This application claims the priority of Korean Patent Applications No. 2003-56006, filed on Aug. 13, 2003, and No. 2003-56856, filed on Aug. 18, 2003, in the Korean Intellectual Property Office, the disclosures of which are incorporated herein by reference.
1. Field of the Invention
The present invention relates to an inkjet printer and a paper feeding method, and, more particularly, to an inkjet printer which picks up papers one by one from a cassette and moves the paper to a printing unit that prints an image on the paper, and a paper feeding method therefor.
2. Description of the Related Art
Generally, an inkjet printer picks up a single paper from a cassette containing a stack of paper and moves the paper. A single paper is separated from a stack of paper and picked up using a friction or a stiffness of the paper.
The inclination angle A of the resistance element 53 is set to be suitable to widely used plain papers. Accordingly, when a thick paper having a large stiffness is used, a separation procedure denoted by C1, C2, and C3 may be never performed or may be incompletely performed after a front end of the thick paper reaches the resistance element 53. As a result, a pickup error, in which more than one paper or no paper is fed, occurs. In addition, a driving motor (not shown) to drive the pickup roller 52 may be overloaded.
To overcome this problem, increasing the inclination angle A of the resistance element 53 is necessary. Referring to
To feed the paper P without a skew, registration is performed between the first paper detector 66 and the feed roller 63. After the front end of the paper P is detected by the first paper detector 66, the paper P is moved slightly further than a distance between the first paper detector 66 and the feed roller 63. Here, the feed roller 63 rotates in a direction opposite to a paper feed direction or does not rotate. Then, due to a stiffness of the paper P, a front portion of the paper P is curved as expressed by a dotted line, and the front end of the paper P is aligned with the feed roller 63.
As described above, a mis-feed of the paper P occurring between the first and second paper detectors 66 and 67 can be determined based on whether the paper P is detected by the second paper detector 67 within the predetermined time since the paper P was detected by the first paper detector 66. During registration, when the paper P is fed only to a position X shown in
The present invention provides an improved printer capable of reliably feeding plain papers and thicker papers having a larger stiffness than the plain papers one by one, and a paper feeding method therefor.
The present invention also provides a printer which is capable of efficiently processing a paper jam by detecting a registration error and repeating registration to correct the registration error, and a paper feeding method therefor.
According to an aspect of the present invention, an inkjet printer comprises a pickup roller which picks up a paper from a cassette in which a plurality of papers are stacked, a resistance element to contact with a front end of the paper so that a paper on a top of the stack of papers is separated from the stack of papers and picked up from the cassette, a feed roller which feeds the paper, an angle conversion unit which changes an inclination angle of the resistance element with respect to the front end of the paper, and a switching gear which is moved by a carriage to a first place to feed the paper and to a second place to drive the angle conversion unit.
According to another aspect of the present invention, a paper feed method for an inkjet printer including a cassette to contain a stack of papers, a resistance element to separate a paper on a top of the stack of papers from the stack using a stiffness of the paper, an angle conversion unit to change an inclination angle of the resistance element with respect to a front end of the paper, a feed roller and a pickup roller driven by a driving motor, and an encoder to generate a count proportional to a rotation amount of the feed roller and the pickup roller, comprises picking up a paper from the cassette by rotating the pickup roller, and when the front end of the paper is not detected by a first paper detector within a predetermined time, repeating the pickup operation after changing an inclination angle of the resistance element to be greater than an initial inclination angle by driving the angle conversion unit.
The paper feed method further comprises changing the inclination angle of the resistance element to be suitable to the paper by driving the angle conversion unit according to paper information transmitted from a host computer, before picking up the paper.
The paper feed method further comprises performing a first registration by moving the front end of the paper by a first registration amount greater than a distance between the first paper detector and the feed roller after the front end of the paper picked up from the cassette is detected by the first paper detector, thereby aligning the front end of the paper with the feed roller; and when a first error occurs due to a stall of the driving motor during the first registration, repeating the first registration by calculating a mis-feed amount of the paper using a difference between a current number of counts generated by the encoder and a target number of counts obtained from the first registration amount and moving the paper by at least the mis-feed amount.
The paper feed method further comprises performing a second registration by detecting the front end of the paper using a second paper detector located at an output side of the feed roller and adjusting a print start time of a printing unit, which prints an image onto the paper.
The paper feed method further comprises discharging the paper by moving the paper until a rear end of the paper is detected by the first paper detector when a second error occurs during the second registration since the front end of the paper is not detected by the second paper detector within a predetermined time.
According to still another aspect of the present invention, a paper feed method for an inkjet printer including a cassette to contain a stack of papers, a resistance element to separate a paper on a top of the stack of papers from the stack using a stiffness of the paper, an angle conversion unit to change an inclination angle of the resistance element with respect to a front end of the paper, a feed roller and a pickup roller driven by a driving motor, and an encoder to generate a count proportional to a rotation amount of the feed roller and the pickup roller, comprises changing the inclination angle of the resistance element to be suitable to a paper according to paper information transmitted from a host computer; picking up the paper from the cassette by rotating the pickup roller; and when a current limit error occurs since current of the driving motor exceeds a predetermined limit current value during the pickup operation and/or when a counting error occurs since a counting interval of the encoder exceeds a predetermined time interval during the pickup operation, repeating the pickup operation after changing the inclination angle of the resistance element to be greater than an initial inclination angle by driving the angle conversion unit.
The paper feed method further comprises performing a first registration by moving the front end of the paper by a first registration amount greater than a distance between the first paper detector and the feed roller after the front end of the paper is detected by the first paper detector, thereby aligning the front end of the paper with the feed roller; and when a first error occurs due to a stall of the driving motor during the first registration, repeating the first registration by calculating a mis-feed amount of the paper using a difference between a current number of counts generated by the encoder and a target number of counts obtained from the first registration amount and moving the paper by at least the mis-feed amount.
The paper feed method further comprises performing a second registration by detecting the front end of the paper using a second paper detector located at an output side of the feed roller and adjusting a print start time of a printing unit, which prints an image onto the paper; and discharging the paper by moving the paper until a rear end of the paper is detected by the first paper detector when a second error occurs during the second registration since the front end of the paper is not detected by the second paper detector within a predetermined time.
Additional and/or other aspects and advantages of the invention will be set forth in part in the description which follows and, in part, will be obvious from the description, or may be learned by practice of the invention.
These and/or other aspects and advantages of the invention will become apparent and more readily appreciated from the following description of the embodiments, taken in conjunction with the accompanying drawings of which:
Reference will now be made in detail to the embodiments of the present invention, examples of which are illustrated in the accompanying drawings, wherein like reference numerals refer to the like elements throughout. The embodiments are described below to explain the present invention by referring to the figures.
A pickup shaft 200 is installed at a bracket 190. A gear 3 to engage with the switching gear 2 and a first gear train 210 to drive the drive roller 130 are provided at an inside 192 of the bracket 190, as shown in
A carriage 151 is moved by a carriage motor (not shown) in a direction 154 along a shaft 153. The carriage 151 moves in a first moving direction to print and in a second moving direction to move the switching gear 2. While the carriage 151 is moved back and forth in the first moving direction, the switching gear 2 is elastically biased by the compression spring 145 so that the switching gear 2 is positioned at a first place where the switching gear 2 is connected to the first and second gear trains 210 and 220 to drive the pickup roller 120 and the drive roller 130. When the carriage 151 is moved to the second moving direction and presses the switching lever 144, the switching gear 2 is positioned at a second place where the switching gear 2 is connected to the third gear train 230 to rotate the rotating element 410.
As shown in
A paper feed method for an inkjet printer according to an embodiment of the present invention will be described with reference to FIGS. 1, 4-10, and 11.
Upon receiving a print command from a host (not shown), the driving motor 180 rotates the feed roller 140 in the direction F2 to pick up a paper P from the cassette 110. The switching gear 2 is elastically biased by the compression spring 145 to be positioned at the first place where the switching gear 2 engages with the gear 3. Accordingly, the driving motor 180 drives the first and second gear trains 210 and 220. Then, as shown in
When the first paper detector 91 does not detect a front end of the paper P within a predetermined time in operation OP03, that is, when a paper detection error occurs, the controller 90 determines that the paper P is blocked by the resistance element 170 since an inclination angle of the resistance element 170 is not appropriate with respect to a stiffness of the paper P. In this case, the paper P is not picked out of the cassette 110 due to a slip between the pickup roller 120 and the paper P, but the pickup roller 120 and the feed roller 140 are normally rotated, and therefore, the encoder 80 normally generates a count.
In order to change the inclination angle of the resistance element 170, the controller 90 moves the carriage 151 to push the switching lever 144 so that the switching gear 2 is moved to the second place. Then, the switching gear 2 is connected to the third gear train 230 so that the driving motor 180 drives the rotating element 410. As the rotating element 410 rotates, the sliding element 420 slides in the direction M1 or M2. As a result, the inclination angle of the support element 430 is changed due to interference between slope portions 421 and interference portions 431 in operation OP08. Generally, when the inclination angle of the resistance element 170 is too small, the slip occurs between the pickup roller 120 and the paper P. Accordingly, in an embodiment of the invention, the inclination angle (e.g., A2) of the resistance element 170 after the change is greater than the inclination angle (e.g., A1) thereof before the change.
The controller 90 rotates the rotating element 410 in a direction that allows the resistance element 170 to have a greater inclination angle. Here, since the feed roller 140 is also rotated, how much an initial inclination angle of the resistance element 170 is increased may be detected by checking a number of counts of the encoder 80. When changing the inclination angle of the resistance element 170, the resistance element 170 is controlled to have a minimum or maximum inclination angle, and then a difference between the maximum or minimum inclination angle and a desired inclination angle is converted into a number of counts generated by the encoder 80. Next, the rotating element 410 is rotated until the count value obtained through the conversion is encountered to change the inclination angle of the resistance element 170 into the desired inclination angle.
When the paper P is blocked by the resistance element 170 since an inclination angle of the resistance element 170 is not appropriate with respect to the stiffness of the paper P, as shown in
As is described above, after a pick up operation in operation OP01 is completed, when any one of the current limit error and the encoder counting error is detected in operation OP02, the controller 90 changes the inclination angle of the resistance element 170 in operation OP05 without checking whether the first paper detector 91 detects the front end of the paper P.
After changing the inclination angle of the resistance element 170, the controller 90 moves the carriage 151 so that the switching gear 2 is moved by an elastic force of the compression spring 145 to the first place where the switching gear 2 is connected to the first and second gear trains 210 and 220. Then, the driving motor 180 is rotated to rotate the pickup roller 120 to pick up the paper P. In this time, since the inclination angle of the resistance element 170 is greater than the initial inclination angle thereof, a resistance to the front end of the paper P decreases. Accordingly, a thick paper having a large stiffness may be picked up and fed through the procedure denoted by C1, C2, and C3 shown in
Conventionally, since the inclination angle of the resistance element 170 is fixed to be suitable for plain papers, thick papers having a large stiffness may cause pickup errors. As described before, double feeding may occur since the thick papers are not smoothly separated from one another, or a paper feed may not be performed due to a point resistance that is too large in rotation to the thick papers. However, in an inkjet printer and a paper feed method therefor according to the present invention, during a paper pickup operation, a paper detection error, a current limit error, and an encoder counting error are detected, and the inclination angle of the resistance element 170 is changed to be suitable in relation to the stiffness of a paper to decrease a paper pickup error.
In another embodiment of the present invention, before initially picking up a paper, the inclination angle of the resistance element 170 may be adjusted according to paper information transmitted from a printer drive included in a host computer (not shown). In other words, upon receiving a type of papers P stacked in the cassette 110 from the host computer, the controller 90 rotates the rotating element 410 so that the inclination angle of the resistance element 170 is adjusted to be suitable to separate a single paper P from the stack of the papers P. When using this method of the present invention, a paper pickup error may be remarkably decreased.
When the first paper detector 91 detects the front end of the paper P within the predetermined time in operation OP03, the controller 90 determines that the paper pickup operation has been performed successfully. Thereafter, the front end of the paper P is aligned with the feed roller 140 and the print head 150, sequentially. This alignment is referred to as registration.
Registration, according to an embodiment of the present invention, includes a first registration to align a front end of a paper P with the feed roller 140 and a second registration to align the front end of the paper P with the print head 150.
A paper P picked up by the pickup roller 120 is moved to the feed roller 140 via the drive roller 130. Referring to
In order to prevent a paper jam and poor printing due to a skew of the paper P, the first registration to align the paper P with the feed roller 140 is performed when the front end FE of the paper P is detected by the first paper detector 91 (for example, the first paper detector 91 is “ON”) in operation OP11. During the first registration, since the feed roller 140 is rotated in the direction F2 opposite to the paper feed direction, the paper P is not passed through the feed roller 140 even when the end portion FE1 of the front end FE of the paper P in the dotted position P1 with a skew is in contact with the feed roller 140. In this situation, the pickup roller 120 and the drive roller 130 are continuously rotated so that the end portion FE1 first reaching the feed roller 140 is slightly curved, as illustrated by a dotted curve shown in
As is described above, in order to align the paper P with the feed roller 140, the pickup roller 120 and the drive roller 130 move the paper P by a first registration value after the front end FE of the paper P is detected by the first paper detector 91. In an embodiment of the invention, the front end portion of the paper is slightly curved, as illustrated by the dotted curve in
When the driving motor 180 is burdened with an excessive load during the first registration, the driving motor 180 may be stalled. As a thickness of the paper P increases, a load onto the driving motor 180 also increases. In particular, when a paper feed path from the cassette 110 to the feed roller 140 has a U-shape as shown in
An increase in a load onto the driving motor 180 results in an increase in driving current of the driving motor 180. When the driving current exceeds a predetermined limit, i.e., a limit current value, the driving motor 180 is stalled. Accordingly, the stall or non-stall of the driving motor 180 may be determined by monitoring the driving current of the driving motor 180 that is detected by the current detector 70.
In addition, the stall or non-stall of the driving motor 180 may be determined by monitoring a number of counts generated by the encoder 80, hereinafter referred to as a count number N. The encoder 80 generates a count proportional to a rotation amount of the feed roller 140. Since the feed roller 140 and the pickup roller 120 are rotated by the driving motor 180, the count number N reflects the rotation amount of the pickup roller 120. When the driving motor 180 is stalled, the encoder 80 does not generate a count since the feed roller 140 and the pickup roller 120 are not rotated. Accordingly, when an encoder count error occurs since a counting interval exceeds a predetermined time interval, the stall of the driving motor 180 may be determined. In addition, when an encoder count error occurs since the encoder 80 does not generate a count of a predetermined period of time, the stall of the driving motor 180 may be determined.
Also, the stall or non-stall of the driving motor 180 may be determined by driving the driving motor 180 during a first registration time T1 after the first paper detector 91 detects the front end FE of the paper P and then checking whether the count number N obtained during the first registration time T1 reaches a target count number Nt corresponding to a first registration amount dr. When the count number N is less than the target count number Nt, the driving motor 180 may be determined as being stalled. A theoretical first registration time may be calculated according to Formula (1) using the first registration amount dr, a number M of rotations of the driving motor 180 per unit time, a reduction ratio Rr1 of gears from the driving motor 180 to the pickup roller 120, and a diameter D1 of the pickup roller 120. In an embodiment of the invention, the first registration time T1 is set to be equal to or slightly greater than the theoretical time calculated using Formula (1).
When the stall of the driving motor 180 is detected, a paper jam or the first error due to a mis-feed of the paper P is determined, and a paper feeding operation may be stopped. In an embodiment of the present invention, when the stall of the driving motor 180 is detected, a first registration is further performed, that is, at least one retrial of the first registration is performed, before stopping the paper feeding operation.
If the stall of the driving motor 180 is detected, a mis-feed amount Nm of the paper P is calculated by subtracting the current count number N from the target count number Nt calculated using the first registration amount dr in operation OP13. Then, the paper P is moved by the mis-feed amount Nm. Meanwhile, whether the driving motor 180 is stalled is newly determined. If the stall of the driving motor 180 is continuously detected while operations OP11 through OP13 are repeated a predetermined number of times, that is, when a number of first registrations exceeds a predetermined value in operation OP17, a paper feeding operation is stopped. When the stall of the driving motor 180 is not detected, completion of the first registration is determined.
As is described above, when detection of the first error is performed, poor printing due to paper skew may be prevented. In addition, paper feed errors can be reduced by repeating the first registration to correct the first error. Usually, when printing is stopped due to a paper feed error, a user's manual operation is needed to remove the paper feed error. However, according to the present invention, a paper feed error such as the first error which can be corrected without a user's manual operation is removed by repeating the first registration so that the user's convenience can be improved.
After completion of the first registration, the driving motor 180 rotates the feed roller 140 in the paper feed direction, i.e., the direction F1 so that the paper P passes between the feed roller 140 and the driven roller 141 and is thus fed in operation OP5. Here, as shown in
After completion of the first registration, a second registration is performed in operation OP14. After the first registration, the feed roller 140 feeds the paper P. Thereafter, whether the second paper detector 92 has detected the front end FE of the paper P (for example, the second paper detector 92 is “ON”) within a second registration time T2 is determined in operation OP14-1. When the front end FE of the paper P is determined to have been detected by the second paper detector 92 within the second registration time T2, the controller 90 waits for a predetermined period of time until a front margin of the paper P, having reached below the print head 150, is adjusted and then transmits a print start command to the print head 150 in operation OP14-2. Next, the print head 150 ejects ink so that an image is printed onto the paper P in operation OP6.
When the front end FE of the paper P is determined to have not been detected by the second paper detector 92 within the second registration time T2 since the completion of the first registration, that is, when the front end FE of the paper P just reaches a dotted line C shown in
In an embodiment of the invention, the second registration time T2 to be equal to or slightly greater than the theoretical time calculated using Formula (2). Further, the second registration time T2 is counted starting when the count number N reaches the target count number Nt for the first registration.
Where a slip occurs between the pickup roller 120 or the drive roller 130 and the paper P during the first registration, even when the front end FE of the paper P does not reach the feed roller 140 or is in the dotted position P3 shown in
When it is determined that the front end FE of the paper P is determined to have not been detected by the second paper detector 92 within the second registration time T2 in operation OP14-1, the controller 90 discharges the paper P from the paper feed path in operation OP15. When a rear end of the paper P is determined to have been detected by the first paper detector 91 (for example, the first paper detector 91 is “OFF”) within a predetermined period of time in operation OP16, the paper P is determined to be completely discharged, and when necessary, another paper P is picked up from the cassette 110. However, when the rear end of the paper P is determined to have not been detected by the first paper detector 91 within the predetermined period of time, a paper jam is determined to have occurred, and paper discharge is stopped in operation OP18.
As is described above, the present invention provides the following effects.
Firstly, papers can be reliably picked up and fed one by one regardless a thickness of the papers, and a paper pickup error may be reduced.
Secondly, a first error occurring due to the stall of a driving motor is detected so that poor printing due to a skew of a paper can be prevented.
Thirdly, when the first error is detected, a first registration is repeated, thereby reducing a user's inconvenience of manually handling a paper feed error.
Fourthly, a second registration is performed so that a first error due to a slip of a paper may be detected to more effectively prevent poor printing due to a skew of the paper.
Although a few embodiments of the present invention have been shown and described, it would be appreciated by those skilled in the art that changes may be made in these embodiments without departing from the principles and spirit of the invention, the scope of which is defined in the claims and their equivalents.
Number | Date | Country | Kind |
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2003-56006 | Aug 2003 | KR | national |
2003-56856 | Aug 2003 | KR | national |