1. Technical Field of the Invention
The invention relates to a driving supplying apparatus, a driving method for supplying a medium and a computer readable medium including drive-control program for a medium supplying apparatus, and a recording device and a liquid jetting device each provided with the medium supplying apparatus.
2. Description of the Related Art
An ink jet printer which is one of recording devices includes a type in which paper is supplied from a rear side and ejected to a front side, and another type in which paper is supplied/ejected on the front side. The type of the printer in which paper is supplied/ejected on the front side is provided with a paper supply tray arranged on the lower stage of the front of the apparatus and a paper eject stacker arranged on the upper stage thereof. When sheets of paper housed in the paper supply tray are pile-fed by a pick-up roller, only an uppermost sheet is separated and the remaining lower sheet(s) is returned to the paper supply tray. And the uppermost sheet is inverted by an inverting roller, transported by a paper feeding roller, and subjected to recording. The paper is eventually ejected onto the ejecting stacker by an ejecting roller (see, for example JP-A-2003-276890).
In the related art ink jet printer as described above, owing to the paper supplying speed based on a paper type and recording mode, number of set sheets of paper and changes in a paper setting manner, if the tips of sheets of paper are uneven, deterioration in the feeding performance such as paper tip buckling by a paper return lever, non-feeding and poor paper tip positioning occurs.
This invention has been accomplished in view of the above various problems and an object of the invention is to provide a medium supplying apparatus which can keep preferred medium supplying, a driving method and a computer readable medium including drive-control program for a medium supplying apparatus, and a recording device and a liquid jetting device each provided with the medium supplying apparatus. The present invention is as follows:
(1). A method for driving a medium supplying apparatus which supplies medium by a pick-up roller, wherein an operation of stopping rotation of the pick-up roller is inserted at least one of before an operation of supplying medium to a separating position where, when a plurality of sheets of medium are fed together by the pick-up roller displaced to the supplying position, an uppermost sheet of the plurality of sheets of medium is separated from a lower sheet or sheets, and before an operation of returning the separated lower sheet or sheets after separating the uppermost sheet from the lower sheet or sheets.
(2). The method according to item (1), wherein the pick-up roller is displaceable between a supplying position and a retracting position and wherein the operation of stopping the rotation is changed according to the supplying position and retracting position of the pick-up roller.
(3). The method according to item (1), wherein the operation of stopping the rotation is changed according to types of medium.
(4). A computer readable medium including a set of instructions for a medium supplying apparatus which supplies medium by a pick-up roller, the set of instructions comprising:
an operation of stopping rotation of the pick-up roller is inserted at least one of before an operation of supplying medium to a separating position where, when a plurality of sheets of medium are fed together by the pick-up roller displaced to the supplying position, an uppermost sheet of the plurality of sheets of medium is separated from a lower sheet or sheets, and before an operation of returning the separated lower sheet or sheets after separating the uppermost sheet from the lower sheet or sheets.
(5). A medium supplying apparatus for supplying a medium, wherein the driving method according to item (1) can be adopted.
(6). A recording device for making a record on a medium, comprising the medium supplying apparatus according to item (5).
(7). A method for driving the medium supplying apparatus according to item (6), wherein the operation of stopping the rotation is changed according to a recording condition.
(8). A liquid jetting device for jetting liquid onto a medium, comprising the medium supplying apparatus according to item (5).
(9). A method of controlling a medium supplying device (144) having a pick-up roller (41) driven by a motor, an intermediate roller (45) disposed downstream of the pick-up roller (41) along a medium path, a retard roller (61) facing the intermediate roller (45), and a paper return (71) movable to enter the medium path, the method comprising the steps of:
(a) contacting the pick-up roller (41) with a sheet of medium;
(b) rotating the motor, while keeping the pick-up roller (41) in contact with the sheet of medium, so that the pick-up roller (41) picks up and supplies the sheet of medium along the medium path to a first position of the medium path where the retard roller (61) faces the intermediate roller (45) and to a second position of the medium path where the paper return (71) enters the medium path; and
(c) inserting stoppage of the motor for a predetermined time period into a duration lasting from a time point at which the rotation of the motor in the step (b) is started and to a time point at which the sheet of medium reaches the first or second position.
(10). The method according to item (9), wherein the inserting stoppage of the motor (c) is changed according to a position of the pick-up roller (41).
(11). The method according to item (9), wherein the inserting stoppage of the motor (c) is changed according to types of medium.
(12). A method of controlling a medium supplying device (134) having a paper supplying roller (32) driven by a motor, a retard roller (33) facing the paper supplying roller (32), and a paper return (34) movable to enter a medium path, the method comprising the steps of:
(a) contacting the paper supplying roller (32) with a sheet of medium;
(b) rotating the motor, while keeping the paper supplying roller (32) in contact with the sheet of medium, so that the paper supplying roller (32) picks up and supplies the sheet of medium along the medium path to a first position of the medium path where the retard roller (33) faces the paper supplying roller (32) and to a second position of the medium path where the paper return (34) enters the medium path; and
(c) inserting stoppage of the motor for a predetermined time period into a duration lasting from a time point at which the rotation of the motor in the step (b) is started and to a time point at which the sheet of medium reaches the first or second position.
(13). A method of controlling a medium supplying device (144) having a pick-up roller (41) driven by a motor and displaceable between a supplying position and a retracting position, the method comprising the steps of:
(a) judging whether the pick-up roller (41) is disposed at the supplying position or the retracting position;
(b) displacing the pick-up roller to dispose the pick-up roller (41) at the supplying position, and rotating the motor for a first predetermined time period if it is judged, in the step (a), that the pick-up roller (41) is disposed at the retracting position;
(c) rotating the motor for a second predetermined time period if it is judged, in the step (a), that the pick-up roller is disposed at the supplying position,
wherein the first predetermined time period is longer than the second predetermined time period.
The ink jet composite machine 100, as seen from
On the upper face of the housing 101, a scanner cover 102 having a square flat plate shape is arranged. The scanner cover has a handle 103 on the front side and is attached to be rotatable in a direction of indicated arrow a around a rotary shaft on the rear side. The user, when using the scanner 120, can open/close the scanner cover 103 by inserting his finger in the handle 103 and so easily load/unload a document.
On both sides of the front of the housing 101, cartridge housing portions 104 in/from which a plurality of ink cartridges 104 as shown in
On this side of the scanner cover 102 on the upper surface of the housing 101, as seen from
Thus, the user can operate the buttons and others while seeing the liquid crystal panel 107 for confirmation.
Within the housing 101, as seen from
The first support 21 is formed in a flat-plate shape and arranged so that it can be freely housed in and pulled out from the inside of the rear wall of the frame 132. The second support 22 is formed in a flat-plate shape and arranged so that it can be freely housed in and pulled out from the first support 21. The first support 21 and the second support 22 are formed so as to be expandable in a paper supplying direction so that they can be housed compactly during their non-use. They can surely support the paper with various sizes during their use.
The fixed edge guide 23 is formed integrally to the hopper 31 in a shape along the right side wall of the frame 132 when viewed from the front side of the apparatus. The movable edge guide 24 is formed in a shape along the left side wall of the frame 132 when viewed from the front side of the apparatus. The hopper 31 is attached so that it can move in nearly parallel to the rear wall of the frame 132 between the left side wall and right side wall of the frame 132. The fixed edge guide 23 and movable edge guide 24 can surely guide both side edges of the paper with different sizes so that paper supplying can be carried out with high accuracy.
The hopper 31 is formed in a flat-plate shape on which paper can be placed and arranged in nearly parallel to the rear wall of the frame 132. The lower end of the hopper 31 is located in the vicinity of the paper supplying roller 32 whereas the upper end thereof is located in the proximity of the top of the rear wall of the frame 132. The other end of a compression spring (not shown) whose one end is attached to the rear wall of the frame 132 is attached to the rear face of the hopper 31 on the lower end side. The lower end side of the hopper 31 is turned around the upper end side by expansion/contraction of the compression spring.
The paper supplying roller 32 is formed in D-shape with its section partially recessed and arranged in the vicinity of the lower end of the hopper 31. The paper supplying roller 32 rotates intermittently to friction-feed the paper lifted by the hopper 31. The retard roller 33 is arranged to be contactable with the paper supplying roller 32, and friction-separates the only the uppermost sheet from the lower sheet(s) when the sheets of paper are pile-fed by the paper feeding roller 32. The rear paper returning unit 34 is formed in a lug shape and arranged in the vicinity of the paper supplying roller 32. The rear paper returning unit 34 returns the lower sheet(s) separated by the retard roller 33 to the hopper 31 by catching the sheet(s) with the lug.
The paper supply/eject portion 140, as seen from
The paper supply tray 142, as seen from
The paper eject tray 143 is adapted so that a pile of recorded sheets of paper is placed on the upper surface thereof in a state where the second tray 143b and the third tray 143c have been pulled out. The second tray 143b and third tray 143c are formed so as to be expandable in a paper ejecting direction so that they can be housed compactly during their non-use. They can surely place a pile of sheets of paper with various sizes to be ejected during their use. Incidentally, the paper supply/eject portion 140 is formed so that the tray in which thick paper or an optical disk incapable of being bent during the paper supply/eject can be supplied manually.
The pick-up roller 41 is arranged above the rear side of the paper supply tray 142 and turnable up and down for the paper supply tray 142. The pick-up roller 41 serves to descend to friction supplie the paper housed in the paper supply tray 142. The bank 42 is arranged to incline rearward on the rear side of the paper supply tray 142, and serves to upward change the direction of the tip of the paper supply-fed by the pick-up roller unit 41.
The retard roller unit 43 is arranged to be contactable with the intermediate roller 45 and serves to friction-separate only the uppermost sheet from the lower sheet(s) when the sheets of paper are pile-fed by the pick-up roller unit 41. The front paper returning unit 44 is formed in a lug shape and arranged in the vicinity of the retard roller unit 43. The front paper returning unit 44 returns the lower sheet(s) separated by the retard roller unit 43 to the paper supply tray 142 by catching the sheet with the lug. The assist roller 46 is arranged to be always in contact with the intermediate roller 45 so that it inverts like the U-shape, the uppermost sheet separated by the retard roller unit 43 by sandwiching it together with the intermediate roller 45 and supplies it to a platen 155.
The front FJ 145, as seen from
In a recording portion 150, as seen from
The paper feed roller 151, as seen from
A recording head 154, as seen from
The retard roller unit 43 includes a retard roller 61 for separating only the uppermost sheet to be fed from the sheets of paper pile-fed in contact with the intermediate roller 45, and a roller holder 62 for rotatably axial-supporting the retard roller 61 so that it touches or leaves the intermediate roller 45. The retard roller 61 is formed in a cylindrical shape and its circumferential face is covered with e.g. rubber in order to enhance the friction coefficient. The roller holder 62 rotatably pivots the retard roller 61 at the one end with the other end being rotatably supported by the frame 47. So the roller holder 62 swingably holds the retard roller 61 so that the one end side can be turned around the other end side.
The front paper returning unit 44 includes paper returns 71 for forcibly returning the lower sheet(s) separated by the retard roller 61 in contact with the tip thereof, a paper returning shaft 72 for turning the paper return 71 and swinging the retard roller 61, and a cam follower 73 and cam clutch 74 as shown in
The paper returning shaft 72 is rotatably supported by the frame 47. Now, as described above, since the paper returns 71 are located on both sides of the retard roller 61, if the paper returning shaft 72 is formed in a straight rod shape, it interferes with the roller holder 62. So, as seen from
Further, the paper returning shaft 72 has a function for turning the paper return 71 and also swinging the retard roller 61. Therefore, as seen from
During standby, as seen from
When paper supply is started, the cam clutch 74 counterclockwise rotates to leave the cam follower 73 formed on the paper returning shaft 72, and with the aid of the restoring force of the pulling spring 63 secured between the roller holder 62 and frame 47, the cam follower 76 formed on the roller holder 62 counterclockwise presses the cam 75 formed on the paper returning shaft 72. Thus, the roller holder 62 clockwise rotates around the rotary fulcrum 62a and the retard roller 61 approaches the intermediate roller 45. The paper return 71 clockwise rotates to leave the bank 42.
During paper supply, as seen from
When paper separation is started, as seen from
When paper separation is completed, as seen from
Subsequently, as seen from
And during recording, the cam clutch 74 further rotates counterclockwise to press the cam follower 73 formed on the paper returning shaft 72, and the cam 75 formed on the paper returning shaft 72 further counterclockwise presses the cam follower 76 formed on the roller holder 62. Thus, as seen from
Specifically, as seen from
The lug 83 includes a contact 83a to be in contact with the paper, a groove 83b in which the portion with the flat surfaces 82a of the paper returning shaft 82 is inserted, projections 83c for securing the hold-down plate 84 and an attachment 83d to which one end of the compression spring 85 is attached. The hold-down plate 84 has slots 84a in which the projections 83c of the lug 83 are inserted. The hold-down plate 84 is attached in the state where the portion with the flat surfaces 82a of the paper returning shaft 82 is inserted in the groove 83b of the lug 83. The attachment 86 has an attaching piece 86a to which the other end of the compression spring 85 is attached. The side of the attachment 83d of the lug is inserted in the attachment 86 through the compression spring 85.
In accordance with the paper returns 81 and paper returning shaft 82 having the configuration described above, since the paper return 81 is formed as a body separate from the paper returning shaft 82, the lug 83 of the paper return 81 retracts in or protrudes from the paper returning shaft 82 by the compression spring 85. For this reason, although the above paper return 71, which is formed integrally to the paper returning shaft 72, may injure pliant and hard-to-break paper such as thick paper particularly when it is returned, the paper return 81, which is formed as a body separate from the paper returning shaft 82, retracts particularly when pliant and hard-to-break paper such as thick paper is returned, thereby preventing the paper from being injured.
Now, as also described in connection with the related art, owing to the paper supplying speed based on a paper type and recording mode, number of set sheets of paper and changes in a paper setting manner, if the tips of sheets of paper are uneven, deterioration in the feeding performance such as paper tip buckling by the paper return 71, non-feeding and poor paper tip positioning occurs. In order to obviate such an inconvenience, drive control of the front ASF 144 which is the feature of this invention is carried out as described below.
First, it is determined whether or not the pick-up roller 41 is ascending, i.e. in continuous paper supply, the sheet of paper at issue is a first sheet or the subsequent sheet (steps S1, S2). And according to whether or not the pick-up roller 41 is ascending, the recording mode is selected. The recording mode designates a paper type such as ordinary paper, thick paper, calendered paper or CD and a recoding condition such as high speed recording or fine recording. According to the recording mode, the standby time of the pick-up roller 41, i.e. rotation stopping time is set and previously stored as a table in a memory of the control unit. This is because the paper supplying time is changed according to the status of the pick-up roller 41 and recording mode. Incidentally, as the rotation stopping operation of the pick-up roller unit 41, the standby time, i.e. rotation stopping time was defined. However, without being limited, the timing of rotation stopping may be set and previously stored as a table in the memory of the control unit.
In step S1, if the pick-up roller 41 is ascending, on the side of the paper feed (PF) motor, a recording mode A is selected whereas on the auto sheet feeder (ASF) motor, recording mode C is selected (steps S3, S4). On the other hand, if the pick-up roller 41 is descending, on the side of the paper feed (PF) motor, a recording mode B is selected whereas on the auto sheet feeder (ASF) motor, a recoding mode D is selected (steps S5, S6).
On the side of the auto sheet feeder (ASF) motor, if the pick-up roller unit 41 is ascending in step S2, it starts to descend (step S7). And the transporting operation of the sheets of paper to the paper separating position from the paper supply tray 142 is started (step S8). On the other hand, on the side of the paper feed (PF) motor, the paper separating operation is started by the retard roller 61 (step S9). Further, the paper transporting operation is started by the intermediate roller 45 (step S10) and the paper returning operation is started by the paper return 71 (step S11). These operations are carried out until the paper is detected by the paper detecting sensor (step S12).
On the side of the auto sheet feeder (ASF) motor, it is determined whether or not the paper has been detected by the paper detecting sensor (step S13). If the paper is detected by the paper detecting sensor, the auto sheet feeder (ASF) motor is stopped (step S24). If the paper is not detected by the paper detecting sensor, the paper transporting operation is continued by the auto sheet feeder (ASF) motor until it reaches the assist roller 46 (step S15). On the other hand, on the side of the paper feed (PF) motor, in step S12, if the paper is detected by the paper detecting sensor, the paper transporting operation is started by the rotation of the roller 151 by the paper feed (PF) roller 151 (step S16).
As described above, since the paper supply speed is fixed according to the recording mode, by setting the standby time corresponding to the speed during the paper supplying operation the tip of the paper when it is supplied can be aligned at a predetermined position. Meanwhile, there is a case where the operation of the pick-up roller unit 41 is not constant. For example, the pick-up roller unit 41 is in the ascending status when the first sheet in the continuous paper supply or only one sheet is present or recording data does not appear during a certain time, but the pick-up roller unit 41 is in the descending status when the second or et seq. in the continuous paper supply is present. In such a case, by monitoring the position of the pick-up roller unit 41 so that its standby time is changeable, differences in the apparent transporting distance can be decreased. Thus, occurrence of the inconvenience such as paper tip buckling by a paper return lever, non-feeding and poor paper tip positioning can be avoided. The above matter will be further explained referring the drawings.
Point B is a deceleration starting marginal position where the stopping position of the paper deviates if its tip is located when great load is applied to the paper feeder (PF) motor by the operation of the paper return 71 while the paper feeder (PF) motor decelerates in the case where the paper reaches earliest (the maximum number of sheets of paper are set to the tip of the paper return 71 while the pick-up roller unit 41 is in the descending status).
In
In order to obviate such inconvenience, as described above, by setting the standby time of the pick-up roller unit 41 corresponding to the paper type and recording condition, like L12 and L22 indicated in one-dot chain line in
Assuming that the distance from point A to point B is Y, the distance from L31 to L32 is X1, the distance from L41 to L42 is X1 and the distance from L31 to L42 is X2, the margin for two points A and B is (Y−X2). In order to increase this margin, the position of the pick-up roller unit 41 must be distinguished into the cases when it is ascending and when it is descending, i.e. in the cases of the first sheet and the subsequent sheet in the continuous paper supply. By making the standby time changeable according to the position of the pick-up roller unit 41, as seen from
An explanation will be given of the operation when recording is made for the paper by the ink jet composite machine 100 having the configuration described above. The user houses a plurality of non-recorded sheets of paper in the paper supply tray 142 and starts the ink jet composite machine 100. The sheets of paper pile-housed in the paper supply tray 142, after a predetermined standby time elapses, are friction supply-fed to the intermediate roller 45 by the pick-up roller unit 41. Only the uppermost sheet is separated by the retard roller unit 43 driven by the paper returning shaft 72 and supply-fed, whereas the separated remaining sheet(s) is returned to the paper supply tray 142 by the paper returns 71. The paper, after its skew has been removed and its tip is taken out, is supply-fed to the platen 155 while it is sandwiched between the paper roller 151 driven by the paper feeding mechanism 156 and its following roller 152.
The sheets of paper are subjected to the recording by the recording head 154 loaded on the carriage 153 which is scanned by the carriage motor 159 and carriage belt 158. In this case, the control unit of the ink jet composite machine 100 supplies each color ink to the recording head 154 from the ink cartridges of total seven colors of e.g. yellow, magenta, light-magenta, cyan, light-cyan and black. The control unit controls the jetting timing of each color ink and drive of the carriage 153 and paper feeding roller 151 to carry out ink dot control and half tone processing with high accuracy. And the recorded paper, being sandwiched by the first paper eject roller 51 and first notched roller 52 and by a second paper eject roller 53 and a second notched roller 53, is eject-fed to the paper supply/eject portion 140 and pile-placed onto the paper eject tray 143.
As seen from the description hitherto made, in accordance with the ink jet composite machine 100 according to this embodiment, the operation of stopping the rotation of the pick-up roller unit 41 is inserted in at least before the operation of supplying the sheets of paper to the separating position where the piled sheets of paper are separated into the uppermost sheet and the lower sheet(s) when the sheets of paper are pile-fed by the pick-up roller unit 41 descended and before the operation of returning the lower sheet(s) separated from the piled-fed sheets of paper. Thus, the tips of the sheets of paper supply-fed can be aligned to a predetermined position.
Further, the rotation stopping operation of the pick-up roller unit 41 is changed according to its vertical position, the tips of the first sheet of the sheets of paper continuously supply-fed and the subsequent sheets can be aligned to the predetermined position. Further, since the rotation stopping operation of the pick-up roller unit 41 is changed according to the paper type, preferable paper supplying can be always kept regardless of the status of the paper. Furthermore, since the rotation stopping operation of the pick-up roller unit 41 is changed according to the recording condition, preferable paper supplying can be always kept for various recording formats. Incidentally, these driving methods can be implemented as a set of computer-readable instructions stored in the memory of the control unit of the ink jet composite machine 100 or in a computer readable medium such as a data carrier mounted in the ink jet composite machine 100.
The medium supply-feeing method according to the invention can be applied to a recording machine provided with a medium supplying device such as a facsimile machine, copy machine or scanner. The medium supply-feeing method according to this invention can be applied to not only the recording device, but also to a liquid jetting device for jetting out the liquid according to the use in place of the ink from a liquid jetting head to be applied on a jet medium, provided with e.g. a color material jetting head used for manufacture of a color filter such as a liquid crystal display, an electrode material (conductive paste) jetting head used for manufacture of electrodes of an organic EL display or face light-emitting display (FED), a living body organic jetting head used for manufacture of a bio-chip, or a sample jetting head as a precise pipette.
Number | Date | Country | Kind |
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P2004-307498 | Oct 2004 | JP | national |