JP4102684B2 - Image forming apparatus - Google Patents

Description

[0001]
BACKGROUND OF THE INVENTION
The present invention relates to an image forming apparatus that displays information on the state of the apparatus and forms an image according to image data on a sheet, and relates to an image forming apparatus such as a printer, a copier, a facsimile machine, and a multifunction machine. .
[0002]
[Prior art]
As an example of a conventional image forming apparatus, a reader unit and a printer unit are provided, and when the power supply is instructed from a switch connected to the reader controller, the reader controller instructs the engine control unit to execute pre-power-off processing. Until the end is notified, the power supply to the outlet is not cut off. When the switch is pressed again during the power-off pre-processing and the power-on is instructed, the reader controller disconnects and connects the relay to control the engine. A copier has been developed that promotes the initializing operation of the copying machine (see, for example, Patent Document 1). In this case, the power can be turned on again during the power-off sequence with a simple configuration.
[0003]
Further, as another example of the image forming apparatus, a display device that displays the operation state of the apparatus is provided, and the cooling fan needs to be driven to cool the temperature inside the apparatus even when the main power switch is turned off. In order to cut off only the power supply to the display device without stopping the power supply to the device main body for driving the cooling fan, a separate power control circuit for the display device is provided, and the power supply only to the display device is turned off. A printer has been developed. In this case, since the display device is in a non-display state, the operator can confirm that the printer is turned off.
[0004]
[Patent Document 1]
JP 2000-250642 A
[0005]
[Problems to be solved by the invention]
However, if the display device power supply control circuit is separately provided, the cost of the device increases. On the other hand, when the power supply control circuit for the display device is omitted, even if the user turns off the main power switch, the power supply to the device main body cannot be stopped when the cooling fan needs to be driven. Power is supplied, and the display device continues to display the previous display screen. At this time, the user cannot confirm that the power of the printer is turned off, resulting in erroneous operation of the user such as repeatedly turning on / off the main power switch.
[0006]
SUMMARY OF THE INVENTION An object of the present invention is to provide an image forming apparatus that can reliably put a display unit in a non-display state when a user turns off a main power switch without separately providing a power control circuit for the display unit. is there.
[0007]
[Means for Solving the Problems]
  An image forming apparatus according to the present invention includes:Including a display CPU,Display means for displaying information relating to the state of the apparatus, and cooling means for cooling the inside of the apparatusAn image forming unit that forms an image according to image data on a sheetAnd a main power switch for turning on / off the power of the apparatus main body.SaidWhen the main power switch is turned onSaidSupply power to the device body including the display means,SaidPower supply means for outputting a power-off signal when the main power switch is turned off;An initialization signal connected to the display CPU to initialize the display means is sent to the display CPU.And outputting the power supply means and theImage forming unitControl the behavior ofDrive control circuitWhen,Image control circuit for performing predetermined image processing on image dataAnd withWhen the main power switch is turned on by an operator, the power supply means supplies power to the drive control circuit and the image control circuit, and the image control circuit uses the supplied power. Power is then supplied to the display means, and then the drive control circuit outputs a power-on reset signal to the image control circuit, and after the image control circuit completes the reset operation, the panel microcomputer reset signal is driven. When output to the control circuit, the initialization signal is output to the display CPU, and the display CPU that has received the initialization signal receives the initialization signal after the predetermined time has elapsed since the reception of the initialization signal. An initialization operation is performed to display a predetermined initialization screen after clearing the display screen and setting the display screen of the display means to the non-display state. When the main power switch is turned off, the drive control circuit outputs a power-off request signal to the image control circuit in response to the power-off signal output from the power supply means, and the image control When the circuit is communicable with the drive control circuit and the display CPU, the circuit is configured to make the display means non-display in response to a power-off request signal output from the drive control circuit. After the non-display signal is output to the display CPU and the display CPU uses the non-display signal to put the display means into the non-display state, the image control circuit is in a state where the power supply for the image can be turned off. The drive control circuit that outputs the shutdown permission signal to the drive control circuit when the time is reached, and the drive control circuit that has received the shutdown permission signal, In addition, without stopping the power supply from the power supply means to the entire apparatus, the cooling means is driven, and when the temperature of the apparatus main body is equal to or lower than a predetermined temperature, the cooling means is stopped, Stop power supply from the power supply means to the entire deviceIs.
[0008]
  In the image forming apparatus according to the present invention, when the main power switch is turned off by the user, a power off signal is output from the power supply means, and in response to the output power off signal.Drive control circuitIn response to the output power off request signal.Image control circuitSince a non-display signal for setting the display means to the non-display state is output to the display means, power supply from the power supply means to the apparatus main body including the display means is performed when the temperature of the apparatus main body does not reach the predetermined temperature or lower. Without stopping the display means, the display means can be in a non-display state while driving the cooling means. As a result, without providing a separate power control circuit for the display means, the display means can be reliably brought into a non-display state when the user turns off the main power switch.
  In addition, an arithmetic processing device with a long initialization time suitable for image processing is used for the image control circuit, and an arithmetic processing device with a short initialization time suitable for control of the image forming unit is used for the drive control circuit. As a result, the drive control circuit is ready to output an initialization signal immediately after startup, and even if the main power switch is turned off from the on state in a short time by the user, the display means is reliably turned off. Can be.
[0009]
  When turned off immediately after the main power switch is turned on by an operator, the power supply means supplies power to the drive control circuit and the image control circuit, and the image control circuit is supplied. The image control circuit supplies power to the display means using the generated power, and the image control circuit is not communicable with the drive control circuit and the display CPU.ButSaidIf no display signal can be output,The drive control circuit includes theInitialization signalUniquelySaidCPU for displayOutput toThen, after the display CPU that has received the initialization signal clears the display screen of the display means, the drive control circuit cancels the initialization signal and the display screen of the display means is not displayed. The drive control circuit outputs the power-off request signal to the image control circuit after being in a state where it can communicate with the image control circuit, and receives the power-off request signal. The control circuit outputs a shutdown permission signal to the drive control circuit when the power supply of the control circuit can be turned off. The drive control circuit that has received the shutdown permission signal has a temperature of the apparatus body of a predetermined level. When the cooling means is driven without stopping the power supply from the power supply means to the entire apparatus when the temperature does not reach the temperature or lower, and the temperature of the apparatus main body becomes a predetermined temperature or lower. After stopping the cooling means stops the power supply to the entire device from the power supply unitIt is preferable.
[0010]
  In this case, the main power switch is turned off in a short time from the on state by the user,Image control circuitEven when cannot output a non-display signal,Drive control circuitSince the initialization signal for initializing the display means is output to the display means, the display means can be surely put into the non-display state even when the user turns off the main power switch in a short time.
[0011]
  When the main power switch is turned off immediately after being turned on by an operator, the drive control circuitIsSaidInitialization signalSaidIt is preferable to output to the display means a plurality of times. In this case, since the initialization signal is output to the display means a plurality of times, even if the display means cannot be made non-displayed by the initial initialization signal, the display means is made non-display by the subsequent initialization signal. The display means can be surely brought into a non-display state.
[0012]
  When the main power switch is turned off immediately after being turned on by an operator, the drive control circuitIsSaidInitialization signalFrom the output of the initialization signal to the release of the initialization signalThe initialization period of the display means is shortened in order.SaidInitialization signalSaidIt is preferable to output to the display means a plurality of times. Here, when a predetermined initialization screen is displayed after the display state is cleared in the initialization operation of the display means, the initialization signal is output a plurality of times so that the initialization period of the display means is shortened in order. Therefore, when the display state of the display means is cleared by one initialization signal among the plurality of initialization signals, the initialization screen is not displayed by the subsequent initialization signal, and the display means is more reliably operated. It can be in a non-display state.
[0015]
DETAILED DESCRIPTION OF THE INVENTION
A printer as an example of an image forming apparatus according to an embodiment of the present invention will be described below with reference to the drawings. FIG. 1 is a schematic side view mainly showing a mechanical configuration of a printer according to an embodiment of the present invention.
[0016]
In the printer main body 2 of the printer 1 shown in FIG. 1, developing devices 3 are provided for the respective colors of black, cyan, magenta, and yellow. Each developing device 3 is provided with a photoconductive drum 4 that rotates in the direction of the arrow in the drawing. The photosensitive drum 4 is uniformly charged by the charging unit 5, and LED light based on image data input from an external PC (personal computer) or the like is irradiated from the exposure unit 6 onto the surface of the photosensitive drum 4. An electrostatic latent image is formed, and toner is supplied to the electrostatic latent image to form a toner image. The toner is supplied from the toner supply containers 7B, 7C, 7M, and 7Y through the developing device 3, respectively.
[0017]
A sheet conveying belt 8 is disposed below the four photosensitive drums 4 arranged for each color. The sheet conveying belt 8 is pressed against each photoconductive drum 4 by the pressure roller 9 and is configured to be rotated in the forward direction of the photoconductive drum 4 by the rollers 10 and 11.
[0018]
A sheet is conveyed between the photosensitive drum 4 and the sheet conveying belt 8 from the sheet feeding mechanism 12 via the sheet conveying path 13, and the sheet passes between the photosensitive drum 4 of each color and the sheet conveying belt 8. While being conveyed, the toner images of the respective colors on the surfaces of the photosensitive drums 4 are successively transferred onto the paper by the transfer bias. The sheet on which the toner image has been transferred from all the photosensitive drums 4 is conveyed to a fixing device 14 having a pair of fixing rollers, where the toner image is thermally fixed at a nip by the pair of fixing rollers to form a color image. The sheet that has passed through the fixing device 14 is sent to the sheet conveyance path 15 and is discharged from the discharge unit 16.
[0019]
Each photosensitive drum 4 is provided with a cleaning mechanism 20 for removing residual toner and the like on the photosensitive drum 4. The cleaning mechanism 20 includes a cleaning roller 21 and a cleaning blade 22 for cleaning the surface of the photosensitive drum 4, and a spiral for collecting toner removed from the drum surface by the cleaning roller 21 and the cleaning blade 22 in one place. 23.
[0020]
A cooling fan 17 is provided above the fixing device 14, and the cooling fan 17 is driven so that the internal temperature of the printer main body 2 becomes a predetermined temperature during normal operation. The cooling fan 17 has a predetermined internal temperature of the printer main body 2 when the main power switch 62 (see FIG. 2) of the printer 1 is turned off by the operator and the inside of the printer main body 2 needs to be cooled. It is driven until the temperature reaches.
[0021]
FIG. 2 is a block diagram mainly showing portions related to the present invention in the electrical configuration of the printer 1 shown in FIG. The printer 1 includes a cooling fan 17, a temperature / humidity sensor 18, a display device 31, an image control circuit 41, a drive control circuit 51, and a power supply device 61.
[0022]
The display device 31 includes a display CPU (central processing unit) 32 and an LCD (liquid crystal display device) 33, and each unit is mounted on a display device substrate. The image control circuit 41 includes an image ASIC (Application Specific IC) 42, an image CPU 43, and a regulator 44, and each unit is mounted on an image control board. The drive control circuit 51 includes a drive ASIC 52, a drive CPU 53, and a reset circuit 54, and each unit is mounted on an image control board. The power supply device 61 includes a main power switch 62, a detection circuit 63, and a power switch 64.
[0023]
The main power switch 62 is composed of a mechanical switch or the like attached at a predetermined position of the printer 1 and is turned on when the operator turns on the printer 1, and turned off to turn off the power. The detection circuit 63 detects that the main power switch 62 has been turned off by the operator, and outputs a main power switch off detection signal to the driving CPU (central processing unit) 53. When the main power switch 62 is turned on by the operator, the power switch 64 is turned on, and 5 V power generated from the commercial power supply is supplied to the image control circuit 41 and the drive control circuit 51, and image control is performed. The 5 V power supplied to the circuit 41 is converted into a 3.3 V power by the regulator 44 and supplied to the display device 31. The power switch 64 is turned off in response to the main power shutdown remote signal SD output from the driving CPU 53, and the power supply to the entire apparatus is stopped.
[0024]
The driving ASIC 52 and the driving CPU 53 mainly control an image forming unit that forms an image according to image data on a sheet. The driving CPU 53 includes, for example, a reset operation (initialization operation) of a 16-bit microcomputer or the like. A short arithmetic processing unit is used. Here, the image forming unit includes the photosensitive drum 4, the charging unit 5, the exposure unit 6, the rollers 10 and 11, the fixing device 14, the cooling fan 17, and the like. For example, the driving ASIC 52 and the driving CPU 53 include During normal operation or when the operator turns off the main power switch 62, the cooling fan 17 is driven according to the internal temperature and humidity of the printer main body 2 measured by the temperature / humidity sensor 18.
[0025]
When the operator turns on the main power switch 62 and the power switch 64 is turned on and 5V power is supplied from the power supply device 61 to the drive control circuit 51, the reset circuit 54 outputs a reset signal to the drive ASIC 52. To do. The driving ASIC 52 outputs the reset signal from the reset circuit 54 to the image ASIC 42 as a power-on reset signal PR.
[0026]
The driving ASIC 52 outputs the panel microcomputer reset signal R1 output from the image ASIC 42 to the display CPU 32 as the panel microcomputer reset signal R2. Further, when the reset operation of the image CPU 43 is not completed and the drive ASIC 52 cannot communicate with the image ASIC 42, the drive ASIC 52 uniquely outputs the panel microcomputer reset signal R 2 to the display CPU 32 in accordance with an instruction from the drive CPU 53. To do.
[0027]
The drive CPU 53 outputs a shutdown request signal SR to the image ASIC 42 in response to the main power switch off detection signal PO output from the detection circuit 63. Further, the drive CPU 53 receives the shutdown permission signal SP from the image ASIC 42, and the drive control circuit 51 outputs the main power shutdown remote signal SD to the power switch 64.
[0028]
The image ASIC 42 and the image CPU 43 mainly perform image processing on image data input from an external PC or the like, and the image CPU 43 includes, for example, a high-performance processor having a long reset time and the like. Is used. The regulator 44 converts the voltage of 5V supplied from the power supply device 61 into a voltage of 3.3V, supplies the voltage to the inside of the image control circuit 41, and supplies power to the display device 31.
[0029]
The image ASIC 42 outputs a reset signal to the image CPU 43 in response to the power-on reset signal PR output from the drive ASIC 52, and the image CPU 43 performs a reset operation. The image ASIC 42 notifies the image CPU 43 of a shutdown request signal SD output from the drive CPU 53, and instructs the image ASIC 42 to output a non-display signal. The image ASIC 42 outputs a non-display signal. Is output to the display CPU 32.
[0030]
The image ASIC 42 outputs a panel microcomputer reset signal R1 to the drive ASIC 52 after completion of the reset operation. Further, the image ASIC 42 outputs a shutdown permission signal SP to the drive CPU 53 when the power of the image control circuit 41 can be turned off.
[0031]
The display CPU 32 controls the operation of the LCD 33 according to the control signal of the image ASIC 42, and the LCD 33 displays various information related to the operation of the apparatus. The display CPU 32 performs a reset operation in response to the panel microcomputer reset signal R2 output from the drive ASIC, and after the reset operation is completed, the LCD 33 is not displayed in response to the non-display signal ND output from the image ASIC 42. Put it in a state.
[0032]
In the present embodiment, the display device 31 corresponds to an example of display means, the power supply device 61 corresponds to an example of power supply means, the drive control circuit 51 corresponds to an example of a first control means, and image control. The circuit 41 corresponds to an example of a second control unit.
[0033]
Next, each operation of the printer 1 configured as described above will be described. FIG. 3 is a timing chart for explaining an example of the operation at the normal startup of the printer 1 shown in FIG.
[0034]
First, when the operator turns on the main power switch 62 in order to turn on the printer 1, the power switch 64 is turned on at time T1, and the main power (+5 V) is supplied to the image control circuit 41 and the drive control circuit 51. The power supply for display device (+3.3 V) is supplied to the display device 31 by the regulator 44.
[0035]
Next, the reset circuit 54 outputs a reset signal to the driving ASIC 52 after a predetermined time has elapsed from the start of supply of the main power supply (+5 V), and at time T2, the driving ASIC 52 performs a power-on reset on the reset signal. The signal PR is output to the image ASIC 42.
[0036]
Next, the image ASIC 42 causes the CPU 43 to perform a reset operation by the power-on reset signal PR, and outputs a panel microcomputer reset signal R1 to the drive ASIC 52 at time T3 after the reset operation is completed. At this time, the driving ASIC 52 outputs the panel microcomputer reset signal R1 output from the image ASIC 42 to the display CPU 32 as the panel microcomputer reset signal R2.
[0037]
Thereafter, the display CPU 32 starts a reset operation in response to the panel microcomputer reset signal R 2, and characters such as “Self Test” are displayed on the display screen of the LCD 33. After the reset operation is completed, the display CPU 32 and the image ASIC 42 can communicate with each other, and a display screen designated by the drive ASIC 52 and the drive CPU 53 is displayed on the LCD 33.
[0038]
FIG. 4 is a timing chart for explaining an example of the operation of the printer 1 shown in FIG. 2 when the main power is turned off. First, at time T1 to T3, a normal startup operation similar to that at time T1 to T3 shown in FIG. 3 is performed. After a sufficient time has elapsed, the operator turns off the main power switch 62 to turn off the printer 1. Then, at time T4, the detection circuit 63 detects that the main power switch 62 is turned off by the operator, and outputs a main power switch off detection signal PO to the driving CPU 53.
[0039]
At this time, the drive CPU 53 outputs a shutdown request signal SR to the image ASIC 42 in response to the main power switch off detection signal PO output from the detection circuit 63. The image ASIC 42 notifies the image CPU 43 of the shutdown request signal SR output from the drive CPU 53, and instructs the image ASIC 42 to output a non-display signal. Here, since the image ASIC 42 has already completed the reset operation and can communicate with the display CPU 32 and the drive ASIC 52, the image ASIC 42 outputs the non-display signal ND to the display CPU 32. The display CPU 32 sets the LCD 33 in a non-display state using the non-display signal ND output from the image ASIC 42.
[0040]
Thereafter, the image ASIC 42 outputs a shutdown permission signal SP to the drive CPU 53 when the image control circuit 41 can be turned off. The driving CPU 53 measures the internal temperature of the printer main body 2 by the temperature / humidity sensor 18 and stops the driving of the cooling fan 17 when the internal temperature falls below a predetermined temperature, and then outputs the main power shutdown remote signal SD. Output to the power switch 64. The power switch 64 is turned off in response to the main power shutdown remote signal SD output from the drive control circuit 51, and the power supply from the power supply 61 to the entire apparatus is stopped.
[0041]
Thus, in the present embodiment, when the main power switch 62 is turned off by the user, the main power switch off detection signal PO is output from the detection circuit 63 and responds to the output main power switch off detection signal PO. Then, a shutdown request signal SR is output from the drive CPU 53, and a non-display signal ND for making the LCD 33 non-display state is output from the image ASIC 42 to the display CPU 32 in response to the output shutdown request signal SR. Therefore, even when the user turns off the main power switch 62, if the temperature of the apparatus main body does not reach the predetermined temperature or less, the cooling fan 17 is driven without stopping the power supply from the power supply apparatus 61 to the apparatus main body. However, the LCD 33 can be in a non-display state. As a result, the display device 31 can be surely brought into the non-display state when the user turns off the main power switch 62 without separately providing the power control circuit for the display device.
[0042]
FIG. 5 is a timing chart for explaining an example of the operation when the main power switch 62 of the printer 1 shown in FIG. 2 is turned off immediately after being turned on. First, at time T1 and T2, a normal startup operation similar to that at time T1 and T2 shown in FIG. 3 is performed. When the operator turns off the main power switch 62 to turn off the printer 1 at time T4, the detection circuit 63 detects that the main power switch 62 has been turned off, and outputs a main power switch off detection signal PO to the driving CPU 53.
[0043]
Next, the driving CPU 53 determines whether or not the driving of the cooling fan 17 can be stopped by measuring the internal temperature of the printer main body 2 by the temperature / humidity sensor 18. At this time, the image CPU 43 has not completed the reset operation, and the drive ASIC 52 and the image ASIC 42 cannot communicate with each other (the image ASIC 42 cannot output the panel microcomputer reset signal R2). Therefore, when the internal temperature of the printer main body 2 is not lower than the predetermined temperature or the like and the driving of the cooling fan 17 cannot be stopped, the driving CPU 53 outputs the panel microcomputer reset signal R2 to the driving ASIC 52. To instruct.
[0044]
Therefore, at time T5, the driving ASIC 52 independently outputs the panel microcomputer reset signal R2 to the display CPU 32, and the display CPU 32 starts the reset operation by the panel microcomputer reset signal R2 and reads characters such as “Self test”. Is displayed on the display screen of the LCD 33.
[0045]
Next, at time T <b> 6, the driving ASIC 52 cancels the panel microcomputer reset signal R <b> 2 according to the instruction from the driving CPU 53, and the reset operation of the display CPU 32 is cancelled. At this time, the LCD 33 displays a character such as “Self test”.
[0046]
Next, at time T7, the driving ASIC 52 outputs the panel microcomputer reset signal R2 again in response to an instruction from the driving CPU 53, and the reset operation of the display CPU 32 is started. Thereafter, at time T8 when the display screen of the LCD 33 is cleared by the reset operation of the display CPU 32, the drive ASIC 52 cancels the panel microcomputer reset signal R2 in response to an instruction from the drive CPU 53, and the reset operation of the display CPU 32 starts. Canceled. As a result, the display screen of the LCD 33 is not displayed.
[0047]
After the reset operation is completed and communication with the image ASIC 42 becomes possible, the drive CPU 53 outputs a shutdown request signal SR to the image ASIC 42, and the image ASIC 42 supplies power to the image control circuit 41. When it becomes possible to turn off, a shutdown permission signal is output to the driving CPU 53. At this time, the driving CPU 53 measures the internal temperature of the printer main body 2 by the temperature / humidity sensor 18 and stops the driving of the cooling fan 17 when the internal temperature falls below a predetermined temperature, and the main power shutdown remote signal SD. Is output to the power switch 64. The power switch 64 is turned off in response to the main power shutdown remote signal SD output from the driving CPU 53, and the power supply to the entire apparatus is stopped.
[0048]
As described above, in this embodiment, even when the main power switch 62 is turned off from the on state in a short time by the user and the non-display signal ND cannot be output from the image ASIC 42, the drive ASIC 52 can independently display the display. Since the panel microcomputer reset signal R2 for resetting the CPU 32 is output to the display CPU 32, even when the display screen of the LCD 33 is in a non-display state and the user turns off the main power switch 62 in a short time, the display device 31 is turned on. A non-display state can be surely achieved.
[0049]
FIG. 6 is a timing chart for explaining an example of another operation when the main power switch 62 of the printer 1 shown in FIG. 2 is turned off immediately after being turned on. First, at times T1, T2, T4 to T6, operations similar to those at times T1, T2, and T4 to T6 shown in FIG. 5 are performed. At time T7, the driving ASIC 52 again performs a panel operation in accordance with an instruction from the driving CPU 53. The microcomputer reset signal R2 is output, and the reset operation of the display CPU 32 is started. Thereafter, at time T8 when the display screen of the LCD 33 is to be cleared by the reset operation of the display CPU 32, the drive ASIC 52 cancels the panel microcomputer reset signal R2 according to the instruction of the drive CPU 53, and the display CPU 32 resets. Is released.
[0050]
However, since the time when the display screen of the LCD 33 is cleared by the reset operation of the display CPU 32 due to the manufacturing variation of the semiconductor device or the like, after the display screen of the LCD 33 once disappears, the “Self test” Of these characters, the character “S” may be displayed on the display screen of the LCD 33.
[0051]
Therefore, in this example, at time T9, the driving ASIC 52 outputs the panel microcomputer reset signal R2 again according to the instruction from the driving CPU 53, and the reset operation of the display CPU 32 is started. Thereafter, at time T10 when the display screen of the LCD 33 is cleared by the reset operation of the display CPU 32, the drive ASIC 52 cancels the panel microcomputer reset signal R2 in response to an instruction from the drive CPU 53, and the reset operation of the display CPU 32 starts. Canceled.
[0052]
For example, when the reset operation period between the times T7 and T8 is 200 ms, the reset operation period between the times T9 and T10 is set to 190 ms, and the time is set to be shorter as the subsequent reset period. As a result, the display screen of the LCD 33 is not displayed.
[0053]
After the reset operation is completed and communication with the image ASIC 42 becomes possible, the drive CPU 53 outputs a shutdown request signal SR to the image ASIC 42, and the image ASIC 42 supplies power to the image control circuit 41. When it becomes possible to turn off, a shutdown permission signal is output to the driving CPU 53. At this time, the driving CPU 53 measures the internal temperature of the printer main body 2 by the temperature / humidity sensor 18 and stops the driving of the cooling fan 17 when the internal temperature falls below a predetermined temperature, and the main power shutdown remote signal SD. Is output to the power switch 64. The power switch 64 is turned off in response to the main power shutdown remote signal SD output from the driving CPU 53, and the power supply to the entire apparatus is stopped.
[0054]
Thus, in this example, since the panel microcomputer reset signal R2 is output from the driving ASIC 52 to the display CPU 32 a plurality of times, even if the LCD 33 cannot be made non-displayed by the previous panel microcomputer reset signal R2, The LCD 33 can be brought into the non-display state by the subsequent panel microcomputer reset signal R2, and the display device 31 can be brought into the non-display state without fail.
[0055]
In addition, when characters such as “Self test” are displayed after the display state of the LCD 33 is cleared in the reset operation of the display CPU 32, the panel microcomputer reset signal R2 is set so that the reset operation period of the display CPU 32 is shortened in order. Since the output is performed a plurality of times, when the display state of the LCD 33 is cleared by one panel microcomputer reset signal R2 of the plurality of panel microcomputer reset signals R2, the subsequent panel microcomputer reset signal R2 indicates “Self test” or the like. Characters are not displayed, and the display device 31 can be more reliably brought into a non-display state.
[0056]
In the above description, the example in which the panel microcomputer reset signal R2 is output twice or three times has been described. However, the number of the panel microcomputer reset signal R2 is not particularly limited to this example, and may be any number other than four times. There may be. The reset operation period by the panel microcomputer reset signal R2 is also an example, and can be appropriately changed according to the display CPU to be used.
[0057]
【The invention's effect】
According to the present invention, the non-display signal for setting the display means to the non-display state is output to the display means. Therefore, when the temperature of the apparatus main body does not reach the predetermined temperature or less, the power supply means includes the display means. Without stopping the power supply to the main unit, the display means can be in a non-display state while driving the cooling means, and the user can turn off the main power switch without providing a separate power control circuit for the display means In this case, the display means can be surely brought into a non-display state.
[Brief description of the drawings]
FIG. 1 is a schematic side view mainly showing a mechanical configuration of a printer according to an embodiment of the present invention.
2 is a block diagram mainly showing a part related to the present invention in the electrical configuration of the printer shown in FIG. 1; FIG.
FIG. 3 is a timing chart for explaining an example of an operation at the normal startup of the printer shown in FIG. 2;
4 is a timing chart for explaining an example of an operation when the main power supply of the printer shown in FIG. 2 is turned off. FIG.
5 is a timing chart for explaining an example of an operation when the main power switch of the printer shown in FIG. 2 is turned off immediately after being turned on.
6 is a timing chart for explaining an example of another operation when the main power switch of the printer shown in FIG. 2 is turned off immediately after being turned on. FIG.
[Explanation of symbols]
1 Printer
17 Cooling fan
18 Temperature and humidity sensor
31 Display device
32 CPU for display
33 LCD
41 Image control circuit
42 ASIC for images
43 CPU for images
44 Regulator
51 Driving control circuit
52 ASIC for driving
53 CPU for driving
54 Reset circuit
61 Power supply
62 Main power switch
63 Detection circuit
64 Power switch

Claims (4)

Display means including a display CPU and displaying information on the state of the apparatus;
An image forming unit that includes a cooling unit for cooling the inside of the apparatus and forms an image according to image data on a sheet ;
A main power switch for turning on / off the power of the apparatus main body; when the main power switch is turned on by an operator, power is supplied to the apparatus main body including the display means; Power supply means for outputting a power-off signal when the switch is turned off;
A drive control circuit that is connected to the display CPU and outputs an initialization signal for initializing the display means to the display CPU, and controls operations of the power supply means and the image forming unit ;
An image control circuit for performing predetermined image processing on the image data ,
When the main power switch is turned on by an operator, the power supply means supplies power to the drive control circuit and the image control circuit, and the image control circuit uses the supplied power. Power is supplied to the display means, and then the drive control circuit outputs a power-on reset signal to the image control circuit. After the image control circuit completes the reset operation, the panel microcomputer reset signal is output to the drive When output to the control circuit, the display CPU outputs the initialization signal to the display CPU, and the display CPU that has received the initialization signal displays the display on the display means after a predetermined time has elapsed since the reception of the initialization signal. Performing an initialization operation to display a predetermined initialization screen after clearing the screen and setting the display screen of the display means to the non-display state,
When the main power switch is turned off by an operator after completion of the initialization operation, the drive control circuit outputs a power off request signal in response to the power off signal output from the power supply means. When the image control circuit is communicable with the drive control circuit and the display CPU, in response to the power-off request signal output from the drive control circuit. The non-display signal for making the display means non-display state is output to the display CPU, and the display CPU uses the non-display signal to make the display means non-display state, and then the image control The circuit outputs a shutdown permission signal to the drive control circuit when it is in a state in which its power supply can be turned off, and the drive control circuit that has received the shutdown permission signal When the temperature does not reach a predetermined temperature or less, the cooling means is driven without stopping the power supply from the power supply means to the entire apparatus, and the temperature of the apparatus main body becomes a predetermined temperature or less. An image forming apparatus , wherein after the cooling unit is stopped, power supply from the power source unit to the entire apparatus is stopped . When turned off immediately after the main power switch is turned on by an operator, the power supply means supplies power to the drive control circuit and the image control circuit, and the image control circuit is supplied. The display control means supplies power to the display means, and the image control circuit outputs the non-display signal because the image control circuit is not in a state where it can communicate with the drive control circuit and the display CPU. If output, the driving control circuit outputs the previous SL initialization signal to its own the display CPU, after the display CPU which has received the initialization signal clears the display screen of the display unit The drive control circuit cancels the initialization signal and puts the display screen of the display means into a non-display state, and the drive control circuit is in a state where it can communicate with the image control circuit. Power off The image control circuit outputs a request signal to the image control circuit, and the image control circuit that has received the power-off request signal outputs a shutdown permission signal to the drive control circuit when the power supply can be turned off. The drive control circuit that has received the shutdown permission signal does not stop the power supply from the power supply means to the entire apparatus when the temperature of the apparatus main body has not reached a predetermined temperature or less. The power supply from the power supply means to the entire apparatus is stopped after stopping the cooling means when the temperature of the apparatus main body is lower than a predetermined temperature by driving the means. The image forming apparatus described. 3. The image according to claim 2 , wherein when the main power switch is turned off immediately after being turned on by an operator, the drive control circuit outputs the initialization signal to the display means a plurality of times. Forming equipment. When the main power switch is turned off immediately after being turned on by an operator, the drive control circuit is configured to initialize the display means from the time when the initialization signal is output until the time when the initialization signal is released. The image forming apparatus according to claim 3, wherein the initialization signal is output to the display unit a plurality of times so that the length becomes shorter in order.

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