Sheet feeding or delivering – Feeding – Separators
Reexamination Certificate
2002-08-21
2004-05-04
Walsh, Donald P. (Department: 3653)
Sheet feeding or delivering
Feeding
Separators
C271S121000
Reexamination Certificate
active
06729614
ABSTRACT:
BACKGROUND OF THE INVENTION
The present invention relates to a sheet feeding apparatus used in copy machines, printers, printing machines, etc. and more specifically to a sheet feeding apparatus capable of separately feeding various types of sheets such as transparent sheets, scored papers, etc.
Copy machines, printers, and printing machines are equipped with a sheet feeding apparatus that feeds sheets one by one from a stack of copy paper by means of a sheet feeding roller. If this kind of sheet feeding apparatus feeds multiple sheets simultaneously, a paper jam may occur. If the feeding force is not strong enough, misfeeding may occur. To avoid these problems, there are methods to ensure that sheets are fed one by one. That is, increasing the friction coefficient between the sheet feeding roller and the sheet of paper so as to feed only the top sheet of the stack, thereby preventing misfeeding. An additional prevention against two or more sheets being fed simultaneously is a paper handling device, such as a paper handling roller, pat handler, or gripper, that does not allow sheets beneath the top sheet to advance so that only the sheet at the top of the paper stack is fed.
This method is effective only if ordinary copy paper is used. However, there has been an increased usage of copy machines and printers, which uses various different kinds of sheets such as transparent sheets, scored papers, and the like. Some types of paper adhere to one another when stacked that it is difficult for the above-mentioned sheet feeding apparatus to prevent two or more sheets from being fed simultaneously.
There is a proposed method that provides an air outlet on the lateral side to the sheet feeding direction of the paper stack, from which air is directed to several sheets at the top of the paper stack and flows through the sheets, thereby separating them. The sheets thus separated as mentioned above are fed one by one to the image forming section by means of a sheet feeding roller. Some printing machines employ a method of using suction to lift a sheet of paper located at the top of the stack and simultaneously transferring the sheet.
However, the suction method requires a compressor that can produce high suction, which results in large-scale equipment which increases power consumption and generates noise.
On the other hand, Japanese Publication Tokkaihei No. 04-23747 proposes, as shown in
FIG. 5
, a method in which air is blown from the lateral side to the feeding direction of the stacked sheets
100
, and a lifted sheet is fed by means of a sheet feeding roller
2
. This method also provides a hold-down member
3
at the rear end of the sheet
100
in the feeding direction so as to prevent sheets
100
from being lifted up excessively.
However, there is a problem with this method in that when the stacked sheets
100
are large, as shown in
FIG. 5
, several top sheets
100
b
of the stacked sheets
100
located in front of the air outlet
1
are lifted as a group. As a result, air does not flow through the sheets, thereby preventing individual sheets from being separated.
Furthermore, when a hold-down member
3
holds down the rear end of the stacked sheets
100
, several top sheets
100
b
are inevitably lifted at the front end where a sheet feeding roller
2
is located. The sheet feeding roller
2
comes in contact with only a central part of the sheet; therefore, on both sides of the sheet feeding roller, several top sheets
100
b
of the stack are lifted, causing the following problems:
As stacked sheets are fed one by one from the top, the height of the uppermost surface of the paper stack is gradually lowered. This prevents the sheet feeding roller from coming in complete contact with the sheets, resulting in misfeeding. To prevent this, a sheet surface sensor is provided so that when the height of the uppermost surface of the paper stack is lowered, an elevating device lifts the stack of sheets
100
to maintain the stack at a certain height. This sheet surface sensor is generally located either on the left or right of the sheet feeding roller
2
, that is the location where several top sheets
100
b
of the stacked sheets
100
are lifted. However, the position of the uppermost surface of the paper stack constantly changes in the vertical direction, consequently, it becomes impossible to reliably detect the position of the uppermost surface of the paper stack.
Moreover, when a hold-down member
3
is provided at the rear end of the stacked sheets
100
, the location of the hold-down member
3
has to be changed according to different sizes of the sheets
100
, thereby making the structure of the sheet feeding apparatus complicated.
SUMMARY OF THE INVENTION
To solve the above-mentioned problems, the primary object of the present invention is to provide a simply-structured sheet feeding apparatus that blows air on the stacked sheets from the lateral side to the sheet feeding direction, thereby individually separating the sheets regardless of the size of the sheets and reliably feeding the sheets one by one.
In addition to the above object, the secondary object is to provide a sheet feeding apparatus that can reliably measure the height of the uppermost surface of the stacked sheets without being influenced by the blown air.
To achieve the primary object, the present invention provides a sheet feeding apparatus comprising a sheet feeding roller that comes in contact with the stacked sheets and feeds sheets one by one from the top, wherein an air outlet is provided so that air can be blown from the lateral side onto the uppermost part of the stacked sheets in the sheet feeding direction, and also, a floatation suppression member for suppressing floatation of the sheets is provided between the air outlet and the sheet feeding roller, spaced from the uppermost surface of the stacked sheets.
To achieve the secondary object, in addition to the above structure, the sheet feeding apparatus according to the present invention comprises an elevating means for raising and lowering the stack of sheets as well as a sheet surface sensor for detecting the height of the uppermost surface of the stack, wherein the sheet surface sensor is disposed adjacent to the sheet feeding roller, and the floatation suppression member is located between the air outlet and the sheet surface sensor in the sheet feeding direction.
Furthermore, the sheet feeding apparatus according to the present invention can comprise a lateral adjusting member which moves freely in the direction that intersects with the sheet feeding direction so as to restrict the lateral positions of the stacked sheets and the lateral adjusting member has a fan that uses the air outlet for blowing out air; or the sheet feeding apparatus has a cover to which the floatation suppression member is mounted so that when the cover is opened and closed, the floatation suppression member is movable between its operating position and retracting position; or the floatation suppression member may be a rotatable roller.
REFERENCES:
patent: 4690395 (1987-09-01), Nowicki
patent: 5110110 (1992-05-01), Wirz et al.
patent: 6264188 (2001-07-01), Taylor et al.
patent: 2003-206041 (2003-07-01), None
Kato Kenji
Okazaki Shigeru
Ueda Daisuke
Bower Kenneth W
Konica Corporation
Muserlian Lucas and Mercanti
Walsh Donald P.
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