JP3708775B2 - Image forming apparatus - Google Patents

Description

[0001]
BACKGROUND OF THE INVENTION
The present invention relates to an image forming apparatus that executes an image forming process based on image data input from a single or a plurality of external devices via a data communication line. The present invention relates to an image forming apparatus that executes a standby mode for cutting.
[0002]
[Prior art]
In a conventional image forming apparatus, a startup circuit that starts a main power supply circuit when an instruction to start an image forming process is provided is provided, and the main power supply circuit is disconnected during standby of the image forming process to reduce power consumption. There is something to run the mode. In addition, there is an image forming apparatus connected via a data communication line to a network configured by an external apparatus such as a personal computer for creating image data. Such an image forming apparatus is connected from an external apparatus via a data communication line. An image forming process is executed based on the input image data.
[0003]
As described above, in the image forming apparatus that executes the standby mode, when starting the image forming process, when a switch arranged on the operation panel of the image forming apparatus is operated, or an activation command is input from the external apparatus. The main power supply circuit is activated by operating the activation circuit.
[0004]
For this reason, in the conventional image forming apparatus that executes the standby mode, as disclosed in JP-A-6-6356, JP-A-7-195802, and the like, a dedicated sub-power supply for supplying power to the starting circuit is disclosed. A power supply for operating the activation circuit can be supplied even in the standby mode in which the main power supply circuit is disconnected.
[0005]
[Problems to be solved by the invention]
However, in the conventional image forming apparatus that executes the standby mode, the sub power supply circuit for supplying power to the activation circuit is separated from the main power supply circuit even in the standby mode in which the main power supply circuit is disconnected. There is a problem that the circuit configuration becomes complicated and the cost increases. Further, since power is consumed by supplying power from the sub power supply circuit to the start-up circuit even in the standby mode, there is a problem that power cannot be completely consumed during standby of the image forming process.
[0006]
An object of the present invention is to supply power from an external device to an activation circuit that activates a main power supply circuit at the start of image forming processing, and eliminates the need for a sub power supply circuit separate from the main power supply circuit. It is an object of the present invention to provide an image forming apparatus that can realize a cost reduction by simplifying the above and can further reduce the running cost by not completely consuming electric power during the standby mode.
[0007]
[Means for Solving the Problems]
The present invention has the following configuration as means for solving the above problems.
[0008]
(1) Power is supplied from the main power supply circuit via the main power switch, and is connected to the external device via the data communication line to which a predetermined voltage is applied when not communicating in the external device, and disconnected during standby an image forming apparatus having a starting circuit for starting the main power supply circuit which is,
The start-up circuit is disposed on a power line extending from at least one data communication line to the ground side of the main power circuit,
The main power switch is opened by a CPU of an image forming apparatus that operates with power supplied from the main power circuit, and is closed by the activation circuit that operates with power supplied from the data communication line. It is characterized by.
[0009]
In this configuration, the power supply line of the activation circuit that activates the main power supply circuit disconnected during standby is connected to the external device via at least one data communication line to which a predetermined voltage is applied during non-communication in the external device. Connected to. Therefore, the startup circuit receives a predetermined voltage from the external device via the non-communication data communication line during standby, and a sub power supply circuit for supplying power to the startup circuit during standby is provided in the image forming apparatus. There is no need to provide it.
[0010]
(2) The power supply line includes an irreversible element that opens only a current path from the data communication line to the starting circuit.
[0011]
In this configuration, the activation circuit is connected to the external device via an irreversible element that opens only a current path from the data communication line to the activation circuit. Therefore, no current flows from the activation circuit to the data communication line, and a signal generated in the activation circuit does not affect the external device via the data communication line.
[0012]
(3) The activation circuit includes a first power supply line connected to at least one data communication line and a second power supply line connected to the main power supply circuit.
[0013]
In this configuration, the startup circuit is connected to the external device via the data communication line in the first power supply line, and is connected to the main power supply circuit in the second power supply line. Therefore, while the main power circuit is disconnected, power is supplied from the external device to the startup circuit, while in the state where the main power circuit is started, power is supplied from the main power circuit to the startup circuit. The operation of the starter circuit is stabilized.
[0014]
(4) The second power supply line is connected to the first power supply line via an irreversible element that opens only a current path from the main power supply circuit to the starting circuit.
[0015]
In this configuration, the starting circuit has power from the main power circuit by the second power line connected to the first power line via an irreversible element that opens only the current path from the main power circuit to the starting circuit. Receive the supply. Therefore, a voltage is stably applied from the external device to the starting circuit via the data communication line and the first power supply line during the standby state in which the main power supply circuit is disconnected.
[0016]
(5) The second power supply line has a resistance value of 10 times or more the resistance value of the first power supply line.
[0017]
In this configuration, the activation circuit is connected to the main power supply circuit via the second power supply line having a resistance value that is 10 times or more the resistance value of the first power supply line. Therefore, no voltage is applied from the data communication line to the main power supply circuit via the second power supply line during the standby state in which the main power supply circuit is disconnected, and the data communication line and the first power supply line are not used. Thus, the voltage is more stably applied from the external device to the starting circuit.
[0018]
DETAILED DESCRIPTION OF THE INVENTION
FIG. 1 is a diagram showing a configuration of a copying machine which is an image forming apparatus according to an embodiment of the present invention. The copier 1 according to this embodiment includes a scanner unit 2, a process unit 3, a paper feed unit 4, and a paper discharge unit 5. The scanner unit 2 includes a document table 21, a light source lamp 22, mirrors 23 a to 23 c, a lens 24, and a photoelectric conversion element (hereinafter referred to as a CCD) 25. The document table 21 is made of a hard transparent glass body, and a document is placed on the upper surface. The light source lamp 22 reciprocates in parallel with the lower surface of the document table 21 together with the mirror 23 a, and exposes and scans the image surface of the document placed on the upper surface of the document table 21 with light from the light source lamp 22. The mirrors 23 b and 23 c reciprocate in parallel with the lower surface of the document table 21 at a moving speed that is half that of the light source lamp 22. The mirrors 23 a to 23 c distribute light reflected from the light source lamp 22 on the image surface of the document in the direction of the lens 24. The lens 24 forms an image of the reflected light on the image surface of the document on the light receiving surface of the CCD 25. The CCD 25 outputs an electrical signal corresponding to the amount of reflected light received on the light receiving surface.
[0019]
The process unit 3 includes a photosensitive drum 31, a charger 32, a scan unit 33, a developing unit 34, a transfer unit 35, a static eliminator 36, a fixing unit 37, and the like. The photosensitive drum 31 is formed with a photosensitive layer and a protective layer in this order on the surface of a cylindrical substrate, and rotates in a direction indicated by an arrow at a predetermined speed. The charger 32 uniformly applies a single polarity charge to the surface of the photosensitive drum 31. The scan unit 33 irradiates the surface of the photosensitive drum 31 with image light such as laser light modulated by image data based on the output signal of the CCD 25, thereby forming an electrostatic latent image on the surface of the photosensitive drum 31. The developing unit 34 supplies the developer stored therein to the surface of the photosensitive drum 31, and visualizes the electrostatic latent image into a developer image. The transfer device 35 transfers the developer image carried on the surface of the photosensitive drum 31 to the surface of the paper. The static eliminator 36 removes the charge remaining on the surface of the photosensitive drum 31 that has passed through the position facing the transfer unit 35. The fixing unit 37 heats and pressurizes the sheet on which the developer image is transferred, melts the developer image, and firmly fixes the sheet on the surface of the sheet.
[0020]
The paper feed unit 4 includes a hand tray 41, a paper feed cassette 42, paper feed rollers 43 and 44, and a registration roller 45. On the hand tray 41, hand paper is placed. The paper feed cassette 42 stores a plurality of sheets of a single size. The paper feed rollers 43 and 44 feed the paper placed on the hand tray 41 before the rotation of the photosensitive drum 31 or the paper stored in the paper feed cassette 42 into the process unit 3 one by one. Feed paper. The registration roller 45 starts rotating at a timing synchronized with the rotation of the photosensitive drum 31, and guides the sheet fed by the sheet feeding roller 43 or 44 between the photosensitive drum 31 and the transfer device 35.
[0021]
The paper discharge unit 5 includes a paper discharge tray 51, a paper discharge roller 52, a paper discharge conveyance path 53, and a reverse conveyance path 54. The paper discharge conveyance path 53 constitutes a path for discharging the paper that has passed through the fixing unit 38 to the paper discharge tray 51 via the paper discharge roller 52. The reverse conveyance path 54 reverses the front and back surfaces of the sheet on which the single-sided image is formed in the double-sided image formation mode in which images are formed on both sides of the sheet, and conveys the sheet again into the process unit 3.
[0022]
FIG. 2 is a block diagram showing the configuration of the main part of the control unit in the copying machine. The copying machine 1 according to this embodiment is connected to an external apparatus 100 that creates image data such as a personal computer via a data communication line 101. The control unit 6 of the copying machine 1 includes a memory 62 and an interface IC 63, and is connected to input / output devices such as a motor, a clutch, and a solenoid that constitute the scanner unit 2, the process unit 3, the paper feeding unit 4, and the paper discharging unit 5. The image data input from the external device 100 via the data communication line 101 is stored in the memory 62 via the interface IC 63 and subjected to predetermined image processing. Is supplied to the scanner unit 33. The CPU 61 controls each input / output device in an integrated manner when processing image data.
[0023]
The CPU 61, the memory 62, the interface IC 63, and the above input / output device are supplied with power from the main power supply circuit 64 via the main power supply line 69. A main power switch 68, which is an electromagnetic switch, is disposed on the main power line 69, and the CPU 61 opens the main power switch 68 and disconnects the main power circuit 64 when a predetermined time has elapsed while waiting for image forming processing. The standby mode is executed. The control unit 6 includes an activation circuit 65 that closes the main power switch 68 and activates the main power circuit 64 in the standby mode. A start switch 71 provided in the operation panel 7 is connected to the start circuit 65, and is connected to at least one data communication line 101a via a sub power line (first power line) 66. . A relay element 67 is disposed on the sub power line 66.
[0024]
The interface IC 63 of the copying machine 1 is configured to operate in a low active state. Correspondingly, a pull-up voltage of about 5 V is applied to the data communication line 101 in the external apparatus 100, and data is output. Not held at high level during non-communication. Therefore, when the copying machine 1 is in the standby mode and the external apparatus 100 is not outputting image data, the pull-up voltage of the data communication line 101 in the non-communication state is not supplied to the start circuit 65. Applied. The starter circuit 65 is configured by, for example, a CMOS-IC that operates at a low current of about 50 μA, and operates sufficiently with power supplied from the data communication line 101.
[0025]
In the configuration shown in FIG. 2, when the activation switch 71 disposed on the operation panel 7 is operated while the CPU 6 is executing the standby mode, the activation circuit 65 is powered by the power supply of the external device 100 supplied from the data communication line 101. Operates and closes the main power switch 68. As a result, the main power supply circuit 64 is activated and the copying machine 1 finishes the standby mode and is ready to start image forming processing. In addition, by connecting the data communication line to which the image formation process start command is transmitted to the activation circuit 65 in the data communication line 101, when the image formation process start command is output from the external device 100, The main power switch 68 is closed by the start circuit 65 to start the main power circuit 64, and the standby mode can be terminated.
[0026]
As described above, in the copying machine 1 according to this embodiment, the external device 100 is in the non-communication state data with respect to the activation circuit 65 that activates the main power supply circuit 64 that is disconnected in the standby mode at the start of the image forming process. Since the voltage applied to the communication line 101 is applied via the sub power supply line 66, it is not necessary to provide the starter circuit 65 with a dedicated sub power supply circuit separately from the main power supply circuit 64. For this reason, the circuit configuration of the control unit 6 can be simplified and the cost can be reduced.
[0027]
Further, it is not necessary to supply power from the copier 1 side to the starting circuit 65 in the standby mode, so that the power consumption in the standby mode can be reduced to zero, and the running cost can be reduced. .
[0028]
Further, if a member that manually closes the main power switch 68 is excluded, power is not supplied to the activation circuit 65 in a state where the main power switch 68 is not connected to the external device 100. For this reason, it is possible to restrict the copying machine 1 from being used in a state where the external apparatus 100 is not connected.
[0029]
Note that the relay element 67 arranged in the sub power supply line 66 connecting the data communication line 101a and the activation circuit 65 opens only the current path from the data communication line 101a to the activation circuit 65, and from the activation circuit 65. The current to the data communication line 101a is regulated. Accordingly, a signal such as noise generated in the activation circuit 65 is not input to the external device 100 via the data communication line 101, and the operation state of the external device 100 does not become unstable. The relay element 67 can be configured by a combination of a diode and a resistor of 10 KΩ or less, a Zener diode, or the like. This is because when the relay element 67 is configured by a combination of a diode and a resistor, if the resistance value is 10 KΩ or more, a voltage drop of 0.5 V or more is caused by the current flowing through the starting circuit 65 operating at 50 μA, and the starting circuit 65 is This is because it cannot be operated.
[0030]
FIG. 3 is a block diagram showing a configuration of a main part of a control unit in a copying machine according to another embodiment of the present invention. In the control unit 6 ′ of the copying machine 1 according to this embodiment, a relay element 81 is provided at the subsequent stage of the relay element 67 in the sub power supply line (first power supply line) 66 that connects the activation circuit 65 to the data communication line 101a. A main power supply line 69 is connected via a secondary power supply line (second power supply line) 80. Other configurations are the same as those of the control unit 6 of the copying machine 1 shown in FIG.
[0031]
With this configuration, in the standby mode in which the main power supply circuit 64 is disconnected, the voltage applied to the data communication line 101 in the external device 100 is applied to the activation circuit 65 via the sub power supply line 66 and the main power supply circuit 64 is disconnected. In a state where the power supply circuit 64 is activated, power can be supplied from the main power supply circuit 64. Thereby, sufficient power can be supplied to the starting circuit 65, and the starting circuit 65 can be operated stably.
[0032]
FIG. 4 is a circuit diagram showing the connection state of the sub power line in the control unit of the copying machine. In the control unit 6 'shown in FIG. 3, a relay element 67 is disposed on the sub power supply line 66 that connects the activation circuit 65 and the data communication line 101a, and the relay element 67 is connected to the rear side of the relay element 67. It is connected to the main power supply line 69 by a sub power supply line 80 having 81. The relay element 67 includes a diode 67a that opens only a current path from the data communication line 101a to the starting circuit 65 and a resistor 67b of 10 KΩ or less. The relay element 81 includes a diode 81 a such as a Zener diode that opens only a current path from the main power supply line 69 to the sub power supply line 66, and the resistance value of the relay element 81 is a resistance that configures the relay element 67. The resistance value of 67b is 10 times or more.
[0033]
With this configuration, in a state where the main power supply circuit 64 is activated, the power of the main power supply circuit 64 is supplied only to the activation circuit 65 via the main power supply line 69, the sub power supply line 80 and the sub power supply line 66. In addition, in a state where the main power supply circuit 64 is disconnected, the power supply voltage of the external device 100 applied to the data communication line 101a is applied from the sub power supply line 66 to the main power supply line 69 via the sub power supply line 80. This can be reliably controlled, and the power supply voltage of the external device 100 can be applied only to the starting circuit 65. Thereby, the starting circuit 65 can be operated more stably.
[0034]
Note that the relay element 81 can also be configured by a diode and a resistor, like the relay element 67.
[0035]
【The invention's effect】
The present invention can achieve the following effects.
[0036]
(1) Connect the power line of the startup circuit that starts the main power circuit disconnected during standby to the external device via at least one data communication line to which a predetermined voltage is applied during non-communication in the external device By doing so, a predetermined voltage can be applied from the external device to the startup circuit via the data communication line that is in a non-communication state during standby, and a sub power supply for supplying power to the startup circuit during standby The circuit can be omitted. For this reason, the circuit configuration can be simplified and the cost can be reduced, and the running cost can be further reduced by not completely consuming electric power during standby.
[0037]
(2) By connecting the starter circuit to an external device via an irreversible element that opens only the current path from the data communication line to the starter circuit, current is prevented from flowing from the starter circuit to the data communication line. In addition, it is possible to prevent the external device from being affected by the signal generated in the starting circuit, and the system configured by the external device can be stably operated.
[0038]
(3) The start-up circuit is connected to the external device via the data communication line in the first power supply line and connected to the main power supply circuit in the second power supply line so that the main power supply circuit is disconnected. While power is supplied from an external device to the starter circuit, power can be supplied from the main power supply circuit to the starter circuit when the main power supply circuit is active, making the starter circuit more stable. Can be operated.
[0039]
(4) The power from the main power supply circuit by the second power supply line connected to the first power supply line via an irreversible element that opens only the current path from the main power supply circuit to the starter circuit to the starter circuit. Can supply a voltage stably from the external device to the starting circuit via the data communication line and the first power line while the main power circuit is turned off. It can be operated more stably.
[0040]
(5) The main power supply circuit is disconnected by connecting the starter circuit to the main power supply circuit via the second power supply line having a resistance value 10 times or more that of the first power supply line. During the standby, it is possible to prevent voltage from being applied to the main power supply circuit via the second power supply line from the data communication line, and from the external device to the activation circuit via the data communication line and the first power supply line. On the other hand, the voltage can be applied more stably, and the operation state of the starting circuit can be further stabilized.
[Brief description of the drawings]
FIG. 1 is a schematic diagram showing the configuration of a copying machine that is an image forming apparatus according to an embodiment of the present invention.
FIG. 2 is a block diagram illustrating a configuration of a main part of a control unit in the copying machine.
FIG. 3 is a block diagram showing a configuration of a main part of a control unit in a copying machine according to another embodiment of the present invention.
FIG. 4 is a diagram showing a connection state of sub power supply lines in the control unit;
[Explanation of symbols]
1-Copier (image forming device)
6-control unit 61-CPU
62-Memory 63-Interface IC
64-main power circuit 65-start circuit 66-sub power line (first power line)
67, 81-Relay element 68-Main power switch 69-Main power line 71-Start switch 80-Sub power line (second power line)
100-External device 101-Data communication line

Claims (5)

With receiving a supply of power from the main power supply circuit via the main power switch is connected to an external device via a data communication line to which a predetermined voltage is applied during the non-communication in an external device, which is cut while waiting the In an image forming apparatus having a start circuit for starting a main power supply circuit,
The start-up circuit is disposed on a power line extending from at least one data communication line to the ground side of the main power circuit,
The main power switch is opened by a CPU of an image forming apparatus that operates with power supplied from the main power circuit, and is closed by the activation circuit that operates with power supplied from the data communication line. An image forming apparatus. The image forming apparatus according to claim 1, wherein the power supply line includes an irreversible element that opens only a current path from the data communication line to the starting circuit. The said starting circuit was provided with the 1st power supply line connected to the at least 1 data communication line, and the 2nd power supply line connected to the main power supply circuit, The Claim 1 or 2 characterized by the above-mentioned. The image forming apparatus described. The image according to claim 3, wherein the second power supply line is connected to the first power supply line via an irreversible element that opens only a current path from the main power supply circuit to the starter circuit. Forming equipment. The image forming apparatus according to claim 4, wherein the second power supply line has a resistance value equal to or greater than 10 times the resistance value of the first power supply line.

Images