present invention, in the image forming apparatus according to any one of the first to sixth aspects, the control unit determines that the power switch is turned off during data access to the storage device. In this case, the data at the time of the data access is held, and when the power switch is turned on next time, control is performed to display the presence or absence of an output request on the display means.

According to the present invention, in an image forming apparatus provided with a storage device, a triac is provided in parallel with the power switch for the power supply line to the DC power circuit, and the drive control is performed by the control means, so that the power switch is turned off. Therefore, data that is being stored in the HDD is not lost due to an erroneous operation while the HDD is being accessed by the operator without waiting for the operator.
In addition, a triac and a zero cross detection circuit are provided between the power switch and the DC power supply circuit in parallel with the power switch for the power supply line to the DC power supply circuit. By using the control means as a trigger, the control means does not wait for the operator to turn off the power, and the data being stored in the HDD is not lost due to an erroneous operation while the HDD is being accessed by the operator.
Further, a triac arranged in parallel with a power switch inserted in a power supply line to the DC power supply circuit, a switch state detection circuit for detecting on / off of the power switch, and a switch state detection circuit By using the signal as a trigger and performing control by the control means, the operator is not waiting for the power switch to be turned off, and the data being stored in the HDD is not lost due to an erroneous operation while the HDD is being accessed by the operator.
Furthermore, when it is determined that the power switch has been turned off during data access to the storage device, the key input control means controls so as not to receive an operation key input, thereby stabilizing the operation and turning off the power. On the other hand, it is possible to improve the reliability of data loss prevention and to prevent the operator from operating incorrectly.
Furthermore, when it is determined that the power switch is turned off during data access to the storage device, it is possible to notify the operator of the operation status by displaying on the display means that data is being stored.
Furthermore, if it is determined that the power switch has been turned off during data access to the storage device, the operator is alerted by a buzzer sound that the data is being stored, and the status of the device is notified to the operator. It becomes possible to understand.
Furthermore, if it is determined that the power switch has been turned off during data access to the storage device, the data at the time of data access is retained, and the next time the power switch is turned on, the image is output to the transfer paper without an output request operation. By controlling so that the operation is performed, it is possible to output without inputting a re-output request of the image data that was in the middle of the output operation.
Furthermore, when it is determined that the power switch is turned off during data access to the storage device, the data at the time of data access is retained, and when the power switch is turned on next time, the presence or absence of an output request is displayed on the display means. By controlling in this way, unnecessary transfer paper output can be reduced.

Hereinafter, embodiments of the present invention will be described in detail with reference to the drawings.
[First Embodiment]
FIG. 1 is a configuration diagram of an image forming apparatus according to a first embodiment of the present invention. Hereinafter, the configuration will be described together with the operation. Triacs (TRI) 2 and 3 are provided in parallel with the power switch (power SW) 1, and AC power is supplied to a PSU (power supply unit) 4 which is a DC power circuit surrounded by a broken line in addition to the power SW1. Make it possible. The PSU 4 includes, for example, a bridge rectifier circuit 11, a smoothing capacitor 12, a DC / DC converter, and the like, and outputs a DC voltage of a predetermined level (5V, 12V).
Since the output of the PSU 4 is off when the power supply SW is on, the triacs 2 and 3 do not operate and the apparatus is controlled only by the power supply SW1. When the PSU 4 outputs, the machine starts up, and the device shifts from the initial operation to the operable state.
Here, when the apparatus receives data stored in the HDD 5, an HDD active signal is sent from the CPU (control means) 7 of the control board 6 to the switching element, and the triacs 2 and 3 are turned on by this signal.
In this state, even when the power supply SW1 is turned off by the operator, AC supply to the PSU 4 is continued by the triacs 2 and 3, and the output of the PSU 4 can be held during data access to the HDD 5. The HDD 5 is not turned off during data accumulation, and data loss can be prevented.
When the HDD active signal is turned off after the HDD access is finished, the triacs 2 and 3 are turned off, and the AC supply to the PSU 4 is cut off, so that the apparatus can be turned off.

[Second Embodiment]
FIG. 2 is a configuration diagram of an image forming apparatus according to the second embodiment of the present invention.
Hereinafter, the configuration will be described together with the operation. Triacs 2 and 3 are provided in parallel with the power source SW1, and the AC supply to the PSU 4 is enabled in addition to the power source SW1 as described above.
A zero-cross detection circuit 8 is provided from the line after passing through the power supply SW1, and the zero-cross signal is connected to the interrupt terminal or input terminal of the CPU 7, and the state of the power supply SW1 is detected by the presence or absence of this signal.
With this configuration, it is possible to detect the on / off state of the power supply SW1. Since the output of the PSU 4 is off when the power supply SW is on, the triacs 2 and 3 do not operate, and the apparatus is controlled only by the power supply SW1. When the PSU 4 outputs, the machine starts up and transitions from the initial setting operation to the apparatus standby state.
Here, when the apparatus receives data stored in the HDD 5, the CPU 7 recognizes the HDD active state. When the power supply SW1 is turned off by the operator in this state, the CPU 7 recognizes that the power supply SW1 of the apparatus is turned off by turning off the zero cross signal.
When the CPU 7 recognizes that the power SW is turned off during the HDD operation, turning on the HDD active signal turns on the triacs 2 and 3 to supply AC power to the PSU 4.
Here, since the zero-cross signal is output at a period of 10 ms in a commercial 50 Hz region, a maximum of about 10 ms is required for detection. However, in normal PSU4, about 10 ms is output for AC power supply interruption operation. It can be held.
Therefore, even when the HDD operation is recognized and the TRIAC drive is performed after detecting the zero cross signal, the power supply to the HDD 5 can be secured, and the output of the PSU 4 can be held during data access to the HDD 5. Thus, the HDD 5 is not turned off during data storage, and data loss can be prevented.
By turning off the HDD active signal after the HDD access is completed, the triacs 2 and 3 are turned off, and the AC supply to the PSU 4 is interrupted, so that the apparatus can be turned off.

[Third Embodiment]
FIG. 3 is a block diagram of an image forming apparatus according to the third embodiment of the present invention. Hereinafter, the configuration will be described together with the operation. Triacs 2 and 3 are provided in parallel with the power supply SW10 to enable AC supply to the PSU 4 in addition to the power supply SW10.
The power supply SW10 includes a circuit with three circuits separated from the primary and secondary, and its DC signal is connected to the interrupt terminal or input terminal of the CPU 7, and the state of the power supply SW10 is detected by the presence or absence of this signal. A switch state detection circuit is configured.
With this configuration, the state of the power supply SW10 can be detected in synchronization with the on / off of the power supply SW10. Since the output of the PSU 4 is off when the power supply SW10 is on, the triacs 2 and 3 do not operate and the apparatus is controlled only by the power supply SW10. When the PSU 4 outputs, the machine starts up and transitions from the initial setting operation to the apparatus standby state.
Here, when the apparatus receives data stored in the HDD 5, the CPU (control means) 7 recognizes the HDD active state. When the power supply SW10 is turned off by the operator in this state, the CPU 7 recognizes that the power supply SW10 of the apparatus is turned off by the DC signal of the power supply SW10.
When the CPU 7 recognizes that the power supply SW10 is turned off while the HDD is operating, turning on the HDD active signal turns on the triacs 2 and 3 to supply AC power to the PSU 4.
As a result, power supply to the HDD 5 can be secured, the output of the PSU 4 can be held during data access to the HDD 5, and the HDD 5 is not turned off during data accumulation, and data is lost. Can be prevented.
When configured as in the second embodiment, the zero-cross signal is output in a 10 ms cycle in a commercial 50 Hz region, and thus requires a maximum of about 10 ms for detection. On the other hand, when configured as in the third embodiment, the detection time can be significantly shortened by the power SW operation, so that the reliability of the recovery control operation of the apparatus can be increased.
By turning off the HDD active signal after the HDD access is completed, the triacs 2 and 3 are turned off, and the AC supply to the PSU 4 is interrupted, so that the apparatus can be turned off.

[Fourth Embodiment]
FIG. 4 is a configuration diagram of an image forming apparatus according to the fourth embodiment of the present invention. The same parts as those in FIG. 3 are denoted by the same reference numerals, and detailed description thereof is omitted.
In the image forming apparatus shown in FIG. 4, when it is determined from the SW detection signal and the HDD active signal that the power supply SW10 has been turned off during data access to the HDD5, power is supplied to the PSU4 regardless of the state of the power supply SW10. This is an extension of the standby operating state.
Therefore, in this embodiment, in order to distinguish between the case where it is determined that the power supply SW10 is turned off at the time of data access to the HDD 5 and the other on / off operation of the power supply SW10, the power supply SW10 at the time of data access to the HDD5. The input from the operator is not accepted when is turned off. That is, by masking the input to the CPU 21 of the LCDC (operation panel controller) 20 which is a key input control means for controlling the operation key input, the input is invalidated to prevent malfunction and stabilize the operation of the apparatus. I have to. Thereby, the reliability improvement of data loss prevention and an operator's misoperation can be prevented.
Further, in the fourth embodiment, when the power SW 10 is turned off during data access to the HDD 5, the information is sent to the CPU 21 of the operation panel controller (LCDC) 20, and the CPU 21 indicates that the data is being stored. By displaying on the liquid crystal display unit (LCD) 22, it is possible to inform the operator of the operation status.
Further, when the data is being stored by detecting the power supply SW10 being turned off during data access to the HDD 5 by the SW detection signal to the CPU 7 and controlling its output port, a buzzer (notification means) is provided via the amplifier 31. ) By outputting a buzzer sound from 32, it is possible to alert the operator and inform the operator of the operation status of the apparatus.

If it is determined from the HDD active signal that the power supply SW 10 is turned off when data is accessed to the HDD 5, the data is also stored in the internal memory of the CPU 7 of the control board 6. Then, when the power is turned on next time, the data stored in the internal memory of the CPU 7 is provided with a function of performing an image output operation on the transfer paper without an output request operation. In this way, it is possible to output image data without inputting a re-output request for image data that was in the middle of the output operation.
Alternatively, if it is determined from the HDD active signal that the power SW 10 is turned off when accessing the HDD 5, the data is stored in the internal memory of the CPU 7. Then, whether or not there is a request to output data stored in the internal memory of the CPU 7 at the next power-on is displayed on the LCD 22 without a request operation, and unnecessary transfer paper output can be reduced.
In the fourth embodiment, the case where the LCDC 20, the amplifier 31, and the buzzer 32 are provided in the image forming apparatus using the power supply SW 10 having three circuits separated from the primary and secondary is described as an example. This is merely an example, and it is possible to provide a similar configuration to the image forming apparatus configured as shown in FIGS.

1 is a configuration diagram of an image forming apparatus according to a first embodiment of the present invention. It is a block diagram of the image forming apparatus which concerns on the 2nd Embodiment of this invention. It is a block diagram of the image forming apparatus which concerns on the 3rd Embodiment of this invention. It is a block diagram of the image forming apparatus which concerns on the 4th Embodiment of this invention.

Explanation of symbols

  DESCRIPTION OF SYMBOLS 1, 10 ... Power supply SW 2, 3 ... Triac, 4 ... PSU (DC power supply circuit), 5 ... HDD (storage device), 6 ... Control board, 7 ... CPU (control means), 20 ... LDCC (Operation panel controller) ), 21 ... CPU (key input control means), 22 ... LCD (display means), 31 ... amplifier, 32 ... buzzer (notification means)

Claims (8)

  An image forming apparatus including a storage device includes a triac arranged in parallel to a power switch inserted in a power supply line to a DC power supply circuit, and a control unit that performs drive control of the triac. An image forming apparatus.   In an image forming apparatus including a storage device, a triac arranged in parallel to a power switch inserted in a power supply line to a DC power circuit, and a zero cross provided between the power switch and the DC power circuit An image forming apparatus comprising: a detection circuit; and a control unit that performs drive control of the triac using a signal from the zero-cross detection circuit as a trigger.   In an image forming apparatus including a storage device, a triac arranged in parallel with a power switch inserted in a power supply line to a DC power circuit, and a switch state detection circuit for detecting on / off of the power switch An image forming apparatus comprising: control means for performing drive control of the triac using a signal from the switch state detection circuit as a trigger.   4. The image forming apparatus according to claim 1, further comprising a key input control unit configured to control input of an operation key from the outside, wherein the control unit is configured to access data to the storage device. An image forming apparatus, wherein when the power switch is determined to be turned off, the key input control means controls so as not to receive an operation key input.   5. The image forming apparatus according to claim 1, wherein, when the control unit determines that the power switch is turned off during data access to the storage device, the data is stored in the storage device. An image forming apparatus comprising display means for displaying that the image is being stored.   5. The image forming apparatus according to claim 1, wherein, when the control unit determines that the power switch is turned off during data access to the storage device, the data is stored in the storage device. An image forming apparatus comprising an informing means for informing that the image is being saved by a buzzer sound.   7. The image forming apparatus according to claim 1, wherein the control unit determines that the power switch is turned off during data access to the storage device, and performs the data access. And an image output operation to transfer paper without an output request operation when the power switch is turned on next time.   7. The image forming apparatus according to claim 1, wherein the control unit determines that the power switch is turned off during data access to the storage device. An image forming apparatus characterized by holding data and performing control to display the presence or absence of an output request on the display means when the power switch is turned on next time.

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