The present invention relates to an automatic document feeder, and more particularly to an automatic document feeder having a mechanism for facilitating fixing a sheet pick-up arm in a standby position.
An office machines such as a multifunction peripheral and an image scanning apparatus becomes an essential electronic device in the office. For continuously feeding a stack of documents to increase the scanning speed, the multifunction peripheral and the image scanning apparatus usually has an automatic document feeder.
The sheet pick-up arm 10 of the automatic document feeder 1 is used for feeding the sheets D into the inner portion of the automatic document feeder 1. The sheet pick-up arm 10 may be switched between a standby position and a sheet feeding position. As shown in
The conventional automatic document feeder 1, however, still has some drawbacks. For example, since the sheet pick-up arm 10 should be maintained in the standby position when no sheet feeding operation is performed, proper magnitude of electricity is required to have the sheet pick-up arm 10 stay in the standby position. For achieving a power-saving purpose, the office machine having an automatic document feeder 1 (e.g. a multifunction peripheral or an automatic sheetfed scanner) is operated in a sleeping mode or a power-saving mode if the office machine is not used. In a case that the automatic document feeder 1 is in the sleeping mode or the power-saving mode, the electricity magnitude is not sufficient to have the sheet pick-up arm 10 stay in the standby position. Due to insufficient electricity magnitude, the sheet pick-up arm 10 fails to continuously stay in the standby position when the automatic document feeder 1 is in the sleeping mode or the power-saving mode. Meanwhile, due to the gravity of the sheet pick-up arm 10, the stopper 14 is pressed down by the sheet pick-up arm 10, and the stopping surface 14a is distant from the sheet feeding path C. Under this circumstance, the sheet stopping function of the stopper 14 is lost. If the user forgets that the automatic document feeder 1 is in the sleeping mode but forces a stack of sheets to be introduced into the automatic document feeder 1, many sheets may be erroneously inserted into the sheet feeding path C. After the automatic document feeder 1 is powered on and the automatic document feeder 1 is in a working mode, the stopper 14 fails to normally stop the sheets D because too many sheets are erroneously inserted into the sheet feeding path C. When the sheet feeding operation is performed, a so-called double feeding problem occurs because too many sheets are jammed in the sheet feeding path C. As such, the automatic document feeder 1 fails to be normally operated.
It is an object of the present invention to provide an automatic document feeder having a mechanism for facilitating fixing a sheet pick-up arm in a standby position when the automatic document feeder is in a sleeping mode or a power-saving mode, thereby overcoming the double feeding problem encountered in the prior.
In accordance with an aspect of the present invention, there is provided an automatic document feeder for feeding a sheet. The automatic document feeder includes a top cover having a fixing structure and a first attracting element, a sheet pick-up module and a second attracting element. The fixing structure and the first attracting element are disposed on an inner surface of the top cover. The first attracting element is installed on the fixing structure such that a floating gap is formed between the first attracting element and the fixing structure. The sheet pick-up module is arranged under the inner surface of the top cover, and includes a driving shaft and a sheet pick-up arm. The driving shaft is installed on a main body of the automatic document feeder. The sheet pick-up arm is pivotally coupled to the driving shaft. The sheet pick-up arm is rotatable to either a standby position or a sheet feeding position. When the sheet pick-up arm is rotated to the sheet feeding position, the sheet pick-up module feeds the sheet into an internal portion of the automatic document feeder. The second attracting element is disposed on the sheet pick-up arm. The first attracting element and the second attracting element are attracted by each other when the sheet pick-up arm is rotated to the standby position, so that the sheet pick-up arm is fixed on the standby position.
In an embodiment, the fixing structure is an elongate fixing slice, and the first attracting element is sheathed around the elongate fixing slice.
In an embodiment, the automatic document feeder further includes two position-retaining rings attached on the elongate fixing slice. The first attracting element is arranged between the two position-retaining rings.
In an embodiment, one of the first attracting element and the second attracting element is a magnet, and the other of the first attracting element and the second attracting element is a magnet or a metallic piece.
In an embodiment, the sheet pick-up arm includes a pick-up arm casing, a sheet pick-up roller and a separation roller.
In an embodiment, the second attracting element is disposed on the pick-up arm casing.
In an embodiment, the automatic document feeder further includes an insulating piece, which is arranged on a surface of the first attracting element for reducing a magnetically attractive force between the first attracting element and the second attracting element.
In an embodiment, the automatic document feeder further includes a sponge, which is arranged on a surface of the first attracting element for alleviating impact and collision noise generated between the first attracting element and the second attracting element.
The above objects and advantages of the present invention will become more readily apparent to those ordinarily skilled in the art after reviewing the following detailed description and accompanying drawings, in which:
The present invention provides an automatic document feeder. The automatic document feeder is applied to a multifunction peripheral or an automatic sheetfed scanner.
Please refer to
After the second attracting element 213 is attached on the first attracting element 202, the first attracting element 202 is movable upwardly within the range of the floating gap 203 in a cushioning manner. Due to the floating gap 203, a strong impact generated during the first attracting element 202 and the second attracting element 213 are attracted by each other will be alleviated. Under this circumstance, the possibility of causing deformation of the top cover 20 will be minimized. Moreover, since the sponge 202a is attached on the inner surface of the first attracting element 202, the impact and collision noise generated between the first attracting element 202 and the second attracting element 213 may be alleviated by the sponge 202a. The use of the insulating piece 202b may reduce the magnetically attractive force between the first attracting element 202 and the second attracting element 213.
On the other hand, in a case that no sheet feeding operation is done, the sheet pick-up arm 211 is in the standby position. If the electric current is insufficient to trigger the driving shaft 212 to maintain the sheet pick-up arm 211 in the standby position, the sheet pick-up arm 211 may still stay in the standby position due to the magnetically attractive force between the first attracting element 202 and the second attracting element 213. In other words, the gravity of the sheet pick-up arm fails to naturally lower the sheet pick-up arm to the sheet feeding position.
From the above description, since the first attracting element 202 and the second attracting element 213 are magnetically attracted by each other when the automatic document feeder 2 of a multifunction peripheral or an automatic sheetfed scanner is in a power-saving mode or a sleeping mode, the sheet pick-up arm 211 could still stay in the standby position even if the electricity magnitude is insufficient. Under this circumstance, gravity of the sheet pick-up arm 211 fails to naturally lower the sheet pick-up arm 211 to the sheet feeding position. As a consequence, the stopper 22 is maintained upright to stop the sheets from entering the internal portion of the automatic document feeder 2 through a sheet feeding path 23. Even if the user forgets that the automatic document feeder 2 is in the power-saving mode or the sleeping mode but forces a stack of sheets to be introduced into the automatic document feeder 2, the sheet pick-up arm 211 still stays in the standby position and thus the problem of erroneously inserting many sheets into the sheet feeding path 23 is eliminated. After the automatic document feeder 2 is powered on and the automatic document feeder 2 is in a working mode, the double feeding problem or getting jam of the sheet feeding path 23 will be minimized.
While the invention has been described in terms of what is presently considered to be the most practical and preferred embodiments, it is to be understood that the invention needs not be limited to the disclosed embodiment. On the contrary, it is intended to cover various modifications and similar arrangements included within the spirit and scope of the appended claims which are to be accorded with the broadest interpretation so as to encompass all such modifications and similar structures.
Number | Date | Country | Kind |
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098138655 | Nov 2009 | TW | national |