JP6601227B2 - Image forming apparatus, image forming method, and image forming control program - Google Patents

Description

  The present invention relates to an image forming apparatus, an image forming method, and an image forming control program that can read an image formed on a transfer medium by an image forming unit and determine the state of image formation.

An image forming device that forms an image in the image forming unit based on a print job and prints it on paper changes the image quality due to changes over time. Processing is performed. In the stabilization process, an image patch is formed on a plurality of sheets, the image patch is read by a reading unit such as a scanner, and the image forming state is determined according to the reading result to perform image quality correction.
In addition, even if the above-described image quality correction is performed, there may be a case where an image is defective or misaligned. Also in this case, it is possible to read out the image formed on the transfer medium to determine whether the image quality is good or bad, and to easily remove the defective paper.

JP 2002-247270 A

By the way, when the image formed on the paper is read by the reading unit and the reading result is transmitted, the image is read for each sheet that is sent out at a constant interval, the data of the reading result is transmitted, and the image is read by the control unit. The state of formation is judged and stabilization processing is performed. Normally, each time an image is formed on a plurality of sheets, the reading result on each page is set in time.
However, for some reason, the data transmission speed on the transmission path may decrease, or an error may occur due to noise or the like in the data processing, and the data communication speed may decrease. In this case, if the data communication speed becomes slower than the paper image output speed, if the data transfer does not end before the next image arrives at the reading unit, data skipping occurs and correct control is performed. There is a problem that cannot be performed or the machine stops and cannot be used.

  For example, in Patent Document 1, an error in the image processing apparatus is detected, a function restriction key for restricting the function of the image processing apparatus is displayed, and a function related to the error is restricted to use the image processing apparatus. It is possible to migrate with a simple operation. However, in this method, the function is limited, so that the target process may not be performed.

  The present invention has been made with the above circumstances as a background, and an image forming apparatus and an image forming apparatus capable of performing a process requested by a user without limiting functions when the communication speed of data of a read result decreases. It is an object to provide a method and an image formation control program.

Among the image forming apparatuses of the present invention, the first aspect of the invention is
An image forming unit for forming an image on a transfer medium;
A reading unit that reads an image of a transfer medium on which image formation has been performed in the image forming unit;
A control unit that controls the image forming unit and the reading unit;
A communication unit for transmitting data relating to reading results by the reading portion between the reading portion and the control unit,
Wherein the control unit is configured to determine the status of the image forming undergoing reading result of the previous Ki読 preparative unit via the communication unit,
The communication speed of the data via the communication unit is observed, and when the communication speed decreases, the image formation performance is adjusted so that the communication speed does not decrease below the image formation performance of the transfer medium to be read. It is characterized by that.

Invention other forms of image forming apparatus of the present invention, in the form, in the controller, as a function to determine the state of the image forming, and performs the image stabilization Kasho sense.

  The image forming apparatus according to another aspect of the invention is characterized in that, in the invention according to the aspect, the control unit increases an interval between the image forming output products when adjusting the image forming performance.

In another aspect of the invention of the image forming apparatus, in the invention of the above aspect, the control unit performs image formation of the transfer medium read by the reading unit every N sheets (where N is an integer of 2 or more). Features .

  An invention of an image forming apparatus according to another aspect is characterized in that, in the invention according to the aspect, the control unit notifies the decrease in the communication speed when the communication speed of the data is decreased.

  In another aspect of the invention of the image forming apparatus, in the invention of the above embodiment, the control unit notifies the user of the control content when adjusting the image forming performance, and the control content instructed by the user controls the image forming performance. Control is performed.

  According to another aspect of the invention of the image forming apparatus, in the aspect of the invention, the control unit grasps the communication speed according to an ON period of data transmitted through the communication unit.

  In another aspect of the present invention, the control unit calculates the communication speed and the image forming performance in terms of the number of transfer media per time.

Invention of the image forming apparatus according to still another embodiment of the present invention, in the form, and wherein the thus caused it to lower under the communication speed.

  An image forming apparatus according to another aspect of the invention is characterized in that, in the invention of the above aspect, the image forming apparatus further includes a memory that stores data related to a reading result of the reading unit for at least one transfer medium before the transmission.

  Another aspect of the invention of the image forming apparatus according to the aspect of the invention is characterized in that a communication speed measuring unit that measures a communication speed in the communication unit is provided.

  According to another aspect of the invention of the image forming apparatus, in the aspect of the invention, the data related to the reading result is transmitted to the control unit via the communication unit for each transfer medium. To do.

  The invention of the image forming apparatus according to another aspect is characterized in that, in the invention of the above aspect, the control unit does not automatically control the image forming performance when the decrease in the communication speed is equal to or higher than a predetermined value. To do.

The invention of an image forming apparatus according to another aspect is characterized in that, in the invention of the above aspect, the control unit controls the image forming performance according to a user instruction when the decrease in the communication speed is equal to or greater than a predetermined value. To do.

  In another aspect of the invention of the image forming apparatus, in the aspect of the invention of the above aspect, the control unit displays a notification of the need for contact with the maintenance manager or executes a contact when the decrease in the communication speed is equal to or greater than a predetermined value. It is characterized by.

The image forming method of the present invention includes a step of reading an image of a transfer medium on which image formation has been performed by the image forming unit, by a reading unit;
Transmitting data related to the reading result;
Receiving data related to a reading result by the reading unit by the transmission and determining a state of the image formation;
Observing the communication speed in the transmission of the data, and adjusting the image forming performance so that the communication speed does not drop below the image forming performance of the transfer medium for reading when the communication speed decreases. It is characterized by that.

An image formation control program of the present invention is an image formation control program executed by a control unit that controls image formation in an image forming apparatus,
A step of reading an image of a transfer medium on which an image has been formed by an image forming unit by a reading unit;
Transmitting data related to a reading result by the reading unit;
Receiving data relating to a reading result by the transmission and determining the state of the image formation;
Observing the communication speed in the transmission of the data, and adjusting the image forming performance so that the communication speed does not drop below the image forming performance of the transfer medium for reading when the communication speed decreases. It is characterized by that.

  According to the present invention, even when the communication speed of the image reading result is lowered, the apparatus can be operated according to the communication speed at that time, and the operation rate of the apparatus is increased.

1 is a diagram illustrating an outline of an image forming apparatus according to an embodiment of the present invention and a part of an operation thereof. Similarly, it is a figure which shows the image signal in the data of a reading result. Similarly, it is a figure which shows the image of the image signal in the data transmission of the reading result. Similarly, it is a figure explaining the transmission state when a communication failure occurs. Similarly, it is a diagram showing a screen for selecting a method for adjusting the image forming performance when the communication speed of the data of the read result is decreasing. Similarly, it is a diagram showing a screen for setting the generation interval of the stabilization patch as the adjustment of the image forming performance when the communication speed of the data of the reading result is decreasing. Similarly, it is a diagram for explaining an operation state when an image forming performance adjustment method is selected when the communication speed of data of a read result is decreasing. Similarly, it is a diagram for explaining a state in which the communication speed is lowered when the communication speed of the data of the read result is lower than a threshold value, and a diagram showing a display and a continuation function button on the operation unit. Similarly, it is a flowchart showing a procedure for adjusting an image forming performance corresponding to a decrease in communication speed. Similarly, it is a flowchart showing a procedure of a read request process and a procedure of a self-recovery determination process.

Hereinafter, an embodiment of the present invention will be described with reference to the accompanying drawings.
As shown in FIG. 1, the image forming apparatus 1 includes an image forming apparatus main body 10 and a reading apparatus 20, and the reading apparatus 20 is mechanically and electrically downstream of the image forming apparatus main body 10 in the paper conveyance direction. Are connected to the image forming apparatus main body 10. In this embodiment, the image forming apparatus main body 10 and the reading apparatus 20 are described as being configured separately, but the reading apparatus 20 and the image forming apparatus main body 10 are configured integrally. It may be.

The image forming apparatus 10 includes an image forming unit 11 that forms an image on a sheet and an overall control unit 12 that controls the entire image forming apparatus.
Although not shown in detail, the image forming unit 11 includes a charger, a writing unit, a photoreceptor, a developing unit, a transfer unit, a fixing unit, and a cleaning device. In the apparatus main body 10, a sheet is conveyed from the sheet feeding unit and an image is formed in the image forming unit 11. The sheet corresponds to the transfer medium of the present invention. The transfer medium is not necessarily limited to paper, and may be cloth or plastic.

In the image forming unit 11, a charger, a developing unit, and a transfer unit are arranged around the photosensitive member. The charger uniformly charges the surface of the photoreceptor before image writing. The writing unit forms an electrostatic latent image on the photosensitive member by irradiating the photosensitive member whose surface is uniformly charged with a semiconductor laser or the like. The developing device develops the electrostatic latent image formed on the photosensitive member by the writing unit with toner.
A toner image is formed on the photoreceptor by the development process. The transfer unit transfers the toner image on the photosensitive member onto the sheet conveyed from the sheet feeding unit. The sheet on which the toner image is transferred is separated from the photoreceptor and conveyed to a fixing device. The toner remaining on the photoreceptor is removed by a cleaning device. The fixing device fixes the toner image transferred to the front side of the sheet by heating the conveyed sheet. The sheet subjected to the fixing process is conveyed as it is to the reading device 20 in the case of single-sided printing, and in the case of double-sided printing, the sheet after fixing is switched back by the image forming unit 11 on the back side of the sheet. The toner image is transferred. The paper on which images are formed on both sides is conveyed to the reading device 20 after fixing.

The overall control unit 12 includes a CPU and a program executed by the CPU, a ROM that stores the program, a RAM that serves as a work area, a nonvolatile memory that stores operation parameters, and the like. The overall control unit 12 can determine the state of image formation by receiving the reading result of the image read by the reading device 20. Further, the overall control unit 12 grasps the image forming performance in image output, and the image forming performance for the sheet to be read according to the data communication speed between the reading unit of the reading device 20 and the overall control unit 12. Can be adjusted. In this embodiment, the number of sheets output per time is calculated as the image forming performance.
As described above, the overall control unit 12 corresponds to the control unit of the present invention. In addition to the image forming apparatus, the control unit of the present invention may be connected to the image forming apparatus via a network and provided in a management apparatus that manages the image forming apparatus.

Further, the image forming apparatus main body 10 includes a communication unit 14 that communicates with the reading device 20, and the communication unit 14 is controlled by the overall control unit 12. The communication unit 14 includes an interface, a communication control unit, and the like.
In addition, the image forming apparatus main body 10 includes a communication speed measurement unit 13, and the communication speed measurement unit 13 measures the communication speed of data transmitted through the communication unit 14. In this embodiment, the communication speed measuring unit 13 indicates the number of readings transmitted per time as the communication speed by detecting the transmission ON / OFF of the reading data.
Further, the image forming apparatus main body 10 includes an operation unit 15. In this embodiment, the operation unit 15 is configured by a touch panel or the like, and can be operated and displayed. However, as the present invention, a device for performing an operation and a device for performing a display may be provided separately.

On the other hand, the reading device 20 has a reading unit 21 having an inline sensor or the like, and can read an image of the conveyed paper. The configuration of the reading unit 21 is not particularly limited. Further, the reading unit 21 has a sensor for detecting the paper, and can detect the end of the paper in the conveyance direction to serve as a reading trigger.
In addition, the reading device 20 includes a memory 22 that stores data of a reading result in the reading unit 21. The memory 22 can store data for at least one sheet, and the content of the data is updated according to the sheet reading page.

Further, the reading device 20 includes a communication unit 24 that performs communication with the communication unit 14 in the image forming apparatus main body 10. The communication unit 24 includes an interface and a communication control unit. The communication unit 14 and the communication unit 24 are electrically connected by an appropriate transmission line such as a serial cable. In the reading device 20, data of a reading result stored in the memory 22 can be sent to the image forming apparatus main body 10 through the communication unit 24 and the communication unit 14.
In data transmission, processing is performed based on communication between the reading unit 21 and the overall control unit 12, but the transmission speed on the transmission path is usually slower than signal transmission in the apparatus.

  In the image forming apparatus 1, when an image is formed on a sheet by the image forming unit 11, the image is discharged from the image forming apparatus main body 10 and conveyed to the reading device 20. When the sheet sent to the reading device 20 is an output product with a patch on which a patch image is formed, the overall control unit 12 issues a reading request to the reading device 20. Upon receiving the reading request, the reading device 20 detects the end of the sheet with a sheet detection sensor (not shown), and reads the image of the sheet with the reading unit 21 when the end of the sheet is detected. The read data is stored in the memory 22, and when reading for one page is completed, the read data is transmitted to the communication unit 14 by the communication unit 24.

In the image forming apparatus main body 10, the communication speed measuring unit 13 measures the communication speed of the data received by the communication unit 14, and the read data is received by the overall control unit 12. Data transmission is performed in units of pages every time the paper on which the read image is formed reaches the reading device 20 and is read.
The overall control unit 12 determines the state of image formation based on the read data, and performs stabilization processing in the image forming unit 11 as necessary.

This will be specifically described below.
A description will be given of a case where a stabilization patch is drawn every other sheet and read by the reading device 20 on a 60 PPM (Page per minute) machine having an image forming performance (speed) of 60 sheets per minute.
Reading by the reading device 20 is performed by passing the paper drawn by the image forming apparatus main body 10 and using the edge of the paper as a trigger (S) VV (reading vertical image valid signal), (S) HV ( The patch is read from the reading horizontal image valid signal) and the patch position information received from the overall control unit 12 in advance.

  In the case of an image forming apparatus of 60 PPM, since an output from the image forming apparatus main body 10 is sent to the reading device 20 every second, a signal (S) VV for reading the output on the reading device 20 side is displayed. The ON interval is turned on approximately every 1 second. When the paper transport speed is 400 mm / Sec, for A4 paper (210 mm), 210 mm / 400 mm Sec = 525 mSec period VV is ON and 475 mSec period is OFF, as shown in FIG.

After the reading unit 21 reads the patch, the reading device 20 notifies the overall control unit 12 that the data is to be transmitted, and transmits the data to the image forming apparatus main body 10 through the communication unit 24.
The reading device 20 and the image forming apparatus main body 10 transmit and receive commands via a command communication unit. In the image forming apparatus main body 10, the overall control unit 12 has a command communication function. In the reading device 10, command communication is performed by a reading control unit (not shown) or the like.
The data transfer may be an event or a signal indicating the start and end of transfer. In the present embodiment, a method of communicating with the image forming apparatus main body using the Valid signal (P) VV will be described. FIG. 3 shows an image of (P) VV used at the time of data transfer from the reading device 20 to the image forming apparatus main body 10.

The communication speed measuring unit 13 of the image forming apparatus grasps the communication speed from the reading device 20 from the output product output from the image forming apparatus main body 10 and the ON period of the (P) VV signal.
In order to simplify the description, when the communication speed design from the reading device 20 is set to 400 mm / Sec similarly to the linear speed of the main body, the transfer period (P) VV period of A4 is 525 mSec.

When receiving data from the reading device 20, the image forming apparatus main body 10 uses the communication speed measuring unit 13 to monitor the (P) VV ON period. Although the communication speed from the reading device 20 to the image forming apparatus main body 10 is expressed as TPM (Transfer PerMinute), in this specific example, since the (P) VV On period is an image transmission period, the unit time is 60 seconds. It shows how many sheets can be sent. Therefore, in the normal example 525 mSec, 60 seconds / 525 mSec = about 114 TPM.
These TPM calculations may be performed with a margin αmSec in advance during the (P) VV On period as shown in the following equation.
TPM = 60000 mSec / ((P) VV On period) mSec + α · mSec

As shown in FIG. 4, when the A4 transfer time is 600 mSec as in the case of abnormality 1, the communication speed is reduced by about 12.5% (525/600 * 100 = 87.5). It will be a thing. In the case of the communication speed, 60 seconds / 600 mSec = 100 TPM (TPM: TransferPerMinute).
If the communication speed drops to half (50%), the (P) VV period is 1050 mSec, and 60 / 1050≈57 TPM.

The TPM calculation in the communication speed measuring unit 13 of the image forming apparatus is calculated at each transfer time (instantaneous TPM), but the worst value of the communication speed is stored as minTPM.
The minTPM is reset with the PPM value when the parts related to the communication unit are replaced. Further, the communication speed measuring unit 13 may be reset when detecting that the normal speed (TPM> PPM) is maintained for a predetermined period, or a process of resetting by a user instruction may be provided.

When the power is turned on, information on the communication speed (TPM) is acquired, and a patch output interval (StablePatchPM: SPPM) is obtained from the stabilized image patch output interval (output setting for each page) and the image forming apparatus speed (60 PPM). .
In the present embodiment, the SPPM is set to 60 SPPM because the image forming apparatus of 60 PPM is set to output a stabilization patch for each page.
When TPM <SPPM (in short, when the data transfer is not in time before the next stabilization patch arrives), whether to change the output interval of the stabilization patch to the operation unit 15 as shown in FIG. The image forming apparatus can be displayed to select whether to reduce the speed (PPM).
Further, the value of αmSec may be set at the time of TPM calculation, and the above determination may be performed, or at the time of the determination, a margin (β) may be given to SPPM, and SPPM + β and TPM may be compared.

On the selection screen 150 in FIG. 5, the display area 151 displays that the communication speed between the reading apparatus and the main body is decreasing and whether the stabilization patch generation interval is widened or the printing performance is lowered.
In addition, the selection screen 150 includes an “Increase Stabilization Patch Interval” button 152 for selecting to increase the stabilization patch generation interval, and a “Decrease Printing Performance” button 153 for decreasing the printing performance. It is displayed so that it can be pressed. By pressing any button, the selection content is determined and the process is started.

In order to increase the stabilization patch generation interval, the PPM itself is not changed, and it can be set to perform reading every N sheets (where N is an integer of 2 or more). Moreover, you may make it combine with the fall of PPM.
FIG. 6 shows a setting screen 160 for setting the number of stabilization patch intervals. On the setting screen 160, the display area 161 displays that the reading device → the communication speed of the main body is decreasing. On the setting screen 160, the current set number of sheets is displayed on the generation interval display unit 162 (one sheet in the figure). Also, a patch interval number input field 163 for setting the number of patches to be patched is provided, and an integer of 2 or more can be input.

When the user sets the patch interval to every two sheets in the selection, the image forming apparatus operates to draw a stabilization patch every two sheets. Further, since the space between the sheets of the stabilization patch is obtained by the following formula (PPM / minPPM (rounded up)), a set value may be displayed in advance.
* When PPM: 60 minPPM: 57, 60/57 ≒ 2, 2 or more can be set.
When the user gives an instruction to drop the PPM in the selection, the image forming apparatus draws a patch for stabilizing each page, extends the sheet, and operates at a speed slower than that of the minTPM.

* Example of paper interval calculation when PPM: 60 minPPM: 57 * APP drawing time of 60 PPM, 400 mm / Sec ((P) VV ON period) is designed to be 525 mSec, and paper interval is 475 mSec and 1000 mSec. Since 57PPM may be operated at 1050 mSec, the space between the sheets may be increased by +50 mSec than usual. Therefore, the sheet interval is controlled as 475 mSec + 50 mSec = 525 mSec.
Further, when TPM <PPM (in short, when the transfer speed is lower than normal), the fact that the transfer speed is reduced is displayed on the operation unit to notify the user. In addition, a remote center or a service person may be notified using a communication means to the Internet provided separately.
Further, the value of αmSec may be set at the time of TPM calculation, and the above determination may be performed, or at the time of the above determination, a margin (γ) may be given to PPM and PPM + γ and TPM may be compared.
Further, it may be displayed when the length of the (P) VV On period used for TPM calculation exceeds a preset threshold value.

FIG. 7 is a diagram for explaining the operation when selected on the selection screen of FIG.
In the left figure, the patch addition interval is set for every two sheets, and the paper discharge interval is not changed. By increasing the patch addition interval, the data communication speed exceeds the image forming performance.
The right figure shows that the data communication speed is higher than the image forming performance by widening the paper discharge interval.

Further, when the read result data is communicated, as shown in the lower diagram of FIG. 8, when the amount of decrease in the communication speed of the read data is equal to or greater than the threshold value, the image formation performance adjustment control is performed in consideration of the decrease in the operation rate. Can be avoided. At this time, it is possible to display a screen for prompting the service person who is the maintenance point manager to contact the display area 171 of the operation screen 170.
However, when the user continues the process regardless of the decrease in the operating rate, the process may be continued by the user's instruction using the continue function button. The operation screen 170 in FIG. 8 may display a “Please click here to continue processing” button 172 so that the operation can be continued.
The threshold value may be set in advance and stored in the storage unit of the overall control unit 12, or may be set by the user. That is, the threshold setting method is not particularly limited.

Next, a control procedure for adjusting the image forming performance in the image forming apparatus will be described based on the flowchart of FIG. The following procedure is executed under the control of the overall control unit 12.
When the power is turned on, minTPM self-recovery determination processing is performed. In the self-recovery determination process, as shown in steps s50 and s51 of FIG. 10, it is determined whether all the past n instantaneous TPMs are greater than or equal to PPM (step s50). If all the past n instants of TPM are equal to or higher than PPM (step s50, Yes), minTPM is reset by PPM, minTPM is stored in nonvolatile memory, and the process returns. If the past n instants of TPM are not all PPM or more (step s50, No), the process returns without self-recovery.

  After the automatic return determination process, the number of output sheets Pout is reset to 0 (step s2). Next, the previous patch drawing count oldPout = 0 is reset (step s3). Next, the flag for gaps between sheets is reset (step s4), and the minimum transfer speed minTPM is acquired (step s5). The minimum transfer rate minTPM can be obtained by referring to the minTPM stored in the nonvolatile memory. The minTPM of the non-volatile memory stores a reset by a serviceman, a reset by a user instruction, a reset at the time of self-recovery determination, and a calculation calculated by a reading unit read request process.

Next, Interval = N is set by acquiring the stabilized patch drawing interval (step s6). The stabilization patch drawing interval is initially set in advance, and can be set by an instruction from the user.
Next, it is determined whether the transfer rate (minTPM) <PPM (step s7). When the transfer speed (minTPM) <PPM (step s7, Yes), the operation unit is notified that the communication speed of the read data has decreased (step s8), and it is determined whether the continuation button has been pressed (step s8). Step s9). If the continuation button has not been pressed (step s9, No), all printing is completed (step s25).

If the continuation button has been pressed (step s9, Yes), it is determined whether the patch drawing output (STPM = PPM / Interval) is greater than the transfer rate (minTPM) (step s10). If the patch drawing output speed is not higher than the transfer speed (No in step s10), the number of output sheets is counted up (Pout ++) (step s17).
If the patch drawing output speed is larger than the transfer speed (step s10, Yes), a selection function button for extending the printing interval or the patch drawing interval is displayed on the operation unit (step s11). It is determined whether or not an interval is selected (step s12).

If the patch drawing interval is selected (step s12, Yes), the patch drawing interval is input, Interval = M is set (step s13), the flag for opening the paper is reset (step s14), and the number of output sheets is counted. Up (Pout ++) is performed (step s17).
If the patch drawing interval is not selected (step s12, No), the patch drawing interval is set to 1 (Interval = 1) (step s15), the flag for opening the paper is set (step s16), and output is performed. The number of sheets is counted up (Pout ++) (step s17).

After counting up the number of output sheets in step s17, it is determined whether a stabilization patch is drawn (oldout + Interval = Pout?) (Step s18).
If it is not stabilized patch drawing (No in step s18), image drawing is performed (step s22). If it is stabilization patch drawing (step s18, Yes), the stabilization patch is added as an image (step s19), and the previous patch drawing is counted (oldPout = Pout) (step s20). Next, the reading request process is requested to the reading unit (step s21). Details of the read request processing will be described later. After the read request processing, image drawing is performed (step s22).

After the image drawing in step s22, it is determined whether a flag for setting a gap between sheets is set (step s23).
If a flag for setting a gap between sheets is set (step s23, Yes), a gap between sheets is set (step s24), and it is determined whether all printing is completed (step s25). If no flag for setting a gap between sheets is set (No in step s23), it is determined whether all printing is completed (step s25).
If it is not determined that all printing is completed (No in step s25), the process returns to step s17 to continue processing.
If all printing is completed (step s25, Yes), it is determined whether the power is off (step s26). If the power is not turned off (No at step s26), the process returns to step s1, and if the power is turned off (Yes at step s26), the process is terminated.

Next, the procedure of the read request process will be described with reference to FIG. The following procedure is executed under the control of the control unit.
When there is a read request process, the read process is performed (step s30). In the reading process, the reading unit prepares for reading (step s40), the paper detection unit detects the edge of the paper, and reads the image of the paper (step s41). Thereafter, data transfer is performed and the reading process is completed.

After the reading process in step s30, the (P) VV length is reset (step s31), and it is determined whether (P) VV is ON (step s32). (P) If VV is not ON (step s32, No), it waits for ON.
If (P) VV is ON (step s32, Yes), the (P) VV length is measured based on the data transfer in the reading process (step s33), and then it is determined whether (P) VV is OFF. Performed (step s34). (P) If VV is not OFF (No in step s34), the process returns to step s33 and continues.
(P) If VV is OFF (step s34, Yes), the instantaneous TPM is calculated. The instantaneous TPM is calculated by instantaneous TPM = 60 seconds / (P) VV ON period + α (step s35). The calculated instantaneous TPM is stored in the nonvolatile memory. In the nonvolatile memory, a ring buffer method is used.

After the instantaneous TPM calculation in step s36, it is determined whether minTPM> instantaneous TPM (step s36). If minTPM> instantaneous TPM (step s36, Yes), minTPM = instantaneous TPM is set, and the minTPM is stored in the nonvolatile memory (step s37), and the task ends.
If minTPM> instantaneous TPM is not satisfied (step s36, No), the task is terminated.

  In the above-described embodiment, the image reading is described as reading a patch image. However, the image reading target is not limited to a patch image. May be performed. In the present invention, the read data is acquired by the control unit to determine the state of image formation, and the purpose thereof is not limited to the stabilization process and the sag determination, but is to determine the state of image formation. For example, the purpose of use is not particularly limited.

  In the present embodiment, an image read by an image forming apparatus that reads an image (stabilization patch or the like) on a printed matter created by the image forming apparatus with a reading device (ICCU or the like) installed in-line and stabilizes the image. The speed at which the data read by the apparatus is transmitted to the image forming apparatus is monitored, and according to the decrease in the transmission speed, the interval between the stabilization patch outputs is increased or the output interval of the printed matter is delayed. In addition, the user is notified to select these operations.

  In this embodiment, as the communication speed of the data of the read result decreases, the interval of data sent out at a constant interval is delayed in advance, thereby reducing the apparatus stop time as much as possible and increasing the system operation rate. Can do. Even if a communication abnormality occurs, the apparatus can be moved according to the communication speed at that time.

  As described above, the present invention has been described based on the above embodiment, but appropriate modifications can be made without departing from the scope of the present invention.

DESCRIPTION OF SYMBOLS 1 Image forming apparatus 10 Image forming apparatus main body 11 Image forming part 12 Overall control part 13 Communication speed measuring part 14 Communication part 20 Reading apparatus 21 Reading part 22 Memory 24 Communication part 150 Selection screen 160 Setting screen 170 Operation screen

Claims (16)

An image forming unit for forming an image on a transfer medium;
A reading unit that reads an image of a transfer medium on which image formation has been performed in the image forming unit;
A control unit that controls the image forming unit and the reading unit;
A communication unit for transmitting data relating to reading results by the reading portion between the reading portion and the control unit,
Wherein the control unit is configured to determine the status of the image forming undergoing reading result of the previous Ki読 preparative unit via the communication unit,
Observe the communication speed of the data via the communication unit, and adjust the image forming performance so that the communication speed does not decrease below the image forming performance of the transfer medium to be read when the communication speed decreases. An image forming apparatus . In the control unit, as a function of determining the state of the image forming, the image forming apparatus according to claim 1, characterized in that performing the image stabilization Kasho sense. 3. The image forming apparatus according to claim 1, wherein the control unit increases an interval between output images when adjusting the image forming performance. 4. The image according to any one of claims 1 to 3 , wherein the control unit performs image formation of a transfer medium read by the reading unit every N sheets (where N is an integer of 2 or more). Forming equipment . Wherein, when the communication speed of the data is decreased, the image forming apparatus according to any one of claims 1 to 4, characterized in that for informing decrease in communication speed. Wherein, upon adjustment of the image forming performance, and notifies the control content to the user, any one of claims 1 to 5 in which the user and wherein the control contents instructed to perform the control of the image forming performance 1 The image forming apparatus described in the item. Wherein the control unit, the image forming apparatus according to any one of claims 1 to 6, characterized in that to ascertain the communication speed by the ON period of the data transmitted through the communication unit. Wherein the control unit, the image forming apparatus according to any one of claims 1 to 7, characterized in that to calculate the image forming performance and the communication speed transfer medium number conversion per hour. The decrease in communication speed, data image forming apparatus according to any one of claims 1 to 8, wherein the thus generated that the low under the speed of transmitting. The image forming apparatus according to any one of claims 1 to 9, characterized in that it has a memory for storing for at least one transfer medium content data on read result of the reading unit, prior to the transmission. The image forming apparatus according to any one of claims 1 to 10, characterized in that a communication speed measurement unit that measures the communication speed in the communication unit. Data relating to the reading result, the image forming apparatus according to any one of claims 1 to 11, characterized in that transmitted to the control unit via the communication unit one by one transfer medium . The image forming apparatus according to claim 1, wherein the control unit controls the image forming performance according to a user instruction when the decrease in the communication speed is equal to or greater than a predetermined value. . Wherein, when reduction of the communication speed is predetermined value or more, according to any one of claims 1 to 13, characterized in that the display or execution of the communication connection requirements to maintenance personnel Image forming apparatus. A step of reading an image of a transfer medium on which an image has been formed by an image forming unit by a reading unit;
Transmitting data related to the reading result;
Receiving data related to a reading result by the reading unit by the transmission and determining a state of the image formation;
Observing the communication speed in the transmission of the data, and adjusting the image forming performance so that the communication speed does not drop below the image forming performance of the transfer medium for reading when the communication speed decreases. An image forming method. An image formation control program executed by a control unit that controls image formation in an image forming apparatus,
A step of reading an image of a transfer medium on which an image has been formed by an image forming unit by a reading unit;
Transmitting data related to a reading result by the reading unit;
Receiving data relating to a reading result by the transmission and determining the state of the image formation;
Observing the communication speed in the transmission of the data, and adjusting the image forming performance so that the communication speed does not drop below the image forming performance of the transfer medium for reading when the communication speed decreases. An image formation control program.

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