JP4548241B2 - Power supply - Google Patents

Description

  The present invention relates to a power supply device having a power saving function. In particular, the present invention relates to a failure determination technique for the power supply device.

  Recent image forming apparatuses are equipped with a power saving function as a standard, and have become a power supply system that cuts off power supply to unnecessary parts during standby. For this reason, the power supply apparatus is configured to stop unnecessary power supplies during standby according to a control signal from the control apparatus.

  However, when the power control mode is set to turn off when the control signal is at a high level, the control signal is set to a high level when the power consumption in the power saving mode is less than 1 W. Power consumption is also a problem.

  In view of this, a technique has been proposed in which the level of a control signal to be shifted to the power saving mode is changed to a low level to suppress power consumption.

  Patent Document 1 discloses a technique for accurately distinguishing between the normal state and the short-circuit state even when the currents flowing through the power supply line are close to each other.

  Patent Document 2 discloses a technique in which, in the drive sequence of the drive unit, an overcurrent detection threshold is set according to the drive phase, and the output voltage cutoff value can be variably set.

JP-A-5-328596 Japanese Patent Laid-Open No. 9-12177

  However, since the power supply does not start up unless a high level signal, for example, 5 V, is input to the power supply, a failure has occurred on the power supply side, or a control unit side that controls this other than the power supply side including a failure such as a harness short circuit There is a problem that it is difficult to understand whether this is a malfunction. Along with this, problems such as misdiagnosis, erroneous replacement, and a long repair time occur. In addition, Patent Documents 1 and 2 do not pay attention to such problems, and there is no disclosure of techniques to solve them.

  The present invention has been made in view of the above circumstances, and an object of the present invention is to provide a power supply apparatus that has high power saving efficiency and can easily determine a failure.

In order to achieve such an object, a power supply apparatus according to the present invention is connected to a control unit through a first power supply line, and supplies a power to the control unit even in a power saving mode that suppresses power consumption. The control unit is connected to an apparatus in the control unit or an image forming unit controlled by the control unit through a second power supply line, and is connected to the control unit through a control signal line. In the power saving mode, the control is performed via the control signal line. When the control signal sent from the control unit changes from the high level to the low level, the second power supply unit that stops the power supply to the control unit or the image forming unit is connected to the first power supply line and the control signal line. When the signal line is provided and turned on, the power supplied from the first power supply unit is supplied from the first power supply line to the second power supply unit via the signal line and the control signal line. The control signal supplied to the second power supply unit. Is forcibly set to a high level to activate the second power supply unit, and when the switch is turned on, the second power supply unit supplies the control unit or the image forming unit via the second power supply line. And a display unit for displaying a supply state of the power to be supplied .
Therefore, when the switch is turned on, a high-level control signal is supplied to the second power supply unit by the power supply supplied from the first power supply unit, so that the second power supply unit is forcibly activated. Therefore, even when the second power supply unit is controlled to be stopped by switching the control signal for controlling the second power supply unit from the high level to the low level in the power saving mode, the high level is maintained. The control signal can be supplied to the second power supply unit to forcibly start the second power supply unit, and it can be determined whether or not a failure has occurred in the second power supply unit.

In the power supply device having the above structure, the switch may be a transistor switch that is turned on when a connector that connects the power supply device, the control unit, and the image forming unit is disconnected.
Therefore, when the connector is disconnected, the second power supply unit is forcibly activated by the transistor switch, and it can be determined whether or not a failure has occurred in the second power supply unit.

  The present invention can provide a power supply device having high power saving efficiency and high safety and maintainability.

  Preferred embodiments of the present invention will be described with reference to the accompanying drawings.

  First, the configuration of the present embodiment will be described with reference to FIG. FIG. 1 shows the configuration of an image forming apparatus 1 equipped with a power supply device. The image forming apparatus 1 according to the present exemplary embodiment includes a power supply unit 10 that supplies power to a load, a control unit 20 that controls the power supply unit 10 and the image forming unit 21, and image formation according to the control of the control unit 20. And an image forming unit 21 that performs the operation.

  As shown in FIG. 2, the control unit 20 includes a CPU 23 as a central processing unit that executes various arithmetic processes, a ROM 24 that stores control programs, a RAM 25 that stores various data, an input / output circuit (I / O) 26, and the like. It is configured as a logical operation circuit composed of bus lines to be connected.

  The power supply unit 10 is provided with three low voltage power supplies (hereinafter referred to as “LVPS”) 13 for supplying power to the control unit 20 and the image forming unit 21. LVPS_1 (13) is a power source that supplies power to the control unit 20, and is turned on even when the power source is set to off. LVPS_2 (13) is also a power source that supplies power to the control unit 20, and is a power source that is turned off in the power saving mode. LVPS_3 (13) is a power source that supplies power to the image forming unit 21, and is turned off in the power saving mode. Note that the power saving mode includes a sleep mode and the like.

  Further, LVPS_2 (13) and LVPS_3 (13) and the control unit 20 are connected by control lines 14 and 15. When the power saving signals output from the control unit 20 to the LVPS_2 (13) and the LVPS_3 (13) by the control lines 14 and 15 are at a high level, the LVPS_2 (13) and the LVPS_3 (13) are activated. In the power saving mode, the LVPS_2 (13) and LVPS_3 (13) are turned off by setting the power saving signal to a low level.

  Further, when a high-level power saving signal is not input to the LVPS_2 (13) and LVPS_3 (13) due to a failure of the control unit 20 or the like, the switches 11 and 12 are set to ON by the operation of the service person or the user. . The switch 11 is a switch that connects the power line of the LVPS_1 (13) and the control line 14. When the switch 11 is set to ON, the power from the always-on LVPS_1 (13) is input to the startup terminal of the LVPS_2, and the LVPS_2 (13) is started. Similarly, the switch 12 is a switch that connects the power line of the LVPS_1 (13) and the control line 15. When the switch 12 is set to ON, the power from the LVPS_1 (13) is input to the activation terminal of the LVPS_3 (13), and the LVPS_3 (13) is activated. The power supply lines of LVPS_2 (13) and LVPS_3 (13) are provided with a display unit 27 that is connected to these power supply lines and displays whether the LVPS_2 (13) and LVPS_3 (13) can output power. ing. The display unit 27 is configured by an LED or the like.

  Thus, in this embodiment, the LVPS_2 (13) and the LVPS_3 (13) can be turned on and off by the switches 11 and 12. Therefore, when the power supply unit 10 does not start up in the power saving mode, a signal for starting the power supply unit 10 is input to easily determine whether the control unit 20 is in failure or the power supply unit 10 is in failure. be able to. Moreover, since the power saving mode is shifted to the power saving mode by setting the power saving signal to a low level, the power consumption in the power saving mode can be reduced.

  In the present embodiment, when the connector 32 connecting the power supply unit 10, the control unit 20, and the image forming unit 21 is disconnected, this is detected and the on / off control signal of the LVPS_2 (13) is forcibly detected. A forced on circuit 30 for turning on is provided. The configuration of the forced on circuit 30 will be described with reference to FIG.

  The forced-on circuit 30 has an emitter connected to the power line 33 of LVPS_1 (13), a base connected to the power line 33 via a dummy wiring 35, a collector 31 grounded, and an input side connected to the emitter. , And a diode 36 connected to the signal line 37 of the on / off control signal on the output side. As shown in FIG. 4, the connector 32 is provided with a dummy wiring 35 for the forced on circuit 30. The dummy wiring 35 is a wiring connecting the output terminal and the input terminal of the connector 32, the output terminal is connected to the power supply line 33 in the power supply unit 10, and the input terminal is connected to the base of the transistor 31 through a resistor. ing. The on / off control signal signal line 37 is a control signal line for setting the LVPS_2 (13) to the power saving mode or starting the power saving mode.

  When the connector 32 is disconnected (step S1), the power from the power supply LVPS_1 (13) is not supplied to the load, and a voltage is applied to the base of the transistor. As a result, the forced on circuit 30 is turned on, the signal line 37 is set to the high level, and the on / off control signal is forcibly set to the high level (step S2). When a high level on / off control signal is input to LVPS_2 (13), LVPS_2 (13) is turned on. By measuring the voltage of the output terminal 34 connected to the LVPS_2 (13) with a tester or the like (step S4), it is possible to confirm the failure of the power supply. If the power supply unit 10 is equipped with more power supplies, a forced on circuit may be provided corresponding to each power supply. Further, if a display unit 27 such as an LED is added to the output terminal 34, it is possible to easily determine the failure of the power source by visual observation.

  In this embodiment, the forced on circuit 30 described in the second embodiment is provided in the interlock circuit. An interlock circuit is used in the image forming apparatus. For example, a dangerous operating state does not occur for the operator by turning on and off the power using a switch linked to opening and closing of the front door of the device. I am doing so. As a result, even if the device is powered on, if the front door is opened, the application of the drive voltage to the load is stopped, that is, the load does not move, causing an accident. Can be prevented.

  As shown in FIG. 6, the interlock circuit includes an interlock switch 41 that switches off and on according to opening and closing of the front door, and a power supply 44 to the output terminal B according to the on and off of the interlock switch 41. And an interlock relay 43 that cuts off the output of. A voltage is constantly applied to the output terminal A. The forced on circuit 50 includes a transistor 51 having an emitter as a power supply line 42, a base as an input side of the interlock switch 41, and a collector as a ground, and a resistor.

  When the front door is opened, the interlock switch 41 is turned off and the output terminal B is cut so that no current flows. At this time, the forcible on circuit 50 is provided to forcibly turn on the interlock relay 43 so that the voltage is applied to the output terminal B. By measuring the voltage at the output terminal B with a tester or the like, it is possible to easily determine the failure of the power supply unit 44. Further, if a display device such as an LED is added to the output terminal B, it is possible to easily determine the failure of the power source only by visual observation.

  In this way, the present embodiment provides a power supply device with high power saving efficiency that can easily diagnose a failure with a simple configuration, shorten the time for repairing the failure, and avoid damage to the customer as well as maintenance costs. I can do it.

  The embodiment described above is a preferred embodiment of the present invention. However, the present invention is not limited to this, and various modifications can be made without departing from the scope of the present invention.

1 is a diagram illustrating a configuration of a power supply device of the present invention and an image forming apparatus equipped with the power supply device. It is a figure which shows the structure of a control part. It is a figure which shows the relationship between the signal voltage of a power saving signal, and the operation mode of a power supply part. It is a figure which shows the structure of 2nd Example of a power supply device. It is a flowchart which shows the operation | movement procedure of the power supply device of 2nd Example. It is a figure which shows the structure which attached the forced ON circuit to the power supply device carrying an interlock circuit.

Explanation of symbols

DESCRIPTION OF SYMBOLS 1 Image forming apparatus 10 Power supply part 11, 12 Switch 13 LVPS
14, 15 Control line 20 Control unit 21 Image forming unit 22 Switch 23 CPU
24 ROM
25 RAM
26 I / O
30, 50 Forced ON circuit 31 Transistor 32 Connector 33 Power supply line 34 Output terminal 35 Dummy wiring 36 Diode 37 Signal line 41 Interlock switch 42 Interlock relay

Claims (2)

A first power supply unit that is connected to the control unit through a first power line and supplies power to the control unit even in a power saving mode that suppresses power consumption;
A device in the control unit or an image forming unit controlled by the control unit is connected by a second power line, and is connected to the control unit by a control signal line, and in the power saving mode, the control signal line A second power supply unit that stops power supply to the control unit or the image forming unit when a control signal sent from the control unit changes from a high level to a low level;
Provided in a signal line that connects the first power supply line and the control signal line, and when turned on, the power supplied from the first power supply unit is transmitted from the first power supply line via the signal line and the control signal line. A switch for forcibly setting the control signal supplied to the second power supply unit to a high level and activating the second power supply unit by being supplied to the second power supply unit,
A display unit that displays a supply state of power supplied from the second power supply unit to the control unit or the image forming unit via the second power supply line when the switch is turned on;
A power supply device comprising: 2. The power supply device according to claim 1 , wherein the switch is a transistor switch that is turned on when a connector that connects the power supply device to the control unit and the image forming unit is disconnected.

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