JP2016014769A - Power supply apparatus, drive apparatus, image forming apparatus, and drive apparatus control method - Google Patents

Abstract

PROBLEM TO BE SOLVED: To provide a power source device that has a plurality of power source lines and can be started and can be continued to be operated if at least any one of the power source lines is connected to external power sources, even when some of the power source lines are not connected to the external power sources.SOLUTION: A power source device 200 supplies a power to control means 9 for controlling drive of a plurality of power supply destinations 16 and 17, and includes power source means 5 for supplying a power to the control means, and switching means 4 connected respectively to the external power sources and can connect the power source means to any one of a plurality of power source lines on a power supply path to the plurality of power supply destinations.

Description

  The present invention relates to a power supply device connected to a plurality of power supply destinations, a drive device including the power supply device, an image forming apparatus including the drive device, and a control method for the drive device.

  In recent years, image forming apparatuses have been increased in speed and added functions in order to increase added value in multifunction peripherals. As a result of diversification of functions, there is already known a method in which a plurality of power supply lines are provided to supply power from a plurality of power supplies so that power consumption increases and the shortage is compensated.

  However, in the conventional image forming apparatus, unless all the plurality of installed power supply lines are connected, there is a case where the apparatus does not start or is determined to be out of order and the operation is stopped. Therefore, there is a problem that the use of the image forming apparatus cannot be used and the convenience is impaired in the state where the number of connected power lines is limited, such as unintentional disconnection of the power line or the inability to secure an outlet due to the convenience of the user. .

  For example, Patent Documents 1 and 2 include a plurality of power supply lines, and the user is informed that the connection is not established when the apparatus malfunctions due to forgetting or disconnecting some of the power supply lines or when the apparatus operates in a restricted mode. And an image forming apparatus that can notify a service person (such as a user). In these image forming apparatuses, when the power supply line is not connected, it is possible for the user to take a countermeasure to recover from the stopped state (downtime) by resetting.

  However, in the above-described image forming apparatus, if there is an unintended disconnection of the power supply line or if the total number of outlets cannot be secured due to the convenience of the user, the user is only notified that the connection is not established. It did not work when the line was not connected to an external power source.

  Therefore, in view of the above circumstances, the present invention continues the start-up and operation of the power supply destination by connecting any one of the plurality of power supply lines even if they are not connected to the external power supply. It is an object of the present invention to provide a power supply device that can be used.

  In order to solve the above-described problem, according to one aspect of the present invention, a power supply apparatus that supplies power to a control unit that controls driving of a plurality of power supply destinations, the power supply supplying power to the control unit And a switching means that can be connected to any one of a plurality of power lines connected to an external power source and in a power supply path to the plurality of power supply destinations, and the power supply means.

  According to one aspect of the present invention, even if one of a plurality of power supply lines is not connected to an external power supply, the power supply destination can be started and continued by connecting any one of them. It becomes possible.

1 is an AC power control circuit diagram of an image forming apparatus having two power supply lines according to an embodiment of the present invention. FIG. 2 is a diagram illustrating a state in which two power lines of the image forming apparatus in FIG. 1 are connected to a commercial power source. FIG. 2 is a diagram illustrating a state in which only a second power line of the image forming apparatus in FIG. 1 is connected to a commercial power source. FIG. 2 is a diagram illustrating a state in which only a first power line of the image forming apparatus in FIG. 1 is connected to a commercial power source. 1 is a schematic diagram of an embodiment of a thermal fixing device used in an image forming apparatus of the present invention. It is a figure explaining the outline | summary of the power supply of an embodiment with which the number of power supply lines increased in this invention. 1 is a circuit diagram of an image forming apparatus using an SSR as a switching device in the present invention. FIG. 3 is a schematic diagram of an operation unit in the image forming apparatus of the present invention. It is a flowchart of the mode switching control at the time of warm-up. 1 is a schematic view of an example of an image forming apparatus of the present invention. It is a flowchart of the mode switching control at the time of printing operation.

Hereinafter, embodiments for carrying out the present invention will be described with reference to the drawings.
FIG. 1 is an AC power control circuit diagram of an image forming apparatus having two power supply lines according to an embodiment of the present invention. As a driving device for controlling the power supply of the image forming apparatus, power supply lines 1 and 2, a main switch (SW) 3, a control unit 9 as control means, AC control plates 6 and 10, and an operation unit 14 are provided. In FIG. 1, two fixing heaters 16 and 17 serving as heating means are connected to the AC control plates 6 and 10 as power supply destinations. A temperature detection unit 13 that detects the temperature of the fixing roller 15 heated by the fixing heaters 16 and 17 is connected to the control unit 9. The main switch 3 is a switch that works in conjunction with a power switch that is operated by a person such as a user installed in the image forming apparatus. Done.

  The switching unit 4 and the main power supply unit 5 constitute a power supply device 200. The main power supply unit 5 is connected to a common terminal (hereinafter referred to as COM terminal) of the C contact relay 4 which is a switching means. A first power supply line 1 is connected to a normally closed terminal (hereinafter referred to as an NC terminal) of the relay 4 via a main switch 3. A second power supply line 2 is connected to a normally open terminal (hereinafter referred to as NO terminal) of the relay 4 through a main switch 3.

  The switching means (relay) 4 can connect either the power supply line 1 or 2 and the main power supply unit 5, and connect any one of the power supply lines 1 or 2 connected to the commercial power supply (external power supply) to the main power supply unit. The connection switching operation is performed so that the main power supply unit (power supply means) 5 is operated by the current (power) supplied from the power supply line 1 or 2. Even when a plurality of power supply lines are connected to an external power supply, the main power supply unit 5 can be controlled as a whole by connecting to one power supply line. Supplied to.

  The power supply lines 1 and 2 and the AC control boards 6 and 10 are power supply paths that are connected to an external power supply (commercial power supply) and supply power to a plurality of power supply destinations (fixing heaters 16 and 17). An input unit (hereinafter referred to as input A, power input means) of the first power supply line 1 connected to the commercial power supply is connected to the first AC control plate 6 that supplies power to the fixing heater 16 via the interlocked main switch 3. It is connected. The first AC control board 6 includes a first zero cross circuit 7 and a first fixing control unit 8. The first zero cross circuit 7 functions as a connection detecting means, and can detect a point (zero cross) where the AC voltage input to the input A crosses 0V as an input state (connected state), and the detection result is the first zero cross circuit. 7 notifies the control unit 9 of the first zero cross signal 7a.

  Similarly, the output of the input section (hereinafter referred to as input B, power input means) of the second power supply line 2 connected to the commercial power supply is supplied to the fixing heater 17 via the interlocked main switch 3. 2 It is connected to the AC control board 10. The second AC control board 10 includes a second zero cross circuit 11 and a second fixing control unit 12. The second zero cross circuit 11 functions as a connection detection unit, can detect the zero cross of the input B, and the second zero cross circuit 11 notifies the control unit 9 of the detection result of the second zero cross signal 11a.

  The control unit 9 for controlling the first AC control plate 6 and the second AC control plate 10 functions by using the power output from the main power supply unit 5 as a drive source. The control unit 9 adjusts the control content according to the number of connected power lines.

  Specifically, the control unit 9 is based on the zero-cross signals 7a and 11a that are detected and notified by the first zero-cross circuit 7 inside the first AC control board 6 and the second zero-cross circuit 11 inside the second AC control board 10. It is determined whether the power lines 1 and 2 are connected. Then, the detected input status (connection information) is displayed on the display unit 14D of the operation unit 14. Further, the control unit 9 switches the control between the full drive mode and the partial drive mode according to the zero cross signals 7a and 11a and the output given from the operation unit 14, and the fixing control units 8 and 12 which are supply destination control units. To control ON / OFF of the fixing heaters 16 and 17.

  Although a circuit using an AC power supply is used in FIG. 1, there is a device that is driven by a DC power supply recently, and without using a zero cross circuit, the connection of the power supply line is determined directly by the control unit (for example, the control unit 9). Correspondence is possible.

  FIG. 2 shows a state in which the first power supply line 1 and the second power supply line 2 of the image forming apparatus 100 of FIG. 1 are connected to a commercial power supply.

  When the commercial power supply is connected to both the first power supply line 1 and the second power supply line 2, the input A and the input B are in a supply state, and the coil 41 of the relay 4 is energized by the input B and is normally open ( N.O) terminal and COM terminal are connected. Accordingly, the main power supply unit 5 is supplied with power (current) from the input B.

  Also, the zero cross circuits 7 and 11 output zero cross signals 7a and 11a by the input A and the input B, and the control unit 9 controls the lighting of the fixing heaters 16 and 17.

  FIG. 3 shows a state where only the second power line 2 of the image forming apparatus 100 of FIG. 1 of the present invention is connected to a commercial power source. FIG. 3 shows a state in which the first power supply line 1 is disconnected from the commercial power supply as a state in which the first power supply line 1 is not connected to the commercial power supply (external power supply, outlet). “Not included” includes a state in which the outlet of the power supply line is disconnected and a state in which the power supply line is disconnected from the main body of the drive device (image forming apparatus). When only the second power supply line 2 is connected to a commercial power source, the input A is not supplied and the input B is supplied, and the coil 41 of the relay 4 is energized by the input B and is normally open (NO). ) Terminal and COM terminal are connected. Therefore, the main power supply unit 5 is supplied (input) with power (current) from the input B.

Since power is not supplied from the input A, the controller 9 detects that the first zero cross signal 7a from the first zero cross circuit 7 is not output, and the fixing heater 16 is not turned on. The controller 9 detects that the second zero cross circuit 11 has output the second zero cross signal 11a in response to the input B, and turns on the fixing heater 17.
In this case, the control unit 9 displays that the input A is not supplied on the display unit 14D of the operation unit 14.

  FIG. 4 shows a state where only the first power line 1 in the image forming apparatus 100 of FIG. 1 is connected to a commercial power source. When only the first power supply line 1 is connected to the commercial power supply, the input A is supplied, the input B is not supplied, and no power is supplied from the input B. Is not operated and is connected to the normally closed (NC) terminal. Therefore, the input of the main power supply unit 5 is supplied from the input A.

The controller 9 detects that the first zero cross circuit 7 has output the first zero cross signal 7a in response to the input A, and turns on the first fixing heater 16. Since the power from the input B is not supplied, the control unit 9 detects that the second zero cross signal 11a from the second zero cross circuit 11 is not output, and the fixing heater 17 is not turned on.
In this case, the control unit 9 displays that the input B is not supplied on the display unit 14D of the operation unit 14.

  FIG. 5 shows an outline of an embodiment of a thermal fixing device used in the image forming apparatus 100 of the present invention. In FIG. 5, the thermal fixing device 20 includes a fixing roller 15, a pressure roller 18, fixing heaters 16 and 17, and a temperature detection unit 13. The fixing roller 15 and the pressure roller 18 are rotationally driven in directions opposite to each other while being in pressure contact with each other to form a pressure contact portion (fixing NIP). The fixing heaters 16 and 17 are respectively arranged inside the fixing roller 15 and heat the fixing roller 15. The temperature detection unit 13 is configured by a contact type thermistor or a non-contact type thermopile that detects the surface temperature of the fixing roller 15.

  The fixing roller 15 is heated by driving either one or both of the first fixing heater 16 and the second fixing heater 17. When the transfer paper (paper) P, which is a recording medium, passes through the pressure contact portion between the fixing roller 15 and the pressure roller 18, the toner image is melted and fixed by heating and pressure by the fixing roller 15 and the pressure roller 18. Is done.

  FIG. 6 is a diagram for explaining the outline of a power supply according to an embodiment in which the number of power supply lines is increased in the present invention. 1 to 4 of the present invention are described with two power lines. However, by adding relays 24 and 25 as shown in FIG. 6 to form a plurality of relay connections, the power lines (power lines) 21 and 23) can be added.

  FIG. 7 shows a circuit diagram of an image forming apparatus including a power supply apparatus 200-1 using an SSR (solid state relay) as a switching means in the present invention. Here, an embodiment will be described in which a circuit using an SSR as a switching unit in the present invention enables connection of an unconnected power line on the way from the state in which the image forming apparatus 100 is operating.

  In FIG. 7, as inputs A and B as power input means, a first power supply unit 29 and a second power supply unit 30 respectively connected to power supply lines 1 and 2 are provided, and a switching device 32 as switching means. Is arranged. In the switching device 32, the normally closed relay 31 for turning on / off the connection between the second power supply line 2 and the second power supply unit 30 and the input connection to the main power supply unit 5 for the first power supply line 1 or the second power supply line. 2 and a switching device 32 for switching to one of the two.

  The switching device 32 includes a delay circuit 33, a comparison circuit 34, an SSR 35, and an SSR 36. The delay circuit 33 includes a resistor / capacitor that is between the first power supply unit 29 and the comparison circuit 34 and delays signal transmission from the first power supply unit 29. The comparison circuit 34 compares the inputs of the first power supply unit 29 and the second power supply unit 30. Note that the comparison circuit 34 may use a comparator by generating a voltage difference between the first power supply unit 29 and the second power supply unit 30 by the power supply unit output or resistance voltage division. The SSR 35 turns on / off the connection between the first power supply line 1 and the main power supply unit 5 in accordance with a signal from the comparison circuit 34. The SSR 36 turns on / off the connection between the second power supply line 2 and the main power supply unit 5 according to a signal from the second power supply unit 30.

  In the input units A and B, when only the first power supply line 1 is connected, the first power supply unit 29 is activated. The output of the first power supply unit 29 is input to the comparison circuit 34 of the switching device 32. The comparison circuit 34 is in the state where the input of the first power supply unit 29 is present and the input of the second power supply unit 30 is not present. Perform the action. Then, the SSR 35 operates to supply power from the input A to the main power supply unit 5, and the image forming apparatus is operated. The relay 31 is operated by the output of the comparison circuit 34 and the connection between the second power supply line 2 and the second power supply unit 30 is disconnected.

  When the second power supply line 2 is connected after the image forming apparatus 100 is operated, power is supplied to the contact of the relay 31 and the second AC control board 10. Since the contact of the relay 31 is cut by the output from the comparison circuit 34 and the second power supply line 2 and the second power supply unit 30 are not connected, the second power supply unit 30 and the SSR 36 do not operate. When the second power supply line 2 is connected to the second AC control board 10, the second zero cross circuit 11 operates and sends the second zero cross signal 11 a to the control unit 9. The control unit 9 receives the second zero cross signal 11a, determines that the second power supply line 2 is connected, and starts the operation of the second fixing heater 17.

  When only the second power supply line 2 is connected, the second power supply unit 30 is activated. The output of the second power supply unit 30 is input to the comparison circuit 34 and the SSR 36 of the switching device 32. The output of the comparison circuit 34 is determined by the signal from the second power supply unit 30 so that the SSR 35 and the relay 31 do not operate. The SSR 36 operates to supply power from the input B to the main power supply unit 5 to operate the image forming apparatus.

  When the first power supply line 1 is connected after the image forming apparatus is operated, the first power supply unit 29 is activated and a signal is input to the comparison circuit 34 through the delay circuit 33. Here, the comparison circuit 34 maintains a state in which the operations of the SSR 35 and the relay 31 are stopped by a signal from the second power supply unit 30. When the first power supply line 1 is connected to the first AC control board 6, the first zero cross circuit 7 operates to send the first zero cross signal 7 a to the control unit 9. The control unit 9 receives the first zero cross signal 7a, determines that the first power supply line 1 is connected, and starts the operation of the first fixing heater 16.

  When both power supply lines 1 and 2 are connected, both power supply units 29 and 30 are activated. Input signals (power signals) from the first power supply units 29 and 30 are input to the comparison circuit 34 of the switching device 32. The output of the comparison circuit 34 is determined by the signal from the second power supply unit 30 so that the SSR 35 and the relay 31 do not operate. The signal of the first power supply unit 29 is input to the comparison circuit 34 after the signal of the second power supply unit 30 is determined by the delay circuit 33.

  In this way, the signal of the first power supply unit 29 and the signal of the second power supply unit 30 are input simultaneously, preventing both the SSR 35 and the SSR 36 from operating. A signal from the second power supply unit 30 is input to the SSR 36, and the SSR 36 operates to supply power to the main power supply unit 5 to operate the image forming apparatus 100.

FIG. 8 is a schematic diagram of the operation unit 14 in the image forming apparatus 100 of the present invention. The operation unit 14 includes operation input means such as input keys and switches, and display means 14D which is a display of a liquid crystal display panel. The operation state includes the state of the apparatus including the power input state described above, the available paper size, In addition to displaying the copy magnification and the like, the operation input means can accept the operation of the operator. In FIG. 8, the display means 14D shows a state in which “there is an unconnected power line” is displayed. As the status display information displayed on the display unit 14D of the operation unit 14, a method such as moving image data (actual shooting, animation), still image data, voice guidance, or the like may be used.
Although FIG. 8 shows the operation unit 14 having a push button type, the operation unit 14 of the present invention may be a liquid crystal touch panel capable of inputting by touching the liquid crystal screen as a display unit.

  Referring to FIGS. 1 and 8, control unit 9 displays on display means 14 </ b> D of operation unit 14 that there is an unconnected power line when any zero-cross signal 7 a or 11 a is not input.

  FIG. 9 shows a flowchart of the mode switching control during warm-up (startup). An outline of an embodiment of mode switching control during warm-up according to the present invention will be described below.

  In FIG. 9, first, the main switch 3 is turned on at the start step S100. The switching device 4 is appropriately switched so that the input power line (a power line to which a commercial power supply is connected) is connected to the main power supply unit 5. The switching device 4 is configured in advance as such. As a result, power is supplied to the main power supply unit 5 (S101). Then, the main power supply unit 5 activates the control unit 9 as the activation of the image forming apparatus 100 using the power (current) supplied from the switching device 4 as a drive source (S102).

  In S103, the control unit 9 determines whether or not the first zero-cross signal 7a detected by the first zero-cross circuit (connection detection unit) 7 by the input A is output. If YES in S103, the control unit 9 determines whether or not the second zero cross signal 11a detected by the second zero cross circuit (connection detecting means) 11 by the input B is output (S104).

  Based on the determination of the detection states in steps S103 and S104, the control unit 9 controls the fixing control units (supply destination control units) 8 and 12 to set / reset the lighting flags of the fixing heaters 16 and 17. Specifically, in the case of NO in S103, since it is not connected to the input unit (input A) of the first power supply line 1, the fixing heater (first fixing heater) 16 from the input A is set as the partial drive mode. The lighting flag is reset and the lighting flag of the fixing heater 17 is set (S108). Further, if NO in S104, since it is not connected to the input section (input B) of the second power line 2, the lighting flag of the fixing heater (second fixing heater) 17 from the input B is set as the partial drive mode. Then, the lighting flag of the fixing heater 17 is reset (S106). If all the zero-cross signals 7a and 11a are detected in S103 and S104, it is determined that the drive mode is all driving, and all the lighting flags of the fixing heaters 16 and 17 are set in S105.

  Thereafter, the fixing rising abnormality determination time is set in accordance with the total power of the connected fixing heaters. Here, generally, when conditions other than the heater power (internal and external temperatures, the heat coefficient of the fixing roller, the input voltage, etc.) are the same, the fixing rise time is inversely proportional to the heater power. Therefore, if any zero cross signal 7a, 11a is not detected (NO in S103, S104), it is determined that there is a power line that is not connected, and the fixing rising abnormality determination time is changed (extended).

  As an example, when YES is set in S103 and S104, and both the lighting flags of the fixing heaters 16 and 17 are set as the full drive mode in S105, the image forming apparatus 100 that uses two fixing heaters, for example, 1000 W is abnormal. When the determination time is 1 minute and the warm-up is performed with one fixing heater, the fixing rising abnormality determination time is set to 2 minutes. In other words, in S107 and S109, the abnormality determination time for fixing rising is changed (extended) from the predetermined two times.

  After the abnormality determination time is set in this way, in step S110, the reload process is executed for the set abnormality determination time. In the reloading process, the fixing heaters 16 and 17 are turned on and off according to the fixing heaters 16 and 17 lighting flag state.

  Then, in S111, it is confirmed whether or not the temperature of the fixing roller 15 has reached the target temperature within the abnormality determination time. If it has reached (YES), the warm-up is completed. On the other hand, when the temperature of the fixing roller 15 does not reach the target temperature within the abnormality determination time (NO), it is displayed as an abnormality on the display unit 14D of the operation unit 14 that the fixing roller temperature has not reached the target temperature. (S113).

  Thus, even if any one of the plurality of power supply lines is disconnected before starting printing or at the time of starting, the switching unit is driven so that the power supply device is driven by any one of the power supply lines connected to the commercial power supply. , The image forming apparatus 100 can be activated without any instruction from the user. Therefore, it is determined that a failure has occurred due to the disconnection of the power supply line, and there is no downtime during which the apparatus stops, so that convenience can be improved. Further, when any one of the power supply lines is disconnected, the partial drive mode is selected by the control unit 9 as the drive mode, and the rise time is set longer than when the full drive mode is selected. As a result, even with partial driving, it is possible to reliably reach the target temperature, and a high-quality warm-up operation can be performed.

  FIG. 10 is an overall schematic diagram of an example of the image forming apparatus 100. In the image forming apparatus 100 as shown in FIG. 10, during printing, the paper P is conveyed by several rollers, and after the toner image formed on the drum unit 60 is transferred to the paper P, the thermal fixing device 20 in FIG. It is fixed by. Rollers such as paper feed rollers 51 and 52, conveyance rollers 53, and registration rollers 54 and 55 used for conveyance are electrically connected to the control unit 9 in FIG.

  Here, as shown in FIG. 11 described later, the CPM down operation at the time of printing may be performed by switching the drive mode by the control unit 9. The CPM is the number of images formed per unit time (Copies Per Minutes). The CPM down is generally performed with an operation less than a predetermined number of CPMs, and is intended to compensate for a lack of processing capability of the apparatus. For example, when the CPM is down, the conveyance of the paper P is temporarily stopped by stopping the rotation of the rollers (the paper feed rollers 51, 52, the conveyance roller 53, etc.) with the registration rollers 54, 55 as the leading ends. Then, when the conditions for enabling the next processing such as the fixing temperature and data transfer are satisfied, the rollers are rotated and the conveyance of the paper P is resumed. Alternatively, it is also useful to lower the CPM by adjusting the rotation speed of each roller to lower the paper conveyance speed. Alternatively, the image forming speed of the drum unit 60 may be changed.

  FIG. 11 is a flowchart of mode switching control during printing (operation). An outline of an embodiment of mode switching control during the printing operation of the present invention will be described below. In the present embodiment, as shown in FIG. 10, in addition to the fixing heaters 16 and 17, each roller related to conveyance and the drum unit 60 related to image formation are connected to the control unit 9 as a current supply destination.

  First, printing is started through warm-up as shown in FIG. During the printing operation, when there is a change in the connection of the power supply unit to the input units A and B (part of the power supply line is disconnected or a new connection), the switching device 4 receives the input power line (commercial power supply is connected). The power line) is appropriately switched so as to be connected to the main power source 5. As a result, the supply of power to the main power supply unit 5 is maintained (S201). And the control part 9 displays the change of a connection state on the display means 14D (refer FIG. 8) of the operation part 14 (S202).

  Thereafter, similarly to FIG. 9, in S203 and S204, the control unit 9 detects the first zero cross signal 7a detected by the first zero cross circuit 7 by the input A and the second zero cross detected by the second zero cross circuit 11 by the input B. It is determined whether the signal 11a is output.

  If any of the zero cross signals 7a and 11a is not detected in S203 and S204, it is determined that the partial drive mode is set. Reset it. Then, the CPM down flag is set in S208 and S210. As a specific CPM down, the conveyance control unit 50 shown in FIG. 10 temporarily stops the conveyance of the paper by each roller or reduces the conveyance speed. Alternatively, the toner image creation speed in the drum portion may be reduced. By setting such a CPM down flag, the processing speed of the image forming apparatus 100 is reduced to compensate for the lack of processing capability.

  If all the zero-cross signals 7a and 11a are detected in S203 and S204, it is assumed that all driving modes are set, and all the lighting flags of the fixing heaters 16 and 17 are set in S205, and the CPM down flag is reset in S206. .

  Then, as the printing operation, a predetermined operation is appropriately performed according to the state of the lighting flag of the fixing heaters 16 and 17 and the state of the CPM down flag (S211).

  As described above, even if any one of the plurality of power supply lines is disconnected or is additionally connected during startup or operation, any one power supply line connected to the commercial power supply is used. Since the switching unit operates so that the power supply device operates, it is possible to continue activation or driving of the image forming apparatus. Therefore, it is determined that a failure has occurred due to the disconnection of the power supply line, and there is no downtime during which the apparatus stops, so that convenience can be improved. Further, when any one of the power lines is not connected to the external power source, the partial drive mode is selected by mode switching in the control unit, and the processing speed is reduced by lowering the CPM than when the full drive mode is selected. As a result, the printing operation can be continued without degrading the quality.

  Note that the power supply device of the present invention may be integrated into the image forming apparatus main body at the time of manufacture. Alternatively, the switching unit 4 and the main power supply unit 5 may be integrated into a module to be configured as a power supply device so that it can be distributed alone. For example, if all of the existing power supply lines are not connected, the modularized power supply apparatus of the present invention is connected to the image forming apparatus that is not activated or activated, and the control unit program is rewritten. As a result, even if some power supply lines are not connected to the external power supply, the power supply can be operated without a user instruction.

  The invention is not limited by the embodiments described above and the accompanying drawings, but is defined by the appended claims. Accordingly, within the scope of the technical idea of the present invention described in the claims, a person having ordinary knowledge in the technical field can make various forms of substitutions, modifications and changes. These are also within the scope of the present invention.

1 Power line (power supply path)
2 Power line (power supply path)
4 Switching means (relay, power supply)
5 Main power supply (power supply means, power supply)
6 1st AC control board (power supply path)
7 First zero cross circuit (connection detection means)
7a First zero cross signal 8 First fixing control section (supply destination control section)
9 Control unit (control device)
10 Second AC control board (power supply path)
11 Second zero cross circuit (connection detection means)
11a Second zero cross signal 12 Second fixing control unit (supply destination control unit)
13 Temperature detection means 14 Operation unit 14D Display means 15 Fixing roller 16 Fixing heater (first fixing heater, heating device, power supply destination)
17 Fixing heater (second fixing heater, heating device, power supply destination)
18 Pressure roller 20 Thermal fixing device 29 1st power supply part 30 2nd power supply part 31 Relay (switching means)
32 Switching device (switching means)
33 Delay circuit (switching means)
34 Comparison circuit (switching means)
35 SSR (switching means)
36 SSR (switching means)
100 Image Forming Apparatus 200, 200-1 Power Supply Device A First Power Line Input Unit (Power Input Means)
B Second power line input section (power input means)
P paper (transfer paper, recording medium)

JP 2008-039800 A JP 2007-316245 A

Claims (11)

A power supply device that supplies power to a control unit that controls driving of a plurality of power supply destinations,
Power supply means for supplying power to the control means, and switching capable of connecting the power supply means to any of a plurality of power supply lines connected to an external power supply and in a power supply path to the plurality of power supply destinations Means. With multiple power suppliers,
A plurality of power lines respectively connected to an external power source and in a power supply path to the plurality of power supply destinations;
Control means for controlling driving of the plurality of power supply destinations;
A power supply device according to claim 1, wherein power is supplied to the control means. The control means drives all of the plurality of power supply destinations and drives the power supply destination from a power supply path connected to the external power source, and supplies power from an unconnected power supply path. The drive mode can be switched between a partial drive mode that does not drive
The drive device according to claim 2. The power supply path includes a plurality of connection detection means for detecting a connection state of the plurality of power lines to the external power source,
The control means selects the full drive mode when a connection state with the external power supply is detected in all of the plurality of power supply lines, and does not connect with the external power supply in any of the plurality of power supply lines. When the connection state is detected, the partial drive mode is selected, and the power supply destination is driven in the selected drive mode.
The drive device according to claim 3. While the power supply destination is in operation or in operation, the switching unit can switch any power line connected to the external power source to be connected to the power supply device,
While the power supply destination is in operation or in operation, the connection detection unit can detect a change in the connection state of the plurality of power lines to the external power source, and when detecting a change in the connection state, The control device can switch the drive mode between the full drive mode and the partial drive mode.
The drive device according to claim 4. The driving device according to any one of claims 2 to 5,
Image forming apparatus. The control means drives all of the plurality of power supply destinations and drives the power supply destination from a power supply path connected to the external power source, and supplies power from an unconnected power supply path. The drive mode can be switched between the partial drive mode that does not drive
A plurality of connection detection means for detecting a connection state of the plurality of power supply lines to the external power supply;
The control means selects all drive modes when a connection state with the external power supply is detected in all of the plurality of power supply lines, and is not connected to the external power supply through any of the plurality of power supply lines. When a state is detected, select a partial drive mode, and drive the power supply destination in the selected drive mode,
When the partial drive mode is selected in the printing operation, the number of images formed per unit time is less than when the full drive mode is selected.
The image forming apparatus according to claim 6. The control means drives all of the plurality of power supply destinations and drives the power supply destination from a power supply path connected to the external power source, and supplies power from an unconnected power supply path. The drive mode can be switched between the partial drive mode that does not drive
A plurality of connection detection means for detecting a connection state of the plurality of power supply lines to the external power supply;
The control means selects all drive modes when a connection state with the external power supply is detected in all of the plurality of power supply lines, and is not connected to the external power supply through any of the plurality of power supply lines. When the state is detected, select the partial drive mode, drive the power supply destination in the selected drive mode,
When the partial drive mode is selected before starting printing or during startup, the rise time is set longer than when the full drive mode is selected.
The image forming apparatus according to claim 6 or 7. A display means for displaying the status;
The control means causes the display means to display that any one of the plurality of power lines is not connected.
The image forming apparatus according to claim 6. The power supply destination is a heating device that heats a recording medium on which an image is formed by a printing operation.
The image forming apparatus according to claim 6. A drive device control method comprising a plurality of power supply destinations, a plurality of power lines, switching means, power supply means, and control means,
Connecting each of the plurality of power supply lines, which are each connected to an external power supply, and which is a power supply path to the plurality of power supply destinations, to the power supply means by the switching means;
Supplying power to the control means by the power supply means;
Controlling the driving of the plurality of power supply destinations by the control means.
Control method of drive device.

Images