US20050285322A1 - Automatic sheet feeder - Google Patents
Automatic sheet feeder Download PDFInfo
- Publication number
- US20050285322A1 US20050285322A1 US11/217,360 US21736005A US2005285322A1 US 20050285322 A1 US20050285322 A1 US 20050285322A1 US 21736005 A US21736005 A US 21736005A US 2005285322 A1 US2005285322 A1 US 2005285322A1
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- United States
- Prior art keywords
- sheet
- passageway
- tray
- temporary storage
- sub
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Classifications
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- B—PERFORMING OPERATIONS; TRANSPORTING
- B65—CONVEYING; PACKING; STORING; HANDLING THIN OR FILAMENTARY MATERIAL
- B65H—HANDLING THIN OR FILAMENTARY MATERIAL, e.g. SHEETS, WEBS, CABLES
- B65H29/00—Delivering or advancing articles from machines; Advancing articles to or into piles
- B65H29/58—Article switches or diverters
- B65H29/60—Article switches or diverters diverting the stream into alternative paths
-
- B—PERFORMING OPERATIONS; TRANSPORTING
- B65—CONVEYING; PACKING; STORING; HANDLING THIN OR FILAMENTARY MATERIAL
- B65H—HANDLING THIN OR FILAMENTARY MATERIAL, e.g. SHEETS, WEBS, CABLES
- B65H5/00—Feeding articles separated from piles; Feeding articles to machines
- B65H5/06—Feeding articles separated from piles; Feeding articles to machines by rollers or balls, e.g. between rollers
Definitions
- the invention relates to an automatic sheet feeder, and more particularly to an automatic sheet feeder applied to a duplex image input/output apparatus.
- a conventional duplex scanner usually has an automatic sheet feeder to turn over a document three times and feed the document through a scan region three times.
- the scanner performs no scan operation because the third sheet-feeding operation is performed such that the document is arranged to return to its original order.
- the invention provides an automatic sheet feeder including a sheet input tray, a first passageway, a second passageway, a third passageway, a temporary tray, a sheet-feeding mechanism and a sheet output tray.
- the sheet input tray stores a plurality of sheets including a first sheet and a second sheet. Each of the first and second sheets has a front side and a back side. The first and second sheets may be successively fed through the first passageway, the second passageway, and the third passageway.
- the first passageway communicates with the sheet input tray.
- a first end of the second passageway selectively communicates with the first passageway.
- a second end of the second passageway communicates with the first passageway.
- the third passageway selectively communicates with the first passageway.
- the temporary tray selectively communicates with the first passageway and the second passageway.
- the sheet-feeding mechanism has a duplex sheet-feeding mode and a simplex sheet-feeding mode.
- the sheet output tray in which the first and second sheets after being fed are stored, communicates with the third passageway.
- the duplex sheet-feeding mode the sheet-feeding mechanism feeds the first sheet from the sheet input tray to the sheet output tray successively through the first passageway, the temporary tray, the second passageway, the first passageway, and the third passageway, and when the first sheet is fed to the third passageway, the second sheet is fed to the first passageway.
- the simplex sheet-feeding mode the sheet-feeding mechanism feeds the first sheet from the sheet input tray to the sheet output tray successively through the first passageway and the temporary tray, and the first sheet falls from the temporary tray to the sheet output tray.
- image-process e.g., scan or print
- FIG. 1 shows a first state of an automatic sheet feeder according to a first embodiment of the invention
- FIG. 2 shows a second state of the automatic sheet feeder according to the first embodiment of the invention
- FIG. 3 shows a third state of the automatic sheet feeder according to the first embodiment of the invention
- FIG. 4 shows a fourth state of the automatic sheet feeder according to the first embodiment of the invention
- FIG. 5 shows an automatic sheet feeder according to a second embodiment of the invention
- FIG. 6 shows a first state of an automatic sheet feeder according to a third embodiment of the invention.
- FIG. 7 shows a second state of the automatic sheet feeder according to the third embodiment of the invention.
- FIG. 8 shows a third state of the automatic sheet feeder according to the third embodiment of the invention.
- FIG. 9 shows a fourth state of the automatic sheet feeder according to the third embodiment of the invention.
- FIG. 10 shows a first state of an automatic sheet feeder according to a fourth embodiment of the invention.
- FIG. 11 shows a second state of the automatic sheet feeder according to the fourth embodiment of the invention.
- FIG. 12 shows a third state of the automatic sheet feeder according to the fourth embodiment of the invention.
- FIG. 13 shows a fourth state of the automatic sheet feeder according to the fourth embodiment of the invention.
- FIG. 14 shows a first state of an automatic sheet feeder according to a fifth embodiment of the invention.
- FIG. 15 shows a second state of the automatic sheet feeder according to the fifth embodiment of the invention.
- FIG. 16 shows a first state of an automatic sheet feeder according to a sixth embodiment of the invention.
- FIG. 17 shows a second state of the automatic sheet feeder according to the sixth embodiment of the invention.
- FIG. 18 shows an automatic sheet feeder according to a seventh embodiment of the invention.
- FIGS. 1 to 4 show several states of an automatic sheet feeder according to a first embodiment of the invention, respectively.
- the automatic sheet feeder is applied to a sheet-fed scanner.
- the automatic sheet feeder also may be combined with a flatbed scanner, or applied to a printer.
- the automatic sheet feeder includes a sheet input tray 10 , a first passageway 12 , a second passageway 14 , a third passageway 16 , a sheet-feeding mechanism 30 , and a sheet output tray 50 .
- the sheet input tray 10 is used to store a plurality of sheets including a first sheet P 1 and a second sheet P 2 .
- Each of the sheets has a front side and a back side.
- the first sheet P 1 has a front side P 1 A and a back side P 1 B.
- the sheets may be successively fed through the first passageway 12 , the second passageway 14 and the third passageway 16 one by one.
- the first passageway 12 communicates with the sheet input tray 10 .
- a first end 14 A of the second passageway 14 selectively communicates with the first passageway 12
- a second end 14 B of the second passageway 14 communicates with the first passageway 12 .
- the third passageway 16 selectively communicates with the first passageway 12 .
- the sheet-feeding mechanism 30 feeds the first sheet P 1 successively from the sheet input tray 10 to the first passageway 12 , the second passageway 14 , the first passageway 12 , and the third passageway 16 .
- the sheet output tray 50 in which the sheets are stored, communicates with the third passageway 16 .
- the automatic sheet feeder of the invention is configured such that the front side P 1 A of the first sheet P 1 is toward opposite directions when it passes through the first passageway 12 at the first and second times.
- the second sheet P 2 is fed into the first passageway 12 .
- the first passageway 12 includes a main passageway 12 A, a first sub-passageway 12 B, a second sub-passageway 12 C, and a main/sub-passageway guiding rod 12 D.
- the main passageway 12 A communicates with the sheet input tray 10
- the first sub-passageway 12 B communicates with the main passageway 12 A and the second passageway 14
- the second sub-passageway 12 C communicates with the main passageway 12 A and the third passageway 16 .
- the main/sub-passageway guiding rod 12 D switchably guides the first sheet P 1 from the main passageway 12 A to pass through the first sub-passageway 12 B or the second sub-passageway 12 C.
- the automatic sheet feeder of the embodiment further includes a first temporary storage region 22 , a first guiding rod 26 , a second temporary storage region 24 , and a second guiding rod 28 .
- the first temporary storage region 22 in which the first sheet P 1 from the first sub-passageway 12 B is temporarily stored, selectively communicates with the first sub-passageway 12 B and the second passageway 14 .
- the first guiding rod 26 switchably guides the first sheet P 1 from the first sub-passageway 12 B to the first temporary storage region 22 , and guides the first sheet P 1 from the first temporary storage region 22 to the second passageway 14 .
- the second temporary storage region 24 in which the first sheet P 1 from the second sub-passageway 12 C is temporarily stored, selectively communicates with the second sub-passageway 12 C and the third passageway 16 .
- the second guiding rod 28 switchably guides the first sheet P 1 from the second sub-passageway 12 C to the second temporary storage region 24 , and guides the first sheet P 1 from the second temporary storage region 24 to the third passageway 16 .
- an image processing region 20 is formed on the main passageway 12 A.
- an image processing module opposite to the image processing region 20 may perform image processing on the sheet passing through the region 20 .
- the first sheet P 1 may be scanned by a scanning module 60 including an image sensor 61 and a reflecting mirror 62 , or may be printed by a printing module (not shown).
- the sheet-feeding mechanism 30 includes a sheet-input roller 31 , first to third roller sets 32 to 34 , and a sheet-output roller set 39 .
- the sheet-input roller 31 feeds the first sheet P 1 from the sheet input tray 10 to the main passageway 12 A.
- the first roller set 32 is located on the main passageway 12 A to assist in feeding the first sheet P 1 from the sheet input tray 10 to the first sub-passageway 12 B.
- the front side P 1 A of the first sheet P 1 faces downward in the image processing region 20 , and is scanned by the scanning module 60 .
- the main/sub-passageway guiding rod 12 D swings downward to connect the first sub-passageway 12 B with the main passageway 12 A and disconnect the second sub-passageway 12 C from the main passageway 12 A.
- the first guiding rod 26 swings upward to enable the second roller set 33 to feed the first sheet P 1 from the first sub-passageway 12 B to the first temporary storage region 22 .
- the second roller set 33 is reversed and the first guiding rod 26 swings downward so that the second roller set 33 may feed the first sheet P 1 from the first temporary storage region 22 to the second passageway 14 .
- the first sheet P 1 enters the main passageway 12 A from the second end 14 B of the second passageway 14
- the back side P 1 B of the first sheet P 1 in the image processing region 20 faces downward (the front side P 1 A faces upward) and is scanned by the scanning module 60 .
- the main/sub-passageway guiding rod 12 D swings upward so that the first roller set 32 may assist in feeding the first sheet P 1 from second passageway 14 to the second sub-passageway 12 C.
- the second guiding rod 28 swings downward to guide the first sheet P 1 to the third roller set 34 , which feeds the first sheet P 1 from the second sub-passageway 12 C to the second temporary storage region 24 .
- the third roller set 34 is reversed and the second guiding rod 28 swings upward so that the third roller set 34 may feed the first sheet P 1 from the second temporary storage region 24 to the third passageway 16 .
- the sheet-output roller set 39 feeds the first sheet P 1 in the third passageway 16 to the sheet output tray 50
- the sheet-input roller 31 also feeds the second sheet P 2 to the first passageway 12 for scan, and the overall scanning time may be saved accordingly.
- the sheet may be fed to the second temporary storage region 24 and separated from the third roller set 34 and then falls down to the sheet output tray 50 .
- FIG. 5 shows an automatic sheet feeder according to a second embodiment of the invention.
- the second embodiment is similar to the first embodiment except that the automatic sheet feeder of the second embodiment is combined with a flatbed scanner 70 but the automatic sheet feeder of the first embodiment is applied to the sheet-fed scanner.
- FIGS. 6 to 9 show several states of an automatic sheet feeder according to a third embodiment of the invention, respectively.
- the automatic sheet feeder of the third embodiment of the invention is similar to that of the first embodiment.
- the automatic sheet feeder of the first embodiment which is a straight forward type automatic sheet feeder, is applied to the sheet-fed scanner and the sheet is fed in an L-shaped path.
- the automatic sheet feeder of the third embodiment which is a U-shaped type automatic sheet feeder, is used in combination with a flatbed scanner (similar to FIG. 5 but not shown) having a movable scanning module 60 , the sheet is fed in a U-shaped path, and an auxiliary roller set 38 and a first roller set 32 that may be omitted is newly added.
- the second roller set 33 and the auxiliary roller set 38 may be designed to share one roller and the image processing region 20 is located between two first roller sets 32 . Since the operations of this embodiment is the same as those of the first embodiment, detailed description thereof will be omitted but only illustrated in the drawings.
- a temporary tray 10 selectively communicates with the first passageway 12 and the second passageway 14 .
- the sheet-feeding mechanism 30 feeds the first sheet P 1 from the sheet input tray 10 to the sheet output tray 50 successively through the first passageway 12 , the temporary tray 21 , the second passageway 14 , the first passageway 12 , and the third passageway 16 .
- the height of the temporary tray 21 may be lowered from the Q 1 point down to the Q 2 point. Then, the sheet is fed to the first temporary storage region 22 and separated from the second roller set 33 and then falls down to the sheet output tray 50 . That is, the sheet-feeding mechanism 30 feeds the first sheet P 1 from the sheet input tray 10 to the sheet output tray 50 successively through the first passageway 12 and the temporary tray 21 , and the first sheet P falls from the temporary tray 21 to the sheet output tray 50 . It is to be noted that when the height of the temporary tray 21 is lowered from the Q 1 point to the Q 2 point, the duplex scanning processes will not be influenced because the sheet is not released by the second roller set 33 .
- FIGS. 10 to 13 show several states of an automatic sheet feeder according to a fourth embodiment of the invention, respectively.
- the automatic sheet feeder is similar to that of FIG. 5 and is used in combination with a flatbed scanner. For the sake of simplicity, only the scanning module 60 is depicted. However, in other embodiments, the automatic sheet feeder also may be applied to a printer.
- the automatic sheet feeder includes a sheet input tray 10 , a first passageway 12 , a second passageway 14 , a third passageway 16 , a sheet-feeding mechanism 30 , and a sheet output tray 50 .
- the sheet input tray 10 is used to store a plurality of sheets including a first sheet P 1 and a second sheet P 2 .
- Each of the sheets has a front side and a back side.
- the first sheet P 1 has a front side P 1 A and a back side P 1 B.
- the sheets may be successively fed through the first passageway 12 , second passageway 14 and third passageway 16 .
- the first passageway 12 communicates with the sheet input tray 10 .
- a first end 14 A of the second passageway 14 selectively communicates with the first passageway 12
- a second end 14 B of the second passageway 14 communicates with the first passageway 12 .
- the third passageway 16 selectively communicates with the first passageway 12 .
- the sheet-feeding mechanism 30 feeds the first sheet P 1 successively from the sheet input tray 10 to the first passageway 12 , the second passageway 14 , the first passageway 12 , and the third passageway 16 .
- the sheet output tray 50 in which the sheets may be stored after the scanning processes, communicates with the third passageway 16 .
- the automatic sheet feeder of the invention is designed such that the front side P 1 A of the first sheet P 1 is toward opposite directions when it passes through the first passageway 12 at the first and second times.
- the second sheet P 2 is fed to the first passageway 12 .
- the automatic sheet feeder in the embodiment further includes a first temporary storage region 22 , a first guiding rod 26 , and a second guiding rod 28 .
- the first temporary storage region 22 in which the first sheet P 1 from the first passageway 12 is temporarily stored, selectively communicates with the first passageway 12 and the second passageway 14 .
- the first guiding rod 26 switchably guides the first sheet P 1 from the first passageway 12 to the first temporary storage region 22 , and guides the first sheet P 1 from the first temporary storage region 22 to the second passageway 14 .
- the second guiding rod 28 switchably guides the first sheet P 1 from the first passageway 12 to the first temporary storage region 22 or third passageway 16 .
- an image processing region 20 as described above is formed on the first passageway 12 .
- the sheet-feeding mechanism 30 includes a sheet-input roller 31 , a first roller set 32 , a second roller set 33 , a third roller set 34 , a fourth roller set 35 , a fifth roller set 36 and a sheet-output roller set 39 .
- the sheet-input roller 31 feeds the first sheet P 1 from the sheet input tray 10 to the first passageway 12 .
- the front side P 1 A of the first sheet P 1 in the image processing region 20 faces downward and is scanned by the scanning module 60 .
- the first roller set 32 and the second roller set 33 are located on the first passageway 12 to assist in feeding the first sheet P 1 from the sheet input tray 10 to the first temporary storage region 22 .
- the first guiding rod 26 swings upward and the second guiding rod 28 swings downward to guide the first sheet P 1 to the third roller set 34 .
- the third roller set 34 feeds the first sheet P 1 from the first passageway 12 to the first temporary storage region 22 .
- the third roller set 34 is reversed, and the first guiding rod 26 swings downward so that the third roller set 34 may feed the first sheet P 1 from the first temporary storage region 22 to the second passageway 14 .
- the first sheet P 1 enters the first passageway 12 from the second end 14 B the second passageway 14 , and the back side P 1 B of the first sheet P 1 in the image processing region 20 faces downward (the front side P 1 A faces upward) and is scanned by the scanning module 60 .
- the second guiding rod 28 swings upward to guide the first sheet P 1 to the third passageway 16 . It is to be noted that the third roller set 34 and the fourth roller set 35 share one roller.
- the front sides of the sheets in the sheet input tray 10 face downward
- the front sides of the sheets in the sheet output tray 50 also face downward and the order of the sheets is kept unchanged after the above-mentioned sheet-feeding processes are performed.
- the height of the temporary tray 21 may be lowered from the Q 1 point down to the Q 2 point. Then, the sheet is fed to the first temporary storage region 22 and separated from the third roller set 34 and then falls down to the sheet output tray 50 . It is to be noted that when the height of the temporary tray 21 is lowered from the Q 1 point to the Q 2 point, the duplex scanning processes will not be influenced because the sheet is not released by the third roller set 34 . Consequently, the sheet-feeding mechanisms 30 in FIGS. 1 to 13 may selectively perform a duplex sheet-feeding mode and a simplex sheet-feeding mode.
- the sheet-feeding mechanism 30 feeds the first sheet P 1 or the second sheet P 2 from the sheet input tray 10 successively through the first passageway 12 , the second passageway 14 , the first passageway 12 and third passageway 16 , and finally to the sheet output tray 50 .
- the sheet-feeding mechanism 30 feeds the first sheet P 1 or the second sheet P 2 from the sheet input tray 10 through the first passageway 12 and finally to the sheet output tray 50 .
- the relatively order between the first sheet and the second sheet is kept unchanged.
- FIGS. 14 and 15 show the first and second states of the automatic sheet feeder according to a fifth embodiment of the invention.
- the fifth embodiment of the invention provides an automatic sheet feeder including a sheet input tray 10 , a sheet output tray 50 , a first passageway 12 , a second passageway 14 , and a sheet-feeding mechanism 30 .
- the sheet input tray 10 is used to store a plurality of sheets including a first sheet P 1 and a second sheet P 2 . Each of the sheets has a front side (e.g., P 1 A) and a back side (e.g., P 1 B).
- the sheet output tray 50 may store the sheets after being fed. The sheets may be successively fed through the first passageway 12 and the second passageway 14 .
- the first passageway 12 communicates with the sheet input tray 10
- a first end 14 A of the second passageway 14 selectively communicates with the first passageway 12
- a second end 14 B of the second passageway 14 communicates with the first passageway 12 .
- the sheet-feeding mechanism 30 feeds the first sheet P 1 from the sheet input tray 10 successively through the first passageway 12 , the second passageway 14 and the first passageway 12 , and finally to the sheet output tray 50 .
- the sheet when the duplex scanning is performed, the sheet only has to be turned over twice but not thrice. Thus, time may be saved.
- FIGS. 16 and 17 show two states of an automatic sheet feeder according to a sixth embodiment of the invention.
- the sixth embodiment of the invention provides an automatic sheet feeder including a sheet input tray 10 , a sheet output tray 50 , a first passageway 12 , a second passageway 14 and a sheet-feeding mechanism 30 .
- the sheet-feeding mechanism 30 includes a sheet-input roller 31 , a first roller set 32 , a second roller set 33 , and a sheet-output roller set 39 .
- the sheet-input roller 31 feeds the first sheet P 1 from the sheet input tray 10 to the first passageway 12 .
- the first roller set 32 and the second roller set 33 are located on the first passageway 12 to assist in feeding the first sheet P 1 from the sheet input tray 10 to the temporary storage region 22 , and the first sheet P 1 from the second passageway 14 to the sheet output tray 50 .
- the sheet-output roller set 39 feeds the first sheet P 1 from the first passageway 12 to the sheet output tray 50 .
- the second roller set 33 and the sheet-output roller set 39 share the same roller.
- FIG. 18 shows an automatic sheet feeder according to a seventh embodiment of the invention.
- the embodiment is similar to the sixth embodiment except that the second guiding rod 28 and the second roller set 33 of FIG. 16 are omitted and a sheet-output roller set 39 is used instead of the second roller set 33 . Consequently, the sheet-feeding mechanism 30 includes a sheet-input roller 31 , a first roller set 32 and a sheet-output roller set 39 .
- the sheet-input roller 31 feeds the first sheet P 1 from the sheet input tray 10 to the first passageway 12 .
- the first roller set 32 is located on the first passageway 12 to assist in feeding the first sheet P 1 from the sheet input tray 10 to the temporary storage region 22 , and the first sheet P 1 from the second passageway 14 to the temporary storage region 22 .
- the automatic sheet feeder of the invention may effectively accelerate the duplex image processing and greatly shorten the image processing time.
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- Engineering & Computer Science (AREA)
- Mechanical Engineering (AREA)
- Sheets, Magazines, And Separation Thereof (AREA)
- Separation, Sorting, Adjustment, Or Bending Of Sheets To Be Conveyed (AREA)
Abstract
An automatic sheet input tray, first to third passageways, a temporary tray selectively communicating with the first and second passageways, a sheet-feeding mechanism, and a sheet output tray. The sheet-feeding mechanism feeds a first sheet from the sheet input tray to the sheet output tray successively through the first passageway, the temporary tray, the second passageway, the first passageway, and the third passageway in a duplex mode. When the first sheet is fed to the third passageway, a second sheet is fed to the first passageway in the duplex mode. In a simplex mode, the mechanism feeds the first sheet from the sheet input tray to the sheet output ray successively through the first passageway and the temporary tray, and the first sheet falls from the temporary tray to the sheet output tray.
Description
- This application is a divisional of co-pending application Ser. No. 10/718,583, filed on Sep. 9, 2003, the entire contents of which are hereby incorporated by reference.
- 1. Field of the Invention
- The invention relates to an automatic sheet feeder, and more particularly to an automatic sheet feeder applied to a duplex image input/output apparatus.
- 2. Description of the Related Art
- A conventional duplex scanner usually has an automatic sheet feeder to turn over a document three times and feed the document through a scan region three times. When the document passes through the scan region at the first time, its front side is scanned. When the document passes through the scan region at the second time, its back side is scanned. When the document passes through the scan region in the third time, the scanner performs no scan operation because the third sheet-feeding operation is performed such that the document is arranged to return to its original order.
- Consequently, in each scan procedure for one document, it is necessary to wait for the document to thirdly pass through the scan region and then to feed a next document for scan. The conventional automatic sheet feeder wastes a lot of unnecessary waiting time such that the scan operations cannot be performed rapidly.
- It is therefore an object of the invention to provide an automatic sheet feeder capable of accelerating the duplex image processing procedures and meeting the simplex image processing procedures.
- In order to achieve the above-mentioned object, the invention provides an automatic sheet feeder including a sheet input tray, a first passageway, a second passageway, a third passageway, a temporary tray, a sheet-feeding mechanism and a sheet output tray. The sheet input tray stores a plurality of sheets including a first sheet and a second sheet. Each of the first and second sheets has a front side and a back side. The first and second sheets may be successively fed through the first passageway, the second passageway, and the third passageway. The first passageway communicates with the sheet input tray. A first end of the second passageway selectively communicates with the first passageway. A second end of the second passageway communicates with the first passageway. The third passageway selectively communicates with the first passageway. The temporary tray selectively communicates with the first passageway and the second passageway. The sheet-feeding mechanism has a duplex sheet-feeding mode and a simplex sheet-feeding mode. The sheet output tray, in which the first and second sheets after being fed are stored, communicates with the third passageway. In the duplex sheet-feeding mode, the sheet-feeding mechanism feeds the first sheet from the sheet input tray to the sheet output tray successively through the first passageway, the temporary tray, the second passageway, the first passageway, and the third passageway, and when the first sheet is fed to the third passageway, the second sheet is fed to the first passageway. In the simplex sheet-feeding mode, the sheet-feeding mechanism feeds the first sheet from the sheet input tray to the sheet output tray successively through the first passageway and the temporary tray, and the first sheet falls from the temporary tray to the sheet output tray.
- According to the above-mentioned configuration, it is possible to image-process (e.g., scan or print) the second sheet at the time when the first sheet passes through the third passageway.
- Further scope of the applicability of the present invention will become apparent from the detailed description given hereinafter. However, it should be understood that the detailed description and specific examples, while indicating preferred embodiments of the invention, are given by way of illustration only, since various changes and modifications within the spirit and scope of the invention will become apparent to those skilled in the art from this detailed description.
- The present invention will become more fully understood from the detailed description given hereinbelow and the accompanying drawings which are given by way of illustration only, and thus are not limitative of the present invention, and wherein:
-
FIG. 1 shows a first state of an automatic sheet feeder according to a first embodiment of the invention; -
FIG. 2 shows a second state of the automatic sheet feeder according to the first embodiment of the invention; -
FIG. 3 shows a third state of the automatic sheet feeder according to the first embodiment of the invention; -
FIG. 4 shows a fourth state of the automatic sheet feeder according to the first embodiment of the invention; -
FIG. 5 shows an automatic sheet feeder according to a second embodiment of the invention; -
FIG. 6 shows a first state of an automatic sheet feeder according to a third embodiment of the invention; -
FIG. 7 shows a second state of the automatic sheet feeder according to the third embodiment of the invention; -
FIG. 8 shows a third state of the automatic sheet feeder according to the third embodiment of the invention; -
FIG. 9 shows a fourth state of the automatic sheet feeder according to the third embodiment of the invention; -
FIG. 10 shows a first state of an automatic sheet feeder according to a fourth embodiment of the invention; -
FIG. 11 shows a second state of the automatic sheet feeder according to the fourth embodiment of the invention; -
FIG. 12 shows a third state of the automatic sheet feeder according to the fourth embodiment of the invention; -
FIG. 13 shows a fourth state of the automatic sheet feeder according to the fourth embodiment of the invention; -
FIG. 14 shows a first state of an automatic sheet feeder according to a fifth embodiment of the invention; -
FIG. 15 shows a second state of the automatic sheet feeder according to the fifth embodiment of the invention; -
FIG. 16 shows a first state of an automatic sheet feeder according to a sixth embodiment of the invention; -
FIG. 17 shows a second state of the automatic sheet feeder according to the sixth embodiment of the invention; and -
FIG. 18 shows an automatic sheet feeder according to a seventh embodiment of the invention. - FIGS. 1 to 4 show several states of an automatic sheet feeder according to a first embodiment of the invention, respectively. As shown in
FIG. 1 , the automatic sheet feeder is applied to a sheet-fed scanner. However, in other embodiments, the automatic sheet feeder also may be combined with a flatbed scanner, or applied to a printer. The automatic sheet feeder includes asheet input tray 10, afirst passageway 12, asecond passageway 14, athird passageway 16, a sheet-feeding mechanism 30, and asheet output tray 50. - The
sheet input tray 10 is used to store a plurality of sheets including a first sheet P1 and a second sheet P2. Each of the sheets has a front side and a back side. For example, the first sheet P1 has a front side P1A and a back side P1B. - The sheets may be successively fed through the
first passageway 12, thesecond passageway 14 and thethird passageway 16 one by one. Thefirst passageway 12 communicates with thesheet input tray 10. Afirst end 14A of thesecond passageway 14 selectively communicates with thefirst passageway 12, and asecond end 14B of thesecond passageway 14 communicates with thefirst passageway 12. Thethird passageway 16 selectively communicates with thefirst passageway 12. - The sheet-feeding
mechanism 30 feeds the first sheet P1 successively from thesheet input tray 10 to thefirst passageway 12, thesecond passageway 14, thefirst passageway 12, and thethird passageway 16. - The
sheet output tray 50, in which the sheets are stored, communicates with thethird passageway 16. In order to increase the sheet-feeding speed, the automatic sheet feeder of the invention is configured such that the front side P1A of the first sheet P1 is toward opposite directions when it passes through thefirst passageway 12 at the first and second times. In addition, when the first sheet P1 is fed into thethird passageway 16, the second sheet P2 is fed into thefirst passageway 12. - In the embodiment, the
first passageway 12 includes amain passageway 12A, a first sub-passageway 12B, asecond sub-passageway 12C, and a main/sub-passageway guiding rod 12D. Themain passageway 12A communicates with thesheet input tray 10, the first sub-passageway 12B communicates with themain passageway 12A and thesecond passageway 14, and thesecond sub-passageway 12C communicates with themain passageway 12A and thethird passageway 16. The main/sub-passageway guiding rod 12D switchably guides the first sheet P1 from themain passageway 12A to pass through the first sub-passageway 12B or thesecond sub-passageway 12C. - The automatic sheet feeder of the embodiment further includes a first
temporary storage region 22, afirst guiding rod 26, a secondtemporary storage region 24, and asecond guiding rod 28. The firsttemporary storage region 22, in which the first sheet P1 from the first sub-passageway 12B is temporarily stored, selectively communicates with the first sub-passageway 12B and thesecond passageway 14. Thefirst guiding rod 26 switchably guides the first sheet P1 from the first sub-passageway 12B to the firsttemporary storage region 22, and guides the first sheet P1 from the firsttemporary storage region 22 to thesecond passageway 14. The secondtemporary storage region 24, in which the first sheet P1 from thesecond sub-passageway 12C is temporarily stored, selectively communicates with thesecond sub-passageway 12C and thethird passageway 16. Thesecond guiding rod 28 switchably guides the first sheet P1 from the second sub-passageway 12C to the secondtemporary storage region 24, and guides the first sheet P1 from the secondtemporary storage region 24 to thethird passageway 16. - In addition, an
image processing region 20 is formed on themain passageway 12A. In the so-calledimage processing region 20, an image processing module opposite to theimage processing region 20 may perform image processing on the sheet passing through theregion 20. For example, the first sheet P1 may be scanned by ascanning module 60 including animage sensor 61 and a reflectingmirror 62, or may be printed by a printing module (not shown). - In the embodiment, the sheet-feeding
mechanism 30 includes a sheet-input roller 31, first to third roller sets 32 to 34, and a sheet-output roller set 39. The sheet-input roller 31 feeds the first sheet P1 from thesheet input tray 10 to themain passageway 12A. The first roller set 32 is located on themain passageway 12A to assist in feeding the first sheet P1 from thesheet input tray 10 to the first sub-passageway 12B. The front side P1A of the first sheet P1 faces downward in theimage processing region 20, and is scanned by thescanning module 60. - At this time, the main/
sub-passageway guiding rod 12D swings downward to connect the first sub-passageway 12B with themain passageway 12A and disconnect the second sub-passageway 12C from themain passageway 12A. In addition, the first guidingrod 26 swings upward to enable the second roller set 33 to feed the first sheet P1 from the first sub-passageway 12B to the firsttemporary storage region 22. - Referring next to
FIG. 2 , after the first sheet P1 has left the first sub-passageway 12B, the second roller set 33 is reversed and the first guidingrod 26 swings downward so that the second roller set 33 may feed the first sheet P1 from the firsttemporary storage region 22 to thesecond passageway 14. Then, the first sheet P1 enters themain passageway 12A from thesecond end 14B of thesecond passageway 14, the back side P1B of the first sheet P1 in theimage processing region 20 faces downward (the front side P1A faces upward) and is scanned by thescanning module 60. - Referring next to
FIG. 3 , the main/sub-passageway guiding rod 12D swings upward so that the first roller set 32 may assist in feeding the first sheet P1 fromsecond passageway 14 to thesecond sub-passageway 12C. - Then, the
second guiding rod 28 swings downward to guide the first sheet P1 to the third roller set 34, which feeds the first sheet P1 from the second sub-passageway 12C to the secondtemporary storage region 24. - Referring next to
FIG. 4 , after the first sheet P1 has left thesecond sub-passageway 12C, the third roller set 34 is reversed and thesecond guiding rod 28 swings upward so that the third roller set 34 may feed the first sheet P1 from the secondtemporary storage region 24 to thethird passageway 16. Then, when the sheet-output roller set 39 feeds the first sheet P1 in thethird passageway 16 to thesheet output tray 50, the sheet-input roller 31 also feeds the second sheet P2 to thefirst passageway 12 for scan, and the overall scanning time may be saved accordingly. - If the front sides of the sheets in the
sheet input tray 10 face downward, the front sides of the sheets in thesheet output tray 50 also face downward and the order of the sheets is kept unchanged after the above-mentioned sheet-feeding processes are performed - On the other hand, when the simplex image processing such as simplex scanning is to be performed, the sheet may be fed to the second
temporary storage region 24 and separated from the third roller set 34 and then falls down to thesheet output tray 50. -
FIG. 5 shows an automatic sheet feeder according to a second embodiment of the invention. The second embodiment is similar to the first embodiment except that the automatic sheet feeder of the second embodiment is combined with aflatbed scanner 70 but the automatic sheet feeder of the first embodiment is applied to the sheet-fed scanner. - FIGS. 6 to 9 show several states of an automatic sheet feeder according to a third embodiment of the invention, respectively. As shown in FIGS. 6 to 9, the automatic sheet feeder of the third embodiment of the invention is similar to that of the first embodiment. The automatic sheet feeder of the first embodiment, which is a straight forward type automatic sheet feeder, is applied to the sheet-fed scanner and the sheet is fed in an L-shaped path. However, the automatic sheet feeder of the third embodiment, which is a U-shaped type automatic sheet feeder, is used in combination with a flatbed scanner (similar to
FIG. 5 but not shown) having amovable scanning module 60, the sheet is fed in a U-shaped path, and an auxiliary roller set 38 and a first roller set 32 that may be omitted is newly added. The second roller set 33 and the auxiliary roller set 38 may be designed to share one roller and theimage processing region 20 is located between two first roller sets 32. Since the operations of this embodiment is the same as those of the first embodiment, detailed description thereof will be omitted but only illustrated in the drawings. - In this embodiment, a
temporary tray 10 selectively communicates with thefirst passageway 12 and thesecond passageway 14. In the duplex sheet-feeding mode, the sheet-feedingmechanism 30 feeds the first sheet P1 from thesheet input tray 10 to thesheet output tray 50 successively through thefirst passageway 12, thetemporary tray 21, thesecond passageway 14, thefirst passageway 12, and thethird passageway 16. - On the other hand, when the simplex image processing such as simplex scanning is to be performed, the height of the
temporary tray 21 may be lowered from the Q1 point down to the Q2 point. Then, the sheet is fed to the firsttemporary storage region 22 and separated from the second roller set 33 and then falls down to thesheet output tray 50. That is, the sheet-feedingmechanism 30 feeds the first sheet P1 from thesheet input tray 10 to thesheet output tray 50 successively through thefirst passageway 12 and thetemporary tray 21, and the first sheet P falls from thetemporary tray 21 to thesheet output tray 50. It is to be noted that when the height of thetemporary tray 21 is lowered from the Q1 point to the Q2 point, the duplex scanning processes will not be influenced because the sheet is not released by the second roller set 33. - FIGS. 10 to 13 show several states of an automatic sheet feeder according to a fourth embodiment of the invention, respectively. As shown in
FIG. 10 , the automatic sheet feeder is similar to that ofFIG. 5 and is used in combination with a flatbed scanner. For the sake of simplicity, only thescanning module 60 is depicted. However, in other embodiments, the automatic sheet feeder also may be applied to a printer. The automatic sheet feeder includes asheet input tray 10, afirst passageway 12, asecond passageway 14, athird passageway 16, a sheet-feedingmechanism 30, and asheet output tray 50. - The
sheet input tray 10 is used to store a plurality of sheets including a first sheet P1 and a second sheet P2. Each of the sheets has a front side and a back side. For example, the first sheet P1 has a front side P1A and a back side P1B. - The sheets may be successively fed through the
first passageway 12,second passageway 14 andthird passageway 16. Thefirst passageway 12 communicates with thesheet input tray 10. Afirst end 14A of thesecond passageway 14 selectively communicates with thefirst passageway 12, asecond end 14B of thesecond passageway 14 communicates with thefirst passageway 12. Thethird passageway 16 selectively communicates with thefirst passageway 12. - The sheet-feeding
mechanism 30 feeds the first sheet P1 successively from thesheet input tray 10 to thefirst passageway 12, thesecond passageway 14, thefirst passageway 12, and thethird passageway 16. - The
sheet output tray 50, in which the sheets may be stored after the scanning processes, communicates with thethird passageway 16. In order to increase the sheet-feeding speed, the automatic sheet feeder of the invention is designed such that the front side P1A of the first sheet P1 is toward opposite directions when it passes through thefirst passageway 12 at the first and second times. When the first sheet P1 is fed to thethird passageway 16, the second sheet P2 is fed to thefirst passageway 12. - The automatic sheet feeder in the embodiment further includes a first
temporary storage region 22, afirst guiding rod 26, and asecond guiding rod 28. The firsttemporary storage region 22, in which the first sheet P1 from thefirst passageway 12 is temporarily stored, selectively communicates with thefirst passageway 12 and thesecond passageway 14. Thefirst guiding rod 26 switchably guides the first sheet P1 from thefirst passageway 12 to the firsttemporary storage region 22, and guides the first sheet P1 from the firsttemporary storage region 22 to thesecond passageway 14. Thesecond guiding rod 28 switchably guides the first sheet P1 from thefirst passageway 12 to the firsttemporary storage region 22 orthird passageway 16. In addition, animage processing region 20 as described above is formed on thefirst passageway 12. - In the embodiment, the sheet-feeding
mechanism 30 includes a sheet-input roller 31, a first roller set 32, a second roller set 33, a third roller set 34, a fourth roller set 35, a fifth roller set 36 and a sheet-output roller set 39. - First, the sheet-
input roller 31 feeds the first sheet P1 from thesheet input tray 10 to thefirst passageway 12. The front side P1A of the first sheet P1 in theimage processing region 20 faces downward and is scanned by thescanning module 60. The first roller set 32 and the second roller set 33 are located on thefirst passageway 12 to assist in feeding the first sheet P1 from thesheet input tray 10 to the firsttemporary storage region 22. At this time, the first guidingrod 26 swings upward and thesecond guiding rod 28 swings downward to guide the first sheet P1 to the third roller set 34. Next, the third roller set 34 feeds the first sheet P1 from thefirst passageway 12 to the firsttemporary storage region 22. - Referring next to
FIG. 11 , after the first sheet P1 has left thefirst passageway 12, the third roller set 34 is reversed, and the first guidingrod 26 swings downward so that the third roller set 34 may feed the first sheet P1 from the firsttemporary storage region 22 to thesecond passageway 14. Then, the first sheet P1 enters thefirst passageway 12 from thesecond end 14B thesecond passageway 14, and the back side P1B of the first sheet P1 in theimage processing region 20 faces downward (the front side P1A faces upward) and is scanned by thescanning module 60. - Next, referring to
FIG. 12 , thesecond guiding rod 28 swings upward to guide the first sheet P1 to thethird passageway 16. It is to be noted that the third roller set 34 and the fourth roller set 35 share one roller. - Then, as shown in
FIG. 13 , when the first sheet P1 is still fed in thethird passageway 16, the second sheet P2 has been fed to thefirst passageway 12 for scan, and the overall scanning time may be saved accordingly. - If the front sides of the sheets in the
sheet input tray 10 face downward, the front sides of the sheets in thesheet output tray 50 also face downward and the order of the sheets is kept unchanged after the above-mentioned sheet-feeding processes are performed. - On the other hand, when the simplex image processing such as simplex scanning is to be performed, the height of the
temporary tray 21 may be lowered from the Q1 point down to the Q2 point. Then, the sheet is fed to the firsttemporary storage region 22 and separated from the third roller set 34 and then falls down to thesheet output tray 50. It is to be noted that when the height of thetemporary tray 21 is lowered from the Q1 point to the Q2 point, the duplex scanning processes will not be influenced because the sheet is not released by the third roller set 34. Consequently, the sheet-feedingmechanisms 30 in FIGS. 1 to 13 may selectively perform a duplex sheet-feeding mode and a simplex sheet-feeding mode. In the duplex sheet-feeding mode, the sheet-feedingmechanism 30 feeds the first sheet P1 or the second sheet P2 from thesheet input tray 10 successively through thefirst passageway 12, thesecond passageway 14, thefirst passageway 12 andthird passageway 16, and finally to thesheet output tray 50. In the simplex sheet-feeding mode, the sheet-feedingmechanism 30 feeds the first sheet P1 or the second sheet P2 from thesheet input tray 10 through thefirst passageway 12 and finally to thesheet output tray 50. After the simplex sheet-feeding mode or duplex sheet-feeding mode, the relatively order between the first sheet and the second sheet is kept unchanged. - Consequently, the invention sufficiently utilizes the time when the first sheet is fed through the third passageway to feed and scan the second sheet, so the overall scanning time may be effectively shortened and the duplex scanning operation may be accelerated without influencing the scanning effects. Alternatively, when the automatic sheet feeder is applied to a printer, the overall printing time also may be effectively shortened.
- According to the above-mentioned embodiments, the automatic sheet feeder of the invention may satisfy the facilitated functions of duplex and simplex image processing, effectively accelerate the duplex image processing, and greatly shorten the image processing time.
-
FIGS. 14 and 15 show the first and second states of the automatic sheet feeder according to a fifth embodiment of the invention. Referring toFIGS. 14 and 15 , the fifth embodiment of the invention provides an automatic sheet feeder including asheet input tray 10, asheet output tray 50, afirst passageway 12, asecond passageway 14, and a sheet-feedingmechanism 30. - The
sheet input tray 10 is used to store a plurality of sheets including a first sheet P1 and a second sheet P2. Each of the sheets has a front side (e.g., P1A) and a back side (e.g., P1B). Thesheet output tray 50 may store the sheets after being fed. The sheets may be successively fed through thefirst passageway 12 and thesecond passageway 14. Thefirst passageway 12 communicates with thesheet input tray 10, afirst end 14A of thesecond passageway 14 selectively communicates with thefirst passageway 12, asecond end 14B of thesecond passageway 14 communicates with thefirst passageway 12. The sheet-feedingmechanism 30 feeds the first sheet P1 from thesheet input tray 10 successively through thefirst passageway 12, thesecond passageway 14 and thefirst passageway 12, and finally to thesheet output tray 50. - The
first passageway 12 includes amain passageway 12A communicating with thesheet input tray 10, a first sub-passageway 12B communicating with themain passageway 12A and thesecond passageway 14, a second sub-passageway 12C communicating with themain passageway 12A and thesheet output tray 50, and a main/sub-passageway guiding rod 12D for switchably guiding the first sheet P1 from themain passageway 12A to the first sub-passageway 12B or thesecond sub-passageway 12C. - A
temporary storage region 22 selectively communicates with the first sub-passageway 12B and thesecond passageway 14 to temporarily store the first sheet P1 coming from the first sub-passageway 12B. Afirst guiding rod 26 switchably guides the first sheet P1 from the first sub-passageway 12B to thetemporary storage region 22, and the first sheet P1 from thetemporary storage region 22 to thesecond passageway 14. - The
main passageway 12A may be formed with animage processing region 20. Ascanning module 60 or a printing module (not shown) may be provided in correspondence with theimage processing region 20 to process (e.g., scan or print) the sheet passing through theimage processing region 20. - The sheet-feeding
mechanism 30 includes a sheet-input roller 31, a first roller set 32, a second roller set 33 and a sheet-output roller set 39. The sheet-input roller 31 feeds the first sheet P1 from thesheet input tray 10 to themain passageway 12A. The first roller set 32 is located on themain passageway 12A to assist in feeding the first sheet P1 from thesheet input tray 10 to the first sub-passageway 12B, and the first sheet P1 from thesecond passageway 14 to thesecond sub-passageway 12C. The second roller set 33 feeds the first sheet P1 from the first sub-passageway 12B to thetemporary storage region 22 and the first sheet P1 from thetemporary storage region 22 to thesecond passageway 14. The sheet-output roller set 39 feeds the first sheet P1 from the second sub-passageway 12C to thesheet output tray 50. - In this embodiment, when the duplex scanning is performed, the sheet only has to be turned over twice but not thrice. Thus, time may be saved.
-
FIGS. 16 and 17 show two states of an automatic sheet feeder according to a sixth embodiment of the invention. Referring toFIGS. 16 and 17 , the sixth embodiment of the invention provides an automatic sheet feeder including asheet input tray 10, asheet output tray 50, afirst passageway 12, asecond passageway 14 and a sheet-feedingmechanism 30. - The
sheet input tray 10 is used to store a plurality of sheets including a first sheet P1 and a second sheet P2. Each of the sheets has a front side (e.g., P1A) and a back side (e.g., P1B). Thesheet output tray 50 may store the sheets after being fed. The sheets may be successively fed through thefirst passageway 12 and thesecond passageway 14. Thefirst passageway 12 communicates with thesheet input tray 10, afirst end 14A of thesecond passageway 14 selectively communicates with thefirst passageway 12, asecond end 14B of thesecond passageway 14 communicates with thefirst passageway 12. The sheet-feedingmechanism 30 feeds the first sheet P1 from thesheet input tray 10 successively through thefirst passageway 12, thesecond passageway 14 and thefirst passageway 12, and finally to thesheet output tray 50. - A
temporary storage region 22 selectively communicates with thefirst passageway 12 and thesecond passageway 14 to temporarily store the first sheet P1 from thefirst passageway 12. Afirst guiding rod 26 switchably guides the first sheet P1 from thefirst passageway 12 to thetemporary storage region 22, and the first sheet P1 from thetemporary storage region 22 to thesecond passageway 14. Asecond guiding rod 28 switchably guides the first sheet P1 from thefirst passageway 12 to thetemporary storage region 22 or thesheet output tray 50. - The
first passageway 12 may be formed with animage processing region 20. Ascanning module 60 or a printing module (not shown) may be provided in correspondence with theimage processing region 20 to process (e.g., scan or print) the sheet passing through theimage processing region 20. - The sheet-feeding
mechanism 30 includes a sheet-input roller 31, a first roller set 32, a second roller set 33, and a sheet-output roller set 39. The sheet-input roller 31 feeds the first sheet P1 from thesheet input tray 10 to thefirst passageway 12. The first roller set 32 and the second roller set 33 are located on thefirst passageway 12 to assist in feeding the first sheet P1 from thesheet input tray 10 to thetemporary storage region 22, and the first sheet P1 from thesecond passageway 14 to thesheet output tray 50. The sheet-output roller set 39 feeds the first sheet P1 from thefirst passageway 12 to thesheet output tray 50. In this embodiment, the second roller set 33 and the sheet-output roller set 39 share the same roller. -
FIG. 18 shows an automatic sheet feeder according to a seventh embodiment of the invention. The embodiment is similar to the sixth embodiment except that thesecond guiding rod 28 and the second roller set 33 ofFIG. 16 are omitted and a sheet-output roller set 39 is used instead of the second roller set 33. Consequently, the sheet-feedingmechanism 30 includes a sheet-input roller 31, a first roller set 32 and a sheet-output roller set 39. The sheet-input roller 31 feeds the first sheet P1 from thesheet input tray 10 to thefirst passageway 12. The first roller set 32 is located on thefirst passageway 12 to assist in feeding the first sheet P1 from thesheet input tray 10 to thetemporary storage region 22, and the first sheet P1 from thesecond passageway 14 to thetemporary storage region 22. The sheet-output roller set 39 feeds the first sheet P1 from thefirst passageway 12 to thetemporary storage region 22, and then feeds the first sheet P1, which is temporarily stored in thetemporary storage region 22, to thesecond passageway 14. The sheet-output roller set 39 further feeds the first sheet P1 from thesecond passageway 14 and thefirst passageway 12 to thetemporary storage region 22 and then release the first sheet P1 to let it fall down to thesheet output tray 50. - Compared to the sixth embodiment, the automatic sheet feeder of the seventh embodiment has a simpler structure.
- According to the above-mentioned embodiments, the automatic sheet feeder of the invention may effectively accelerate the duplex image processing and greatly shorten the image processing time.
- The invention being thus described, it will be obvious that the same may be varied in many ways. Such variations are not to be regarded as a departure from the spirit and scope of the invention, and all such modifications as would be obvious to one skilled in the art are intended to be included within the scope of the following claims.
Claims (16)
1. An automatic sheet feeder, comprising:
a sheet input tray for storing a plurality of sheets including a first sheet and a second sheet, each of the first and second sheets having a front side and a back side;
a first passageway, a second passageway, and a third passageway, through which the first and second sheets may be successively fed, the first passageway communicating with the sheet input tray, a first end of the second passageway selectively communicating with the first passageway, a second end of the second passageway communicating with the first passageway, and the third passageway selectively communicating with the first passageway;
a temporary tray selectively communicating with the first passageway and the second passageway;
a sheet-feeding mechanism having a duplex sheet-feeding mode and a simplex sheet-feeding mode;
a sheet output tray, in which the first and second sheets after being fed are stored, communicating with the third passageway, wherein:
in the duplex sheet-feeding mode, the sheet-feeding mechanism feeds the first sheet from the sheet input tray to the sheet output tray successively through the first passageway, the temporary tray, the second passageway, the first passageway, and the third passageway, and when the first sheet is fed to the third passageway, the second sheet is fed to the first passageway; and
in the simplex sheet-feeding mode, the sheet-feeding mechanism feeds the first sheet from the sheet input tray to the sheet output tray successively through the first passageway and the temporary tray, and the first sheet falls from the temporary tray to the sheet output tray.
2. The automatic sheet feeder according to claim 1 , wherein the first passageway comprises:
a main passageway communicating with the sheet input tray;
a first sub-passageway communicating with the main passageway and the second passageway;
a second sub-passageway communicating with the main passageway and the third passageway; and
a main/sub-passageway guiding rod for switchably guiding the first sheet from the main passageway through the first sub-passageway or the second sub-passageway.
3. The automatic sheet feeder according to claim 2 , further comprising:
a first temporary storage region selectively communicating with the first sub-passageway and the second passageway, the first sheet from the first sub-passageway being temporarily stored in the first temporary storage region; and
a first guiding rod for switchably guiding the first sheet from the first sub-passageway to the first temporary storage region, and guiding the first sheet from the first temporary storage region to the second passageway.
4. The automatic sheet feeder according to claim 3 , further comprising:
a second temporary storage region selectively communicating with the second sub-passageway and the third passageway, the first sheet from the second sub-passageway being temporarily stored in the second temporary storage region; and
a second guiding rod for switchably guiding the first sheet from the second sub-passageway to the second temporary storage region, and guiding the first sheet from the second temporary storage region to the third passageway.
5. The automatic sheet feeder according to claim 4 , wherein the main passageway is formed with an image processing region.
6. The automatic sheet feeder according to claim 5 , further comprising a scanning module opposite to the image processing region for scanning the first sheet passing through the image processing region.
7. The automatic sheet feeder according to claim 5 , further comprising a printing module opposite to the image processing region for printing the first sheet passing through the image processing region.
8. The automatic sheet feeder according to claim 5 , wherein the sheet-feeding mechanism comprises:
a sheet-input roller for feeding the first sheet from the sheet input tray to the main passageway;
a first roller set located on the main passageway for assisting in feeding the first sheet from the sheet input tray to the first sub-passageway, and assisting in feeding the first sheet from the second passageway to the second sub-passageway;
a second roller set for feeding the first sheet from the first sub-passageway to the first temporary storage region, and feeding the first sheet from the first temporary storage region to the second passageway;
a third roller set for feeding the first sheet from the second sub-passageway to the second temporary storage region, and feeding the first sheet from the second temporary storage region to the third passageway; and
a sheet-output roller set for feeding the first sheet from the third passageway to the sheet output tray.
9. The automatic sheet feeder according to claim 1 , further comprising:
a temporary storage region selectively communicating with the first passageway and the second passageway, the first sheet of the first passageway being temporarily stored in the temporary storage region; and
a first guiding rod for switchably guiding the first sheet from the first passageway to the temporary storage region, and guiding the first sheet from the temporary storage region to the second passageway.
10. The automatic sheet feeder according to claim 9 , further comprising:
a second guiding rod for switchably guiding the first sheet from the first passageway to the temporary storage region or the third passageway.
11. The automatic sheet feeder according to claim 10 , wherein the first passageway is formed with an image processing region.
12. The automatic sheet feeder according to claim 11 , further comprising a scanning module opposite to the image processing region for scanning the first sheet passing through the image processing region.
13. The automatic sheet feeder according to claim 11 , further comprising a printing module opposite to the image processing region for printing the first sheet passing through the image processing region.
14-15. (canceled)
16. The automatic sheet feeder according to claim 1 , wherein the sheet-feeding mechanism further has a simplex sheet-feeding mode, in which the sheet-feeding mechanism feeds the first sheet from the sheet input tray through the first passageway and finally to the sheet output tray, a relative order between the first sheet and the second sheet is kept unchanged after the first and second sheets are fed in the simplex sheet-feeding mode or the duplex sheet-feeding mode.
17-31. (canceled)
Priority Applications (2)
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US11/217,360 US20050285322A1 (en) | 2003-04-14 | 2005-09-02 | Automatic sheet feeder |
US11/714,103 US20070152394A1 (en) | 2003-04-14 | 2007-03-06 | Automatic sheet feeder |
Applications Claiming Priority (4)
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TW092205849 | 2003-04-14 | ||
TW92205849 | 2003-04-14 | ||
US10/657,154 US20040201159A1 (en) | 2003-04-14 | 2003-09-09 | Automatic sheet feeder |
US11/217,360 US20050285322A1 (en) | 2003-04-14 | 2005-09-02 | Automatic sheet feeder |
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US10/657,154 Division US20040201159A1 (en) | 2003-04-14 | 2003-09-09 | Automatic sheet feeder |
Related Child Applications (1)
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US11/714,103 Division US20070152394A1 (en) | 2003-04-14 | 2007-03-06 | Automatic sheet feeder |
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US11/217,360 Abandoned US20050285322A1 (en) | 2003-04-14 | 2005-09-02 | Automatic sheet feeder |
US11/714,103 Abandoned US20070152394A1 (en) | 2003-04-14 | 2007-03-06 | Automatic sheet feeder |
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US10/657,154 Abandoned US20040201159A1 (en) | 2003-04-14 | 2003-09-09 | Automatic sheet feeder |
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US11/714,103 Abandoned US20070152394A1 (en) | 2003-04-14 | 2007-03-06 | Automatic sheet feeder |
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US20070280762A1 (en) * | 2006-06-02 | 2007-12-06 | Primax Electronics Ltd. | Automatic document feeder for duplex scanning |
US11724520B2 (en) | 2021-04-01 | 2023-08-15 | Avision Inc. | Peripheral with pivotal turn-over guide mechanism |
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US7455285B2 (en) * | 2005-01-25 | 2008-11-25 | Hewlett-Packard Development Company, L.P. | Media handling accessory and method |
TW200838784A (en) * | 2007-03-21 | 2008-10-01 | Avision Inc | duplex automatic sheet feeder |
JP5970693B2 (en) * | 2012-03-07 | 2016-08-17 | セイコーエプソン株式会社 | Recording device |
TWI651959B (en) * | 2017-12-14 | 2019-02-21 | 崴強科技股份有限公司 | Scanning device with double paper exit channels |
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Cited By (3)
Publication number | Priority date | Publication date | Assignee | Title |
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US20070280762A1 (en) * | 2006-06-02 | 2007-12-06 | Primax Electronics Ltd. | Automatic document feeder for duplex scanning |
US7558523B2 (en) * | 2006-06-02 | 2009-07-07 | Primax Electronics Ltd. | Automatic document feeder for duplex scanning |
US11724520B2 (en) | 2021-04-01 | 2023-08-15 | Avision Inc. | Peripheral with pivotal turn-over guide mechanism |
Also Published As
Publication number | Publication date |
---|---|
US20040201159A1 (en) | 2004-10-14 |
US20070152394A1 (en) | 2007-07-05 |
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