JP6282971B2 - Image forming apparatus - Google Patents

Description

  The present invention relates to an image forming apparatus.

  2. Description of the Related Art Conventionally, in an image forming apparatus such as a copying machine or a multi-function printer (MFP) that forms an image by electrophotography, a reading operation executed by a scanner that reads an image of a document, and a toner image on a printing sheet or the like When the fixing operation performed by the fixing device for fixing to the medium is performed at the same time, there is a problem that the peak value of power consumption increases.

  In view of this, an image forming apparatus that suppresses the peak value of power consumption by preventing the start timing of the reading operation from overlapping with the start timing of the fixing operation has been proposed (for example, see Patent Document 1).

JP 2003-069762 A

  However, in the conventional image forming apparatus, the control system for controlling the operation of the scanner must also monitor the start timing of the fixing operation performed by the fixing device, and controls the operation of the fixing device. Since it is also necessary to monitor the start timing of the reading operation performed by the scanner, the control system becomes complicated. In addition, when the processing time of the reading operation executed by the scanner is longer than the printing time for printing on the medium, so-called intermittent printing is performed every time the image of one original is read and the image is printed on one medium. Since the fixing device is warmed up, the peak value of power consumption becomes large.

  The present invention solves the problems in the conventional image forming apparatus and can simplify the control system by supplying power to only some of the plurality of heaters in the case of intermittent printing. An object of the present invention is to provide an image forming apparatus capable of effectively suppressing the peak value of power consumption.

For this purpose, the image forming apparatus of the present invention has a reading device that reads an image of a document, an image forming unit that forms a toner image of the image read by the reading device and transfers it to a recording medium, and a plurality of heaters. And a printer that includes a fixing unit that fixes the toner image to the recording medium, a power supply that supplies power to the reader and the printer, and controls operations of the reader, the printer, and the power supply. An image forming apparatus including a control device, wherein the control device executes intermittent printing in which images of a plurality of documents sequentially read by the reading device are intermittently printed on a plurality of recording media; the warm-up when printing on sheet and later recording medium, by suppressing the amount of power supplied to the fixing unit, in the intermittent printing, scan required for processing to the reader reads an image of one document Catcher Na treatment time, Ru der or printing time required to process for printing an image of the one document to the printing apparatus the reader has read the single recording medium.

  According to the present invention, the image forming apparatus supplies power to only some of the plurality of heaters in the case of intermittent printing. Thereby, while being able to simplify a control system, the peak value of power consumption can be suppressed effectively.

1 is a schematic cross-sectional view illustrating a configuration of a multifunction machine according to a first embodiment of the present invention. 1 is a block diagram illustrating a configuration of a control device for a multifunction machine according to a first embodiment of the present invention. FIG. 2 is a block diagram illustrating a configuration of a printer main control unit of the multifunction peripheral according to the first embodiment of the present invention. It is a 1st flowchart which shows the operation | movement of Scan to Print in the 1st Embodiment of this invention. It is a 1st sequence diagram which shows the process sequence of operation | movement of Scan to Print in the 1st Embodiment of this invention. It is a 2nd flowchart which shows the operation | movement of Scan to Print in the 1st Embodiment of this invention. It is a 2nd sequence diagram which shows the process sequence of operation | movement of Scan to Print in the 1st Embodiment of this invention. It is a figure which shows the relationship between the number of heaters in the 1st Embodiment of this invention, and time until it reaches | attains target temperature. It is a time chart of the comparative example for comparing with the 1st Embodiment of this invention. It is a 1st time chart in the 1st Embodiment of this invention. It is a 2nd time chart in the 1st Embodiment of this invention. It is a 1st flowchart which shows the operation | movement of Scan to Print in the 2nd Embodiment of this invention. It is a 1st sequence diagram which shows the process sequence of operation | movement of Scan to Print in the 2nd Embodiment of this invention. It is a 2nd flowchart which shows the operation | movement of Scan to Print in the 2nd Embodiment of this invention. It is a 2nd sequence diagram which shows the process sequence of operation | movement of Scan to Print in the 2nd Embodiment of this invention. It is a 1st time chart in the 2nd Embodiment of this invention. It is a 2nd time chart in the 2nd Embodiment of this invention.

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

  FIG. 1 is a schematic cross-sectional view showing the configuration of a multifunction machine according to the first embodiment of the present invention.

  In the figure, reference numeral 10 denotes a multifunction machine as an image forming apparatus according to the present embodiment. The MFP 10 is, for example, an MFP having the functions of a scanner, a printer, a facsimile machine, and a copier. The MFP 10 can read an image of a document and prints the read image on a recording medium 54 such as printing paper. As long as it can be used, it may be a copying machine or any kind.

  The multifunction device 10 includes a printing device 11 that prints an image on a recording medium 54, a scanner device 63 as a reading device attached to the upper portion of the printing device 11, an operation unit 13 as an operator panel, and commercial power. It has a power supply unit 24 as a power supply device that supplies input power to each part of the multifunction machine 10 and a control device 20 to be described later.

  The operation unit 13 includes a display unit 18 such as an LCD (Liquid Crystal Display) panel and various switches such as a numeric keypad. The operation unit 13 displays various types of information to the operator and accepts operations by the operator. The scanner device 63 includes a contact glass 62 as a flat bed for placing an original, and a scanner unit 23 described later including an image reading element such as a CCD (Charge Coupled Device). When scanning information such as the reading density, the document size, the number of copies, and the paper size input by operating the unit 13 is received, the scanner unit 23 is placed on the contact glass 62 one by one. An image of a document to be read is read and converted into image data (read data).

  The printing apparatus 11 is an apparatus that prints an image on the recording medium 54 by an electrophotographic method, and is a multicolor developer such as black (k), yellow (y), magenta (m), and cyan (c). That is, a color printing apparatus that prints a color image using toner may be used, but here, it will be described as a monochrome printing apparatus that prints a monochrome image using only black toner.

  The printing apparatus 11 includes a medium cassette 55 that stores a recording medium 54, a transport unit 28 that transports the recording medium 54, and a process as an image forming unit that forms a toner image and transfers the toner image to the recording medium 54. A unit 27, a transfer roller 51 for transferring the toner image to the recording medium 54, and a fixing unit 41 as a fixing unit that heats and pressurizes the toner image and fixes the toner image on the recording medium 54 are included. The transport unit 28 includes a paper feed roller 43, registration rollers 44 and 45, transport rollers 46 and 47, and discharge rollers 48 and 49. The fixing unit 41 includes a first fixing roller 26a and a second fixing roller. It includes a roller 26b, a main heater 25a disposed in the first fixing roller 26a, and a sub-heater 25b disposed in the second fixing roller 26b.

  When the first fixing roller 26a and the second fixing roller 26b are described in an integrated manner, they are described as the fixing roller 26. When the main heater 25a and the sub heater 25b are described in an integrated manner, the heater 25 is described. Will be described. Further, the number of the heaters 25 is not limited to two, and may be any number as long as it is plural. In this case, it is assumed that N (N ≧ 3).

  The recording medium 54 stored in the medium cassette 55 is fed out one by one by the paper feed roller 43 and is nipped and conveyed by the registration rollers 44 and 45 and the conveyance rollers 46 and 47. The toner formed on the surface of the image carrier when the recording medium 54 passes between the image carrier of the process unit 27 and the transfer roller 51 disposed opposite to the image carrier. An image is transferred to the recording medium 54. Further, when the recording medium 54 is nipped and conveyed by the first fixing roller 26a and the second fixing roller 26b of the fixing unit 41, the toner image transferred to the recording medium 54 is heated and pressurized. It is fixed on the recording medium 54. Then, the recording medium 54 on which the fixing of the toner image is completed, that is, the printed recording medium 54 on which the monochrome image is printed, is sandwiched by the discharge rollers 48 and 49 and discharged to the outside of the printing apparatus 11, and the paper stacker 58. To deposit.

  Next, the configuration of the control device 20 of the front multifunction device 10 will be described.

  FIG. 2 is a block diagram showing the configuration of the multifunction device control apparatus according to the first embodiment of the present invention. FIG. 3 is a block diagram showing the configuration of the printer main control unit of the multifunction device according to the first embodiment of the present invention. FIG.

  As shown in FIG. 2, the control device 20 of the multifunction machine 10 includes a scanner main control unit 31, an image reading control unit 38, a data reception unit 21, a printer main control unit 14, and a conveyance from the viewpoint of functions. A control unit 32, an image formation control unit 33, a fixing control unit 34, a drive control unit 35, a temperature control unit 36, and a power supply control unit 37 are provided. As shown in FIG. 3, the printer main control unit 14 includes a CPU 17 as an arithmetic processing unit, a ROM 15 in which control programs and the like are stored, and a RAM 16 in which data necessary for operation and the like are sequentially stored. Prepare. The scanner main control unit 31 also includes a CPU, a ROM, and a RAM, like the printer main control unit 14.

  Here, the scanner main control unit 31 controls the operation of the scanner device 63. During an image reading operation for reading an image of a document, the scanner main control unit 31 performs an image based on scan information received from the operation unit 13 such as a reading density, a document size, the number of copies, and a paper size. The reading control unit 38 is instructed to control image reading. Then, the image reading control unit 38 controls the scanner unit 23 to read the image of the document placed on the contact glass 62, convert the read image into image data, and cause the data receiving unit 21 to print data. To send. Then, the printing apparatus 11 prints the image data.

  The printer main control unit 14 controls the operation of the printing apparatus 11. The printer main control unit 14 is connected to a scanner main control unit 31, an operation unit 13, and a PC (personal computer) 12 as a host device via the data receiving unit 21, and the data receiving unit 21. When the print data is received from the scanner main control unit 31, the operation unit 13, or the PC 12, the printing apparatus 11 performs printing.

  The display unit 18 displays the state of the printing device 11 or the scanner device 63 or the operation result of the operation unit 13 based on a command from the printer main control unit 14. Further, the transport control unit 32 operates the transport unit 28 including the paper feed roller 43, the registration rollers 44 and 45, the transport rollers 46 and 47, and the discharge rollers 48 and 49 based on the command of the printer main control unit 14. To control. Further, the image formation control unit 33 controls the operation of the process unit 27 based on a command from the printer main control unit 14. Further, the fixing control unit 34 instructs the drive control unit 35 to control the fixing roller 26 and controls the heater 25 to the temperature control unit 36 based on a command from the printer main control unit 14. Command.

  The sensor 22 is disposed in each unit of the printing apparatus 11, detects information indicating the state of each unit, and transmits the information to the printer main control unit 14.

  Further, the power supply control unit 37 controls the operation of the power supply unit 24 based on a command from the printer main control unit 14. The power control unit 37 controls the amount of power supplied from the power unit 24 to the scanner unit 23, process unit 27, transport unit 28, fixing roller 26, heater 25, and the like of the multifunction machine 10. Can do.

  When the control device 20 performs intermittent printing in which images of a plurality of originals sequentially read by the scanner device 63 are printed on a plurality of recording media 54, the second and subsequent recording media 54 are used. When printing is performed, power is supplied to only some of the plurality of heaters 25.

  Next, the operation of the MFP 10 having the above-described configuration will be described. Here, an operation of Scan to Print (scan to print) in which the printing apparatus 11 prints an image of a document read by the scanner apparatus 63 will be described. In the Scan to Print operation of the multifunction machine 10, the scanner processing time, which is the time required for the scanner device 63 to read one original image, is read by the printing device 11 using the scanner device 63. It is assumed that it is equal to or longer than the printing time that is the time required for the process of printing an image of one original on one recording medium 54, that is, the scanner processing time ≧ printing time in intermittent printing. Therefore, in the case of intermittent printing, there may be a state where the printing apparatus 11 is idle.

  First, the case where the heater 25 is the main heater 25a and the sub heater 25b will be described.

  FIG. 4 is a first flowchart showing the operation of Scan to Print in the first embodiment of the present invention.

  First, when the sensor 22 detects the power-on of the multi-function device 10 or the sleep (sleep) return, the multi-function device 10 performs an initial operation at START. Specifically, the scanner main control unit 31 starts control of the image reading control unit 38, and the printer main control unit 14 controls the conveyance control unit 32, the image formation control unit 33, and the fixing control unit 34. Let it begin.

  Subsequently, after the initial operation ends, in step S1, the multifunction machine 10 stands by with only the sub-heater 25b turned on. Specifically, the printer main control unit 14 instructs the fixing control unit 34 and the temperature control unit 36 to energize only the sub-heater 25b to maintain the temperature and stands by.

  Subsequently, in step S2, the multifunction device 10 determines whether a scanner operation request has been received. Specifically, the scanner main control unit 31 determines whether or not a request for performing a scanner operation for reading an image of a document placed on the contact glass 62 is received from the operation unit 13. When the scanner operation request is received, the process proceeds to step S3. When the scanner operation request is not received, the process returns to step S1, and the multifunction machine 10 repeats the operation.

  Subsequently, in step S3, the multifunction machine 10 performs a scanner reading operation. Specifically, the scanner main control unit 31 instructs the image reading control unit 38 to cause the scanner unit 23 to perform an operation of reading an image of a document placed on the contact glass 62. At the same time, the printer main control unit 14 acquires print information from the operation unit 13 and instructs the conveyance control unit 32, the image formation control unit 33, and the fixing control unit 34 so that the print target temperature and the print conveyance speed are obtained. To warm up.

  Subsequently, in step S4, the multifunction machine 10 determines whether or not intermittent printing (during idling) is performed. Specifically, the printer main control unit 14 determines that the state of the printing apparatus 11 when the print data is acquired is an intermittent print state (a state in which print data is received during idling, or a time elapsed from the previous print). It is determined whether or not the print data has been received). If it is intermittent printing, the process proceeds to step S5. If it is not intermittent printing, the process proceeds to step S7.

  In step S5, the multifunction machine 10 warms up only the main heater 25a. Specifically, the printer main control unit 14 instructs the fixing control unit 34 and the temperature control unit 36 to energize only the main heater 25a to perform warm-up.

  Subsequently, in step S6, the multifunction machine 10 determines whether or not the target temperature has been reached. Specifically, the printer main control unit 14 determines whether or not the print target temperature has been reached based on the information detected by the sensor 22. If the target temperature has been reached, the process proceeds to step S9. If the target temperature has not been reached, the process returns to step S5, and the multifunction machine 10 continues to warm up only the main heater 25a.

  In step S7, the multifunction machine 10 warms up with the main and sub heaters ON. Specifically, the printer main control unit 14 instructs the fixing control unit 34 and the temperature control unit 36 to energize the main heater 25a and the sub heater 25b to perform warm-up.

  Subsequently, in step S8, the multifunction machine 10 determines whether or not the target temperature has been reached. Specifically, the printer main control unit 14 determines whether or not the print target temperature has been reached based on the information detected by the sensor 22. If the target temperature has been reached, the process proceeds to step S9. If the target temperature has not been reached, the process returns to step S7, and the multifunction machine 10 continues warming up with the main and sub heaters ON.

  Subsequently, in step S9, the multifunction peripheral 10 determines whether print data has been received. Specifically, the printer main control unit 14 determines whether or not the image reading control unit 38 has transmitted the image data of the document read by the scanner unit 23 as print data, and the data reception unit 21 has received the print data. to decide. If the print data is received, the process proceeds to step S10. If the print data is not received, the process returns to step S9, and the multifunction machine 10 repeats the determination of whether the print data is received.

  Subsequently, in step S10, the multifunction machine 10 performs printing by turning on only the main heater 25a. Specifically, when the print data is received by the data receiving unit 21, the printer main control unit 14 instructs the conveyance control unit 32, the image formation control unit 33, the fixing control unit 34, and the temperature control unit 36, and the main heater 25a. Only the printer is energized to print on the recording medium 54.

  Subsequently, in step S <b> 11, the multifunction machine 10 determines whether printing is finished. Specifically, the printer main control unit 14 determines whether printing on the recording medium 54 is completed. If the printing is finished, the process proceeds to step S12. If the printing is not finished, the process returns to step S10, and the multifunction machine 10 performs printing only with the main heater 25a ON.

  Subsequently, in step S12, the multifunction machine 10 performs idling. Specifically, the printer main control unit 14 instructs the conveyance control unit 32, the fixing control unit 34, and the drive control unit 35 to perform the idling operation.

  Then, at END, the multifunction machine 10 ends the scan to print operation process. After END, the multifunction machine 10 returns to START and returns to step S1. Specifically, the printer main control unit 14 performs the idling operation when the idling operation performed by instructing the conveyance control unit 32, the fixing control unit 34, and the drive control unit 35 is continuously performed for a predetermined time. Stop. The time for performing the idling operation is stored in advance in the RAM 16 of the printer main control unit 14, and the printer main control unit 14 issues an operation stop request when the time stored in the RAM 16 elapses. It transmits to the control part 34 and the drive control part 35, and idle rotation operation | movement is stopped. Similarly, the printer main control unit 14 determines whether or not intermittent printing is performed based on whether or not the time stored in the RAM 16 has elapsed.

Next, a flowchart will be described.
Step S1: Only the sub heater 25b is turned on and waits.
Step S2: It is determined whether a scanner operation request has been received. If the scanner operation request is received, the process proceeds to step S3. If the scanner operation request is not received, the process returns to step S1 to repeat the operation.
Step S3 A scanner reading operation is performed.
Step S4: It is determined whether or not intermittent printing (during idling). If it is intermittent printing, the process proceeds to step S5. If it is not intermittent printing, the process proceeds to step S7.
Step S5: Only the main heater 25a is turned on to warm up.
Step S6: It is determined whether or not the target temperature has been reached. If the target temperature has been reached, the process proceeds to step S9. If the target temperature has not been reached, the process returns to step S5, and only the main heater 25a is turned on to continue warming up.
Step S7 Warm-up is performed with the main and sub heaters ON.
Step S8: It is determined whether or not the target temperature has been reached. If the target temperature has been reached, the process proceeds to step S9. If the target temperature has not been reached, the process returns to step S7, and the warm-up is continued by turning on the main and sub heaters.
Step S9: It is determined whether print data has been received. If the print data has been received, the process proceeds to step S10. If the print data has not been received, the determination as to whether the print data has been received is repeated.
Step S10: Printing is performed with only the main heater 25a ON.
Step S11: It is determined whether or not printing is finished. If the printing is finished, the process proceeds to step S12. If the printing is not finished, the process returns to step S10, and printing is performed with only the main heater 25a turned on.
Step S12 Performs idling and ends the scan to print operation.

  Next, a sequence indicating a processing procedure will be described.

  FIG. 5 is a first sequence diagram showing a processing procedure of an operation of Scan to Print in the first embodiment of the present invention.

  First, in the initial operation of the multifunction machine 10, the scanner main control unit 31 and the printer main control unit 14 each start an initial operation, send an image reading control initial start request to the image reading control unit 38, and send an image control initial start request to the image. A transport control initial start request is transmitted to the formation control unit 33, and a fixing control initial start request is transmitted to the fixing control unit 34. The scanner unit 23, the transport unit 28, the process unit 27, the fixing roller 26, and the heater are transmitted. 25 is controlled to perform the initial operation.

  Subsequently, when the initial operation ends, the scanner main control unit 31 and the printer main control unit 14 convey an image reading control initial end notification from the image reading control unit 38 and an image control initial end notification from the image forming control unit 33. A conveyance control initial end notification is received from the control unit 32, and a fixing control initial end notification is received from the fixing control unit 34.

  Then, the scanner main control unit 31 and the printer main control unit 14 send an image reading control standby request to the image reading control unit 38, an image control standby request to the image forming control unit 33, and a conveyance control standby request to the conveyance control unit 32. Then, a fixing control standby request is transmitted to the fixing control unit 34 to cause the multifunction peripheral 10 to enter a standby state. Here, when receiving the fixing control standby request, the fixing control unit 34 energizes the sub-heater 25b. The multifunction device 10 performs the operations of Step S1 and Step S2 shown in the flowchart in the standby state.

  Subsequently, when the MFP 10 is in a standby state and receives a Scan to Print request from the operation unit 13, the scanner main control unit 31 transmits an image reading control start request to the image reading control unit 38 to perform an image reading operation. Then, the printer main control unit 14 starts warm-up.

  When the printer main control unit 14 determines that warm-up has started and the multifunction machine 10 is in a standby state, not idling or intermittent printing, and is sufficiently free from the previous printing. The image control warm-up start request is transmitted to the image forming control unit 33, the transport control warm-up start request is transmitted to the transport control unit 32, and the fixing control warm-up start request is transmitted to the fixing control unit 34. 27, the fixing roller 26 and the heater 25 are controlled, and the main heater 25a and the sub heater 25b are energized to warm up.

  Further, when the printer main control unit 14 determines that the multifunction machine 10 is idling or intermittent printing at the start of warm-up, an image control warm-up start request is sent to the image forming control unit 33 to start conveyance control warm-up. A request is sent to the conveyance control unit 32, and a fixing control warm-up start request is sent to the fixing control unit 34 to control the conveyance unit 28, process unit 27, fixing roller 26, and heater 25, and energize only the main heater 25a. Allow to warm up.

  Subsequently, when the warm-up is completed, the printer main control unit 14 sends an image control warm-up end notification from the image forming control unit 33, a transfer warm-up control end notification from the transfer control unit 32, and a fixing control from the fixing control unit 34. Each warm-up completion notification is received.

  When the scanner operation is completed, the scanner main control unit 31 receives an image reading completion notification from the image reading control unit 38 and transmits the read image data to the data receiving unit 21.

  Then, the printer main control unit 14 receives a print request from the data receiving unit 21. Then, the printer main control unit 14 transmits an image control print start request to the image formation control unit 33, a conveyance control print start request to the conveyance control unit 32, and a fixing control print start request to the fixing control unit 34. The unit 28, the process unit 27, the fixing roller 26, and the heater 25 are controlled, and only the main heater 25a is energized to perform a printing operation.

  Subsequently, the printer main control unit 14 transmits a paper feed start request to the transport control unit 32, and includes a transport unit including a paper feed roller 43, registration rollers 44 and 45, transport rollers 46 and 47, discharge rollers 48 and 49, and the like. 28 is controlled to perform a paper feeding operation.

  Subsequently, the printer main control unit 14 issues a paper feed completion notification from the conveyance control unit 32, an image control print completion notification from the image formation control unit 33, a conveyance control print completion notification from the conveyance control unit 32, and a fixing control unit 34. When the fixing control printing completion notification is received from the printer, the image control standby request is transmitted to the image forming control unit 33, the conveyance control standby request is transmitted to the conveyance control unit 32, and the fixing control standby request is transmitted to the fixing control unit 34, respectively. 10 is set to a standby state.

  Next, the operation when the number of heaters 25 is N will be described.

  FIG. 6 is a second flowchart showing the operation of Scan to Print in the first embodiment of the present invention.

  If the number of heaters 25 is N, after completion of the initial operation, in step S21, the multifunction machine 10 stands by with NK heaters 25ON. Specifically, the printer main control unit 14 instructs the fixing control unit 34 and the temperature control unit 36 to energize the NK (N−1 ≧ K ≧ 1) heaters 25 to maintain the temperature. stand by.

  In step S25, the multifunction machine 10 warms up by turning on only the NM heaters 25. Specifically, the printer main control unit 14 instructs the fixing control unit 34 and the temperature control unit 36 to energize only N−M (N−1 ≧ M ≧ 1) heaters 25 and perform warm-up. Make it. M and K are numbers set separately from each other, but may be the same number.

  In step S27, the multifunction machine 10 warms up with NL heaters 25ON. Specifically, the printer main control unit 14 instructs the fixing control unit 34 and the temperature control unit 36 to energize the N−L (N−2 ≧ L ≧ 0) heaters 25 to perform warm-up. .

  In step S30, the multifunction machine 10 performs printing with NM heaters 25ON. Specifically, when the data receiving unit 21 receives the print data, the printer main control unit 14 instructs the conveyance control unit 32, the image formation control unit 33, the fixing control unit 34, and the temperature control unit 36 to perform NM. The heater 25 is energized to print on the recording medium 54.

  The operations of other points, that is, the operations of Step S22 to Step S24, Step S26, Step S28, Step S29, Step S31 and Step S32 shown in FIG. 6 are the same as Step S2 to Step S4 shown in FIG. Since it is the same as that of step S6, step S8, step S9, step S11, and step S12, the description is abbreviate | omitted.

Next, a flowchart will be described.
Step S21 It stands by with NK heaters 25ON.
Step S22: It is determined whether a scanner operation request has been received. When the scanner operation request is received, the process proceeds to step S23. When the scanner operation request is not received, the process returns to step S21 to repeat the operation.
Step S23: A scanner reading operation is performed.
Step S24: It is determined whether or not intermittent printing (during idling). If it is intermittent printing, the process proceeds to step S25, and if it is not intermittent printing, the process proceeds to step S27.
Step S25: Only the NM heaters 25 are turned on to warm up.
Step S26: It is determined whether or not the target temperature has been reached. If the target temperature has been reached, the process proceeds to step S29. If the target temperature has not been reached, the process returns to step S25, and only the main heater 25a is turned on to continue warming up.
Step S27: Warm-up is performed with NL heaters 25ON.
Step S28: It is determined whether or not the target temperature has been reached. If the target temperature has been reached, the process proceeds to step S29. If the target temperature has not been reached, the process returns to step S27, and the warm-up is continued by turning on the main and sub heaters.
Step S29: It is determined whether print data has been received. If the print data has been received, the process proceeds to step S30. If the print data has not been received, the determination of whether the print data has been received is repeated.
Step S30 Printing is performed with NM heaters 25ON.
Step S31: It is determined whether or not printing is completed. If the printing is finished, the process proceeds to step S32. If the printing is not finished, the process returns to step S30, and printing is performed with NM heaters 25ON.
Step S32 Performs idling and ends the scan to print operation.

  Next, a sequence showing a processing procedure when the number of heaters 25 is N will be described.

  FIG. 7 is a second sequence diagram illustrating a processing procedure of Scan to Print operation according to the first embodiment of this invention.

  When the number of heaters 25 is N, the fixing control unit 34 energizes the NK heaters 25 when receiving the fixing control standby request. When the multifunction device 10 is idling or waiting instead of intermittent printing, the fixing control unit 34 energizes the NL heaters 25 when receiving a fixing control warm-up start request. Further, when the multifunction machine 10 is idling or intermittent printing, the fixing control unit 34 energizes the NM heaters 25 upon receiving a fixing control warm-up start request. Further, when receiving the fixing control printing start request, the fixing control unit 34 energizes the NM heaters 25.

  The other operations are the same as those in the sequence shown in FIG.

  Next, a time chart showing the relationship between the operation of the heater 25 and the scanner unit 23 and the operation status of the multifunction machine 10 will be described.

  FIG. 7A is a diagram showing the relationship between the number of heaters and the time required to reach the target temperature in the first embodiment of the present invention, and FIG. 8 is a comparison for comparison with the first embodiment of the present invention. An example time chart, FIG. 9 is a first time chart according to the first embodiment of the present invention, and FIG. 10 is a second time chart according to the first embodiment of the present invention.

  FIGS. 8 to 10 show ON (energization) and OFF (non-energization) of the heater 25, power consumption (heater), and operation and non-operation of the scanner unit 23 when a so-called continuous scan to print operation is performed. The relationship with the operation status of the multifunction machine 10 is shown. Note that the continuous scan to print is a method in which the scanner device 63 sequentially reads a plurality of originals, and the image data (scan data) of the read originals is not accumulated (stocked) in a storage device such as the RAM 16. This is printing in which the printing apparatus 11 sequentially prints images on a plurality of recording media 54, or printing in which the timing of the scanner process is the timing of completion of printing. Further, in each Scan to Print operation, scanner processing time ≧ printing time.

  FIG. 8 shows, as a comparative example, the time when the operation as in the present embodiment, that is, the operation described in the flowchart shown in FIG. 4 or 6 or the sequence diagram shown in FIG. 5 or 7 is not performed. A chart is shown.

  In the comparative example shown in FIG. 8, at each warm-up timing, the energization of the two heaters 25 of the main heater 25a and the sub heater 25b and the reading operation performed by the scanner unit 23 of the scanner device 63, that is, the scanner operation, are performed. It can be seen that there is a problem that the peak value of power consumption, that is, the peak current increases.

  On the other hand, when the heater 25 is the main heater 25a and the sub heater 25b in the time chart in the present embodiment shown in FIG. 9, two heaters 25 of the main heater 25a and the sub heater 25b are used at the warm-up timing. It can be seen that there is a problem that the peak current increases due to the energization of the sensor and the scanner operation of the scanner unit 23 occurring only when the first sheet is printed.

  In the present embodiment, when intermittent printing is performed in which images of a plurality of originals sequentially read by the scanner device 63 are printed on a plurality of recording media 54, the second and subsequent recording media 54 are recorded. When printing is performed, power is supplied to only one of the main heater 25a and the sub heater 25b, that is, energized. Therefore, the energization of the two heaters 25 and the scanner operation of the scanner unit 23 overlap, resulting in a peak current. The problem of enlargement occurs only when printing the first sheet. For example, when the printer main control unit 14 determines that the printing is intermittent, only the main heater 25a is energized to warm up.

  As shown in FIG. 7A, it can be seen that if only one heater is energized, it takes time x to reach the target temperature, compared to the case where two heaters are energized. However, in intermittent printing, since scanner processing time ≧ printing time, there is a time margin. Therefore, even if it heats slowly, it can reach target temperature without a problem.

  Therefore, in the multi-function device 10 where the scanner processing time is equal to or longer than the printing time, when the printing without stocking the scan data or the printing when the timing of the scanner processing is the printing end timing, the energization to the two heaters 25 and the scanner device The problem that the peak current increases due to the overlap of the 63 scanner operations can be minimized.

  In the second and subsequent printings, the heater 25 is already energized and the temperature has risen to some extent, and only one heater 25 (main heater 25a) needs to be energized during warm-up. Since the temperature does not decrease, it is possible to warm up while suppressing power consumption.

  Furthermore, it is not necessary to coordinate the control of the printing device 11 and the control of the scanner device 63, and it is only necessary to cause the printing device 11 to start a printing operation when receiving image data read by the scanner device 63. Even if the control or control system by 20 is simplified, the problem that the peak current becomes large can be minimized.

  Further, in the time chart in the present embodiment shown in FIG. 10, even when the number of heaters 25 is N, energization of the N heaters 25 and the scanner operation of the scanner unit 23 are performed at the warm-up timing. It can be seen that the problem that the peak current increases due to the overlap is only during the printing of the first sheet.

  In the present embodiment, when intermittent printing is performed in which images of a plurality of originals sequentially read by the scanner device 63 are printed on a plurality of recording media 54, the second and subsequent recording media 54 are recorded. When printing is performed, only the NM heaters 25 are supplied with power, that is, energized, so that the energization of the N heaters 25 and the scanner operation of the scanner unit 23 overlap to increase the peak current. This problem occurs only for the first print.

  Therefore, in the multifunction machine 10 in which the scanner processing time ≧ printing time, when the printing without stocking scan data or the printing with the scanner processing timing being the printing end timing, the N heaters 25 are energized and the scanner unit It is possible to minimize the problem that the peak current increases due to the overlap of the 23 scanner operations.

  In the second and subsequent printings, the heater 25 is already energized and the temperature has risen to some extent, and the temperature decreases even if only the NM heaters 25 are energized during the warm-up. Therefore, it is possible to warm up while suppressing power consumption.

  Furthermore, it is not necessary to coordinate the control of the printing device 11 and the control of the scanner device 63, and it is only necessary to cause the printing device 11 to start a printing operation when receiving image data read by the scanner device 63. Even if the control or control system by 20 is simplified, the problem that the peak current becomes large can be minimized.

  Next, a second embodiment of the present invention will be described. In addition, about what has the same structure as 1st Embodiment, the description is abbreviate | omitted by providing the same code | symbol. The description of the same operation and the same effect as those of the first embodiment is also omitted.

  FIG. 11 is a first flowchart showing the operation of Scan to Print in the second embodiment of the present invention.

  In the present embodiment, the power control unit 37 can set a supply power low mode that suppresses the supply of power supplied to the fixing unit 41, and the supply power low mode is set according to a request from the printer main control unit 14. The mode is set and canceled.

  Since the configuration of other points of the multifunction machine 10 is the same as that of the first embodiment, the description thereof is omitted.

  Next, the operation of the multifunction machine 10 in the present embodiment will be described. Here, as in the first embodiment, an operation of Scan to Print in which the printing apparatus 11 prints an image of a document read by the scanner apparatus 63 will be described.

  First, the case where the heater 25 is the main heater 25a and the sub heater 25b will be described.

  The operations until the scanner reading operation is performed, that is, the operations of START and steps S41 to S43 shown in FIG. 11 are the same as the operations of START and steps S1 to S3 shown in FIG. Description is omitted.

  In step S44, the multifunction machine 10 determines whether intermittent printing (during idling) is performed. Specifically, the printer main control unit 14 determines whether or not the state of the printing apparatus 11 when the print data is acquired is an intermittent printing state. If it is intermittent printing, the process proceeds to step S45. If it is not intermittent printing, the process proceeds to step S46.

  Subsequently, in step S45, the multifunction machine 10 performs a low power supply mode set. Specifically, the printer main control unit 14 instructs the power supply control unit 37 to set the low supply power mode.

  In step S46, the multifunction machine 10 warms up with the main and sub heaters ON. Specifically, the printer main control unit 14 instructs the fixing control unit 34 and the temperature control unit 36 to energize the main heater 25a and the sub heater 25b to perform warm-up.

  Subsequently, in step S47, the multifunction machine 10 determines whether or not the target temperature has been reached. Specifically, the printer main control unit 14 determines whether or not the print target temperature has been reached based on the information detected by the sensor 22. If the target temperature has been reached, the process proceeds to step S48. If the target temperature has not been reached, the process returns to step S46, and the multifunction machine 10 continues to warm up with the main and sub heaters ON.

  Subsequently, in step S48, the multifunction machine 10 determines whether print data has been received. Specifically, the printer main control unit 14 determines whether or not the image reading control unit 38 has transmitted the image data of the document read by the scanner unit 23 as print data, and the data reception unit 21 has received the print data. to decide. If the print data is received, the process proceeds to step S49. If the print data is not received, the process returns to step S48, and the multifunction machine 10 repeats the determination of whether the print data is received.

  Subsequently, in step S49, the multifunction machine 10 determines whether or not the power supply low mode is set. Specifically, the printer main control unit 14 determines whether or not the low power supply mode is set by the power supply control unit 37. If the mode is the low power supply mode, the process proceeds to step S50. If the mode is not the low power supply mode, the process proceeds to step S51.

  Subsequently, in step S50, the multifunction machine 10 cancels the low power supply mode. Specifically, the printer main control unit 14 instructs the power supply control unit 37 to cancel the low supply power mode.

  Subsequently, in step S51, the multifunction machine 10 performs printing by turning on only the main heater 25a. Specifically, the printer main control unit 14 instructs the transport control unit 32, the image formation control unit 33, the fixing control unit 34, and the temperature control unit 36 to energize only the main heater 25a and print on the recording medium 54. To do.

  The subsequent operations, that is, the operations of step S52, step S53, and END shown in FIG. 11, are the same as the operations of step S11, step S12, and END shown in FIG.

Next, a flowchart will be described.
Step S41 Only the sub heater 25b is turned on and waits.
Step S42: It is determined whether a scanner operation request has been received. If the scanner operation request is received, the process proceeds to step S43. If the scanner operation request is not received, the process returns to step S41 to repeat the operation.
Step S43 A scanner reading operation is performed.
Step S44: Whether or not intermittent printing (during idling) is determined. If it is intermittent printing, the process proceeds to step S45. If it is not intermittent printing, the process proceeds to step S46.
Step S45: Supply power low mode setting is performed.
Step S46: Warm-up is performed with the main and sub heaters ON.
Step S47: It is determined whether or not the target temperature has been reached. If the target temperature has been reached, the process proceeds to step S48. If the target temperature has not been reached, the process returns to step S46, and the warm-up is continued by turning on the main and sub heaters.
Step S48: to judge whether print data has been received. If the print data has been received, the process proceeds to step S49. If the print data has not been received, the determination as to whether the print data has been received is repeated.
Step S49: It is determined whether or not the low power supply mode. If it is in the low power supply mode, the process proceeds to step S50. If it is not in the low power supply mode, the process proceeds to step S51.
Step S50 Cancel the supply power low mode.
Step S51 Only the main heater 25a is turned on for printing.
Step S52: to judge whether the printing is finished. If the printing is finished, the process proceeds to step S53. If the printing is not finished, the process returns to step S51, and only the main heater 25a is turned on for printing.
Step S53 Performs idling and ends the scan to print operation.

  Next, a sequence indicating a processing procedure will be described.

  FIG. 12 is a first sequence diagram showing a processing procedure of an operation of Scan to Print in the second embodiment of the present invention.

  In the present embodiment, when the MFP 10 is idling or intermittent printing, when the printer main control unit 14 receives a Scan to Print request from the operation unit 13, the printer main control unit 14 sends a supply power low mode setting request to the power control unit. 37.

  Then, the power supply control unit 37 sets the low supply power mode. When the setting of the low power supply mode is completed, the power supply control unit 37 transmits a supply power setting end notification to the printer main control unit 14.

  Upon receiving the supply power setting end notification, the printer main control unit 14 sends an image control warm-up start request to the image formation control unit 33, a transfer control warm-up start request to the transfer control unit 32, and a fixing control warm-up start. Requests are transmitted to the fixing controller 34 to control the transport unit 28, the process unit 27, the fixing roller 26, and the heater 25, and only the main heater 25a is energized to warm up.

  In the present embodiment, when the printer main control unit 14 receives the print request from the data receiving unit 21 and the supply power low mode is being set, the printer main control unit 14 cancels the supply power low mode. The request is transmitted to the power control unit 37.

  Then, the power supply control unit 37 releases the supply power low mode. When the cancellation of the supply power low mode is completed, the power supply control unit 37 transmits a supply power setting end notification to the printer main control unit 14.

  Upon receiving the supply power setting end notification, the printer main control unit 14 fixes the image control print start request to the image formation control unit 33, the conveyance control print start request to the conveyance control unit 32, and the fixing control print start request to the fixing. Each is transmitted to the control unit 34 to control the transport unit 28, the process unit 27, the fixing roller 26, and the heater 25, and energize only the main heater 25a to perform the printing operation.

  The other operations are the same as those in the sequence shown in FIG.

  Next, the operation when the number of heaters 25 is N will be described.

  FIG. 13 is a second flowchart showing the operation of Scan to Print in the second embodiment of the present invention.

  When the number of heaters 25 is N, after the initial operation is finished, in step S61, the multifunction machine 10 stands by with NK heaters 25ON. Specifically, the printer main control unit 14 instructs the fixing control unit 34 and the temperature control unit 36 to energize the NK (N−1 ≧ K ≧ 1) heaters 25 to maintain the temperature. stand by.

  In step S66, the multifunction machine 10 warms up with NL heaters 25ON. Specifically, the printer main control unit 14 instructs the fixing control unit 34 and the temperature control unit 36 to energize the N−L (N−2 ≧ L ≧ 0) heaters 25 to perform warm-up. .

  Further, in step S71, the multifunction machine 10 performs printing with NM heaters 25ON. Specifically, when the data receiving unit 21 receives the print data, the printer main control unit 14 instructs the conveyance control unit 32, the image formation control unit 33, the fixing control unit 34, and the temperature control unit 36 to perform NM. (N-1 ≧ M ≧ 1) The heater 25 is energized to print on the recording medium 54.

  The operations of other points, that is, the operations of Step S62 to Step S65, Step S67 to Step S70, Step S72 and Step S73 shown in FIG. 13 are the same as Step S42 to Step S45 and Step S47 to FIG. Since it is the same as that of step S50, step S52, and step S53, the description is abbreviate | omitted.

Next, a flowchart will be described.
Step S61 It stands by with NK heaters 25ON.
Step S62: to judge whether a scanner operation request has been received. If the scanner operation request is received, the process proceeds to step S63. If the scanner operation request is not received, the process returns to step S61 to repeat the operation.
Step S63 A scanner reading operation is performed.
Step S64: It is determined whether or not the intermittent printing (during idling). If it is intermittent printing, the process proceeds to step S65. If it is not intermittent printing, the process proceeds to step S66.
Step S65: Set the low power supply mode.
Step S66 Warm-up is performed with N-L heaters 25ON.
Step S67: Whether the target temperature has been reached is determined. If the target temperature has been reached, the process proceeds to step S68. If the target temperature has not been reached, the process returns to step S66, and the warm-up is continued by turning on the main and sub heaters.
Step S68: It is determined whether print data has been received. If the print data has been received, the process proceeds to step S69. If the print data has not been received, the determination as to whether the print data has been received is repeated.
Step S69: It is determined whether or not the mode is the low power supply mode. When it is in the low power supply mode, the process proceeds to step S70, and when it is not in the low power supply mode, the process proceeds to step S71.
Step S70: Cancel the supply power low mode.
Step S71 Printing is performed with NM heaters 25ON.
Step S72: to judge whether the printing has been completed. If the printing is finished, the process proceeds to step S73. If the printing is not finished, the process returns to step S71, and printing is performed with NM heaters 25ON.
Step S73: Performs idling and ends the scan to print operation.

  Next, a sequence showing a processing procedure when the number of heaters 25 is N will be described.

  FIG. 14 is a second sequence diagram illustrating a processing procedure of an operation of Scan to Print according to the second embodiment of the present invention.

  When the number of heaters 25 is N, the fixing control unit 34 energizes the NK heaters 25 when receiving the fixing control standby request. When the multifunction device 10 is idling or waiting instead of intermittent printing, the fixing control unit 34 energizes the NL heaters 25 when receiving a fixing control warm-up start request. Further, when the multifunction machine 10 is idling or intermittent printing, the fixing control unit 34 energizes the NM heaters 25 upon receiving a fixing control warm-up start request. Further, when receiving the fixing control printing start request, the fixing control unit 34 energizes the NM heaters 25.

  Other operations are the same as those in the sequence shown in FIG.

  Next, a time chart showing the relationship between the operation of the heater 25 and the scanner unit 23 and the operation status of the multifunction machine 10 will be described.

  FIG. 15 is a first time chart according to the second embodiment of the present invention, and FIG. 16 is a second time chart according to the second embodiment of the present invention.

  15 and 16 show ON / OFF of the heater 25, power consumption (heater), operation and non-operation of the scanner unit 23, and operation state of the multifunction machine 10 when a so-called continuous scan to print operation is performed. And the setting status of the low power supply mode and the relationship are shown. Note that in continuous scan to print, the scanner device 63 sequentially reads a plurality of originals, and the printing device 11 outputs a plurality of images of the read originals without stocking image data of the read originals in a storage device such as the RAM 16. Printing that sequentially prints on a single recording medium 54 or printing in which the timing of the scanner process is the timing of the end of printing. Further, in each Scan to Print operation, scanner processing time ≧ printing time.

  As shown in FIG. 15, when the heater 25 is a main heater 25a and a sub heater 25b, energization to the two heaters 25 of the main heater 25a and the sub heater 25b and the scanner operation of the scanner unit 23 are performed at the warm-up timing. It can be seen that the problem that the peak current increases due to the overlap occurs only when the first sheet is printed, as in the first embodiment.

  In the present embodiment, when intermittent printing is performed in which images of a plurality of originals sequentially read by the scanner device 63 are printed on a plurality of recording media 54, the second and subsequent recording media 54 are recorded. When printing is performed, the power supply unit 24 is set to the low power supply mode to perform warm-up.

  Therefore, in the MFP 10 in which scanner processing time ≧ printing time, when the printing without scanning data is stored or when the timing of the scanner processing is the printing end timing, the energization to the two heaters 25 and the scanner unit It is possible to minimize the problem that the peak current increases due to the overlap of the 23 scanner operations.

Further, in the second and subsequent printing, power supply to the heater 25 is already performed in which the temperature rises to some extent, be energized in a state where supply of power is suppressed, the temperature is not reduced Therefore, it is possible to warm up while suppressing power consumption.

  Furthermore, it is not necessary to coordinate the control of the printing device 11 and the control of the scanner device 63, and it is only necessary to cause the printing device 11 to start a printing operation when receiving image data read by the scanner device 63. Even if the control or control system by 20 is simplified, the problem that the peak current becomes large can be minimized.

  Further, in the time chart in the present embodiment shown in FIG. 16, even when the number of heaters 25 is N, energization to the N heaters 25 and the scanner operation of the scanner unit 23 are performed at the warm-up timing. It can be seen that the problem that the peak current increases due to the overlap is only during the printing of the first sheet.

  In the present embodiment, when intermittent printing is performed in which images of a plurality of originals sequentially read by the scanner device 63 are printed on a plurality of recording media 54, the second and subsequent recording media 54 are recorded. When printing is performed, the power supply unit 24 is set to the low power supply mode to perform warm-up.

  Therefore, in the multifunction machine 10 in which the scanner processing time ≧ printing time, when the printing without stocking scan data or the printing with the scanner processing timing being the printing end timing, the N heaters 25 are energized and the scanner unit It is possible to minimize the problem that the peak current increases due to the overlap of the 23 scanner operations.

Further, in the second and subsequent printing, power supply to the heater 25 is already performed in which the temperature rises to some extent, be energized in a state where supply of power is suppressed, the temperature is not reduced Therefore, it is possible to warm up while suppressing power consumption.

  Furthermore, it is not necessary to coordinate the control of the printing device 11 and the control of the scanner device 63, and it is only necessary to cause the printing device 11 to start a printing operation when receiving image data read by the scanner device 63. Even if the control or control system by 20 is simplified, the problem that the peak current becomes large can be minimized.

  In the first and second embodiments, only the case where the image forming apparatus is the multifunction machine 10 has been described. However, the present invention is not limited to the multifunction machine and can be applied to a copying machine or the like. is there.

  The present invention is not limited to the above-described embodiment, and various modifications can be made based on the spirit of the present invention, and they are not excluded from the scope of the present invention.

  The present invention can be used in an image forming apparatus.

DESCRIPTION OF SYMBOLS 10 Multifunction machine 11 Printing apparatus 20 Control apparatus 24 Power supply unit 25 Heater 25a Main heater 25b Sub heater 27 Process unit 41 Fixing unit 54 Recording medium 63 Scanner apparatus

Claims (9)

(A) a reading device that reads an image of a document;
(B) Printing including an image forming unit that forms a toner image of an image read by the reading device and transfers the toner image to a recording medium, and a fixing unit that includes a plurality of heaters and fixes the toner image to the recording medium. Equipment,
(C) a power supply device for supplying power to the reading device and the printing device;
(D) An image forming apparatus including a control device that controls operations of the reading device, the printing device, and the power supply device,
(E) When performing intermittent printing in which the images of a plurality of originals sequentially read by the reading device are intermittently printed on a plurality of recording media, the control device prints on the second and subsequent recording media. When warming up, the power supply to the fixing unit is suppressed ,
(F) In the intermittent printing, the scanner processing time required for the reading device to read an image of a single document is such that the printing device reads one image of the single document read by the reading device. an image forming apparatus comprising der Rukoto more printing time required to process for printing on a recording medium. The image forming apparatus according to claim 1, wherein the control device suppresses a power supply amount to the fixing unit by supplying power to only some of the plurality of heaters. The power supply device can be set in a low power supply mode that suppresses the amount of power supplied to the fixing unit.
3. The control device according to claim 1, wherein, when performing the intermittent printing, the control device sets the power supply device to a low supply power mode to perform warm-up when printing on the second and subsequent recording media. Image forming apparatus. The plurality of heaters is N (N ≧ 2),
The control device, when executing the intermittent printing, supplies power to only NM (N-1 ≧ M ≧ 1) heaters when printing on the second and subsequent recording media. 4. The image forming apparatus according to any one of items 3. The plurality of heaters are a main heater and a sub heater,
5. The image forming apparatus according to claim 4, wherein, when performing the intermittent printing, the control device supplies power only to either the main heater or the sub-heater when printing on the second and subsequent recording media. When performing the intermittent printing, the control device supplies power to only NK (N-1 ≧ K ≧ 1) heaters during standby and prints on the second and subsequent recording media. The image forming apparatus according to claim 4, wherein power is supplied only to −M (N−1 ≧ M ≧ 1) heaters. The image forming apparatus according to claim 1, wherein the printing apparatus performs warm-up when processing for printing on each recording medium is started. The image forming apparatus according to claim 7 , wherein the warm-up is a control process for setting the temperature of the fixing unit to a target temperature . In the intermittent printing, the image data of the document read by the reading device is transmitted to the printing device without being stocked, and the printing device performs a process of printing on the recording medium when receiving the image data of the document. The image forming apparatus according to claim 1 , wherein the image forming apparatus is started.

Images