JP4452294B2 - Image forming apparatus and image forming apparatus control method - Google Patents

Description

  The present invention relates to an image forming apparatus such as a digital copying machine and a printer, and a method for controlling the image forming apparatus.

  In a conventional digital copying machine, when executing a copy, a document is conveyed to a reading mechanism and a sheet is conveyed to a printing / discharge mechanism to execute a copy. However, a reversing unit is provided in front of the discharge mechanism to provide a sheet. May be reversed.

  This is because paper is printed on one side in order to reverse the front and back of the paper transported by the reversing unit in order to discharge the continuously copied paper in page order correctly, or to perform double-sided printing. The paper is reversed at the reversing unit and re-feeded to the automatic duplexer.

  However, when paper is set in the paper cassette of the digital copying machine, for example, when thick paper is set, if thick paper (for example, 209 g paper) is passed through the plain paper, the paper becomes stiff and the transport path Rub with the guide occurs. Therefore, a large frictional noise is generated when the cardboard passes through the guide-shaped R portion (reversing portion).

  In recent high-speed machines, the paper feed interval is narrowed to increase the copy productivity (CPM). Therefore, the speed-inversion control is performed to accelerate the sheet conveyance speed during the reversal. In this method, the sheet on which the image is formed is conveyed at a constant speed until it passes through the fixing unit, and the conveying speed is accelerated at a predetermined timing after the trailing end of the sheet has passed through the fixing unit.

  By the way, in the apparatus that performs reverse paper discharge by sharing the reversing unit or re-feeds the automatic duplexer, each paper reversing position is determined, and this reversing position is provided in the transport path. It is determined by the timing from the selected sensor. That is, the higher the conveyance speed, the greater the variation in the reversal position due to timing shifts, roller slipping, and the like.

  In general, the reverse position when refeeding the automatic duplexer is provided downstream of the reverse position when performing reverse paper discharge. In this case, if the reversal position is shifted to the downstream side, the leading edge of the sheet hits the end wall of the conveyance path, and sheet folding or collision noise is generated.

  If this reversal position shifts upstream, the paper will be reversed to the automatic duplexer before the paper can be removed from the transport path, causing jamming or conveyance near the entrance of the automatic duplexer. A collision sound is generated on the road.

  Furthermore, since the position of the reversal position varies depending on the conveyance speed, the paper reversal position fluctuates when there is a difference between parts accuracy such as the roller diameter or the machine assembly due to product assembly. There was a possibility that a problem such as a jam or a collision noise occurred.

As described above, a large noise is generated at the reversal section when passing thick paper, etc., and it is reversed during reverse conveyance when discharging the paper in reverse, or during reverse conveyance to an automatic duplex device when performing duplex copying. When the conveyance speed at the printing mechanism section is changed, the reversing section is turned on when reversing and delivering paper when reversed, or when reversing and feeding to an automatic duplex device when performing duplex copying. There is a problem that jams may occur and other problems may occur.

  Accordingly, an object of the present invention is to provide an image forming apparatus and an image forming apparatus control method capable of reducing the occurrence of sound in a reversing unit and preventing jamming and defects.

In order to solve the above-described problems, the present invention provides an image forming apparatus having an image forming unit that forms an image on a supplied sheet, and sets image forming conditions for double-sided image formation or reverse sheet discharge for single-sided image formation. A reversing unit for reversing the paper on which the image is formed on one side by the image forming unit when the image forming condition set by the setting unit is reverse paper discharge in double-sided image formation or single-sided image formation, When the image forming conditions for double-sided image formation are set in the setting unit and the paper on which the image is formed on one side by the image forming unit is reversed, the reversing unit controls the reverse conveyance at the first reverse conveyance speed, and the setting is performed. parts in the reverse discharge at one-side image forming image forming conditions set by the image forming unit at the time of reversing the sheet on which the image is formed on one side the inversion unit the first fast second from the reverse conveying speed control the reverse transport in the reverse transport speed A control unit for an image forming apparatus including a.

The present invention is also a method of controlling an image forming apparatus having an image forming unit that forms an image on a supplied sheet, wherein the image forming unit is set to form an image on both sides, and the image forming unit sets an image on one side. when inverting the formed sheet by the inversion unit controls the reverse conveyance of the inverted portion in a first inverting conveying speed, is set to discharge the paper is inverted to form an image on one side of the sheet above This is a control method for an image forming apparatus in which the reversing unit controls reversal conveyance at a second reversal conveyance speed that is faster than the first reversal conveyance speed when reversing the sheet on which the image is formed on one side by the image forming unit.

  According to the present invention, it is possible to provide an image forming apparatus and an image forming apparatus control method capable of reducing the generation of sound in the reversing unit and preventing jamming and defects.

Hereinafter, an embodiment of the present invention will be described with reference to the drawings.

  FIG. 1 shows a schematic configuration of a digital copying machine 10 equipped with an automatic duplex apparatus 1 according to an embodiment of the present invention. An automatic duplexer (ADU) 1 receives a sheet on which an image is formed on one side via a printer unit 4 (image forming unit), which will be described later, of the digital copying machine 10 and automatically inverts it, and re-feeds it to the printer unit 4 Make paper.

  As shown in FIG. 1, a digital copying machine 10 includes a scanner unit 2 that reads an image of a document and acquires image data, a printer unit 4 that outputs an image based on the image data acquired by the scanner unit 2, and a printer. An automatic duplex apparatus 1 that sequentially reverses sheets of paper on which an image is formed on one side via the unit 4 and refeeds the paper to the printer unit 4, and a sheet feeding unit 6 that supplies a sheet of a desired size toward the printer unit 4. Have In addition, an automatic document feeder (not shown) that functions as a cover for pressing down the document set on the document table 3 and automatically feeds a plurality of documents sequentially onto the document table 3 at the upper part of the digital copying machine 10. ADF) 8 is provided to be openable and closable.

  The scanner unit 2 includes a first carriage 11 formed so as to be movable in parallel with the document table 3 below the document table 3, a second carriage 12 driven by the first carriage 11, and first and second carriages 11, 12. The lens 13 that gives a predetermined imaging characteristic to the reflected light (image light) from the original transmitted by the above, and the photoelectric that acquires the image data by photoelectrically converting the image light given the predetermined imaging characteristic by the lens 13 A conversion element (CCD sensor) 14 is included.

  The document placed on the document table 3 is illuminated by a light source 15 provided integrally with the first carriage 11. The image light reflected from the document is sequentially reflected by the first mirror 11 a mounted on the first carriage 11 and the second and third mirrors 12 a and 12 b mounted on the second carriage 12, and passes through the lens 13. And condensed on the CCD sensor 14. At this time, the first carriage 11 and the second carriage 12 move along the document table 3 at a predetermined speed. As a result, image light relating to the entire surface of the document is received via the CCD sensor 14 and image data regarding the image on the entire surface of the document is acquired.

  The printer unit 4 includes an exposure device 21 that emits a laser beam based on image data acquired via the CCD sensor 14, and an outer peripheral surface that is charged in advance to a predetermined potential by exposure scanning using the laser beam emitted from the exposure device 21. A photosensitive drum 20 on which an electrostatic latent image is formed on 20a, a developing device 22 for supplying toner to the electrostatic latent image formed on the outer peripheral surface 20a of the photosensitive drum 20, and developing the developed toner image. A transfer belt 23 for transferring the toner image transferred onto the paper supplied at a predetermined timing from a paper supply unit 6 to be described later, a fixing device 24 for fixing the toner image transferred onto the paper on the paper, and the like.

  The electrostatic latent image formed on the outer peripheral surface 20 a of the photosensitive drum 20 by exposure scanning by the exposure device 21 is visualized by toner supplied via the developing device 22. The toner image visualized on the outer peripheral surface 20a is moved by the rotation of the photosensitive drum 20 and transferred onto a sheet fed from a sheet feeding unit 6 described later. The sheet on which the toner image is transferred passes through the fixing device 24, where the toner image is heated and melted, and the toner image is fixed on the sheet.

  The sheet on which the toner image is fixed and the image is formed on one side is switched via the discharge roller pair 27 by switching the distribution gate 26 via the fixing discharge roller pair 25 provided on the downstream side of the fixing device 24. Then, the sheet is discharged out of the apparatus or sent to the automatic duplex apparatus 1 through a reverse conveyance path 28, a reverse roller pair 29, and an ADU reverse roller pair 30 which will be described later. Also, an actuator-type sensor 41 in the vicinity of the fixing paper discharge roller pair 25, an actuator-type sensor 42 immediately after the reverse roller pair 29 in the normal conveyance direction of the paper, and an ADU reverse roller pair 30 in the normal conveyance direction of the paper. Immediately after, an actuator type sensor 43 is provided.

  Further, a motor 51 described later for driving the fixing device 24 and the fixing paper discharge roller pair 25, and a motor 52 described later for driving the reverse roller pair 29 and the ADU reverse roller pair 30 are provided. With such a configuration, the present invention can perform optimum control on the fixing speed and the reversal speed.

  The automatic double-sided device 1 has conveying roller pairs 5, 5, 5, and 5. The paper feed unit 6 includes a plurality of paper feed cassettes 31, 32, 33, and 34 that accommodate a plurality of sheets for each size.

  In the vicinity of the paper feed side end (right side end in the figure) of each of the paper feed cassettes 31, 32, 33, 34, the sheets stored in the paper feed cassette are taken out one by one from the top end. Pickup rollers 31b, 32b, 33b, and 34b are provided, respectively. Further, paper feed rollers 31a, 32a, 33a, and 34a are provided adjacent to the downstream side in the paper take-out direction by the pickup rollers 31b, 32b, 33b, and 34b, respectively. Sheets selectively picked up from the paper feed cassettes 31, 32, 33, 34 by the pickup rollers 31b, 32b, 33b, 34b and the paper feed rollers 31a, 32a, 33a, 34a are provided on the paper feed conveyance path 35. The sheet is conveyed upward in the drawing through the plurality of conveying roller pairs 36 and is sent to an aligning roller pair 37 disposed in front of the photosensitive drum 20 of the printer unit 4.

  Further, a manual feed device 39 for manually feeding paper is provided above the paper feed cassette 31, and the paper fed via the manual feed device 39 is sent to the aligning roller pair 37. ing.

  The paper fed into the aligning roller pair 37 via the paper feeding cassettes 31, 32, 33, 34 of the paper feeding unit 6 or the manual feeding device 39 is once aligned at the leading edge by the aligning roller pair 37, and the printer unit 4, the aligning roller pair 37 is rotated in accordance with the timing of the image forming operation, so that the image is sent to the transfer region between the transfer belt 23 and the photosensitive drum 20. As described above, a predetermined image is output on the sheet sent to the transfer area in this manner.

  FIG. 2 is a block diagram schematically showing a signal flow for electrical connection and control of the digital copying machine 10 in FIG. That is, the digital copying machine 10 includes three CPUs: a main CPU 91 in the main control unit 90, a scanner CPU 100 in the scanner unit 2, and a printer CPU 110 in the printer unit 4. The main CPU 91 performs bidirectional communication with the printer CPU 110 via the shared RAM 95. The main CPU 91 issues an operation instruction, and the printer CPU 110 returns a status status. The printer CPU 110 and the scanner CPU 100 perform serial communication, the printer CPU 110 issues an operation instruction, and the scanner CPU 100 returns a status status.

  The operation panel 80 is connected to the main CPU 91. The operation panel 80 includes a print key 82 that instructs to start copying, a panel CPU 83 that controls the entire operation panel 80, and a liquid crystal display unit 84 that has a touch panel and inputs various operations.

  The main control unit 90 includes a main CPU 91, ROM 92, RAM 93, NVM 94, shared RAM 95, image processing unit 96, page memory control unit 97, page memory 98, printer controller 99, and printer font ROM 121.

  The main CPU 91 controls the entire main control unit 90. The ROM 92 stores a control program. The RAM 93 temporarily stores data.

  An NVM (non-volatile RAM) 94 is a non-volatile memory backed up by a battery (not shown), and holds data on the NVM 94 when the power is turned off.

  The shared RAM 95 is used for bidirectional communication between the main CPU 91 and the printer CPU 110.

  The page memory controller 97 stores or reads image data in the page memory 98. The page memory 98 has an area where image data for a plurality of pages can be stored, and is formed so that data obtained by compressing image data from the scanner unit 2 can be stored for each page.

  The printer font ROM 121 stores font data corresponding to print data.

  The printer controller 99 converts print data from an external device 122 such as a personal computer into image data using font data stored in the printer font ROM 121 at a resolution corresponding to the data indicating the resolution given to the print data. It is something to deploy.

  The scanner unit 2 includes a scanner CPU 100 that controls the entire scanner unit 2, a ROM 101 that stores control programs and the like, a RAM 102 for data storage, a CCD driver 103 that drives a CCD sensor 14, a light source 15, and a first mirror 11a. A scan motor driver 104 that controls the rotation of a motor that moves the second mirror 12a, the third mirror 12b, etc., an A / D conversion circuit that converts an analog signal from the CCD sensor 14 into a digital signal, and the CCD sensor 14 It comprises a shading correction circuit for correcting fluctuations in the threshold level with respect to the output signal from the CCD sensor 14 due to variations or ambient temperature changes, and a line memory for temporarily storing the shading corrected digital signal from the shading correction circuit. image It is constituted by Tadashibu 105.

  The printer unit 4 includes a printer CPU 110 that controls the entire printer unit 4, a ROM 111 that stores a control program and the like, a RAM 112 for storing data, and a laser driver 113 that turns on / off light emission by the exposure device 21 that emits a laser beam. A polygon motor driver 114 that controls the rotation of the polygon motor of the exposure device 21, a paper transport device 115 that controls the transport of paper, a developing device 22, and a development process section 116 that performs charging, development, and transfer using the transfer belt 23, A fixing control unit 117 that controls the fixing device 24 and an optional device 118 are included.

  Further, the above-described sensors 41, 42, and 43 are incorporated in the paper transport device 115. Further, the printer unit 4 is provided with the motors 51 and 52 described above.

  Note that the image processing unit 96, the page memory 98, the printer controller 99, the image correction unit 105, and the laser driver 113 are connected by an image data bus 120.

  Next, the first embodiment will be described with such a configuration.

  First, reverse conveyance will be described with reference to FIG.

  In the reverse conveyance, the paper on which the image is formed by the printer unit 4 is conveyed by the fixing paper discharge roller pair 25 and conveyed in the direction of the reverse conveyance path 28 by the distribution gate 26. At the paper supply interval (paper feeding timing, CPM) in the normal mode, the paper conveyance speed is 400 mm / sec, but at the time of reverse conveyance, the speed is increased to 800 mm / sec. The sheet conveyed through the reverse conveyance path 28 is reversely conveyed by the reverse roller pair 29 at a predetermined timing when it passes through the reverse roller pair 29 and is detected by the sensor 42. The sheet reversely conveyed by the reversing roller pair 29 is discharged out of the apparatus via the discharge roller pair 27 by switching the sorting gate 26.

  Note that the transported paper is guided by a guide (not shown) in order to be transported correctly.

  The first embodiment is intended to reduce noise with respect to noise (roller sound during reversal, rubbing sound between guide and cardboard, etc.) generated during reverse conveyance, particularly when copying thick paper. On the other hand, a low speed (low noise) mode is set.

  When 209 g paper (110 pounds) as a thick paper is passed through the digital copying machine 10 with respect to the plain paper, the paper is stiff and a rubbing sound with respect to the guide is generated. When cardboard passes through the guide-shaped R portion (reversal portion), a particularly loud sound is generated.

  Therefore, in the low speed mode of the first embodiment, in the case of reverse conveyance, the paper supply interval (paper feed timing, CPM) is controlled to be longer than in the normal mode, and the paper conveyance speed is 800 mm / sec in the normal mode. In contrast, in the low speed mode, the speed is controlled to 600 mm / sec.

  Next, with such a configuration, the control operation of the first embodiment will be described with reference to the flowchart of FIG.

  First, thick paper is set in one of the paper feed cassettes 31, 32, 33, and 34. For example, it is assumed that thick paper is set in the paper feed cassette 34.

  When the paper feed cassette 34 is selected from the liquid crystal display unit 84 of the operation panel 80 and the print key 82 is pressed (ST1), the main CPU 91 confirms whether or not the low speed mode is set from the liquid crystal display unit 84. (ST2).

  When the low speed mode is set, the main CPU 91 delays the paper feed timing from the paper feed cassette 34 by a predetermined time from the normal mode (ST3).

  Further, the main CPU 91 uses the motor 52 to control the reverse conveyance speed in the reverse roller pair 29 at 600 mm / sec, which is slower than the normal mode (ST4).

  In step ST2, in the normal mode, the main CPU 91 controls the paper feed timing and the reverse conveyance speed in the normal mode (ST5).

  FIG. 4 shows conveyance speed control for each mode in the reversing roller pair 29. In FIG. 4, the solid line indicates the conveyance speed control in the normal mode, and the sheet is conveyed at 400 mm / sec and at 800 mm / sec when reversed.

  In FIG. 4, the dotted line indicates the conveyance speed control in the low speed mode, and the paper is conveyed at 400 mm / sec and at 600 mm / sec during reversal.

  As described above, according to the first embodiment, by selecting the low speed mode, it is possible to reduce noise such as the sound of the pair of reversing rollers and the sound of rubbing between the guide and the cardboard during reversal.

  Next, a second embodiment will be described.

  In the second embodiment, the reverse conveyance path 28 is controlled so as to convey at different reversal speeds during reverse conveyance in the paper discharge direction and during reverse conveyance to the automatic duplex device 1.

  The reverse conveyance in the paper discharge direction is as described above.

  The reverse conveyance to the automatic duplex device 1 will be described with reference to FIG.

  First, the sheet on which an image is formed on one side by the printer unit 4 is conveyed by the fixing sheet discharge roller pair 25 and is conveyed in the direction of the reverse conveyance path 28 by the distribution gate 26.

  The sheet conveyed through the reverse conveyance path 28 passes through the reverse roller pair 29, passes through the ADU reverse roller pair 30 and is detected by the sensor 43, and the ADU reverse roller pair is detected at a predetermined timing from the detection by the sensor 43. 30 is reversed and conveyed. The sheet reversely conveyed by the ADU reversing roller pair 30 is conveyed by the conveying roller pair 5 of the automatic double-sided apparatus 1.

  Here, a paper conveyance path during double-sided image formation will be described.

  (1) First, a sheet on which an image is formed on one side by the printer unit 4 is conveyed by the fixing discharge roller pair 25, conveyed by the sorting gate 26 in the direction of the reverse conveyance path 28, passed through the reverse roller pair 29, and ADU The sheet is conveyed by being reversed and conveyed by the pair of reversing rollers 30 until the inside of the automatic duplex apparatus 1 becomes three sheets.

  (2) When the number of sheets in the automatic duplexing apparatus 1 becomes 3, the first sheet taken into the automatic duplexing apparatus 1 is fed again to the printer unit 4 and an image is formed on the back side by the printer unit 4. .

  (3) The sheet on which the image is formed on both sides is conveyed by the fixing discharge roller pair 25 and discharged outside the apparatus through the sorting gate 26 and the discharge roller pair 27.

  (4) Subsequently, a new sheet is image-formed on one side by the printer unit 4. This sheet is conveyed by a fixing discharge roller pair 25, conveyed by a sorting gate 26 in the direction of a reversal conveying path 28, passed through a reversing roller pair 29, and reversed and conveyed by an ADU reversing roller pair 30. Is taken in. Here, again, there are three sheets of paper on which one side image taken into the automatic duplex apparatus 1 is formed.

  Therefore, the next sheet in the automatic duplexer 1 is fed again to the printer unit 4 and an image is formed on the back side by the printer unit 4.

  Thus, double-sided image formation is performed in the order described as (2) → (3) → (4).

  Next, with such a configuration, the control operation of the second embodiment will be described with reference to the flowchart of FIG.

  First, a plurality of originals are set on the ADF 8, and an instruction to set an image forming operation of double-sided image formation or single-sided reverse discharge is given from the liquid crystal display unit 84 of the operation panel 80 (ST11).

  When the print key 82 is pressed, the main CPU 91 controls the motor 51 to convey the sheet at the set conveyance speed (400 mm / sec) (ST12).

  Subsequently, when the setting in step ST11 is double-sided image formation (ST13), the main CPU 91 conveys the paper on which image formation has been performed on one side with a fixing discharge roller pair 25 at a conveyance speed of 400 mm / sec, and a distribution gate. 26, it is conveyed to the reverse conveyance path 28 (ST14).

  The sheet on which the image is formed on one side is conveyed by passing through the reverse roller pair 29, passed through the ADU reverse roller pair 30, and detected by the sensor 43. The main CPU 91 controls the reverse conveyance by increasing the speed of the ADU reverse roller pair 30 to 600 mm / sec at a predetermined timing from the detection by the sensor 43 (ST15).

  Thus, the main CPU 91 takes in the reversely conveyed paper into the automatic duplex device 1 (ST16).

  When the setting in step ST11 is single-sided reverse paper discharge (ST13), the main CPU 91 transports the image-formed paper (one side only) at the transport speed of 400 mm / sec by the fixing paper discharge roller pair 25. Then, it is conveyed to the reverse conveyance path 28 by the distribution gate 26 (ST17).

  This image-formed sheet (only one side) is transported through the reverse roller pair 29 and detected by the sensor 42. The main CPU 91 controls the reverse conveyance by increasing the speed of the reverse roller pair 29 to 800 mm / sec at a predetermined timing from the detection by the sensor 42 (ST18).

  In this way, the main CPU 91 discharges the reversely conveyed sheet to the outside of the apparatus via the sorting gate 26 and the discharge roller pair 27 (ST19).

  FIG. 6 shows speed control during reverse conveyance in the paper discharge direction and during reverse conveyance to the automatic duplex device 1. The left side of the figure shows the conveyance speed control in the reverse conveyance in the paper discharge direction. The paper is conveyed at 400 mm / sec and at 800 mm / sec during the reverse conveyance.

  Further, the right side of the figure shows the conveyance speed control in the reverse conveyance to the automatic double-side apparatus 1, and the paper is conveyed at 400 mm / sec and at 600 mm / sec during the reverse conveyance.

  As described above, according to the second embodiment, by changing the conveyance speed between the reverse conveyance in the paper discharge direction and the reverse conveyance to the automatic double-side apparatus 1, it is possible to reverse the automatic double-side apparatus. Paper jams and jams can be prevented, and noise such as collision noise during reversing operation can be reduced.

  Next, a third embodiment will be described.

  FIG. 7 is an enlarged view of the reverse conveyance path portion of the digital copying machine 10.

  In FIG. 7, the paper reversing position R during reverse conveyance in the paper discharge direction varies depending on the conveyance speed of the fixing paper discharge roller pair 25 and the conveyance speed of the reverse roller pair 29 of the fixing device 24. Similarly, the paper reversal position A during reverse conveyance to the automatic duplex device 1 varies depending on the conveyance speed of the fixing paper discharge roller pair 25 of the fixing device 24 and the conveyance speed of the ADU reverse roller pair 30.

  Therefore, when the conveyance speed of the fixing discharge roller pair 25 of the fixing device 24, the reverse roller pair 29, and the ADU reverse roller pair 30 changes, the reverse position (R, A) fluctuates, jamming occurs, and other problems occur. Will occur. Further, there are differences among the machine bodies in the respective roller diameters, fixing conveyance speed, and reverse conveyance speed.

  In the third embodiment, the optimum reversal position is automatically adjusted during the reverse conveyance in the paper discharge direction or the reverse conveyance to the automatic double-sided device 1 so that the service person can adjust.

  Next, with such a configuration, the optimum reversing position control operation of the third embodiment will be described with reference to the flowchart of FIG.

  A plurality of documents are set on the ADF 8, and an image forming operation setting instruction is given from the liquid crystal display unit 84 of the operation panel 80 (ST31).

  Therefore, the main CPU 91 controls the fixing device 24 and the fixing discharge roller pair 25 at the conveyance speed set in the printer unit 4. That is, the main CPU 91 transports the paper at a transport speed set by driving the motor 51 (ST32). This paper is detected by the sensor 41 when it passes through the fixing paper discharge roller pair 25 (ST33).

  Further, the main CPU 91 controls the driving of the motor 52 based on the set conveying speed of the fixing device 24 and the fixing paper discharge roller pair 25 by the driving control of the motor 51 to control the reversing roller pair 29 and the ADU reversing roller pair 30. The conveyance speed is controlled (ST34).

  Here, the main CPU 91 determines whether the paper transported from the fixing paper discharge roller pair 25 is reverse transport in the paper discharge direction or reverse transport to the automatic duplex device 1 (ST35).

  If it is determined in step ST35 that the sheet is reversely conveyed in the paper discharge direction, the main CPU 91 conveys the sheet to the reverse conveyance path 28 by the sorting gate 26 (ST36).

  When the sheet passes through the reversing roller pair 29 and is detected by the sensor 42, the main CPU 91 drives the reversing roller pair 29 so that the sheet reaches the optimum reversing position R according to the detection of the sensor 41 and sensor 42. 52 is controlled (ST37). In this case, the main CPU 91 waits until the trailing edge of the sheet reaches the optimum reverse position R after the trailing edge of the sheet is detected by the sensor 41 based on the time from detection by the sensor 41 to detection by the sensor 42. The driving of the motor 52 is controlled by calculating the time.

  On the other hand, if it is determined in step ST35 that the sheet is reversely conveyed to the automatic duplex device 1, the main CPU 91 conveys the sheet to the reverse conveyance path 28 by the sorting gate 26 (ST38).

  When the paper is transported through the reverse roller pair 29 and transported through the ADU reverse roller pair 30 and is detected by the sensor 43, the main CPU 91 determines that the paper is at the optimal reverse position A according to the detection of the sensor 41 and sensor 43. The motor 52 that drives the reversing roller pair 29 is controlled so as to become (ST39). In this case, the main CPU 91 waits until the trailing edge of the sheet reaches the optimum reverse position A after the trailing edge of the sheet is detected by the sensor 42 based on the time from detection by the sensor 41 to detection by the sensor 43. The driving of the motor 52 is controlled by calculating the time.

  In addition, the service person can adjust the control of the optimum inversion positions R and A by the main CPU 91 according to the aircraft. Specifically, an adjustment code is called from the liquid crystal display unit 84 of the operation panel 80, and the speeds of the motors 51 and 52 are adjusted according to each roller diameter, fixing speed, and reverse conveyance speed generated between the machine bodies.

  As described above, according to the third embodiment, the optimum reverse position can be controlled according to the transport speed in the fixing device and the transport speed at the time of reversal.

  As described above, according to the embodiment of the present invention, when thick paper is selected when setting the paper in the paper cassette, the reverse conveyance speed is controlled to be slow, so that the sound of the roller at the time of reversal, the guide of the conveyance path can be obtained. And can reduce the noise of cardboard.

  In addition, by controlling the reverse conveyance speed during reverse conveyance in the paper discharge direction and reverse conveyance to the automatic duplex device, paper jams and jams during reverse to the automatic duplex device can be prevented, and during reverse operation Can reduce the collision noise.

  Furthermore, the occurrence of a jam and other problems can be prevented by constantly calculating and controlling the optimum inversion position in order to carry the paper at a stable inversion position.

  Further, the adjustment mode from the operation panel can adjust the speed of the motor to be driven in reverse to prevent the occurrence of a jam or other problems.

  Note that the present invention is not limited to the above-described embodiments, and various modifications can be made without departing from the scope of the invention at the stage of implementation. In addition, the embodiments may be appropriately combined as much as possible, and in that case, the combined effect can be obtained. Furthermore, the above embodiments include inventions at various stages, and various inventions can be extracted by appropriately combining a plurality of disclosed constituent elements. For example, even if some constituent elements are deleted from all the constituent elements shown in the embodiment, the problem (at least one of them) described in the column of problems to be solved by the invention can be solved, and the column of the effect of the invention When at least one of the effects described in (1) is obtained, a configuration in which this configuration requirement is deleted can be extracted as an invention.

  The present invention can be expressed as follows.

(1) In an image forming apparatus that forms an image on supplied paper,
A setting unit for setting a low-speed mode with respect to the normal mode in the image formation;
A first control unit that performs control to make a supply interval of continuously supplied sheets longer by a predetermined time than in the normal mode when the low-speed mode is set by the setting unit;
A second control unit for controlling the conveyance speed at the time of reverse conveyance of the paper to be slower than the normal mode according to the paper supply interval controlled by the first control unit;
An image forming apparatus comprising:

(2) The image forming apparatus according to (1), wherein the setting unit sets a low speed mode in which noise is low with respect to noise during image formation in a normal mode set from an operation panel of the image forming apparatus. apparatus.

(3) The image forming apparatus according to (1), wherein the first control unit delays the feeding timing of continuously supplied sheets by a predetermined time from the normal mode.

(4) The second control unit controls the reverse conveyance speed with a speed increase amount smaller than the reverse conveyance speed that is increased in the normal mode during the reverse conveyance of the sheet. Image forming apparatus.

(5) A method for controlling an image forming apparatus for forming an image on a supplied paper,
Set the low-speed mode to the normal mode in the image formation,
When the low-speed mode is set, control is performed to delay the supply interval of continuously supplied paper by a predetermined time from the normal mode,
A control method for an image forming apparatus, characterized in that control is performed to make the transport speed during reverse transport of the paper slower than the normal mode in accordance with the paper supply interval controlled late for a predetermined time.

(6) In an image forming apparatus having an image forming unit that forms an image on supplied paper,
A setting unit for setting an image forming condition for reverse sheet discharge in double-sided image formation or single-sided image formation;
A reversing unit for reversing the paper on which the image is formed on one side by the image forming unit when the image forming condition set in the setting unit is reversal discharge in double-sided image formation or single-sided image formation;
When the image forming conditions for double-sided image formation are set by the setting unit and the sheet on which the image is formed on one side by the image forming unit is reversed, the reverse unit controls the reverse conveyance at the first reverse conveyance speed. A control unit of
When the image forming conditions for reverse discharge are set in the single-sided image formation in the setting unit and the paper on which the image is formed on one side in the image forming unit is reversed, the reverse unit is different from the first reverse conveyance speed. A second control unit that controls at a second reverse conveyance speed;
An image forming apparatus comprising:

(7) The image forming apparatus according to (6), wherein the first control unit controls the reversal conveyance speed with a speed increase amount smaller than a predetermined reversal conveyance speed that is increased during reversal.

(8) A method for controlling an image forming apparatus having an image forming unit for forming an image on a supplied paper,
When the image forming unit is set to form an image on both sides and the image is formed on one side by the image forming unit, control is performed at the first reversing conveyance speed,
When the image formed on one side of the sheet is reversed and set to be discharged and the sheet on which the image is formed on the one side is reversed by the image forming unit, a second different from the first reversal conveyance speed is used. A control method for an image forming apparatus, wherein the control is performed at a reverse conveyance speed.

(9) In an image forming apparatus having an image forming unit for forming an image on supplied paper,
A first control unit that controls a conveyance speed of a sheet on which an image is formed in the image forming unit;
A first detection unit that detects the sheet conveyed under control of the first control unit;
A reversing unit for reversing the paper that has passed through the first detection unit;
A second control unit that controls the reversing unit at a reversing conveyance speed according to the conveyance speed controlled by the first control unit;
A second detection unit for detecting the sheet passing through the reversing unit;
A third control unit that controls the reversing operation of the sheet by the reversing unit in response to detection by the first detecting unit and the second detecting unit when the second sensing unit detects the sheet; ,
An image forming apparatus comprising:

(10) The image forming apparatus according to (9), wherein the second control unit controls the conveyance speed controlled by the first control unit at a reverse conveyance speed that is increased.

(11) The image forming apparatus according to (9), wherein the first and second detection units are actuator-type sensors.

(12) The image forming apparatus according to (9), wherein the reversing unit is reversed when the sheet on which the image is formed is discharged.

(13) The image forming apparatus according to (9), wherein the reversing unit reverses the sheet on which the image is formed on one side when forming an image on both sides of the sheet.

(14) When the third detection unit detects the sheet by the second detection unit, the time from the detection by the first detection unit to the detection by the second detection unit, and the first detection unit In accordance with the transport speed controlled by the control unit and the reverse transport speed controlled by the second control unit, an operation time during which the paper is reversed at an optimal reversal position is calculated, and the reversing unit performs the above operation. The image forming apparatus according to (9), wherein the reversing operation of the sheet is controlled.

(15) A method of controlling an image forming apparatus having an image forming unit that forms an image on a supplied paper,
According to the image forming conditions for forming an image on the paper, the conveyance speed of the paper on which the image is formed in the image forming unit is set,
Set the reverse conveyance speed of the reversing unit that reverses the paper according to the set conveyance speed,
Detecting the paper that is transported at the set transport speed and on which the image is formed by the image forming unit,
When it is detected that the detected sheet is conveyed to the reversing unit, the sheet is reversed at an optimum reversing position from the conveying speed and the reversing conveying speed according to the detection and the detection. A method for controlling an image forming apparatus, characterized in that time is calculated and the reversing operation of the paper by the reversing unit is controlled.

(21) an image forming unit that forms an image on the supplied paper;
A reversing unit that reverses the front and back of the paper on which the image is formed while transporting the paper;
A setting unit that sets a low-speed mode that slows the conveyance speed of the paper during the reversing operation by the reversing unit with respect to the normal mode in the image formation;
A first control unit that performs control to make the supply interval of the paper continuously supplied to the image forming unit longer by a predetermined time than in the normal mode when the low-speed mode is set by the setting unit;
A second control unit that performs control to make the conveyance speed during the reverse conveyance of the paper slower than the normal mode according to the selection of the low speed mode;
An image forming apparatus comprising:

(22) The image according to (21), wherein the setting unit sets a low-speed mode in which noise is low with respect to noise during image formation in a normal mode set from an operation panel of the image forming apparatus. Forming equipment.

(23) The image forming apparatus according to (21), wherein the first control unit delays paper feeding timing of the paper supplied to the image forming unit by a predetermined time from the normal mode.

(24) The image according to (21), wherein the second control unit controls the reverse conveyance speed with a speed increase amount smaller than the speed increase reverse conveyance speed in the normal mode during the reverse conveyance of the paper. Forming equipment.

(25) forming an image on the supplied paper by the image forming unit;
The paper on which the image is formed is reversed while the paper is being conveyed by the reversing unit,
In contrast to the normal mode in the image formation, a low-speed mode is set to slow down the sheet conveyance speed during the reversing operation by the reversing unit,
When the low-speed mode is set, a control is performed to make the paper supply interval continuously supplied to the image forming unit longer than the normal mode by a predetermined time,
A control method for an image forming apparatus, characterized in that, in accordance with the selection of the low speed mode, control is performed to make the transport speed during reverse transport of the paper slower than the normal mode.

1 is a cross-sectional view showing a schematic configuration of a digital copying machine according to an embodiment of the present invention. FIG. 2 is a block diagram schematically showing a signal flow for electrical connection and control of a digital copying machine. The flowchart for demonstrating the control action of 1st Example. The figure which shows the conveyance speed control according to mode in a reverse roller pair. The flowchart for demonstrating the control action of 1st Example. The figure which shows speed control at the time of the reverse conveyance to a paper discharge direction, and the reverse conveyance to an automatic double-sided apparatus. The figure which expanded the part of the inversion conveyance path of a digital copying machine. The flowchart for demonstrating the control operation | movement of the optimal inversion position of 3rd Example.

Explanation of symbols

  DESCRIPTION OF SYMBOLS 1 ... Automatic duplex apparatus, 2 ... Scanner part, 4 ... Printer part. DESCRIPTION OF SYMBOLS 10 ... Digital copier, 24 ... Fixing device, 25 ... Fixing discharge roller pair, 26 ... Sorting gate, 27 ... Discharge roller pair, 28 ... Reverse conveyance path, 29 ... Reverse roller, 30 ... ADU reverse roller, 31, 32, 33, 34 ... paper feed cassette, 41, 42, 43 ... sensor, 51, 52 ... motor, 80 ... operation panel, 91 ... main CPU.

Claims (2)

In an image forming apparatus having an image forming unit for forming an image on supplied paper,
A setting unit for setting an image forming condition for reverse sheet discharge in double-sided image formation or single-sided image formation;
A reversing unit for reversing the paper on which the image is formed on one side by the image forming unit when the image forming condition set in the setting unit is reverse paper discharge in double-sided image formation or single-sided image formation;
Image forming condition of the double-sided image formation is set when reversing the sheet on which the image is formed on one side by the image forming unit by the setting unit controls the reverse conveyance of the inverted portion in a first inverting conveying speed, the When the image forming condition for reverse discharge is set in the single-sided image formation in the setting unit and the paper on which the image is formed on the single side in the image forming unit is reversed, the reversing unit is set to a second speed faster than the first reverse conveyance speed. A control unit that controls reverse conveyance at a reverse conveyance speed of
An image forming apparatus comprising: A control method for an image forming apparatus having an image forming unit for forming an image on a supplied paper,
When inverted been set for forming images on both sides of the paper sheet on which an image is formed on one side by the image forming unit at the inverting unit controls the reverse conveyance of the inverted portion in a first inverting conveying speed,
When the image forming unit is set to form an image on one side of the sheet, and the sheet is reversed and discharged, and the sheet on which the image is formed on one side is reversed, the reversing unit is faster than the first reversing conveyance speed. method of controlling an image forming apparatus, wherein the benzalkonium control the reverse conveyance in the second inverting conveying speed.

Images