JP2004209820A - Image reader/recorder and method for sustaining recording performance of recording head - Google Patents

Abstract

<P>PROBLEM TO BE SOLVED: To perform required recovery processing of a recording head while suppressing ink consumption incident to recovery processing in an ink jet facsimile where the recording head is required to be actuated even when the processing makes a transition from recording to reading a document. <P>SOLUTION: A timer begins to measure the time when recovery processing of a recording head 65 is performed. When the recording head 65 is actuated upon elapsing a specified time after previous recovery processing is performed, the recovery processing is performed if the recording head is actuated for the purpose of recording but the recovery processing is suspended if the recording head is actuated for the purpose of reading. When the number of times of suspension exceeds a specified number of times, the recovery processing is performed even if the recording head is actuated for the purpose of reading. <P>COPYRIGHT: (C)2004,JPO&NCIPI

Description

[0001]
TECHNICAL FIELD OF THE INVENTION
The present invention relates to an image reading and recording apparatus, and more particularly to a facsimile apparatus and the like in which an image recording section employs an ink jet system.
[0002]
[Prior art]
A conventional ink-jet facsimile apparatus includes a document-based conveying unit and a recording-based conveying unit separately. In recent years, demands for cost reduction and downsizing of facsimile machines have been more and more required.
[0003]
In order to solve this problem, in the related art of the present invention, the above problem is solved by sharing a transport mechanism (for example, a transport roller) used for transporting the recording paper with the document transport mechanism. Specifically, in the related art, a control is performed such that a common transport mechanism is operated as a recording paper transport mechanism during a recording process, while a common transport mechanism is operated as a document transport mechanism during a document reading process. .
[0004]
By thus sharing the transport mechanism, it becomes necessary to newly switch the reading process and the recording process mechanically. In the related art, a mechanical switch for performing this switching is located at the left end of the operation range of the recording head, while the home position of the recording head is located at the right end of the operation range. Normally, the recording head is waiting at this home position, but in order to switch between reading processing and recording processing, it is necessary to move away from the home position and move to the left end to operate the mechanical changeover switch.
[0005]
By the way, generally, in an ink jet printer, various recovery mechanisms are adopted in order to prevent clogging of ink discharge nozzles and generation of bubbles. Since the related art described above is also based on the premise that an ink jet recording system is adopted, this recovery mechanism is required. In the related art, a recovery mechanism is provided at a home position. The home position is also called a capping position. The reason is that when the recording head is at the home position, the recording head is covered with a cap to prevent solidification of the ink in the recording head.
[0006]
The related art described above is a facsimile machine, and since the power is always turned on, clogging of ink or the like cannot be sufficiently prevented only by executing the recovery process only when the power is turned on. Therefore, the recovery process must be performed at a timing other than when the power is turned on. For example, a recovery process is performed whenever the cap is removed.
[0007]
[Problems to be solved by the invention]
However, if the recording head is driven until the document is conveyed, the ink in the nozzles is ejected or sucked to recover the recording head even though the printing process is not originally performed. Therefore, there is a problem that a large amount of ink is consumed for purposes other than printing.
[0008]
An object of the present invention is to execute a necessary recovery process while suppressing ink consumption in an apparatus having such a configuration.
[0009]
[Means for Solving the Problems]
For example, in the present invention, the recovery process is executed when the recording head is activated for the recording process, while the recovery process is suspended at least once when the recording head is activated for the document reading process. To solve the above problems. Of course, when the recording head is activated for the document reading process, the execution of the recovery process may be completely prohibited.
[0010]
BEST MODE FOR CARRYING OUT THE INVENTION
Embodiment 1
A preferred embodiment of the present invention will be illustratively described in detail. First, a mechanical configuration of the image reading and recording apparatus according to the present embodiment will be described. The image reading and recording apparatus has a recording function of recording an image on recording paper as a recording medium and a reading function of reading an image of a document as a medium to be read. It has a recording unit having a recording function and a reading unit having a reading function. In other words, the transport path of the original and the transport path of the recording paper are shared around the recording unit and the reading unit, which more specifically means that the original and the recording paper pass through the same transport path. I do. Note that examples of the image reading and recording apparatus include a facsimile machine and a multifunction peripheral.
[0011]
Next, each mechanism of the image reading and recording apparatus according to the present embodiment will be described with reference to FIGS. FIG. 1 is a cross-sectional view of the apparatus according to the present embodiment during a recording process. FIG. 2 is a perspective view of the apparatus according to the present embodiment during a recording process.
[0012]
In FIG. 1, a recording paper bundle 2 is stacked on the rear side of the apparatus (the right side in FIG. 1), and the recording paper is separated one by one from the recording paper bundle 2 as necessary. A recording paper feed unit (ASF) 39 for feeding paper, the originals 12 are stacked, the originals 12 are separated one by one, and the originals are fed for feeding the separated originals 12 to the reading unit 28. (ADF) 40 is provided.
[0013]
FIG. 3 is a cross-sectional view of the present apparatus during a document reading process. On the other hand, FIG. 4 is a perspective view of the present apparatus during a document reading process. As can be seen from a comparison between FIG. 1 and FIG. 3, the reading section 28 is rotatable about an axis provided at the lower portion thereof, and rotates clockwise during the reading process of the original. And moves to a document reading position, and at the time of recording processing, rotates counterclockwise and moves to a retracted position.
[0014]
FIG. 5 is a perspective view of the recording sheet feeding section and the document sheet feeding section. First, the recording paper feed unit 39 will be described with reference to FIGS. The recording paper feed roller 19 includes a shaft portion 41 and a roller portion 42. The shaft 41 is formed of plastic or the like. The shaft portion 41 is provided with a roller portion 42 made of a frictional elastic body having a larger diameter than the shaft portion 41. Both ends of the shaft portion 41 are supported by side plates 35 a and 35 b of the base member 35. One end of the side plate 35b is connected to a transport motor via a drive transmission unit (not shown). The pressure plate 9 is located between the recording paper feed roller 19 and the base member 35, and is rotatably supported by the side plates 35a and 35b of the base member 35. When the recording paper feeding roller 19 rotates, the pressure plate 9 is configured to come into contact with and separate from the outer peripheral surface of the roller portion 42 by a cam formed integrally with the recording paper feeding roller 19. Further, a pressure plate spring 34 (elastic member) is provided in a cylindrical concave portion 45 formed integrally with the base member 35, and urges the pressure plate 9 toward the recording paper feed roller 19.
[0015]
Next, the recording paper feeding operation will be described. An arrow A shown in FIG. 1 indicates a recording paper transport path. The cross section of the roller portion 42 has a half-moon shape in which an arc 47 and a substantially linear chord portion 48 are combined. When the recording paper is loaded, the chord portion 48 and the pressure plate 9 are substantially parallel to each other and are positioned at a fixed interval so that the recording paper bundle 2 can be set. When the paper feed roller 19 is rotated clockwise by the driving of the transport motor, the roller portion 42 comes into contact with the pressure plate 9 by the cam. As a result, the uppermost recording sheet surface of the recording sheet bundle 2 loaded on the pressure plate 9 comes into contact with the roller section 42. At this time, the recording sheet bundle is urged against the roller unit 42 by the pressure plate spring 34. When the recording paper feed roller 19 is further rotated, only the uppermost sheet of the recording paper bundle 2 passes over the claw 77 which is disposed at one end of the recording paper and functions as a stopper, and a paper transport unit described later. 49.
[0016]
Next, the document feeder 40 will be described in detail. A lower document guide 23 exists between the recording paper feed roller 19 and the recording bundle 2. The lower document guide 23 is preferably formed of a metal plate or the like in order to reduce the occupied space and obtain a predetermined strength. The lower document guide 23 is fixed to both side plates 35 a and 35 b of the base member 35. The mounting position of the lower document guide 23 satisfies the following conditions. That is, (1) a gap between the chord portion 48 and the upper surface of the lower document guide 23 where the document can pass when the recording paper feed roller 19 at the rotation stop position is in the recording paper loaded state. (2) that there is a gap such that the uppermost sheet of the recording paper bundle 2 does not contact the lower surface of the lower document guide 23 even when the maximum amount of the recording paper bundle 2 is set; and (3) When the recording paper supply roller 19 rotates in the recording paper supply state, the arc portion 47 projects from the cutout portion 50 formed in the lower original guide 23 to the lower surface of the lower original guide 23 and the uppermost portion of the recording paper bundle 2. This is to contact the upper recording paper. These conditions can be said to be necessary conditions for performing the document conveyance path and the recording paper conveyance path in a so-called one pass.
[0017]
The document feed roller 15 is formed by attaching a cylindrical friction elastic member 79 to a shaft 78 formed of metal. The document feed roller 15 is rotatably supported by side plates 35 a and 35 b of the base member 35. One end of a shaft 78 located on the side of the side plate 35a is connected to a transport motor via a read drive transmitting unit 51 and a drive switching unit 52 shown in FIG.
[0018]
The separation pad 13 is supported by the lower document guide 23 by a separation pad support member 37. The separation pad 13 is urged against the outer peripheral surface of the document feed roller 15 by an elastic member (not shown). Preliminary separation arms 27 are attached to both sides of the separation pad 13. The preliminary separation arm 27 is supported coaxially with the fulcrum of the separation pad support member 37. On the upstream side of the contact position between the separation pad 13 and the document feed roller 15, the preliminary separation arm 27 is urged against the outer peripheral surface of the document feed roller 15.
[0019]
A document tray 11 for supporting the document 12 is detachably attached to the lower document guide 23. The upper document guide 14 is formed in a strip shape. The upstream side of the upper document guide 14 is supported by a shaft 78 of the document feed roller 15. On the downstream side of the conveyance, the shaft 41 of the recording paper feed roller 19 and the back surface of the upper document guide 14 come into contact with each other when pressed by the document. In the contact state, the guide surface of the upper document guide 14 is configured to protrude below the roller portion 42. The reason for this configuration is to prevent the document 12 from contacting the roller portion 42 of the recording paper feed roller 19 and causing a conveyance failure.
[0020]
Next, the document feeding operation will be described. The document 12 is set so that the leading end thereof fits in a wedge-shaped space 80 formed by the document feed roller 15 and the separation pad 13. In FIG. 1, a document feed roller 15 is rotated clockwise by the driving force of a transport motor, and separates and transports the document 12 one by one from the top of the set document. The separated document is sent to a sheet transport unit 49 described later through a document transport path formed by the lower document guide 23 and the upper document guide 14.
[0021]
Next, the relative positional relationship between the recording paper feeding unit 39 and the document feeding unit 40 will be described. The recording paper feed roller 19 and the document transport roller 15 are arranged so that the upstream side of the recording paper feed roller and the downstream side of the document transport roller overlap when viewed from the sectional direction shown in FIG. On the other hand, as shown in FIG. 5, in the width direction of the paper, the roller unit 53 of the document conveying roller 15 is arranged to fit between the two roller units 42 in order to avoid overlap.
[0022]
The paper transport unit 49 includes a platen 3 functioning as a lower support surface of the recording paper transport path 75, an auxiliary platen member 3 a functioning as a lower support surface of the recording paper, and a transport roller supported by the platen 3. 10, four pinch rollers 16 that abut against the transport roller 10 and are provided side by side in the paper width direction; a pinch roller guide 36 that axially supports the pinch roller 16 to press the pinch roller 16 against the transport roller 10; A paper discharge roller 17 integrally formed of plastic or the like and an elastomer or the like, a plurality of spurs 18 abutting on the paper discharge roller 17, and a spur holder 55 pivotally supporting the spur 18 to press the paper discharge roller 17. Be composed.
[0023]
A plurality of ribs 56 are formed on the recording paper supporting surface 53 of the platen 3 in the paper width direction, and the recording paper passes through the upper surface of the rib 56 when the recording paper is transported. The auxiliary platen member 3a has its shafts formed on both sides on the upstream side in the sheet transport direction, and is supported by a support formed on the platen 3. The back surface of the auxiliary platen member 3a is urged by a spring 58. This is to make the recording paper supporting surface 53 of the platen 3 and the recording paper supporting surface 57 of the auxiliary platen member be flush with each other. When the auxiliary platen member 3a is pushed from above by exceeding the urging force of the spring 58, the auxiliary platen member 3a sinks about several millimeters with respect to the recording paper supporting surface 53 of the platen 3.
[0024]
The transport direction by the transport roller 10 and the pinch roller 16 is set obliquely downward from the upstream side to the downstream side of the roller. The conveying direction by the paper discharge roller 17 and the spur 18 is set obliquely upward from the roller upstream to the downstream. Thus, the sheet conveyed by the sheet conveying means 49 is conveyed while being in contact with the sheet supporting surface 53 of the platen.
[0025]
Next, the recording unit will be described. It is assumed that the present apparatus is equipped with an ink jet recording apparatus as recording means. An ink jet recording apparatus is an apparatus that records desired data by discharging ink filled in an ink tank from a nozzle formed in an ink head onto recording paper. The ink head of this embodiment has a nozzle row in which 64 nozzles are arranged in a row at a 1/360 inch pitch in the recording paper transport direction. By scanning the ink head in the width direction of the recording paper, efficient recording is performed.
[0026]
FIG. 6 is a perspective view of the apparatus according to the present embodiment when the recording process is being performed. In the figure, an ink tank and an ink head are mounted on an ink cartridge 1. The ink cartridge 1 is detachably attached to the carriage 4. The carriage 4 is guided by a guide rail 7 formed by bending an upper portion of the chassis 24 into a U-shape and a guide shaft 60 supported by both side plates of the chassis, and supported movably in the width direction of the recording paper. I have.
One end of the carriage 4 is engaged with a pinion gear 62 of a carriage motor 33 attached to the chassis 24. The other end of the carriage 4 is fixed to a carriage belt 63 supported with tension by a pulley attached to a chassis, and is driven by a carriage motor 33.
[0027]
The recovery unit 64 is located at the right end (capping position) of the moving range of the carriage, and is fixed to face the ink head 65 of the ink cartridge 1. Further, the recovery unit 64 has a pump function for sucking ink, a wiper function for cleaning the nozzle surface, and a nozzle cap function for preventing drying of the nozzle during standby. In addition, the ink cartridge 1 is stopped at the capping position in order to cap with the nozzle cap function except in the recording state.
[0028]
FIG. 7 is a diagram illustrating attachment and detachment of the ink cartridge. When the ink in the ink tank is depleted, the ink cartridge 1 can be moved to the capping position and then removed by pulling the ink cartridge 1 forward.
Next, the reading unit 28 will be described with reference to FIGS. The reading unit 28 includes a contact image sensor (CS) 22, a CS holder 26, and a white reference 25. The CS 22 is housed in a recess formed in the CS holder 26 so that the sensor surface 66 is on the outside, and is fixed with screws (fastening members).
[0029]
CS22 has a read line 22a. The reading lines 22a are linearly arranged in the depth direction of FIG. The auxiliary platen member 3a described above is provided at a portion facing the reading line 22a.
[0030]
1a indicates an image forming width of the cartridge 1. That is, when the ink is ejected while the cartridge 1 moves, an image having a width of 1a can be formed. The image forming width 1a is arranged on the upstream side in the sheet transport direction with respect to the reading line 22a. The CS 22 is inclined so as to gradually move away from the platen 3 from the downstream in the transport direction to the upstream when the reading process is performed.
[0031]
A white reference 25 is attached to the CS holder 26. The white reference plate 25 is formed by attaching a white sheet to a metal plate. The metal plate includes a flat portion for attaching a white sheet and a side plate formed by bending a longitudinal end portion. Further, an entrance 25a is formed in the white reference 25 as shown in FIG. The document 12 is formed so as to be guided between the CS 22 and the white background 25a in the reading state. A hole is formed in the side plate of the metal plate. By fitting a shaft formed on the CS holder into the hole, the white reference 25 is rotatably supported with respect to the CS holder 26 and the CS 22. Further, the white reference 25 is urged against the CS 22 by a torsion coil spring or the like.
[0032]
FIG. 8 is a diagram illustrating the white reference 25 located at the first position. FIG. 9 is a diagram illustrating the white reference 25 located at the second position. In the first position, the white reference 25 is biased against CS22. Further, a gap is formed between the sensor surface 66 of the CS 22 and the white reference 25 so that at least one document can pass therethrough. This gap serves as a document conveyance path.
[0033]
On the other hand, the second position is a position when the white reference 25 is rotated in a direction away from the CS 22 against the torsion coil spring. This second position can also be called a cleaning position. This is because when the white sheet of the white reference 25 or the reading surface of the CS 22 becomes dirty with the ink from the recording unit 38, the user or the like can clean the dirty part by setting the white reference 25 to the second position. is there.
[0034]
A hollow boss is formed on the right side surface of the CS holder 26 in the longitudinal direction. A boss is formed on the CS holder support member 68 (FIG. 2) attached to the platen 3. Both are designed to engage. A boss is also formed on the left side, and is engaged with a bearing 69 (FIG. 2) formed on the platen 3. The left and right engagement portions are coaxial. Thus, the CS holder 26 can rotate from the standby position shown in FIGS. 1 and 2 to the reading position shown in FIGS.
[0035]
The standby position is the position of the reading unit 28 shown in FIGS. Specifically, the position is such that the ink cartridge 1 does not come into contact with the reading unit 28 when the ink cartridge 1 moves within the movement range of the carriage 4 during the recording process, and is a position away from the paper transport path. The reading position is the position of the reading unit 28 shown in FIGS. That is, the position where the reading unit 28 is rotated clockwise in FIG. 1 in the moving space of the carriage 4 until the document reading conveyance path 70 and the paper conveyance path 75 coincide. The document reading conveyance path 70 is a conveyance path formed by a gap between the reading surface of the CS 22 and the white reference 25.
[0036]
The horizontal position of the CS holder 26 is designed so that the reading unit 28 can move to the reading position when the ink cartridge 1 is at the capping position.
[0037]
The upstream side of the metal plate with respect to the white reference 25 in the sheet transport direction has a comb shape. The ribs 56 of the platen 3 are inserted between the teeth of the comb teeth 72. A bent portion 76 for increasing the strength in the longitudinal direction is formed on the downstream side of the metal plate with respect to the white reference 25 in the sheet transport direction. The bending portion 76 pushes down the rotatably supported auxiliary platen member 3a to form a reading position.
[0038]
On the left side of the CS holder 26 in the paper width direction, a drive switching unit 52 and a CS drive unit 74 connected to a transport motor via a CS drive transmission unit 73 are arranged. The drive switching means 52 is a mechanical switch, and has a structure in which the ink cartridge 1 can be switched by moving to the left end and making contact therewith. Therefore, when switching between the document reading process and the recording process, the ink cartridge 1 is always activated and moves to the left end. When the switching process is performed in this manner, the CS driving unit 74 is driven by the transport motor, and the CS holder 26 is rotated to move between the standby position and the reading position.
[0039]
Next, the operation at the time of reading will be described. The CS holder 26 is urged by a torsion coil spring (elastic member) (not shown) so as to be held at the standby position in a standby state of the apparatus. When the reading operation is started with the original set, the driving of the transport motor is first switched to the reading mode by the drive switching unit 52. Then, the document feeding roller is rotated via the reading drive transmitting means, and the document feeding operation is started. On the other hand, the CS drive means 74 is operated via the CS drive transmission means 73 to start the movement of the CS holder 26.
[0040]
The CS holder 26 moves to the reading position at the same time that the document 12 is bitten between the transport roller and the pinch roller by the document feed roller. When the CS holder 26 moves to the reading position, the clutch connecting the CS drive unit 74 and the CS drive transmission unit 73 is released. The document 12 that has reached the transport roller 10 is transported to the reading transport path 70 by the transport roller 1. Data is sequentially read from the document 12 in a state of being in close contact with the sensor surface 66 by the white reference 25. When the last end of the document 12 is read and the document 12 is discharged out of the apparatus by the discharge roller 17, the transport motor rotates in the reverse direction, the CS driving means 74 and the CS driving transmission means 73 are connected by the clutch, and the CS holder 26 Is moved to the standby position, and the reading drive switching means 52 is released.
[0041]
Next, the electrical configuration of the facsimile machine will be described. FIG. 10 is a block diagram of the facsimile apparatus 100 according to the embodiment of the present invention.
[0042]
10, a facsimile main body 100 includes a control unit 101, a ROM 102, a DRAM 103, an SRAM 104, an image reading unit 105, a facsimile transmitting / receiving unit 107, a recording unit 108, an image code decoding unit 109, and an operation unit 110. And a power supply unit 111.
[0043]
The control unit 101 is a microprocessor unit (MPU) that controls the entire facsimile machine and controls the entire facsimile machine via the system bus 112. The system bus includes a data signal line and an address line.
[0044]
The ROM 102 is a memory that stores a program code such as an instruction group for operating the MPU, a program code of an operating system (OS), initial value data, table data, and the like.
[0045]
The DRAM 103 is used for an image buffer, an image memory, and a work area for various operations. Further, the DRAM 103 also functions as a buffer for temporarily holding image data when transmitting and receiving the image data to and from the facsimile transmitting / receiving unit 105, and also stores the image data received via the facsimile transmitting / receiving unit 105 and the image reading unit It also functions as a memory for storing the image data read by 102 as a file.
[0046]
The SRAM 104 is used as a registration area for registering user data, a work area, and the like. The data in the SRAM 104 is retained even when the power of the facsimile main body 100 is turned off by a battery backup.
[0047]
The image reading unit 105 includes a contact sensor (CS) 22, a reading driving unit 1051, an image correcting unit 1052 that performs shading correction or the like on the read signal, a binarizing process and an intermediate process on the corrected signal. A read image processing unit 1053 that performs image processing such as tone adjustment processing and outputs high-definition image data.
[0048]
The recording unit 108 includes a recording head 65, a recording unit 64, a timer 1081, a recording control unit 1082, and the like. The recording unit 108 is connected to the recording image processing unit 106.
[0049]
The recording unit 108 is a printer using an ink jet system, and uses an integrated ink cartridge 1 having a built-in ink tank as recording means. The ink cartridge 1 discharges ink from the ink head unit 65 at a recording resolution of 360 dpi (dots per inch). The ink cartridge 1 reciprocates in a direction (main scanning direction) orthogonal to the recording paper conveyance direction (sub-scanning direction) while being held by the carriage 4. The reciprocation of the carriage 4 is performed by a pulley and a timing belt driven by a motor. At this time, a print signal and electric power supplied to the print head are supplied from an electric circuit by a flexible cable connecting the carriage and the electric board.
[0050]
The recording head 65 and the flexible cable are connected by press-contacting their respective contacts, and by detecting opening / connection between specific contacts provided in the ink cartridge 1, it is recognized whether or not the ink cartridge 1 is mounted. It has a possible configuration.
[0051]
The recovery unit 64 is provided with a cap that covers the ejection surface of the recording head 65 when the ink cartridge 1 is not used. The cap protects the ejection surface of the recording head 65 of the ink cartridge 1 from dust and dirt. A piston is provided so as to communicate with the cap. When this piston is driven by a motor, a negative pressure is generated in the cap, and ink remaining in the ejection openings of the recording head 65 can be sucked. As described above, clogging of the nozzles of the recording head 65 can be removed, and bubbles generated in the ink liquid chamber of the recording head by thermal energy applied to the recording head for printing can be removed.
[0052]
The piston is provided with a member that operates in conjunction with the movement of the piston. The member shields the optical axis of a photo-interrupter provided on the carriage 4 so that the piston is predetermined within the cylinder. The position (initial position of the piston) can be detected.
[0053]
When the suction of the ink cartridge 1 is performed, the timer 1081 provided in the recording unit 108 starts counting time. As a result, it is possible to control the suction operation to be performed again after a certain period of time has elapsed since the previous suction operation.
[0054]
The recording image processing unit 106 converts the received image data into raw image data having a main scanning resolution of 360 dpi (dots per inch) when the facsimile-received image data is output by the recording unit 108. By performing various image processing such as smoothing processing and density correction processing, high definition image data is generated.
[0055]
The facsimile transmission / reception unit 107 includes a communication connection unit 1071 such as an NCU (network control device) and a communication control unit 1072 such as a modem (modulation / demodulation device). These are connected to the PSTN line communication network, and perform communication control and line control such as outgoing and incoming calls for the communication line according to the G3 protocol. Further, it is also possible to connect a telephone to the facsimile transmission / reception unit to perform a telephone call, DTMF remote control, and the like.
[0056]
The power supply unit 111 is a power supply that supplies power to the facsimile machine 100. The operation unit 110 includes ten keys used for registering and setting data for dialing, a function key for using various functions, a one-touch key used for registering a telephone number and the like, and dialing with one touch. Various key switches 1101 such as a start key used to start transmission, copying, and reception, and a stop key used to stop operations such as transmission, registration, and setting; communication status confirmation; and data registration / setting / confirmation. It comprises a display device 1102 such as an LCD for displaying various messages such as messages and an LED lamp which is turned on when various errors occur. Thus, the user can input an operation instruction and various information of the facsimile apparatus 100, and display the state of the apparatus, the telephone number of the calling party, time information, operation procedures, and the like.
[0057]
FIG. 11 is a flowchart relating to the operation of the facsimile apparatus according to the present embodiment.
[0058]
In step S1101, the control unit 101 determines whether the ink cartridge 1 has been activated, that is, whether the recording mode has been called. The control program of the facsimile apparatus 100 has a recording mode and a reading mode. The recording mode is a mode for controlling a facsimile reception recording or a copying operation of a read original. The reading mode is a mode for controlling a facsimile transmission or a copy operation. The facsimile transmission or copy operation is executed by a user operating the operation unit 110 when a document is detected by a DS (document sensor). If it is determined in step S1101 that the mode is the recording mode, the process proceeds to step S1102.
[0059]
In step S1102, the control unit 101 reads the count value of the timer 1081 of the recording unit 108 and determines whether the count value has exceeded a predetermined time (eg, 72 hours). The timer 1081 starts execution of a suction recovery operation and starts counting time. That is, the timer 1081 can measure the elapsed time from the time when the previous suction recovery operation was performed. In the present embodiment, when the ink cartridge 1 is started again after a lapse of 72 hours or more from the previous recovery operation, the recovery unit 64 is newly driven. If it is determined in step S1102 that the timer value is 72 hours or more, the process proceeds to step S1103. On the other hand, if it is determined that the timer value has counted less than 72 hours, the recovery operation is skipped and the process proceeds to step S1105. The reason why the recovery processing is skipped when the timer value is less than 72 hours is that the recording performance of the recording head 65 can be maintained by executing the recovery processing at least once within 72 hours. 72 hours may be called the shortest recovery cycle. However, it should be understood that 72 hours is merely an example and can be changed as appropriate depending on the properties of the ink, the diameter of the nozzle, and the like.
[0060]
In step S1103, the control unit 101 controls the recovery unit 64 to execute the recovery operation of the ink cartridge 1 because the current activation is in the recording mode.
[0061]
In step S1104, the control unit 101 resets the timer 1081. Note that the count value of the number of suspensions of the recovery operation described later is also reset.
[0062]
In step S1105, the control unit 101 switches the drive switching unit 52 to the recording mode, sets the drive of the transport motor to transport the recording paper, and ends the initial operation.
On the other hand, if it is determined in step S1101 that the mode is not the recording mode, that is, if it is determined that the mode is the document reading mode, the process advances to step S1106.
[0063]
In step S1106, the control unit 101 acquires the current number of suspensions of the suction recovery operation, and determines whether the number has exceeded a predetermined number (eg, three times). In other words, the control unit 101 can count the number of suspensions by executing the counting by the counter provided in the DRAM 103 that uses the continuous suspension number of the recovery operation as a work area, and reading out the counter value.
[0064]
Basically, the recovery operation of the ink cartridge 1 is suspended in the original reading mode, but if the number of suspensions exceeds a specified value, the recovery operation of the ink cartridge 1 is performed even during the original reading. . This is intended to prevent the recovery operation from being suspended for an inappropriately long period of time, that is, to appropriately maintain the recording performance of the recording head. It should be understood that the predetermined number of holdings is three, but this is merely an example, and the design may be changed as appropriate depending on the properties of the ink, the diameter of the nozzle, and the like. If the number of consecutive suspensions does not exceed three in step S1106, the process proceeds to step S1107. If the number of consecutive suspensions exceeds three, the process proceeds to step S1109.
[0065]
In step S1107, it is checked whether or not the count value of the timer of the recording unit 108 has passed 72 hours. If the time exceeds 72 hours, the process proceeds to step S1108. If not, the process proceeds to step S1111.
[0066]
In step S1108, the counter in the DRAM 103 that counts the number of consecutive suspensions described above is incremented. Then, the process proceeds to step S1111 without performing the ink cartridge 1 recovery operation.
[0067]
In step S1109, the recovery operation of the ink cartridge 1 is performed by driving the recovery unit 64 even when the reading unit is started for reading a document.
[0068]
Proceeding to step S1110, the timer of the recording unit 108 and the counter that counts the number of times of recovery suspension are reset.
[0069]
In step S1111, by driving the ink cartridge 1, the drive switching unit 52 is switched to the reading mode, and the drive of the transport motor is switched to document transport. The initial operation ends as described above.
[0070]
According to the present embodiment, when the recording head 65 is activated at the time of shifting to the recording process and at the time of shifting to the reading process, the execution of the recovery unit 64 is performed particularly at the time of shifting to the reading process. By appropriately limiting the amount of ink consumed in the recovery process, the amount of ink consumption can be reduced. That is, an image reading and recording apparatus (eg, a facsimile apparatus 100) that performs a document reading process and an image recording process, and is activated when the process shifts to the recording process and when the process shifts to the reading process. After a predetermined time has elapsed since the head 65 and a maintenance process (eg, suction, discharge, or sweep) for maintaining the recording performance of the recording head 65 are performed last time, the recording head 65 performs the recording process. A maintenance unit (e.g., the control unit 110 and the recovery unit 64) that performs a maintenance process when activated, and suspends the maintenance process when the recording head 65 is activated for the reading process. An image reading and recording device is provided.
[0071]
If the print head recovery process is suspended, the amount of ink consumption can be reduced. However, if the suspension state continues for an excessively long time, a problem such as clogging may occur. Might do it. Therefore, it can be said that it is desirable to execute the recovery process at an appropriate timing such that no ejection failure occurs even when the recovery process of the print head is suspended.
[0072]
For example, the recovery processing may be performed when the recording processing is first executed after the suspension of the recovery processing occurs. Alternatively, when the recovery process is suspended more than a predetermined number of times or time, the recovery process may be executed. In these cases, the recovery process may be executed even when the recording head is started with the document reading process. In short, the recovery process may be executed at a timing that can maintain the recording performance of the recording head.
[0073]
That is, the maintenance unit (eg, the control unit 110, the recovery unit 64) starts the recording head 65 to execute the recording process when the maintenance process is suspended for a predetermined number of times (eg, at least once). , A maintenance process is executed. The continuous suspension count of the maintenance process may be counted by the counter 1081.
[0074]
[Embodiment 2]
FIG. 12 is a flowchart according to the second embodiment. In the second embodiment, the threshold value of the elapsed time is different between the recording mode and the reading mode. That is, when the recording head 65 is started to execute the recording process, the recovery unit 64 is operated on condition that the timer value has already exceeded the first time (for example, 36h). On the other hand, when the recording head 65 is activated for document reading processing, the recovery unit 64 is operated on the condition that the timer value has already exceeded a second time (eg, 64h) longer than the first time. I try to make it.
[0075]
In step S1201, the control unit 101 determines whether the recording mode has been called. If it is determined that the mode is the recording mode, the process proceeds to step S1202, and if the mode is the reading mode, the process proceeds to S1206.
[0076]
In step S1202, the control unit 101 reads the count value of the timer 1081, and determines whether the read count value has exceeded a predetermined time for the recording mode (eg, 36 hours). If the timer value has counted 36 hours or more, the process proceeds to step S1203. On the other hand, if it is determined that the timer value has counted less than 36 hours, the recovery operation is skipped and the process proceeds to step S1205. In this way, by skipping the recovery process when the timer value is less than 36 hours, it is possible to save ink consumption. Note that 36 hours is merely an example, and an appropriate value may be set for each model.
[0077]
In step S1203, the control unit 101 causes the recovery unit 64 to execute a recovery process.
[0078]
In step S1204, the control unit 101 resets the timer 1081.
[0079]
In step S1205, the control unit 101 controls the drive switching unit 52 according to the determination result (S1201) of whether or not the mode is the recording mode, and ends the initial operation.
If it is determined that the reading mode is set, in step S1206, the control unit 101 reads the count value of the timer 1081, and the count value exceeds a predetermined time for the reading mode (eg, 72 hours). Is determined. If the timer value has counted 72 hours or more, the process proceeds to step S1203. On the other hand, if it is determined that the timer value has counted less than 72 hours, the process skips the recovery process and proceeds to step S1205. In this way, by skipping the recovery process when the timer value is less than 72 hours, it is possible to save ink consumption. Note that 72 hours is merely an example, and an appropriate value may be set for each model.
[0080]
In this embodiment, the first threshold value for the reading mode used for determining the elapsed time is set to be longer than the second threshold value for the recording mode, so that the amount of ink consumed in the recovery process is reduced. Things.
[0081]
That is, an image reading and recording apparatus that performs a document reading process and an image recording process, and includes a recording head 65 activated at least at the time of transition to the recording process and at the time of transition to the reading process, Recovery means (e.g., recovery unit 64) for performing recovery processing by sucking, discharging, or sweeping ink from the printer, clocking means (timer 1081) for measuring the time elapsed since the previous execution of the recovery processing, and a recording head. When the recording device 65 is activated for executing the recording process, the recovery unit is operated on condition that the elapsed time has already exceeded the first time, while the recording head 65 is activated for the document reading process. Recovery control means, which operates the recovery means on condition that the elapsed time has already exceeded the second time longer than the first time, the control section 110). Collected by the recording apparatus is provided.
[0082]
In short, when the reading mode is selected, the use frequency of the recording head is relatively low, so that the operation interval of the recovery unit is relatively long, and the number of times of the recovery processing is reduced. It is difficult to maintain the recording performance of the recording head if the recovery process is improperly held for a long time. Therefore, even in the reading mode, the recovery process is performed if the second threshold value is exceeded. I made it.
[0083]
[Embodiment 3]
FIG. 13 is a flowchart according to the third embodiment. In the present embodiment, a normal mode and a saving mode are provided for the recovery processing, and the range of user customization is expanded.
[0084]
That is, when the recording head 65 is activated after a lapse of a predetermined time from the previous maintenance process, a normal mode in which a new maintenance process is executed, and when the recording head 65 is activated for a reading process even after the lapse of the predetermined time. Sometimes, a saving mode for skipping the maintenance process at least once is provided, and these are switched according to the user's preference.
[0085]
In step S1301, the control unit 101 reads the count value of the timer 1081, and determines whether the read count value exceeds a predetermined time (eg, 72 hours). If the timer value has counted 72 hours or more, the process proceeds to step S1302. Otherwise, skip the recovery operation and proceed to step S1306. In this way, by skipping the recovery process when the timer value is less than 72 hours, it is possible to save ink consumption.
[0086]
In step S1302, the control unit 101 determines whether the mode is set to the saving mode. In the present embodiment, it is assumed that a saving mode or a normal mode is set by a user operating the operation unit 110 in advance. The setting information is stored in the SRAM 104. In the saving mode, the process proceeds to step S1303. In the normal mode, the process proceeds to step S1304.
[0087]
In step S1303, the control unit 101 determines whether the recording mode has been activated. In the case of the recording mode, the process proceeds to S1304, and in the case of the reading mode, the process proceeds to S1307.
[0088]
In step S1304, the control unit 101 causes the recovery unit 64 to execute a recovery process.
[0089]
In step S1305, the control unit 101 resets the timer 1081.
[0090]
In step S1306, the control unit 101 controls the drive switching unit 52 according to the result of the determination as to whether or not the mode is the recording mode, and ends the initial operation.
In step S1307, the control unit 101 acquires the number of continuous suspensions of the recovery process, and determines whether the number has exceeded a predetermined number (for example, three times). Since it is not necessary to operate the recovery unit every time in the reading mode, the ink consumption can be reduced by suspending the predetermined number of times. As a result of the determination, if it exceeds, the process proceeds to step S1304, and if not, the process proceeds to step S1308.
[0091]
In step S1308, the counter that counts the number of consecutive suspensions is incremented. Here, the recovery process is suspended, and the process proceeds to step S1306.
[0092]
As described above, in the present embodiment, by providing a plurality of operation modes of the recovery unit, the user's preference can be reflected in the recovery processing.
[0093]
That is, an image reading and recording apparatus (eg, a facsimile apparatus 100) that performs a document reading process and an image recording process, and is activated when the process shifts to the recording process and when the process shifts to the reading process. A head 65, a maintenance unit (for example, a recovery unit 64) for performing a maintenance process for maintaining the recording performance of the recording head 65, and a new unit when the recording head 65 is activated after a predetermined time has elapsed from the previous maintenance process And a saving mode in which the maintenance process is skipped at least once when the recording head 65 is activated for the reading process even after a lapse of a predetermined time, according to the selected mode. An image reading / recording apparatus including a control unit (eg, control unit 110) for controlling the execution of the maintenance processing is provided.
[0094]
For example, when the apparatus deteriorates, the recording performance of the recording head 65 may be more easily maintained by increasing the execution frequency of the recovery processing. In such a case, there would be an advantage to the user selecting the normal mode.
[0095]
The contents of the normal mode and the contents of the saving mode may be other than those described above. For example, in the case of the saving mode, the first embodiment or the second embodiment may be implemented. Alternatively, the normal mode employs the first or second embodiment in which the threshold value of the timer is shortened or the number of times of holding is reduced, and the saving mode is the first or second embodiment which employs the timer. A relatively long threshold value or a large number of suspensions may be employed. In any case, the saving mode still consumes less ink than the normal mode.
[0096]
[Other embodiments]
In the above-described embodiment, when the recording head is activated for the reading process, the recovery process is suspended at least once. However, a prohibition process may be adopted in place of the above-described suspension process. The prohibition process means that the recovery process is completely prohibited when the recording head is activated for the document reading process. More specifically, when it is determined that the process is not the switching process to the recording mode (that is, the reading process) (when each determination result of S1101, S1201 and S1303 is N), the mode switching is immediately performed. What is necessary is just to control to jump to the steps (S1111, S1205 and S1306).
[0097]
Further, in the above-described embodiment, when the recording head is activated for the reading process, the recovery process for sucking and discharging the recording ink from the recording head or sweeping the recording head is suspended or prohibited. However, a part of the recovery processing, for example, only the suction processing is suspended or prohibited, and the other recovery processing is performed at the time of starting the recording head regardless of the reading processing or the recording processing. It may be controlled. That is, if at least one of the recovery processes is suspended or prohibited, the ink consumption can be reduced.
[0098]
In the above-described embodiment, the threshold value of the timer and the number of suspensions are fixed, but may be variable. For example, the user may operate the operation unit 110 to change the value. Alternatively, the value may be dynamically changed in accordance with the aging of the device or the number of years of use. Alternatively, when a new ink is developed, the above value may be changed according to the characteristics of the ink. If the appropriate value in that case is displayed on the surface of the ink cartridge 1, the user can easily set an appropriate value. A holding unit for storing an appropriate value may be mounted on the cartridge 1 so that the reading unit on the facsimile apparatus can read the value.
[0099]
The present invention can be applied to a system including a plurality of devices (for example, a host computer, an interface device, a reader, a printer, etc.), but also to a device including one device (for example, a copying machine, a facsimile machine, etc.). You may.
[0100]
Further, an object of the present invention is to supply a storage medium (or a recording medium) in which a program code of software for realizing the functions of the above-described embodiments is recorded to a system or an apparatus, and a computer (or a CPU or a CPU) of the system or the apparatus. Needless to say, the present invention can also be achieved by an MPU) reading and executing a program code stored in a storage medium.
[0101]
In this case, the program code itself read from the storage medium realizes the function of the above-described embodiment, and the storage medium storing the program code constitutes the present invention.
[0102]
When the computer executes the readout program code, not only the functions of the above-described embodiments are realized, but also an operating system (OS) running on the computer based on the instruction of the program code. It goes without saying that a part or all of the actual processing is performed and the functions of the above-described embodiments are realized by the processing.
[0103]
Further, after the program code read from the storage medium is written into a memory provided in a function expansion card inserted into the computer or a function expansion unit connected to the computer, the function expansion is performed based on the instruction of the program code. It goes without saying that the CPU or the like provided in the card or the function expansion unit performs part or all of the actual processing, and the processing realizes the functions of the above-described embodiments.
[0104]
When the present invention is applied to the storage medium, the storage medium stores program codes corresponding to the flowcharts shown in any one of FIG. 11 to FIG. Become. These program codes can be provided as firmware that can be updated, for example.
[0105]
【The invention's effect】
According to the present invention, in the ink jet type image reading and recording apparatus also using the transport mechanism used for transporting the recording paper as a document transport mechanism, when the recovery process of the recording head 65 is executed, the timer starts counting time, When the recording head 65 is activated a predetermined time after the previous execution of the recovery processing, if the recording head 65 is activated for recording processing, the recovery processing is executed. If the recording head 65 is activated for reading processing, the recovery processing is executed. Since the suspension is performed, the number of times of the recovery process executed when the document is conveyed is reduced, and as a result, the consumption of ink in the recording head can be reduced.
[0106]
Further, when the number of suspensions exceeds a predetermined number, the recovery process is executed even when the activation is performed for the reading process, so that the necessary recovery process can be executed while reducing the ink consumption. .
[Brief description of the drawings]
FIG. 1 is a cross-sectional view of an apparatus according to an embodiment during a recording process.
FIG. 2 is a perspective view of the apparatus according to the embodiment during a recording process.
FIG. 3 is a cross-sectional view of the apparatus during a document reading process.
FIG. 4 is a perspective view of the apparatus during a document reading process.
FIG. 5 is a perspective view of a recording sheet feeding section and a document sheet feeding section.
FIG. 6 is a perspective view of the apparatus according to the embodiment when a recording process is being performed.
FIG. 7 is a diagram showing attachment and detachment of an ink cartridge.
FIG. 8 is a view exemplifying a white reference 25 located at a first position.
FIG. 9 is a diagram illustrating a white reference 25 located at a second position.
FIG. 10 is a block diagram of the facsimile apparatus 100 according to the embodiment.
FIG. 11 is a flowchart relating to the operation of the facsimile apparatus according to the first embodiment.
FIG. 12 is a flowchart according to a second embodiment.
FIG. 13 is a flowchart according to a third embodiment.
[Explanation of symbols]
1. Cartridge
2. Recording paper
3 ... Platen
4: Carriage
12: Manuscript
22 ... Contact sensor
26 ... CS holder
52... Drive switching means
100 ... facsimile body
101 ... Control unit
102 ... ROM
103 ... DRAM
104 ... SRAM
105 ... Image reading unit
106: Recorded image processing unit
107: Facsimile transmission / reception unit
108 ... Recording unit
109 ... Image code decoding unit
110 ... operation unit
111 ... Power supply unit
112 ... System bus

Claims (17)

An image reading and recording apparatus that performs a document reading process and an image recording process,
A recording head activated at the time of transition to the recording process and at the time of transition to the reading process,
After a lapse of a predetermined time from the previous execution of the maintenance process for maintaining the recording performance of the recording head, if the recording head is started to execute the recording process, the maintenance process is executed. On the other hand, an image reading and recording apparatus comprising: a maintenance unit for suspending a maintenance process when the recording head is activated for the reading process. 2. The maintenance device according to claim 1, wherein the maintenance unit executes the maintenance process when the recording head is activated for performing the recording process while the maintenance process is suspended at least once. 3. The image reading and recording apparatus according to the above. 3. The apparatus according to claim 1, further comprising a counter for counting the number of continuous holdings of the maintenance processing, wherein the maintenance unit executes the maintenance processing when the number of continuous holdings exceeds a predetermined number. 5. The image reading and recording apparatus according to claim 1. An image reading and recording apparatus in which a document transport path and a recording paper transport path are shared by some paths,
A recording head for image recording that is activated when shifting from any processing to reading processing or recording processing,
Recovery means for performing a recovery process of the recording head by sucking, discharging or sweeping the recording ink from the recording head,
Clocking means for measuring an elapsed time from execution of the recovery processing by the recovery means to activation of the recording head;
Determining means for determining whether the elapsed time exceeds a predetermined time,
Recovery control means for suspending the recovery processing by the recovery means when the recording head is activated for the reading processing, even if it is determined that the elapsed time exceeds a predetermined time. Image reading and recording device including. 5. The image reading apparatus according to claim 4, wherein the recovery control unit causes the recovery unit to execute the recovery process when the recording head is activated when the recovery process is suspended for a predetermined number of times. 6. Recording device. An image reading and recording apparatus that performs a document reading process and an image recording process,
A recording head activated at least at the time of transition to the recording process and at the time of transition to the reading process,
Recovery means for performing recovery processing by sucking, ejecting or sweeping ink from the recording head,
Time-measuring means for measuring the time elapsed since the previous execution of the recovery process
When the recording head is started to execute a recording process, the recovery unit is operated on the condition that the elapsed time has already exceeded the first time, while the recording head is activated for the document reading process. When the recording head is started, a recovery control unit that operates the recovery unit on condition that the elapsed time has already exceeded a second time longer than the first time is provided. Image reading and recording device. An image reading and recording apparatus that performs a document reading process and an image recording process,
A recording head activated at the time of transition to the recording process and at the time of transition to the reading process,
A maintenance unit for performing a maintenance process for maintaining the recording performance of the recording head, a normal mode for performing a new maintenance process when the recording head is activated after a predetermined time has elapsed from a previous maintenance process, and A saving mode in which the maintenance process is skipped at least once when the recording head is activated for the reading process even after a predetermined time has elapsed, and the execution of the maintenance process is controlled according to the selected mode. An image reading and recording apparatus, comprising: a control unit. A method for maintaining the recording performance of an inkjet recording head provided in an image reading and recording apparatus,
Activating the recording head at the time of transition to recording processing and at the time of transition to reading processing,
After a lapse of a predetermined time from the previous execution of the maintenance process for maintaining the recording performance of the recording head, if the recording head is started to execute the recording process, the maintenance process is executed. Holding the maintenance process when the recording head is activated for the reading process. 9. The method according to claim 8, further comprising the step of executing the maintenance process when the printhead is activated for performing the printing process while the maintenance process is suspended at least once. How to maintain recording performance. 10. The method according to claim 8, further comprising the step of counting the number of continuous holdings of the maintenance processing, and further comprising the step of executing the maintenance processing when the number of continuous holdings exceeds a predetermined number. The recording performance maintaining method described. A recovery control method for an inkjet recording head that is started when the process shifts from a process to a reading process or a recording process,
Regarding a recovery process for recovering the recording head by sucking, ejecting, or sweeping ink from the recording head, measuring a time elapsed from execution of a previous recovery process,
Determining whether or not the elapsed time exceeds a predetermined time when the recording head is activated again;
A step of suspending the recovery processing when the recording head is activated for the reading processing even if it is determined that the elapsed time exceeds a predetermined time. A recovery control method for the recording head. 12. The printhead recovery method according to claim 11, further comprising the step of causing said recovery means to execute the recovery process when said printhead is activated when said recovery process is suspended for a predetermined number of times. Control method. A recording head recovery control method that recovers the recording head by sucking, discharging, or sweeping ink at least for an inkjet recording head that is activated at the time of transition to recording processing and at the time of transition to reading processing. ,
Timing the elapsed time since the previous execution of the recovery process;
When the recording head is activated for performing a recording process, the recovery process is performed on condition that the elapsed time has already exceeded the first time, while the recovery process is performed for a document reading process. Causing the recovery process to be executed on condition that the elapsed time has already exceeded a second time longer than the first time when the printhead is activated. Recovery control method. A recording performance maintaining method for maintaining the recording performance of the inkjet recording head activated at the time of transition to recording processing and at the time of transition to reading processing,
A normal mode in which a new maintenance process is executed when the recording head is activated after a predetermined time has elapsed from the previous maintenance process, and the recording head is activated for the reading process even after the predetermined time has elapsed. Selecting one of the saving modes in which the maintenance process is skipped at least once when
Performing a recovery process according to the selected mode;
A recording performance maintaining method comprising: An image reading and recording apparatus that performs a document reading process and an image recording process,
A recording head activated at the time of transition to the recording process and at the time of transition to the reading process,
Switching means for switching between the original reading process and the image recording process by moving the activated recording head,
Maintaining means for performing maintenance processing for maintaining the recording performance of the activated recording head;
Prohibition control means for prohibiting execution of maintenance processing by the maintenance means when the recording head is activated for reading processing;
An image reading and recording apparatus comprising: A recovery control method for an inkjet recording head,
Activating the inkjet recording head when shifting from any processing to reading processing or recording processing,
A step of switching from the arbitrary processing to the reading processing or the recording processing by moving the activated inkjet recording head,
Prohibiting the execution of the recovery process of the inkjet recording head when the inkjet recording head is activated for the reading process,
A recovery control method comprising: 17. Firmware for executing the method according to any one of claims 8 to 14 and 16 in an image reading and recording apparatus.

Images