Automatic paper feed device

An automatic paper feed device includes a first paper feed roller rotating in pressing contact with the upper surface of a sheet stack for feeding upper sheets from the sheet stack by its rotation in a counterclockwise direction, a second paper feed roller located downstream of the first paper feed roller with respect to the paper feeding direction and rotating in a counterclockwise direction for feeding only an uppermost sheet of the sheets fed by the first paper feed roller, a separating roller rotating in a direction opposed to the paper feeding direction while being held in pressing contact with the second paper feed roller for returning the sheets other than the uppermost sheet toward the sheet stack, a first frame rotatably supporting said first paper feed roller and a second frame rotatably supporting said separating roller, a paper feed unit pivotably supported so as to be pivotable in upward and downward directions so that the first paper feed roller descends to a level corresponding to the height of the sheet stack while being held in pressing contact with the upper surface of the sheet stack, and a guide associated with the first and second frames for guiding the copying sheet to a nip portion between the second paper feed roller and the separating roller.

BACKGROUND OF THE INVENTION 
1. Field of the invention 
The present invention relates to an automatic paper feed device for use in 
electrophotographic copying machines, printers, or the like. 
2. Description of the Prior Art 
In the prior automatic paper feed devices, copying sheets stacked on a 
support plate in a paper feed cassette are pushed up to a predetermined 
level by a motor or a spring as a driving source so that the upper surface 
of the sheet stack is held in pressing contact with a paper feed roller. 
Subsequently, upper sheets are fed from the paper feed cassette toward a 
nip portion between another paper feed roller located downstream of said 
paper feed roller with respect to a paper feeding direction (hereinafter, 
this paper feed roller and the paper feed roller in pressing contact with 
the upper surface of the sheet stack are respectively referred to second 
and first paper feed rollers) and a separating roller in pressing contact 
with the second paper feed roller by the rotation of the first paper feed 
roller. At this time, the separating roller rotates in a direction opposed 
to the paper feeding direction for preventing a plurality of sheets from 
being fed simultaneously into the copying machine. As a result, only an 
uppermost sheet is fed in a transfer section. 
However, the automatic paper feed device of this type is relatively large 
and expensive due to the fact that a pushing mechanism is required for 
pushing up a support plate on which the sheets are stacked. 
Further, there arises a problem in that the pressure between the upper 
surface of the sheet stack and the first paper feed roller is not 
uniformly maintained because the pushing up of the support plate is 
intermittently carried out while the height of the upper surface of the 
sheet stack is detected. 
SUMMARY OF THE INVENTION 
The main object of the present invention is to provide a compact and 
inexpensive automatic paper feed device in which the first paper feed 
roller is held in pressing contact with the uppermost surface of the 
sheets stacked on the support plate without the sheet stack being pushed 
up by a pushing mechanism. 
Another object of the present invention is to provide an automatic paper 
feed device which is adapted to constantly feed the copying sheets from 
the paper feed cassette with certainty. 
These and other objects are achieved by providing an automatic paper feed 
device according to the invention which comprises a first paper feed 
roller rotating in pressing contact with the upper surface of the sheet 
stack for feeding upper sheets from the sheet stack by its rotation in a 
counterclockwise direction, a second paper feed roller located downstream 
of said first paper feed roller with respect to the paper feeding 
direction and rotating in the counterclockwise direction for feeding only 
an uppermost sheet of the sheets fed by said first paper feed roller, a 
separating roller rotating in a direction opposed to the paper feeding 
direction while being held in pressing contact with said second paper feed 
roller for returning the sheets other than said uppermost sheet toward the 
sheet stack, a first frame rotatably supporting said first paper feed 
roller and a second frame rotatably supporting said separating roller, a 
paper feed unit pivotably supported so as to be pivotable in upward and 
downward directions wherein the first paper feed roller descends to a 
level corresponding to the height of the sheet stack while being held in 
pressing contact with the upper surface of the sheet stack, and a guide 
means associated with said first and second frame for guiding the copying 
sheets to a nip portion between said second paper feed roller and said 
separating roller. 
These and other objects, advantages and features of the invention will 
become apparent from the following description thereof taken in 
conjunction with the accompanying drawings which illustrate a specific 
embodiment of the invention.

DETAILED DESCRIPTION OF THE INVENTION 
An embodiment in accordance with the present invention will be described 
with reference to the drawings hereinafter. 
FIG. 1 shows an operating state in the invention in which copying sheets P 
are stacked to substantially fill a tray 1 in a paper feed cassette, and 
FIG. 2 shows operating state in which every copying sheet has been fed 
from the paper feed cassette. The tray 1 is fixed to a paper feed section 
of a copying machine at a predetermined level therein. 
A paper feed unit 10 comprises first and second feed rollers 15 and 16, 
both of which are rotatably supported by a first frame 11, and a 
separating roller 25 rotatably supported by a second frame 20. It is to be 
noted here that both the first frame 11 and the second frame 20 are 
included in the paper feed unit 10. Therefore, the paper feed unit 10 
supports the first and second paper feed rollers 15 and 16 and the 
separating roller 25. 
The first frame 11 comprises a base plate portion 11a, guide plate portions 
11b and 11c, and a supporting portion 11d for supporting the second frame 
20 and is pivotably supported at a shaft 12 so as to move therearound in 
the upward and downward directions. The second frame 20 is pivotably 
supported at the supporting portion 11d through a shaft 21 so as to move 
therearound in the upward and downward directions. In addition, the second 
frame 20 is urged upward by a extension spring 22 disposed between the 
second frame 20 and a projecting portion 11e. The separating roller 25 is 
elastically held in pressing contact with the second paper feed roller 16 
by said extension spring 22. Further, the second frame 20 is provided with 
a first guide plate 20a for guiding copying sheets P fed from the paper 
feed cassette toward the nip portion between the second paper feed roller 
16 and the separating roller 25. 
The above-mentioned three rollers 15, 16 and 25 are respectively and 
rotatably driven in a counterclockwise direction by an unillustrated 
driving system. These rollers are controlled so as to be switched on and 
off in a predetermined timing. 
A guide belt 30 is fixed to the first guide plate 20a at a leading end 
thereof. This guide belt 30 is taken up by a take-up roller 32 through an 
idle roller 31 arranged under the leading edge of the tray 1. The take-up 
roller 32 is caused to rotate in the counterclockwise direction as shown 
in FIG. 1 by an unillustrated torsion spring for constantly exerting 
tension on the guide belt 30. 
Meanwhile, arranged downstream of the paper feed unit 10 with respect to 
the paper feed direction are guide plates 40 and 41, transporting rollers 
42 and 43, and a photosensor provided with an actuator 44 for detecting 
the copying sheet. The above-mentioned shaft 12 is located close to the 
edge portion of said guide plate 40, and the edge portion of the guide 
plate portion 11b included in the first frame 11 extends to a location 
close to the guide plate 40. 
The paper feed unit 10 is pivotably supported at the shaft 12 so as to move 
therearound in the upward and downward directions. The first paper feed 
roller 15 is in pressing contact with the uppermost one of the copying 
sheets P stacked on the tray 1 under its own weight due to and the tension 
on the guide belt 30. The pressure between the first paper feed roller and 
the surface of the uppermost copying sheet (the paper feeding pressure) is 
set at about 100 to 250 grams. 
This paper feeding pressure can be established by employing an 
unillustrated auxiliary spring if necessary. 
When the paper feed signal is switched on, the first paper feed roller 15, 
the second paper feed roller 16, and the separating roller 25 are 
respectively driven to rotate in the counterclockwise direction. At first, 
the upper sheets are fed by the rotation of the first paper feed roller 
15. Subsequently, the sheets fed by the first paper feed roller 15 are 
transported to the nip portion between the second paper feed roller 16 and 
the separating roller 25 while guided by the guide belt 30 and the first 
guide plate 20a. Although a few sheets are simultaneously fed from the 
paper feed cassette due to the friction among those sheets, only an 
uppermost sheet is fed in the rightward direction in FIG. 1 by the 
rotation of the second paper feed roller 16 and the other sheets are 
returned to the tray 1 by the rotation of the separating roller 25. The 
uppermost sheet is guided by second and third guide plates 40 and 41 to be 
transported toward the transfer section (not shown) by first and second 
transporting rollers 42 and 43. 
The second paper feed roller 16, the separating roller 25, and the copying 
sheet are selected to satisfy the relationship of U.sub.1 &gt;U.sub.2 
&gt;U.sub.3, wherein the coefficient of the friction between the second paper 
feed roller 16 and the sheet is U.sub.1, that between the separating 
roller 25 and the sheet is U.sub.2, and that between the sheets is 
U.sub.3. Accordingly, the upper sheets fed from the paper feed cassette 
are separated to be transported one by one through the nip portion between 
the second paper feed roller 16 and the separating roller 25. 
The pressure exerted by the first paper feed roller 15 is maintained 
uniform because the paper feed unit 10 descends while pivoting about the 
shaft 12 as the sheets stacked on the tray 1 are fed from the paper feed 
cassette. The positional relationship between the first and second paper 
feed rollers 15 and 16, as well as that between the separating roller 25 
and the first guide plate 20a, is also maintained uniform despite the 
pivotable movement of the paper feed unit 10 in upward and downward 
directions. 
Although the distance from the leading end of the uppermost copy sheet to 
the guide plate 20a becomes great as the copy sheets P are fed from the 
paper feed cassette, the leading end of the sheets are certainly guided by 
the guide belt 30 in order to be transported from the first guide plate 
20a toward the nip portion between the second paper feed roller 16 and the 
separating roller 25. 
Further, the shaft 12 is positioned close to the edge of the second guide 
plate 40 and the guide plate portion 11b of the first frame 11 extends to 
a location close to the second guide plate 40. Therefore, the guide plate 
portion 11b and the second guide plate 40 can successively guide the sheet 
to the transfer section without being adversely influenced by the pivotal 
movement of the paper feed unit 10. 
Meanwhile, the entire paper feed unit 10 is lifted with the first paper 
feed roller 15 when the copying sheets are stacked in the tray 1. In 
response to the lifting movement of the paper feed unit 10, the guide belt 
30 is moved to extend in a substantially vertical direction to thereby 
push back the remaining sheets on the tray 1 toward the tray edge 
confronting the paper feed unit 10. 
As will be clearly understood from the foregoing description, according to 
the present invention, the first feed roller in pressing contact with the 
uppermost copying sheet, the second feed roller and the separating roller 
serving as a separating mechanism are formed as a unit, said unit being 
pivotably supported in the upward and downward directions. With this 
structure, the first feed roller is in pressing contact under its own 
weight with the uppermost copying sheet at a predetermined pressure 
corresponding to the height of the remaining sheets, with the result that 
there is no need to provide a conventional mechanism for pushing up the 
paper feed cassette whereby a small-sized and inexpensive device can be 
realized. 
In addition, each roller is supported by provided at the frames forming a 
unit, facilitating the assembly of the rollers into the device, the 
exchange and the cleaning of the rollers and improving the positional 
accuracy among the rollers. 
Further, the guide belt not only forms a proper guide surface corresponding 
to the height of a stack of sheets but also urges the paper feed unit 
downwardly. It is to be noted here that the guide belt extends 
substantially vertically with respect to the support plate in order to 
push back the leading end of the remaining sheets toward the support plate 
edge confronting the paper feed unit. 
Although the present invention has been fully described by way of examples 
with reference to the accompanying drawings, it is to be noted that 
various changes and modifications will become apparent to those skilled in 
the art. Therefore, unless such changes and modifications otherwise depart 
from the scope of the present invention, they should be construed as being 
included therein.