JP2013037070A - Image forming apparatus - Google Patents

Abstract

A power loss generated in a power meter in a power saving mode is reduced.
Image forming that has a DC power supply unit 220 and a power saving power supply 210 that are supplied with power from a commercial power supply 101 and that can operate in a power saving mode that cuts off power supply from the commercial power supply 101 to the DC power supply unit 220. A power meter 100 which is provided in a power supply path from the commercial power supply 101 to the DC power supply unit 220 and measures power consumption in the DC power supply unit 220 and a load supplied with power from the DC power supply unit 220; In the mode, the power saving power source 210 and the storage unit 320 storing the power consumption data of the load supplied from the power saving power source 210 in advance, and the power meter 100 in the power saving mode when operating in the power saving mode. Based on the power consumption data separated from the supply path and stored in the storage unit 320, the power consumption in the power saving mode is consumed. It includes a controller unit 310 for calculating the power, the.
[Selection] Figure 2

Description

  The present invention relates to a technique for measuring the amount of power consumed in an image forming apparatus having a plurality of different operation modes such as a standby mode and a power saving mode.

  In recent years, due to the demand for energy saving, reduction of power consumption of electronic devices has been demanded. For this reason, the image forming apparatus is also provided with a power saving mode in order to reduce power consumption so that the power consumption during standby can be reduced. For example, Patent Document 1 discloses an image forming apparatus that includes a power meter in an image forming apparatus, samples power consumption for each operation mode at a predetermined period, generates power consumption information, and presents the information to the user. Yes. Thus, the user can know the power consumption for each operation mode of the image forming apparatus and the total power consumption of the entire apparatus, and can raise awareness of energy saving.

JP 2007-295433 A

  However, in the image forming apparatus disclosed in Patent Document 1, the fixing device with the largest amount of power consumption stops operating, and even in the power saving mode in which there is almost no fluctuation in power consumption, the power consumption is the same as in other operation modes. A meter is connected to measure power consumption. Therefore, even in the power saving mode, power is consumed in the wattmeter used for measuring the power consumption, and as a result, power loss occurs.

  The present invention has been made under such circumstances, and an object thereof is to reduce the power loss that has occurred in the power meter in the power saving mode.

  In order to solve the above-described problems, the present invention has the following configuration.

  (1) Provided with power supply means having a first power supply unit and a second power supply unit that are supplied with power from a commercial power supply and output a DC voltage, respectively, and cut off power supply from the commercial power supply to the first power supply unit An image forming apparatus operable in a first mode that is provided in a power supply path from the commercial power supply to the power supply means, and that is consumed by the power supply means and a load supplied with power from the power supply means Measuring means for measuring, storage means for storing in advance data representing power consumed in the second power supply unit and a load supplied with power from the second power supply unit in the first mode, When operating in the first mode, the measuring means is disconnected from the power supply path and consumed in the first mode based on the data stored in the storage means. An image forming apparatus including a control means for calculating the power, the.

  According to the present invention, it is possible to reduce the power loss that has occurred in the power meter in the power saving mode.

Sectional drawing which shows schematic structure of image forming apparatus 1 is a schematic diagram of a unit configuration of an image forming apparatus according to a first embodiment. 1 is a circuit block diagram from a commercial power supply to a power supply unit of the image forming apparatus according to the first embodiment. The flowchart which shows the control sequence which calculates the power consumption of 1st Embodiment. Diagram showing an example of printing power consumption data Schematic diagram of unit configuration of image forming apparatus according to second embodiment and circuit block diagram from commercial power supply to power supply unit The flowchart which shows the control sequence which calculates the power consumption of 2nd Embodiment. The figure which shows the example of the connection switch of the power wire of 2nd Embodiment

  Hereinafter, embodiments of the present invention will be described in detail with reference to the drawings.

[First Embodiment]
The present embodiment will be described in detail with reference to the drawings.

<Outline of image forming apparatus>
FIG. 1 is a cross-sectional view showing the configuration of the image forming apparatus of the present embodiment. The image forming apparatus 1 is an electrophotographic tandem type full-color copying machine. The image forming apparatus 1 includes four image forming units: an image forming unit that forms a yellow image, a magenta image forming unit, a cyan image forming unit, and a black image forming unit. These are arranged in a line at regular intervals. In FIG. 1, y, m, c, and k at the end of the code correspond to yellow, magenta, cyan, and black, respectively. In the following, y, m, c, and k are unless otherwise specified. Description is omitted. Since the four image forming units have the same configuration, the description will be made using the yellow image forming unit on the left side in FIG. Around the photosensitive drum 401, a primary charging roller 402 and a developing unit 404 are installed. A laser unit 403 is installed above the photosensitive drum 401. The developing units 404y, 404m, 404c, and 404k store yellow toner, magenta toner, cyan toner, and black toner, respectively. The intermediate transfer belt 406 is in contact with the primary transfer rollers 405y, 405m, 405c, and 405k of the photosensitive drums 401y, 401m, 401c, and 401k of each image forming unit. The intermediate transfer belt 406 is stretched around a roller such as the secondary transfer inner roller 407 and is driven by a motor (not shown) to rotate clockwise at a predetermined process speed. The secondary transfer inner roller 407 contacts the secondary transfer outer roller 408 via the intermediate transfer belt 406 to form a secondary transfer portion. Outside the intermediate transfer belt 406, a cleaning device 409 that removes and collects residual toner that is not transferred to the recording paper 413 but remains on the surface of the intermediate transfer belt 406 is installed. A fixing device 411 is installed on the downstream side in the transport direction of the recording paper 413 in the secondary transfer unit.

  Next, a sequence operation in which image formation is performed will be described. First, the photosensitive drum 401 is driven to rotate counterclockwise in the direction of FIG. The primary charging roller 402 charges the photosensitive drum 401 uniformly. The laser unit 403 exposes and scans the surface of the photosensitive drum 401 with a laser beam to form an electrostatic latent image. The developing device 404 develops the electrostatic latent image formed on the photosensitive drum 401 to form a toner image. The toner image on the photosensitive drum 401 is transferred to an intermediate transfer belt 406 that is driven to rotate. The above image forming process is performed in each of the four image forming units, and the formed toner images are sequentially transferred to the intermediate transfer belt 406. In this way, the four color images are superimposed on the intermediate transfer belt 406 to form a full color image. On the other hand, the recording paper 413 is fed from the paper cassette 414 and is timed by a registration roller (not shown), while the image on the intermediate transfer belt 406 is transferred to the secondary transfer inner roller 407 and the secondary transfer outer roller 408. The image is transferred to the recording sheet 413 by the configured secondary transfer unit. The recording paper 413 is nipped and conveyed while being heated and pressurized by the fixing device 411, and the toner image is fixed. Thereafter, the recording paper 413 is discharged.

<Unit configuration of image forming apparatus>
FIG. 2 is a diagram schematically showing a unit configuration of the image forming apparatus 1 according to the present embodiment, and a line including a bidirectional arrow in the figure indicates a signal line for exchanging commands and data. The thick line indicates a power line. As shown in FIG. 2, the image forming apparatus 1 includes a controller unit 300 that performs operation control of the apparatus, an engine unit 400 that performs image formation requested on recording paper by an electrophotographic process, and a power supply unit 200 that supplies power. It consists of three units.

  The controller unit 300 includes a controller unit 310, a storage unit 320, an operation display unit 330, an I / F unit 340, and a communication unit 350. The controller unit 310 controls each unit including the controller unit 300 to control the operation of the image forming apparatus 1. Furthermore, the controller unit 310 performs calculation, storage, and the like of power consumption based on measurement values of the power meter 100 described later. The storage unit 320 stores programs executed by the controller unit 310 and data such as power consumption data in the power saving mode. Further, the storage unit 320 is also used as a memory for storing power data and a counter value in the process in which the controller unit 310 calculates the power consumption. The operation display unit 330 receives a job command by a user's key operation and notifies the user of information. The I / F unit 340 is an interface for the controller unit 310 to exchange various data such as job information with an external host such as a personal computer (hereinafter abbreviated as a PC). The communication unit 350 is an interface for the controller unit 310 to exchange information with other terminal devices via a network.

  The engine unit 400 includes an engine control unit 410, an image forming unit 420 that performs image formation, a heater driving unit 430 that drives a heater of a fixing device 411 that thermally fixes an image on a recording sheet, and a reading unit 440 that has a scanner function. The The engine control unit 410 controls the operations of the image forming unit 420, the heater driving unit 430, and the reading unit 440 in accordance with a command from the controller unit 310, and exchanges various information with the controller unit 310, thereby operating modes, Control operation timing.

  The power supply unit 200 includes a power saving power supply 210 that is a second power supply unit that is always activated, and a DC power supply unit 220 that is a first power supply unit that is activated in an operation mode other than the sleep mode described later. It is configured. Furthermore, the DC power supply unit 220 includes a DC power supply A221 and a DC power supply B222. The power saving power supply 210 supplies a DC voltage (for example, 3.3 V), which is a second DC voltage, to the control system circuit of the controller unit 300. The DC power source A 221 supplies a DC voltage (for example, 12 V or 5 V) that is a first DC voltage to the signal system circuits of the controller unit 300 and the engine unit 400. The DC power supply B 222 supplies a DC voltage (for example, 24 V) that is a first DC voltage to a drive system circuit such as a motor of the engine unit 400.

  Between the commercial power supply 101 and the DC power supply unit 220, a switch 500, which is a first switch on the commercial power supply 101 side, and a wattmeter 100 on the DC power supply unit 220 side are arranged in series. The wattmeter 100 measures power consumption in the DC power supply unit 220 and the controller unit 300 and the engine unit 400 that are loads supplied from the DC power supply unit 220, and outputs the measurement result to the controller unit 310 of the controller unit 300. The switch 500 is ON / OFF controlled by the controller unit 310. In an operation mode other than the power saving mode, the switch 500 is turned on by the controller unit 310, and the DC power supply unit 220 is connected to the commercial power supply 101 and supplied with power. In the power saving mode, the switch 500 is turned off by the controller unit 310, and the DC power supply unit 220 is disconnected from the commercial power supply 101. As a result, power consumption cannot be measured by the wattmeter 100 in the power saving mode.

  FIG. 3 is a block diagram illustrating a circuit from the commercial power supply 101 to the power supply unit 200 of the image forming apparatus 1. The wattmeter 100 includes an ammeter 110 and a voltmeter 120 as shown in FIG. The ammeter 110 is connected in series to the power supply path from the commercial power supply 101 to the DC power supply unit 220, and the voltmeter 120 is connected in parallel to the power supply path from the commercial power supply 101 to the DC power supply unit 220. In addition, the switch 500 is a double switch and is not shown, but is turned on / off by the controller unit 310.

<Operation Mode of Image Forming Apparatus>
The image forming apparatus 1 has a plurality of operation modes such as a copy mode for reading a document and forming an image on a recording sheet, a scan mode for reading a document, and a print mode for forming an image on a recording sheet in response to a print job from a PC or the like. ing. Hereinafter, main operation modes of the image forming apparatus 1 will be described.

(1) Copy Mode When the user places a document on the contact glass of the reading unit 440 and presses a copy start button (not shown) on the operation display unit 330, the controller unit 310 detects the copy start and the engine control unit 410. To copy output. The engine control unit 410 controls the image forming unit 420 to form an image on recording paper based on the image data of the document read from the reading unit 440. The controller unit 310 shifts the operation mode to “copy mode” when the copy start is detected, and shifts the operation mode from “copy mode” to “standby mode” when image formation is completed.

(2) Print mode When a print job including a print instruction and print data is received from an external host or terminal device via the communication unit 350 or the I / F unit 340, the controller unit 310 instructs the engine control unit 410 to perform a print command. give. The engine control unit 410 controls the image forming unit 420 to form an image on recording paper based on the print data in the print job. Upon receiving a print instruction, the controller unit 310 shifts the operation mode to “print mode”, forms an image based on the received image data, and shifts the operation mode to “standby mode” when the image formation is completed. .

(3) Scan Mode When the user places a document on the contact glass of the reading unit 440, sets the scan mode by operating the key of the operation display unit 330, and presses the start button, the controller unit 310 detects the scan start, and the engine Command controller 410 to scan the document. Then, the engine control unit 410 transmits the image data of the document read by the reading unit 440 to the controller unit 310, and the controller unit 310 stores the received image data in the storage unit 320. The controller unit 310 shifts the operation mode to “scan mode” when detecting the pressing of the start button after setting the scan mode by key operation, and shifts the operation mode to “standby mode” when the document scan is completed. The start of scanning can also be instructed from the PC via the I / F unit 340, for example.

(4) Standby Mode The standby mode is a standby mode waiting for a copy start instruction from the user or a print job from the PC / terminal device. The image forming unit 420 is mounted with a fixing device 411 including a fixing heater. In the standby mode, the temperature of the fixing heater is several tens of degrees lower than the temperature at the time of image formation (for example, 230 ° C.) in order to save power, but can be raised to the temperature at the time of image formation in a short time ( For example, it is maintained at 170 ° C. In the standby mode, the DC power source A 221 that supplies power to the signal system circuit is on, but the DC power source B 222 that supplies power to the drive system circuit is turned off, and the motors in the image forming apparatus are stopped. ing. When the controller unit 310 sets the operation mode to “standby mode” and detects a copy start instruction or a print job, the controller unit 310 shifts the operation mode to the copy mode or the print mode.

(5) Sleep mode The sleep mode is a mode in which power consumption is further suppressed than in the standby mode. In the sleep mode, the controller unit 310 disconnects the DC power sources A221 and B222 from the commercial power source 101 by turning off the switch 500, and does not perform the temperature maintenance control of the fixing unit 411 as in the standby mode. . As a result, in the power supply unit 200, only the power saving power supply 210 is in an on state, and the operation display unit 330 is also turned off. Since the power saving power supply 210 is in the ON state, the control system circuit of the controller unit 300 is operable. Upon receiving print job data such as a print instruction via the I / F unit 340 and the communication unit 350, the controller unit 310 immediately cancels the sleep mode and shifts to the print mode. Then, the controller unit 310 turns on the switch 500 and connects the DC power source A 221 and the DC power source B 222 to the commercial power source 101 to start up the image forming apparatus. As a result, when the controller unit 310 starts printing or requests internal data such as image data stored in the storage unit 320 of the image forming apparatus, the controller unit 310 converts the data managed by the storage unit 320 to I / O. Transmission is performed via the F unit 340 and the communication unit 350.

  Next, a method for measuring power consumption in each operation mode will be described. By the way, as shown in FIG. 3, the wattmeter 100 cannot measure the power consumption in the power saving power supply 210 and the control system circuit of the controller unit 300 that is a load supplied with power from the power saving power supply 210. Therefore, the power consumption in the operation mode other than the sleep mode, which is the first mode and the sleep mode, which is the second mode, is measured in advance, and the measured power consumption is stored in the storage unit 320 at the time of factory shipment. Saved.

  In (1) copy mode to (4) standby mode, the switch 500 is in an ON state, and the power saving power supply 210 and the DC power supply unit 220 in the power supply unit 200 are connected to the commercial power supply 101. The wattmeter 100 measures a voltage value and a current value, which are basic data for power consumption calculation, at a constant cycle, and outputs the measured value to the controller unit 310. Then, the controller unit 310 uses the power consumption in the DC power supply unit 220 and its load calculated from the measured value of the wattmeter 100 and the power saving power source 210 and the power consumption in the load stored in advance in the storage unit 320. The power consumption of the image forming apparatus is calculated.

  On the other hand, in the (5) sleep mode, the switch 500 is in an OFF state, only the power saving power source 210 in the power source unit 200 operates, and the DC power source unit 220 is disconnected from the commercial power source 101. And since the switch 500 is an OFF state, the wattmeter 100 cannot measure power consumption. For this reason, the controller unit 310 calculates the power consumption of the image forming apparatus from the power saving power source 210 stored in advance in the storage unit 320 and the power consumption of the load. As described above, in the sleep mode, the operation of most of the image forming apparatus is stopped, so that the power consumption is in a stable state without sudden fluctuation, and the power consumption data stored in the storage unit 320 and the actual measurement are measured. The error from the value is very small. Therefore, in the sleep mode, it is possible to calculate power consumption using the power consumption data stored in the storage unit 320.

<Processing sequence for calculating power consumption>
Next, a control sequence in which the controller unit 310 calculates the power consumption will be described with reference to the flowchart of FIG. The processing shown in FIG. 4 is executed by the controller unit 310 based on a control program stored in the ROM of the storage unit 320, and the processing of the flowcharts in the following embodiments is also executed by the controller unit 310. The controller unit 310 has a clock function.

  First, when the main power supply of the image forming apparatus is turned on and the power saving power supply 210 is started, in step 101 (hereinafter referred to as S101), the controller unit 310 starts a power consumption measurement process. The controller unit 310 sets the rising mode as the operation mode in the storage unit 320, reads the current time from the built-in clock function, and sets the current time in the storage unit 320 as the operation mode change time. Furthermore, the controller unit 310 clears the power data in the storage unit 320 in which the integrated value of the measured power is recorded. In S102, the controller unit 310 reads the operation mode set in the storage unit 320, determines whether it is the sleep mode, proceeds to S110 if it is the sleep mode, and proceeds to S103 if it is not the sleep mode.

  In S103, the controller unit 310 turns on the switch 500 and sets the power data update counter to 0 in order to connect the commercial power supply 101 and the DC power supply unit 220. In S <b> 104, the controller unit 310 calculates power based on the product of the voltage value and current value output from the wattmeter 100, adds the currently calculated power to the power data stored in the storage unit 320, and updates the power data. Then, 1 is added to the power data update counter. In S105, the controller unit 310 determines whether or not the operation mode has been changed. If the operation mode has been changed, the process proceeds to S107. If the operation mode is the same, the process proceeds to S106. In step S106, the controller unit 310 determines whether an image forming apparatus stop command has been issued due to turning off the main power source or the like. When controller unit 310 determines that an image forming apparatus stop command has been issued due to main power off or the like, it terminates the power consumption measurement process and then stops the image forming apparatus. Return to S104. In S107, the controller unit 310 reads the operation mode change time of the previous operation mode from the storage unit 320, reads the current time from the clock function, and sets the current time in the storage unit 320 as the operation mode change time. In S108, the controller unit 310 calculates the average power by reading the power data stored in the storage unit 320 and dividing by the counter value of the power data update counter. In S109, the controller unit 310 reads (consumption) power data other than the sleep mode of the power saving power source 210 stored in advance in the storage unit 320, adds the data to the average power calculated in S108, and proceeds to S115.

  When the operation mode is the sleep mode, in S110, the controller unit 310 turns off the switch 500 in order to disconnect the commercial power supply 101 and the DC power supply unit 220. In S111, the controller unit 310 determines whether or not the operation mode has been changed. If the operation mode has been changed, the process proceeds to S113. If the operation mode has been changed, the process proceeds to S112. In S112, similarly to S106, the controller unit 310 determines whether an image forming apparatus stop command has been issued due to turning off the main power source or the like. When controller unit 310 determines that an image forming apparatus stop command has been issued due to main power off or the like, it terminates the power consumption measurement process and then stops the image forming apparatus. Return to S111. In S113, the controller unit 310 reads the previous sleep mode operation mode change time from the storage unit 320, reads the current time from the clock function, and sets it in the storage unit 320 as the operation mode change time. In S114, the controller unit 310 reads out (consumption) power data in the sleep mode of the power saving power source 210 stored in advance in the storage unit 320, and proceeds to S115.

  In S115, controller unit 310 calculates the operation mode duration of the previous operation mode from the operation mode change time of the previous operation mode read in S107 or S113 and the operation mode change time of the current operation mode. Then, the controller unit 310 multiplies the average power calculated in S109 or the (consumption) power data read from the storage unit 320 in S114 by the operation mode duration of the previous operation mode, thereby obtaining the power in the previous operation mode. Calculate quantity data. In S116, the controller unit 310 updates the power amount data of the corresponding operation mode in the storage unit 320 by adding the power amount data calculated in S115, and the process returns to S102.

  By the way, in S106 and S112 of the flowchart of FIG. 4, when the controller unit 310 determines that an image forming apparatus stop command has been issued due to turning off the main power supply or the like, The forming device was stopped. For this reason, calculation of power amount data in the immediately previous operation mode is not performed. Therefore, in the case of YES in S106, the controller unit 310 performs the processes of S107, S108, S109, S115, and S116, and then ends the power consumption measurement process, whereby the power amount in the previous operation mode is determined. Data can be updated. Similarly, also in the case of YES in S112, the controller unit 310 performs the processes of S113, S114, S115, and S116, and then ends the power consumption measurement process, whereby the power amount data in the previous operation mode is obtained. Can be updated.

  The controller unit 310 displays the power amount data representing the power consumption amount obtained by the above processing on the operation display unit 330 periodically or when there is an instruction from the user, for example, as shown in FIG. The user can be notified by printing on recording paper in various formats. Furthermore, the controller unit 310 can also transmit power amount data to an external device via the communication unit 350.

  As described above, in this embodiment, it is possible to reduce the power loss that has occurred in the power meter in the power saving mode. In particular, when the image forming apparatus is in the sleep mode, the wattmeter 100 is disconnected from the commercial power supply 101, so that power loss generated in the wattmeter 100 can be reduced.

  In the present embodiment, both the ammeter 110 and the voltmeter 120 are arranged between the switch 500 and the DC power supply unit 220. For example, the arrangement of the ammeter 110 is not changed, and only the voltmeter 120 is connected to the commercial power supply 101. It may be arranged near the power input terminal. In this case, in the sleep mode, power loss in the voltmeter 120 occurs, but power loss generated in the ammeter 110 can be reduced.

[Second Embodiment]
The present embodiment will be described in detail with reference to the drawings. In the first embodiment, the power meter 100 is disposed at a position for measuring the power consumption of the DC power supply unit 220 and its load. In the present embodiment, the wattmeter 100 is arranged at a position where the power consumption in the power saving power supply 210 and the DC power supply unit 220 and its load can be measured so that the power consumption of the entire image forming apparatus can be measured. The measurement of power consumption in this case will be described below.

<Unit configuration of image forming apparatus>
FIG. 6A is a diagram schematically illustrating a unit configuration of the image forming apparatus 1 according to the present embodiment. A line including a bidirectional arrow in the drawing is used for exchanging commands and data. A signal line is shown, and a thick line shows a power supply line. FIG. 6B is a block diagram illustrating a circuit from the commercial power supply 101 to the power supply unit 200 of the image forming apparatus 1. 6 (a) and 6 (b), members that are the same as or correspond to those in FIGS. 2 and 3 of the first embodiment described above are denoted by the same reference numerals, and description thereof will be omitted. In the first embodiment, the power consumption of the entire image forming apparatus in the operation mode other than the sleep mode is the power consumption data stored in the storage unit 320 and the power consumption data in the load, and the measurement of the power meter 100. It calculated using the electric power data by a value. On the other hand, in the present embodiment, for the operation modes other than the sleep mode, the power meter 100 measures the power of the entire image forming apparatus, and uses the value to calculate the power consumption of the entire image forming apparatus. Also in the present embodiment, as in the first embodiment, the storage unit 320 is a power-saving power source 210 in the sleep mode and a control system circuit of the controller unit 300 that is supplied with power from the power-saving power source 210. Power consumption data is stored at the time of factory shipment. In the image forming apparatus according to the present embodiment, power consumption is calculated based on an actual measurement value of the wattmeter 100 in an operation mode other than the sleep mode. Therefore, even when the power consumption in the power saving power supply 210 and the control system circuit of the controller unit 300 fluctuates greatly, it is possible to calculate more accurate power amount data than in the case of the first embodiment. Can do.

  In the present embodiment, as shown in FIG. 6A, the wattmeter 100 is disposed between the commercial power supply 101 and the power supply unit 200. Unlike the first embodiment, the switch 500 is disposed between the wattmeter 100 and the DC power supply unit 220 and is controlled to be turned on / off by the controller unit 310. Furthermore, the wattmeter 100 includes an ammeter 110 and a voltmeter 120 as shown in FIG. The ammeter 110 is arranged in series on a power supply path common to the power saving power supply 210 and the DC power supply unit 220 from the commercial power supply 101 to the connection point of the power saving power supply 210 and the DC power supply unit 220. Are arranged in parallel on the same power supply path. A switch 501 that is a second switch is provided in parallel with the ammeter 110, and a switch 502 that is a third switch is provided in series with the voltmeter 120. In an operation mode other than the sleep mode, the switch unit 501 is set to an off state and the switch 502 is set to an on state by the controller unit 310 to measure a current value and a voltage value. In the sleep mode, the switch unit 501 is set to the on state and the switch 502 is set to the off state. The controller unit 310 does not measure the current value and the voltage value, and reduces power loss by the power meter.

<Operation Mode of Image Forming Apparatus>
Since the operation mode of the image forming apparatus in the present embodiment is the same as that in the first embodiment, description thereof is omitted. Next, a method for measuring power consumption in each operation mode will be described. (1) In the copy mode to (4) standby mode, the switch 501 is in the OFF state, so the ammeter 110 measures the input current value from the commercial power supply 101 and the switch 502 is in the ON state, so the voltmeter 120 is in the commercial power supply 101 Measure the input voltage value from.

  On the other hand, in the (5) sleep mode, the switch 501 is turned on, a path that bypasses the ammeter 110 is formed, and the ammeter 110 does not measure the input current value. Similarly, the switch 502 is turned off, the voltmeter 120 is disconnected from the commercial power supply 101, and the voltmeter 120 does not measure the input voltage value. The power consumption in the sleep mode is calculated based on the power consumption data in the sleep mode stored in the storage unit 320 described above when shipped from the factory.

<Processing sequence for calculating power consumption>
Next, a control sequence in which the controller unit 310 calculates the power consumption will be described with reference to the flowchart of FIG. In the description of the flowchart of FIG. 7, description of the same processing as that of the flowchart of FIG. 4 of the first embodiment is omitted, and processing different from that of the first embodiment is described.

  Since S201 and S202 are the same processing as S101 and S102 of FIG. The process of S203 corresponds to the process of S103 of FIG. 4. In S103 of the first embodiment, the controller unit 310 turns on the switch 500 in order to connect the commercial power supply 101 and the DC power supply unit 220. . In S203 of the present embodiment, the controller unit 310 turns on the switch 500 in order to connect the commercial power supply 101 and the DC power supply unit 220. Furthermore, the controller unit 310 connects the ammeter 110 and the voltmeter 120 to the power line from the commercial power supply 101 by turning the switch 501 off and the switch 502 on, and measures the current value and voltage value. to enable. The processing of S204 to S208 is the same as S104 to S108 of FIG. In the present embodiment, the location of the power meter 100 is different from that in the first embodiment, and power consumption can be measured in the power saving power supply 210 and the control system circuit of the controller unit 300 that is the load. The process of S109 in FIG. 4 does not have a corresponding process in FIG.

  The process of S209 corresponds to the process of S110 of FIG. 4. In S110 of the first embodiment, the controller unit 310 turns off the switch 500 in order to disconnect the commercial power supply 101 and the DC power supply unit 220. In S209 of the present embodiment, the controller unit 310 turns off the switch 500 in order to disconnect the commercial power supply 101 and the DC power supply unit 220. Furthermore, the controller unit 310 disconnects the ammeter 110 and the voltmeter 120 from the power line from the commercial power supply 101 by turning the switch 501 on and the switch 502 off, and stops measuring the current value and voltage value. . The processing of S210 to S215 is the same as that of S111 to S116 in FIG.

  By the way, as in the first embodiment, also in S206 and S211 of the flowchart of FIG. 7, when the controller unit 310 determines that an image forming apparatus stop command has been issued due to turning off the main power, the power consumption amount After completing the measurement process, the image forming apparatus is stopped. For this reason, calculation of power amount data in the immediately previous operation mode is not performed. Therefore, in the case of YES in S206, the controller unit 310 performs the processes of S207, S208, S214, and S215, and then ends the power consumption measurement process, whereby the power amount data in the previous operation mode is displayed. Can be updated. Similarly, in the case of YES in S211, the controller unit 310 performs the processes of S212, S213, S214, and S215, and then ends the power consumption measurement process, thereby completing the power amount data in the immediately previous operation mode. Can be updated.

  As described above, also in this embodiment, it is possible to reduce the power loss that has occurred in the power meter in the power saving mode. In particular, the image forming apparatus according to the present embodiment reduces the power loss generated in the ammeter 110 and the voltmeter 120 by bypassing the ammeter 110 and disconnecting the voltmeter 120 from the commercial power supply 101 in the sleep mode. ing. Furthermore, in the operation modes other than the sleep mode, since the power consumption can be calculated from the actually measured value of the power meter 100, the power consumption data other than the sleep mode of the power saving power source 210 is stored in the storage unit 320 as in the first embodiment. Need not be stored in advance.

  In the present embodiment, in the sleep mode, the ammeter 110 is bypassed by turning on the switch 501, and the voltmeter 120 is disconnected from the commercial power supply 101 by turning off the switch 502. In order to reduce the power loss, for example, either the bypass of the ammeter 110 by turning on only the switch 501 or the disconnection of the voltmeter 120 from the commercial power supply 101 by turning off only the switch 502 is performed. It may be. In that case, only the power loss generated in the ammeter 110 can be reduced in the former, and only the power loss generated in the voltmeter 120 can be reduced in the latter. Further, FIG. 8 shows a switch 503 in which the switch 501 for bypassing the ammeter 110 of FIG. 6B and the switch 500 for connecting / disconnecting the power supply line between the DC power supply unit 220 and the commercial power supply 101 are used together. . As a result, the number of switches can be reduced by one, and the power and cost required to turn on and off the switches can be reduced.

  In addition, the switch 501 and the switch 502 used in this embodiment require electrical energy (electric power) only when the switch is opened and closed, such as a latching relay, and then maintain the opened and closed state even when there is no electrical energy. A switch may be used. Furthermore, in the present embodiment, the ammeter 110 is bypassed and the voltmeter 120 is disconnected from the commercial power source 101 only in the sleep mode, but in all modes in which the operation of the heater drive unit 430 of the engine unit 400 is minimized. Similar processing may be performed. Thereby, even in an operation mode other than the sleep mode, which is a power saving mode, it is possible to reduce the power loss that has occurred in the power meter.

100 Wattmeter 210 Power saving power source 220 DC power supply unit 310 Controller unit 320 Storage unit 500, 501, 502 Switch

Claims (7)

A first power source is provided that has a first power source unit and a second power source unit, each of which is supplied with power from a commercial power source and outputs a DC voltage, and cuts off power supply from the commercial power source to the first power source unit. An image forming apparatus operable in a mode of
A measuring means provided in a power supply path from the commercial power supply to the power supply means, and measuring power consumed in the power supply means and a load supplied with power from the power supply means;
Storage means for storing in advance data representing power consumed by the second power supply unit and a load supplied with power from the second power supply unit in the first mode;
When operating in the first mode, the measuring means is disconnected from the power supply path, and the consumed power in the first mode is calculated based on the data stored in the storage means. And an image forming apparatus. Provided in a power supply path from the commercial power supply to the first power supply unit, comprising a first switch for connecting or blocking the power supply path;
The control means, when operating in the first mode, cuts off a power supply path from the commercial power supply to the first power supply unit by the first switch. The image forming apparatus according to 1.   The measuring means includes an ammeter connected in series to a power supply path from the first switch to the first power supply unit, and a power supply path from the first switch to the first power supply unit. The image forming apparatus according to claim 2, further comprising a voltmeter connected in parallel. The storage means further consumes power consumed by the second power supply unit and a load supplied from the second power supply unit in the second mode, which consumes more power than the first mode. Is stored in advance,
The control means, the power consumed in the second mode, the power consumed by the first power supply unit measured by the measurement means and the load supplied with power from the first power supply unit, The image forming apparatus according to claim 3, wherein the calculation is performed based on the data in the second mode stored in the storage unit.   The measuring means is connected in parallel to an ammeter connected in series to a common power supply path from the commercial power supply to the first power supply unit and the second power supply unit, and connected in parallel to the common power supply path. The image forming apparatus according to claim 1, further comprising a voltmeter. Provided in a power supply path from the measurement means to the first power supply unit, comprising a first switch for connecting or blocking the power supply path;
The measurement means has a second switch connected in parallel with the ammeter, and a third switch connected in series with the voltmeter,
When operating in the first mode, the control means disconnects the ammeter from the power supply path by turning on the second switch and turns off the third switch. 6. The image forming apparatus according to claim 5, wherein the voltmeter is disconnected from the power supply path by cutting the power supply path, and the power supply path to the first power supply unit is blocked by the first switch.   The control means is configured to measure the power consumed in the second mode, which consumes more power than the first mode, by the measuring means, the first power supply unit and the first power supply unit. 6. The calculation based on the power consumed in the load supplied with power from the power supply and the power consumed in the load supplied with power from the second power supply unit and the second power supply unit. Or the image forming apparatus according to 6;

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