1. Field of the Invention
The present invention relates to an image generating apparatus, and more particularly, it relates to an image generating apparatus comprising a feeder for feeding papers.
2. Description of the Background Art
A feeder for feeding papers and an image generating apparatus comprising such a feeder are known in general, as disclosed in Japanese Patent Laying-Open Nos. 02-305727 (1990), 06-64769 (1994) and 2003-26348, for example.
The aforementioned Japanese Patent Laying-Open No. 02-305727 describes the structure of a feeder capable of suppressing simultaneous feeding of a plurality of papers in paper feeding. In this feeder, a sheet separation roller rotating oppositely to the direction of rotation of a paper feed belt is arranged on a position opposite to the paper feed belt. In paper feeding, the feeder presses papers with the paper feed belt and the sheet separation roller, so that the sheet separation roller carries papers other than a fed one oppositely to a paper feed direction. After separating the papers in this manner, the feeder releases the papers from the pressing force of the sheet separation roller. Thus, the feeder separates the papers one by one from each other, while carrying only the fed paper in the paper feed direction with the paper feed belt. This feeder described in Japanese Patent Laying-Open No. 02-305727 is provided with a press roller, a rotating arm, a spring, a wire, a solenoid and the like, in order to press the sheet separation roller against the papers or separate the same from the papers (release the papers from the pressing force of the sheet separation roller). The feeder is further provided with a timer for measuring the timing for releasing the papers from the pressing force of the sheet separation roller.
The aforementioned Japanese Patent Laying-Open No. 06-64769 describes the structure of a feeder capable of suppressing simultaneous feeding of a plurality of papers in paper feeding, similarly to the aforementioned Japanese Patent Laying-Open No. 02-305727. In this feeder, a separation roller rotating oppositely to the rotational direction of a paper feed roller is arranged on a position opposite to the paper feed roller. In paper feeding, the feeder presses papers against the paper feed roller and the separation roller with compression springs, so that the separation roller carries papers other than a fed one oppositely to a paper feed direction. After separating the papers in this manner, the feeder releases the papers from the pressing force of the separation roller. Thus, the feeder separates the papers one by one from each other, while carrying only the fed paper in the paper feed direction with the paper feed roller. This feeder described in Japanese Patent Laying-Open No. 06-64769 is provided with two compression springs, a support member, a lever, a solenoid and the like, in order to press the separation roller against the papers or separate the same from the papers (release the papers from the pressing force of the separation roller). The feeder is also provided with a paper sensor for sensing the timing for releasing the papers from the pressing force of the separation roller.
The aforementioned Japanese Patent Laying-Open No. 2003-26348 describes the structure of an image generating apparatus comprising a feeder capable of suppressing simultaneous feeding of a plurality of papers in paper feeding. In this image generating apparatus, an inclined member is arranged on a position opposite to a paper feed roller. Compression springs press the inclined member against the paper feed roller. The feeder separates papers carried by rotation of the paper feed roller into a fed paper and the remaining papers due to frictional resistance of an inclined portion of the inclined member. The paper feed roller carries only the fed paper in a paper feed direction. In the image generating apparatus described in Japanese Patent Laying-Open No. 2003-26348, therefore, the paper feed roller regularly rotates in the direction for feeding the papers, not to rotate oppositely thereto.
However, the feeder described in the aforementioned Japanese Patent Laying-Open No. 02-305727 must be separately provided with a large number of members such as the sheet separation roller, the press roller, the rotating arm, the spring, the wire, the solenoid and the like in addition to the members such as the paper feed roller and the feed roller, in order to separate the papers one by one from each other. Therefore, the number of components is disadvantageously increased.
The feeder described in the aforementioned Japanese Patent Laying-Open No. 06-64769 must also be separately provided with a large number of members such as the separation roller, the two compression springs, the support member, the lever, the solenoid and the like in addition to the members such as the paper feed roller and the feed roller, in order to separate the papers one by one from each other similarly to the aforementioned Japanese Patent Laying-Open No. 02-305727. Therefore, the number of components is disadvantageously increased.
In the image generating apparatus comprising the feeder described in the aforementioned Japanese Patent Laying-Open No. 2003-26348, on the other hand, the paper feed roller, rotating only in the direction for feeding the papers, disadvantageously also carries an extra paper other than the fed paper in the paper feed direction when the extra paper remains on the inclined member and the paper feed roller comes into contact with this extra paper. In this case, the paper feed roller disadvantageously doubly feeds the papers.
The present invention has been proposed in order to solve the aforementioned problems, and an object of the present invention is to provide an image generating apparatus capable of effectively suppressing double paper feeding and reducing the number of components.
In order to attain the aforementioned object, an image generating apparatus according to a first aspect of the present invention comprises a separation wall for separating papers one by one from each other, a paper feed roller feeding the papers, a push-up member pressing the papers against the paper feed roller and a control portion controlling driving of the paper feed roller and the push-up member by rotating the paper feed roller in a prescribed direction thereby carrying the papers in a paper feed direction, then rotating the paper feed roller oppositely to the prescribed direction while lifting the push-up member thereby carrying the papers oppositely to the paper feed direction by a prescribed distance and thereafter lowering the push-up member.
The image generating apparatus according to the first aspect, provided with the control portion rotating the paper feed roller in the prescribed direction thereby carrying the papers in the paper feed direction and then rotating the paper feed roller oppositely to the prescribed direction while lifting the push-up member thereby carrying the papers oppositely to the paper feed direction by the prescribed distance as hereinabove described so that the push-up member presses the papers against the paper feed roller, can easily carry a fed paper oppositely to the paper feed direction by rotating the paper feed roller oppositely to the prescribed direction. Further, the image generating apparatus, also moving a paper located under the fed paper oppositely to the paper feed direction due to frictional force between this paper and the fed paper following the operation of carrying the fed paper oppositely to the paper feed direction, can return the paper located under the fed paper to a position not beyond the separation wall. In addition, the image generating apparatus can downwardly move the paper, returned to the position not beyond the separation wall, located under the fed paper while lowering the push-up member by controlling the control portion to lower the push-up member after carrying the papers oppositely to the paper feed direction, thereby reliably separating the fed paper from the remaining papers. Consequently, the image generating apparatus can carry only the fed paper in the paper feed direction also when the remaining papers pass the separation wall due to insufficient separation of the papers through the separation wall, thereby effectively suppressing double paper feeding. Further, the image generating apparatus can separate the papers one by one from each other due to the separation wall for separating the papers one by one from each other and the control portion controlling driving of the paper feed roller and the push-up member, so that the same may not be separately provided with various members such as a separation roller, a compression spring, a lever and a solenoid for separating the papers from each other. Thus, the number of components can be inhibited from increase as compared with an image generating apparatus provided with various members such as a separation roller, a compression spring, a lever and a solenoid for separating the papers from each other.
In the aforementioned image generating apparatus according to the first aspect, the separation wall is preferably provided with an inclined portion for separating the papers from each other, for separating the papers one by one from each other by carrying the papers in the paper feed direction along the inclined portion and thereafter carrying the papers oppositely to the paper feed direction. According to this structure, the image generating apparatus can move the paper located under the fed paper in a direction for falling from the inclined portion of the separation wall by carrying the fed paper oppositely to the paper feed direction also when the paper located under the fed paper remains on a position beyond the inclined portion of the separation wall. Therefore, the image generating apparatus can inhibit the paper feed roller from carrying the papers other than the fed paper in the paper feed direction when carrying the fed paper to a printing start position, thereby effectively suppressing double paper feeding.
The aforementioned image generating apparatus according to the first aspect preferably further comprises a paper sensor for sensing the papers, a feed roller carrying the papers and a first motor driving the feed roller and the paper feed roller, and the control portion preferably recognizes a fed paper with a signal received from the paper sensor and controls driving of the first motor to carry the papers with the feed roller and the paper feed roller on the basis of the signal received from the paper sensor. According to this structure, the image generating apparatus can correctly recognize the position of the papers with the paper sensor, thereby correctly carrying the papers with the feed roller and the paper feed roller with reference to the recognized position. Thus, the image generating apparatus can carry the papers oppositely to the paper feed direction with the feed roller and the paper feed roller by a distance necessary for separating the fed paper and the paper located under the fed paper from each other, thereby more reliably separating the papers from each other.
The aforementioned image generating apparatus comprising the paper sensor, the feed roller and the first motor preferably further comprises a press roller pressing the feed roller, and the control portion preferably controls driving of the first motor to carry the papers oppositely to the paper feed direction with the feed roller and the paper feed roller while pressing the papers with the feed roller and the press roller. According to this structure, the image generating apparatus can correctly transmit the rotation of the feed roller to the papers pressed by the feed roller and the press roller. Consequently, the image generating apparatus can more correctly carry the papers by rotating the feed roller.
In the aforementioned image generating apparatus comprising the paper sensor, the feed roller and the first motor, the first motor preferably includes a stepping motor, the paper sensor is preferably arranged between the paper feed roller and the feed roller, and the control portion preferably drives the stepping motor by a prescribed pulse number on the basis of the signal received from the paper sensor after the paper feed roller carries the papers to the paper sensor, so that the paper feed roller carries the papers to a position carriable with the feed roller. According to this structure, the image generating apparatus can correctly carry the papers to the position carriable with the feed roller.
The aforementioned image generating apparatus comprising the paper sensor, the feed roller and the first motor preferably carries the papers oppositely to the paper feed direction by a prescribed distance and thereafter carries the papers in the paper feed direction with the feed roller. According to this structure, the image generating apparatus can correctly carry the papers in the paper feed direction with the feed roller having high feeding accuracy as an essential paper feed operation after carrying the papers oppositely to the paper feed direction for preventing double paper feeding.
The aforementioned image generating apparatus according to the first aspect preferably further comprises a second motor for driving the push-up member, and the control portion preferably vertically rotates the push-up member by controlling driving of the second motor. According to this structure, the image generating apparatus can vertically rotate the push-up member by driving the second motor provided independently of the first motor for carrying the papers, thereby controlling vertical rotation of the push-up member regardless of the operation of carrying the papers. Consequently, the image generating apparatus can easily carry the papers oppositely to the paper feed direction while lifting the push-up member.
In the aforementioned image generating apparatus according to the first aspect, the control portion preferably lowers the push-up member, and thereafter carries the papers in the paper feed direction to a printing start position. According to this structure, the image generating apparatus can reliably separate the fed paper and the remaining papers from each other for starting printing immediately after carrying the papers to the printing start position.
In this case, the image generating apparatus preferably further comprises a feed roller carrying the papers, while the control portion preferably lowers the push-up member and thereafter carries the papers in the paper feed direction to the printing start position with the feed roller. According to this structure, the image generating apparatus can correctly carry the papers to the printing start position with the feed roller.
An image generating apparatus according to a second aspect of the present invention comprises a paper feed roller feeding papers, a feed roller carrying the papers, a press roller pressing the feed roller, a first motor driving the feed roller and the paper feed roller, a push-up member pressing the papers against the paper feed roller, a second motor for driving the push-up member and a control portion controlling driving of the paper feed roller and the push-up member, as well as a separation wall provided with an inclined portion for separating the papers one by one from each other and a paper sensor for sensing the papers, and the control portion recognizes a fed paper with a signal received from the paper sensor for controlling driving of the first motor to carry the papers oppositely to a paper feed direction with the feed roller and the paper feed roller while pressing the papers with the feed roller and the press roller on the basis of the signal received from the paper sensor, drives the second motor thereby vertically rotating the push-up member, carries the papers in the paper feed direction by rotating the paper feed roller in a prescribed rotation, thereafter carries the papers oppositely to the paper feed direction by a prescribed distance by rotating the paper feed roller oppositely to the prescribed direction while lifting the push-up member, and thereafter lowers the push-up member.
The image generating apparatus according to the second aspect, provided with the control portion rotating the paper feed roller in the prescribed direction thereby carrying the papers in the paper feed direction and then rotating the paper feed roller oppositely to the prescribed direction while lifting the push-up member thereby carrying the papers oppositely to the paper feed direction by the prescribed distance as hereinabove described so that the push-up member presses the papers against the paper feed roller, can easily carry the fed paper oppositely to the paper feed direction by rotating the paper feed roller oppositely to the prescribed direction. Further, the image generating apparatus, also moving a paper located under the fed paper oppositely to the paper feed direction due to frictional force between this paper and the fed paper following the operation of carrying the fed paper oppositely to the paper feed direction, can return the paper located under the fed paper to a position not beyond the separation wall. In addition, the image generating apparatus can downwardly move the paper, returned to the position not beyond the separation wall, located under the fed paper while lowering the push-up member by controlling the control portion to lower the push-up member after carrying the papers oppositely to the paper feed direction, thereby reliably separating the fed paper from the remaining papers. Consequently, the image generating apparatus can carry only the fed paper in the paper feed direction also when the remaining papers pass the separation wall due to insufficient separation of the papers through the separation wall, thereby effectively suppressing double paper feeding. Further, the image generating apparatus can separate the papers one by one from each other due to the separation wall for separating the papers one by one from each other and the control portion controlling driving of the paper feed roller and the push-up member, so that the same may not be separately provided with various members such as a separation roller, a compression spring, a lever and a solenoid for separating the papers from each other. Thus, the number of components can be inhibited from increase as compared with an image generating apparatus provided with various members such as a separation roller, a compression spring, a lever and a solenoid for separating the papers from each other. Further, the separation wall is provided with the inclined portion for separating the papers from each other, for separating the papers one by one from each other by carrying the papers in the paper feed direction along the inclined portion and thereafter carrying the papers oppositely to the paper feed direction, whereby the image generating apparatus can move the paper located under the fed paper in a direction for falling from the inclined portion of the separation wall by carrying the fed paper oppositely to the paper feed direction also when the paper located under the fed paper remains on a position beyond the inclined portion of the separation wall. Therefore, the image generating apparatus can inhibit the paper feed roller from carrying the papers other than the fed paper in the paper feed direction when carrying the fed paper to a printing start position, thereby effectively suppressing double paper feeding.
According to the second aspect, further, the control portion recognizes the fed paper with the signal received from the paper sensor and controls driving of the first motor to carry the papers with the feed roller and the paper feed roller on the basis of the signal received from the paper sensor, whereby the image generating apparatus can correctly recognize the position of the papers with the paper sensor, thereby correctly carrying the papers with the feed roller and the paper feed roller with reference to the recognized position. Thus, the image generating apparatus can carry the papers oppositely to the paper feed direction with the feed roller and the paper feed roller by a distance necessary for separating the fed paper and the paper located under the fed paper from each other, thereby more reliably separating the papers from each other. In addition, the control portion controls driving of the first motor to carry the papers while pressing the papers with the feed roller and the press roller, whereby the image generating apparatus can correctly transmit the rotation of the feed roller to the papers pressed by the feed roller and the press roller. Consequently, the image generating apparatus can more correctly carry the papers by rotating the feed roller. Further, the control portion vertically rotates the push-up member by controlling driving of the second motor so that the image generating apparatus can vertically rotate the push-up member by driving the second motor provided independently of the first motor for carrying the papers, thereby controlling vertical rotation of the push-up member regardless of the operation of carrying the papers. Consequently, the image generating apparatus can easily carry the papers oppositely to the paper feed direction while lifting the push-up member.
In the aforementioned image generating apparatus according to the second aspect, the first motor preferably includes a stepping motor, the paper sensor is preferably arranged between the paper feed roller and the feed roller, and the control portion preferably drives the stepping motor by a prescribed pulse number on the basis of the signal received from the paper sensor after the paper feed roller carries the papers to the paper sensor, so that the paper feed roller carries the papers to a position carriable with the feed roller. According to this structure, the image generating apparatus can correctly carry the papers to the position carriable with the feed roller.
The aforementioned image generating apparatus according to the second aspect preferably carries the papers oppositely to the paper feed direction by a prescribed distance and thereafter carries the papers in the paper feed direction with the feed roller. According to this structure, the image generating apparatus can correctly carry the papers in the paper feed direction with the feed roller having high feeding accuracy as an essential paper feed operation after carrying the papers oppositely to the paper feed direction for preventing double paper feeding.
In the aforementioned image generating apparatus according to the second aspect, the control portion preferably lowers the push-up member, and thereafter carries the papers in the paper feed direction to a printing start position. According to this structure, the image generating apparatus can reliably separate the fed paper and the remaining papers from each other for starting printing immediately after carrying the papers to the printing start position.
In this case, the control portion preferably lowers the push-up member, and thereafter carries the papers in the paper feed direction to the printing start position with the feed roller. According to this structure, the image generating apparatus can correctly carry the papers to the printing start position with the feed roller.
The foregoing and other objects, features, aspects and advantages of the present invention will become more apparent from the following detailed description of the present invention when taken in conjunction with the accompanying drawings.
An embodiment of the present invention is now described with reference to the drawings.
The structure of a thermal transfer printer according to the embodiment of the present invention is described with reference to
As shown in
As shown in
As shown in
The feed roller 4 has a feed roller gear insert portion 4a inserted into the feed roller gear 5, as shown in
As show in
As shown in
According to this embodiment, the push-up member drive motor 18 drives the drive gear 19 through the gear 18a and the intermediate gear 20 thereby vertically rotating the push-up member 14, as shown in
As shown in
The take-up reel 15 (see
As shown in
As shown in
The control portion 26 totally controlling the operations of the thermal transfer printer as shown in
According to this embodiment, the control portion 26 controls driving of the paper feed motor 17 to carry the papers 9 in the paper feed direction and a direction opposite thereto. Further, the control portion 26 controls driving of the push-up member drive motor 18 for vertically rotating the push-up member 14 about the rotating shaft portions 14a. In addition, the control portion 26 recognizes the papers 9 through a signal received from the paper sensor 30, and carries the papers 9 by a prescribed distance on the basis of the signal received from the paper sensor 30.
Further, the control portion 26 controls the operations of the thermal transfer printer with power supplied from the power supply portion 27, as shown in
A rotating operation of the thermal transfer printer according to this embodiment for the push-up member 14 is now described with reference to
As shown in
Then, the control portion 26 drives the push-up member drive motor 18 (see
The operations of the thermal transfer printer according to the embodiment of the present invention are described with reference to
The lifted push-up member 14 lifts the press plate 28a of the paper cassette case 28 for pressing the papers 9 (9a) stored in the paper cassette case 28 against the paper feed roller 10, as shown in
At a step S5 shown in
At a step S6, the control portion 26 supplies a pulse signal of 1145 pulses from the time when the paper sensor 30 has sensed the first paper 9a. Thus, the control portion 26 carries the first paper 9a by 25 mm in the paper feed direction (along arrow X) from the position where the paper sensor 30 has sensed this paper 9a. Therefore, the feed roller 4 and the press roller 6 press the first paper 9a so that the paper 9a is carriable, as shown in
At a step S7, the control portion 26 supplies a pulse signal of 500 pulses to the paper feed motor 17, in order to carry the first paper 9a oppositely to the paper feed direction (along arrow Y in
At a step S8, the control portion 26 lowers the push-up member through the aforementioned rotating operation for the push-up member 14. Thus, the control portion 26 also lower the second paper 9b and the subsequent papers 9 in addition to the first paper 9a as shown in
At a step S10, the control portion 26 searches for the ink sheet 29a with the sheet search sensor (not shown). At a step S11, the control portion 26 carries the first paper 9a in the paper feed direction (along arrow X in FIG. 17) up to a printing start position by rotating the feed roller 4 along arrow B as shown in
In the normal printing operation, the control portion 26 first drives the paper feed motor 17 to rotate the motor gear 17a mounted thereon along arrow D for rotating the feed roller gear 5 along arrow E through the intermediate gears 22 and 23, as shown in
At this time, the gear 18a, the intermediate gear 20 and the drive gear 19 (see
At the step S12, the control portion 26 completes the normal printing operation, thereby completing the operations of the thermal transfer printer according to this embodiment.
According to this embodiment, as hereinabove described, the control portion 26, carrying the first paper 9a by 10.6 mm oppositely to the paper feed direction (along arrow Y in
According to this embodiment, the thermal transfer printer can separate the papers 9 one by one from each other due to the separation walls 7a for separating the papers 9 one by one from each other and the control portion 26 controlling driving of the paper feed roller 10 and the push-up member 14, so that the same may not be separately provided with various members such as a separation roller, a compression spring, a lever and a solenoid in order to separate the papers 9 from each other. Therefore, the number of components can be inhibited from increase as compared with a case of providing various members such as a separation roller, a compression spring, a lever and a solenoid in order to separate the papers 9 from each other.
According to this embodiment, the thermal transfer printer, having the inclined portions 7b provided on the separation walls 7a for separating the papers 9 one by one from each other by carrying the papers 9 in the paper feed direction (along arrow X in
According to this embodiment, the control portion 26 recognizes the fed paper 9a through the signal received from the paper sensor 30 and controls driving of the paper feed motor 17 to carry the papers 9 with the feed roller 4 and the paper feed roller 10 on the basis of the signal received from the paper sensor 30 so that the feed roller 4 and the paper feed roller 10 can correctly carry the papers 9 with reference to the position thereof correctly recognized by the paper sensor 30. Therefore, the thermal transfer printer can correctly carry the papers 9 oppositely to the paper feed direction (along arrow Y in
According to this embodiment, the control portion 26 controls driving of the paper feed motor 17 to carry the papers 9 while pressing the same with the feed roller 4 and the press roller 6, whereby the thermal transfer printer can correctly transmit the rotation of the feed roller 4 to the papers 9 pressed by the feed roller 4 and the press roller 6. Consequently, the thermal transfer printer can more correctly carry the papers 9 by rotating the feed roller 4.
According to this embodiment, the control portion 26 vertically rotates the push-up member 14 by controlling driving of the push-up member drive motor 18 so that the thermal transfer printer can vertically rotate the push-up member 14 by driving the push-up member drive motor 18 provided independently of the paper feed motor 17 for carrying the papers 9, thereby controlling vertical rotation of the push-up member 14 regardless of the operation of carrying the papers 9. Consequently, the thermal transfer printer can easily carry the papers 9 oppositely to the paper feed direction while lifting the push-up member 14.
Although the present invention has been described and illustrated in detail, it is clearly understood that the same is by way of illustration and example only and is not to be taken by way of limitation, the spirit and scope of the present invention being limited only by the terms of the appended claims.
For example, while the aforementioned embodiment is applied to the thermal transfer printer employed as an exemplary image generating apparatus, the present invention is not restricted to this but is also applicable to another image generating apparatus such as an ink jet printer or a later printer, so far as the same comprises a feeder.
While the thermal transfer printer carries the papers by the prescribed distance on the basis of the signal received from the paper sensor in the aforementioned embodiment, the present invention is not restricted to this but the control portion may alternatively carry the papers by the prescribed distance without employing the paper sensor.
While the thermal transfer printer carries the papers by the prescribed distance oppositely to the paper feed direction while pressing the papers with the feed roller and the press roller in the aforementioned embodiment, the present invention is not restricted to this but the thermal transfer printer may alternatively carry the papers by the prescribed distance oppositely to the paper feed direction only with the paper feed roller.
While the push-up member drive motor also has the function of rotating the press member pressing the print head in the aforementioned embodiment, the present invention is not restricted to this but a dedicated motor may alternatively be provided for driving only the push-up member. Further alternatively, a drive source other than the motor may vertically drive the push-up member.
While the thermal transfer printer senses the first paper with the paper sensor, then carries the first paper by 25 mm in the paper feed direction and thereafter carries the first paper by 10.6 mm oppositely to the paper feed direction in the aforementioned embodiment, the present invention is not restricted to this but the thermal transfer printer may alternatively carry the first paper by distances other than the above so far as the same can separate the papers one by one from each other.
Number | Date | Country | Kind |
---|---|---|---|
2005-239568 | Aug 2005 | JP | national |
Number | Name | Date | Kind |
---|---|---|---|
4888617 | Okuzawa | Dec 1989 | A |
5076563 | Namba et al. | Dec 1991 | A |
5118090 | Sonoda et al. | Jun 1992 | A |
5213426 | Ewing | May 1993 | A |
5228673 | Osonoe | Jul 1993 | A |
5347350 | Nakahata et al. | Sep 1994 | A |
5386983 | Ando | Feb 1995 | A |
5474288 | Lo et al. | Dec 1995 | A |
5582399 | Sugiura | Dec 1996 | A |
5779234 | Tomii et al. | Jul 1998 | A |
5944430 | Myung | Aug 1999 | A |
5954327 | Lin et al. | Sep 1999 | A |
6000689 | Furuki et al. | Dec 1999 | A |
6022015 | Matsumoto | Feb 2000 | A |
6050564 | Tamehira | Apr 2000 | A |
6105954 | Magee et al. | Aug 2000 | A |
6378858 | Suga | Apr 2002 | B1 |
6550759 | Kotaka et al. | Apr 2003 | B2 |
6880822 | Fukushima et al. | Apr 2005 | B2 |
7182336 | Fukushima et al. | Feb 2007 | B2 |
7182337 | Sasai et al. | Feb 2007 | B2 |
7222847 | Yamamoto | May 2007 | B2 |
20010019192 | Yen et al. | Sep 2001 | A1 |
20020036377 | Togashi | Mar 2002 | A1 |
20030156150 | Hayashi et al. | Aug 2003 | A1 |
20050040588 | Chang | Feb 2005 | A1 |
20050087921 | Aoki et al. | Apr 2005 | A1 |
Number | Date | Country |
---|---|---|
2-305727 | Dec 1990 | JP |
6-64769 | Mar 1994 | JP |
2003-26348 | Jan 2003 | JP |
Number | Date | Country | |
---|---|---|---|
20070040321 A1 | Feb 2007 | US |