Copy paper feeding device for a copying apparatus

A copy paper feeding device for a copying apparatus includes a plurality of cassettes which are capable of storing copy paper sheets and a feeder which respectively corresponds to each of the cassettes. Each feeder is selectively driven so as to feed the copy paper sheets in the case where the cassettes store copy paper sheets having different sizes and each feeder is driven in a predetermined order so as to feed the copy paper sheets from one cassette until the cassette is empty and then successively feed the copy paper sheets from the remaining cassette in the case where the cassettes store copy paper sheets having the same size. The copy paper feeding device includes a selector for selecting which feeder is to be driven.

BACKGROUND OF THE INVENTION 
1. Field of the Invention 
The present invention relates to a copy paper feeding device for a copying 
apparatus having a plurality of cassettes which are capable of storing 
copy paper sheets and a feeding means respectively corresponding to each 
cassette, and more particularly relates to control system for selecting 
the cassettes. 
2. Description of the Prior Art 
In one prior art arrangement, each feeding means corresponding to each 
cassette is respectively driven in a predetermined order so as to feed 
copy paper sheets from one cassette until the one cassette is empty, and 
then the remaining feeding means is driven so as to successively feed the 
copy paper sheets from the remaining cassette corresponding thereto in the 
case where each of the cassettes stores copy paper sheets having the same 
size. In this fashion, a large number of copying operations are performed. 
However, a significant problem is encountered in such a feeding device. In 
the case where one of the cassettes stores undesired colored copy paper 
sheets, even if all the cassettes store copy paper sheets having the same 
size then the undesired copy paper sheets are also fed. 
Accordingly, an object of the present invention is to provide a copy paper 
feeding device for a copying apparatus which prevents the feeding of the 
undesired copy paper sheets. 
SUMMARY OF THE INVENTION 
To accomplish the foregoing objectives, there is provided a feeding device 
according to the invention for feeding copy papers in a copying apparatus 
which comprises a plurality of cassettes which are capable of storing copy 
paper sheets and a feeding means respectively corresponding to each of the 
cassettes. Each feeding means is selectively driven so as to feed copy 
paper sheets in the case where each cassette stores copy paper sheets 
having different sizes. On the contrary, in the case where each cassette 
stores copy paper sheets having the same size, each feeding means is 
driven in a predetermined order so as to feed copy papers from one 
cassette until the one cassette is empty and then the remaining feeding 
means is driven so as to successively feed copy paper sheets from another 
cassette. The feeding device comprises means which is respectively 
situated is a location corresponding to each feeding means for selecting 
the feeding means to be driven. This selecting means prevents undesired 
copy paper from being fed so as to prevent copy papers from being wasted 
and to enhance the easy handling operation for obtaining a copy paper 
having a desired size.

DETAILED DESCRIPTION OF THE PREFERRED EMBODIMENT 
The following detailed description is of the best presently contemplated 
mode of carrying out the invention. This description is not to be taken in 
a limiting sense, but is made merely for the purpose of illustrating the 
principles of the invention since the scope of the invention best is 
defined by appended claims. 
FIG. 1 is a front view showing a part of an operation panel of a copying 
apparatus according to one aspect of the invention. The operation panel of 
the copying apparatus comprises a display element 1 for displaying the 
size of the stored copy paper sheets, a operation element 2, a selecting 
display element 3, a print button 4, feeding roller selecting switches 201 
and 202, and a display device 200. The display element 1 for indicating 
the size of the stored copy paper sheets has a plurality of display lumps, 
such as the three display lamps 1a, 1b and 1c, respectively corresponding 
to the JIS (Japanese Industrial Standard) sizes B4, A4 and B5, of the copy 
paper sheet capable of being copied. The operation element 2 has size 
selecting switches 2a, 2b and 2c corresponding to the display lamps 1a, 1b 
and 1c, said switches being used for selecting the size of the copy paper 
sheet. The selecting display element 3 has display lamps 3a, 3b and 3c 
respectively corresponding to the display lamps 1a, 1b and 1c for 
indicating the size of the selected copy paper sheet. The feeding roller 
selecting switches 201 and 202 respectively correspond to feeding rollers 
14 and 15 (as shown in FIG. 2) and are manually operated for feeding the 
copy paper sheet. The display device 200 has display lamps 203 and 204 
respectively corresponding to the feeding roller selecting switches 201 
and 202. The print button 4 is also provided in the operation panel. 
FIG. 2 is a simplified cross-sectional view illustrating a configuration in 
the copying apparatus. Around the center of the copying apparatus, a 
photosensitive drum 5 is rotatably mounted and a photosensitive material 
is provided over the entire surface of the photosensitive drum 5. There 
are provided around the photosensitive drum 5, a corona charger 7 for 
charging the photosensitive material, an exposure means 8 for applying a 
light image on the photosensitive material to form an electrostatic latent 
image, a developing device 9 for rendering the electrostatic latent image 
on the photosensitive material visible to form a toner image and also for 
cleaning the photosensitive material, a transfer corona charger 10 for 
transferring the toner image on the photosensitive material to the copy 
paper sheet, and a charge eraser lamp 11 for erasing electric charges 
remaining on the photosensitive material after the transfer operation, 
these elements being in this order along a rotary direction 6 of the 
photosensitive drum 5. 
Cassettes 12 and 13 are capable of being mounted on upper and lower 
positions of the copying apparatus. Each of the cassettes 12 and 13 is 
capable of storing the copy paper sheets having a size corresponding to 
JIS size B4, A4 and B5 selectively. The feeding rollers 14 and 15 are 
rigidly affixed to rotary shafts 16 and 17 and are respectively disposed 
so as be in contact with a top layer of the copy paper sheets stacked in 
the cassettes 12 and 13. According to the manual operation of the 
selecting switches 2a, 2b and 2c of the operation element 2, one of these 
feeding rollers 14 and 15 is driven to selectively rotate so as to feed 
the copy paper sheet from one of the cassettes 12 and 13. The copy paper 
sheet is advanced to a transfer area by a pair of transport rollers 18 
through a guide plate 19 and by a pair of carrying rollers 20 to the 
transfer corona charger 10 so as to contact the photosensitive drum 5. 
After the transfer operation, the copy paper sheet is nipped between a 
peel roller 21 and a transport roller 22 on one side in the width 
direction of the copy paper sheet so as to peel the sheet from the 
photosensitive drum 5, and is then transported to a fixing device (not 
shown) through a pair of transport rollers 23 and a guide plate 24 so that 
the toner image is fixed on the copy paper sheet. 
FIG. 3 is a cross-sectional view showing a vicinity of the ends of the 
feeding rollers 14 and 15. Magnetic clutches 100 and 101 are respectively 
provided on one end of each of the feeding rollers 14 and 15 and have 
sprocket wheels 98 and 99 which are connected by a chain 97 which is 
driven by a driving means (not shown). The magnetic clutches 100 and 101 
are mounted to the housing of the copying apparatus. On energizing a coil 
102 of the magnetic clutch 100, a rotary disk 103 and a clutch plate 104 
are connected to each other by a magnetic force, so that the rotary shaft 
16 and the feeding roller 14 are driven so as to rotate in the same 
direction as the sprocket wheel 98 so as to thereby feed the copy paper 
sheet in the cassette 12. When the coil 102 is not energized, the rotary 
disk 103 and the clutch plate 104 are apart from each other and the 
sprocket wheel 98 rotates freely around the rotary shaft 16. In the same 
manner, when the coil 105 of the magnetic clutch 101 is energized, a 
rotary disk 106 and a clutch plate 107 are connected to each other by a 
magnetic force, so that the rotary shaft 17 and the feeding roller 15 are 
driven so as to rotate with the sprocket wheel 99. When the coil 105 is 
not energized, the sprocket wheel 99 is rotated freely around the rotary 
shaft 17. 
FIG. 4 is a top plan view of the cassette 12 which is mounted on the upper 
portion of the copying apparatus. A switch 27 is provided on the bottom of 
the cassette 12 in an area 25 wherein the copy paper sheets having a JIS 
B5 size are stacked as shown by the imaginary line 25a. There is also 
provided a switch 28 in an area 26 wherein the copy paper sheets having a 
JIS A4 size are stacked as shown by the imaginary line 26a, said switch 28 
being in an area outside of the area 25 corresponding to the JIS B5 size. 
A switch 29 is further provided outside the area 26 corresponding to the 
JIS A4 size. These switches 27, 28 and 29 detect whether or not there are 
copy paper sheets in the cassette 12 and detect the size of the stored 
copy paper sheets. The lower cassette 13 has on the bottom thereof 
switches 30, 31 and 32 respectively situated in the same manner as the 
upper cassette 12. 
FIG. 5 is an electric circuit diagram associated with the display element 1 
for indicating the size of the stored copy paper sheets, the operation 
element 2 and the selecting display element 3. The switches 27 and 30 are 
turned on when any size copy paper sheets are stored in the cassettes 12 
and 13. The switches 28 and 31 are respectively connected to contacts 28a 
and 31a when the cassettes 12 and 13 store copy paper sheets having a JIS 
B5 size, while the switches 28 and 31 are respectively connected to the 
contacts 28b and 31b when the cassettes 12 and 13 store copy paper sheets 
having a JIS A4 size or a JIS B4 size. The switches 29 and 32 are 
respectively connected to contacts 29a and 32a when the cassettes 12 and 
13 store copy paper sheets having a JIS B5 size of a JIS A4 size, and the 
switches 29 and 32 are respectively connected to the contacts 29b and 32b 
when the cassettes 12 and 13 store the copy paper sheets having a JIS B4 
size. 
Turning on a power switch (not shown) of the copying apparatus, a capacitor 
34 provided in a reset circuit 33 is charged gradually, and low level 
signals from the reset circuit 33 are supplied to AND gates 35, 36 and 37 
individually during the charging period. Accordingly, the AND gates 35, 36 
and 37 supply low level signals to flip-flops 41, 42 and 43 so as to reset 
the flip-flops 41, 42 and 43, immediately after the power switch has 
turned on. As a result, the flip-flops 41, 42 and 43 supply low level 
signals to lines 44, 45 and 46. After the capacitor 34 has charged, the 
outputs of the flip-flops 41, 42 and 43 become high level. At this time, 
since the selecting switches 2a, 2b and 2c are turned off, NAND gates 38, 
39 and 40 supply high level signals to lines 47, 48 and 49, so that the 
AND gates 35, 36 and 37 are receiving high level signals. Therefore, the 
output of the AND gates 35, 36 and 37 becomes a high level. 
In this state, when the flip-flops 41, 42 and 43 are receiving low level 
signals through lines 47, 48 and 49, so as to set the flip-flops 41, 42 
and 43, the flip-flops 41, 42 and 43 respectively supply high level 
signals to lines 44, 45 and 46. 
Let us assume that the upper cassette 12 stores copy paper sheets having a 
JIS B5 size and the lower cassette 13 stores copy paper sheets having a 
JIS A4 size. In connection with the upper cassette 12, the switch 27 is 
turned on and the switch 28 contacts contact 28a, so as to supply a high 
level signal through lines 50 and 51 to an input terminal of the OR gate 
52. Then, the OR gate 52 supplies a high level signal through lines 53 and 
54 to a display lamp driving circuit 55 so as to actuate the display lamp 
1c of the display element 1 for indicating that copy paper sheets having a 
JIS B5 size are stored. Since the high level signal via the line 51 is 
also supplied to one input terminal of an AND gate 56 and the switch 31 
contacts the other contact 31b, the AND gate 56 receives a low level 
signal via a line 57 at the other input terminal of the AND gate 56. 
Accordingly, the output signal of the AND gate 56 is a low level. Also, an 
AND gate 59 receives a high level signal at one input terminal thereof via 
a line 58 and a low level signal at the other input terminal from the 
flip-flop 41 via lines 44 and 66 to supply a low level signal. 
Accordingly, the output signal of the AND gate 59 is a low level. 
In connection with the lower cassette 13, the switch 30 turns on and the 
switch 31 is connected to the other contact 31b. Since the switch 32 is 
connected to one contact 32a, OR gate 62 receives a high level signal at 
one input terminal via lines 60 and 61. The high level signal from the OR 
gate 62 is provided to the display lamp driving circuit 55 via lines 63 
and 64 to actuate the display lamp 1b of the display element 1 for 
indicating that copy paper sheets having a JIS B4 size are stored. Also, 
an AND gate 65 receives at one input terminal a high level signal via the 
line 61 and receives at the other input terminal a low level signal since 
in connection with the upper cassette 12, the switch 28 is connected to 
one contact 28a, to supply a low level signal at the output terminal of 
the AND gate 65. An AND gate 67 receives at one input terminal high level 
signal via the line 60 and receives at the other input terminal low level 
signal from the flip-flop 42 via lines 45 and 68, to supply a low level 
signal at an output terminal of the AND gate 67. 
Since the switch 28 is connected to one contact 28a, each of an AND gate 
70, an OR gate 71 and an AND gate 72 receives a low level signal at each 
input terminal via the line 69. Therefore, AND gates 70 and 72 supply low 
level signals. Since the switch 32 is connected to one contact 32a, the OR 
gate 71 receives a low level signal at the other input terminal via lines 
109 and 73. Therefore, the OR gate 71 supplies a low level signal. Since 
AND gates 56, 65 and 70 supply low level signals, an OR gate 74 which is 
responsive to these low level signals supplies a low level signal. Since 
the flip-flop 42 supplies a low level signal to one input terminal of an 
AND gate 76 via lines 45 and 75, the AND gate 76 supplies a low level 
signal. Therefore, an OR gate 77 which is responsive to the low level 
signals from AND gates 59, 76 and 72 supplies a low level signal. An AND 
gate 79 receives a low level signal at one input terminal from a line 78 
to supply a low level signal. Since the flip-flop 43 supplies a low level 
signal to one input terminal of an AND gate 81 via lines 46 and 80, the 
AND gate 81 provides a low level signal. Therefore, an OR gate 82 which is 
responsive to low level signals from the AND gates 79, 67 and 81 supplies 
a low level signal. 
In this situation, the selecting switch 2c of the operation element 2 is 
manually operated to perform a copying operation using copy paper sheets 
having a JIS B5 size. When the selecting switch 2c is on, a high level 
signal is provided to one input terminal of the NAND gate 38. At this 
time, the NAND gate 38 receives a high level signal to the other input 
terminal via the line 53, and therefore, the NAND gate 38 supplies a low 
level signal to the line 47. Consequently, the flip-flop 41 is set to 
supply a high level signal to the display lamp driving circuit 55 via 
lines 44 and 83, so as to turn on the display lamp 3c of the selecting 
display element 3 for indicating a JIS B5 size. The other input terminal 
of the AND gate 59 receives a high level signal via lines 44 and 66. At 
this time, since the AND gate 59 receives a high level signal at one input 
terminal via the line 58, the AND gate 59 supplies a high level signal to 
the OR gate 77 via a line 84. The OR gate 77 supplies a high level signal 
to one input terminal of an AND gate 85. The other input terminal of the 
AND gate 85 is coupled to a circuit 86 for generating a copying operation 
signal, the circuit 86 including the print button 4 as shown in FIG. 1. 
The circuit 86 for generating the copying operation signal provides a high 
level signal when the copying operation is commenced after operation of 
the print button 4, and provided a low level signal after completion of 
the copying operation. The AND gate 85 receives a low level signal at the 
other input terminal and supplies a low level signal when the print button 
4 is not manually operated. 
The AND gate 85 supplies an output signal via a line 205 to one input 
terminal of an AND gate 206. The other input terminal of the AND gate 206 
is coupled to an output terminal of a NAND gate 210. Input terminal of the 
NAND gate 210 is coupled via lines 208 and 209 to the signal generating 
circuit 207 including a switch 202 for selecting feeding rollers as shown 
in FIG. 1. The signal generating circuit 207 provides a high level signal 
when the feeding roller selecting switch 202 is manually operated to drive 
the feeding roller 15, that is, to feed copy papers from the lower 
cassette 13 as shown in FIG. 2. On the contrary, the signal generating 
circuit 207 provides a low level signal when the feeding roller selecting 
siwtch 202 is not manually operated, so that the AND gate 206 receives at 
the other input terminal a high level signal from the NAND gate 210. 
Since copy paper sheets having a JIS B5 size are stored in the cassette 12 
as set forth previously, the circuit 86 for generating the copying 
operation signal supplies a high level signal to the other input terminal 
of the AND gate 85 when the print button 4 is manually operated and the 
feeding roller selecting switch 202 is manually operated. Therefore, the 
AND gate 85 provides a high level signal to one input terminal of the AND 
gate 206, while the AND gate 206 receives a high level signal at the other 
input terminal from the NAND gate 210. Consequently, the transistor 87 is 
turned on to enable the phototransistor 88 to energize the coil 102. As a 
result, the rotary shaft 16 of the feeding roller 14 is coupled to the 
driving means of the electrostatic copying apparatus to commence the 
feeding of the copy paper sheets which have a JIS B5 size and which are 
stored in the upper cassette 12. 
After the completion of the copying operation, the circuit 86 for 
generating the copying operation signal supplies a low level signal, and 
correspondingly, the AND gate 85 provides a low level signal. Therefore, 
the AND gate 206 supplies a low level signal so as not to energize the 
coil 102 and so as to stop the rotation of the feeding roller 14. 
Consequently, the copy paper sheets having a JIS B5 size cease to be fed. 
Let us assume that the selecting switch of the operation element 2 is 
manually operated to perform a copying operation with copy paper sheets 
having a JIS A4 size and stored in the cassette 13 after completion of a 
copying operation using the JIS B5 sized copy paper sheets. As a result, 
the AND gate 39 supplies a low level signal since the NAND gate 39 
receives high level signals at both input terminals. The flip-flop 42 is 
set to provides a high level signal when the input signal via the line 48 
to the flip-flop 42 changes from a high level to a low level. The high 
level signal is coupled to the display lamp driving circuit 55 via a line 
89, and correspondingly, the display lamp 3b of the selecting display 
element 3 corresponding to the JIS A4 size is turned on. At this time, the 
AND gate 35 receives a low level signal via lines 48 and 90, and 
accordingly, the low level signal from the AND gate 35 is supplied to the 
flip-flop 41. As a result, the flip-flop 41 is reset to supply a low level 
signal on the line 44. Therefore, the low level signal is supplied via the 
line 83 to the display lamp driving circuit 55 to turn off a display lamp 
3c of the selecting display element 3 for indicating the JIS B5 size. The 
high level signal on the line 45 is supplied via the line 68 to the other 
input terminal of the AND gate 67. At this time, one of the input 
terminals of the AND gate 67 receives a high level signal via the line 60. 
Therefore, the AND gate 67 supplies a high level signal via the OR gate 82 
to one input terminal of the AND gate 91. 
The other input terminal of the AND gate 91 is connected to the output 
terminal of the AND gate 92, while the input terminal of the AND gate 92 
is connected to the output terminal of the OR gate 211. The OR gate 211 
has one input terminal connected to the input terminal of the OR gate 74. 
The OR gate 211 has the other input terminal connected via lines 211 and 
222 to a signal generating circuit 220 including a feeding roller 
selecting switch 201 as shown in FIG. 1. The signal generating circuit 220 
provides a high level signal when the feeding roller selecting switch 201 
is manually operated to select driving operation of the feeding roller 14, 
that is, the copy paper sheets stored in the upper cassette 12 shown in 
FIG. 2 are to be fed, and also provides a low level signal when feeding 
roller selecting switch 201 is not operated. 
When the feeding roller selecting switch 201 is not manually operated under 
the condition that the copy paper sheets having a JIS B4 are stored in the 
lower cassette 13 as set forth previously, the OR gate 211 receives low 
level signals from the OR gate 74 and the signal generating circuit 220 
via lines 221 and 222. Accordingly, the OR gate 211 provides a low level 
signal to the NAND gate 92 which, therefore, provides a high level signal 
to the other input terminal of the AND gate 91 via the line 93. As a 
result, the AND gate 91 supplies a high level signal to one input terminal 
of the AND gate 94. 
The AND gate 94 has the other input terminal connected to the circuit 86 
for generating a copying operation signal, and has an output terminal 
connected to one input terminal of an OR gate 212. The OR gate 212 has the 
other input terminal connected to an output terminal of an AND gate 230. 
One input terminal of the AND gate 230 is connected to the line 209. The 
other input terminal of the AND gate 230 is connected to the line 231 
which is connected to the line 205. When the feeding roller selecting 
switch 202 is manually operated, the AND gate 230 receives a high level 
signal from the signal generating circuit 207 at one input terminal of the 
AND gate 230. In this situation, the AND gate 85 supplies a high level 
signal to cause the AND gate 230 to provide a high level signal to the OR 
gate 212, while the AND gate 85 supplies a low level signal to cause the 
AND gate 230 to provide a low level signal to the OR gate 212. 
On manually operating the print button 4, the circuit 86 for generating a 
copying operation signal supplies a high level signal to the other input 
terminal of the AND gate 94. The AND gate 94 receives a high level signal 
at one input terminal as mentioned previously, and therefore, the AND gate 
94 provides a high level signal to cause the OR gate 212 to provide a high 
level signal irrespective of the operation of the feeding roller selecting 
switch 202. As a result, the transistor 95 is turned on to enable the 
phototransistor 96 to energize the coil 105. As a result, copy paper 
sheets which are stored in the lower cassette 13 and have a JIS A4 size 
are fed. 
Let us assume that either of the upper and lower cassettes 12 and 13 stores 
copy paper sheets which have the same size, such as a JIS B5 size. In this 
situation, the switch 31 mounted in the lower cassette 13 is coupled to 
one contact 31a to provide a high level signal to the other input terminal 
of the OR gate 52 via lines 78 and 57. The OR gate 52 receives at one 
input terminal a high level signal via the line 51 and provides a high 
level signal to the display lamp driving circuit 55 via lines 53 and 54 to 
turn on the display lamp 1c of the display device for indicating the size 
of the stored copy paper sheets so as to indicate the JIS B5 size. 
Then, the selecting switch 2c of the operation element 2 is manually 
operated, the NAND gate 38 receives at both input terminals high level 
signals, and accordingly provides a low level signal on the line 47 to set 
the flip-flop 41. The display lamp driving circuit 55 receives a high 
level signal from the flip-flop 41 via lines 44 and 83, and accordingly, 
the display lamp 3c of the selecting display element 3 is turned on to 
indicate JIS B5 size. The AND gate 59 receives a high level signal at one 
input terminal from the flip-flop 41 via lines 44 and 66, and receives a 
high level signal at the other input terminal via the line 58. Therefore, 
the AND gate 59 provides a high level signal via a line 84 and the OR gate 
77 to one input terminal of the AND gate 85. The flip-flop 41 also 
provides a high level signal to one input terminal of the AND gate 79 via 
lines 44 and 108. The AND gate 79 receives a high level signal at the 
other input terminal via the line 78 to provide a high level signal 
through the OR gate 82 to one input terminal of the AND gate 91. At this 
time, the AND gate 56 respectively receives high level signals at both 
input terminals via lines 51 and 57 so as to provide a high level signal 
to the OR gate 74. The OR gate 74 provides a high level signal via the OR 
gate 211 to the NAND gate 92. Accordingly, the NAND gate 92 provides a low 
level signal via line 93 to the AND gate 91. Therefore, the AND gate 91 
provides a low level signal. 
Then, the print button 4 is manually operated, and the circuit 86 for 
generating a copying operation signal respectively provides a high level 
signal to the other input terminals of the AND gates 85 and 94. In this 
situation, since the AND gate 85 receives a high level signal at one input 
terminal from the OR gate 77, the AND gate 85 provides a high level signal 
to one input terminal of the AND gate 206. 
In this situation, let us assume that the feeding roller selecting switch 
202 is not manually operated, that is, the lower cassette 13 is not 
specifically chosen. The AND gate 206 receives a high level signal at the 
other input terminal to provide a high level signal therefrom. 
Accordingly, the transistor 87 is turned on to enable the phototransistor 
88 to energize the coil 102. Therefore, the feeding roller 14 is driven so 
as to rotate and to thereby commence feeding of the copy paper sheets 
which are stored in the upper cassette 12 and have a JIS B5 size. On the 
contrary, since the AND gate 94 receives at one input terminal a low level 
signal from the AND gate 91, the AND gate 94 maintains a low level signal 
at one input terminal of the OR gate 212. The OR gate 212 receives at the 
other input terminal a low level signal from the AND gate 230 under the 
condition where the feeding roller selecting switch 202 is not manually 
operated, and maintains a low level signal so as not to energize the coil 
105. Therefore, at first, the copy paper sheets stored in the upper 
cassette 12 and having a JIS B5 size are fed. 
In this situation, let us assume that the upper cassette 12 stores the copy 
paper sheets which have a JIS B5 size and are undesirably colored, and let 
us further assume that the feeding roller selecting switch 202 is manually 
operated to feed copy paper sheets which are stored in the lower cassette 
13 and have a JIS B5 size. Signal generating circuit 207 provides a high 
level signal via the line 28 to the display lamp driving circuit 55 to 
turn on the display lamp 204. The AND gate 206 receives a low level signal 
from the NAND gate 210 at the other input terminal to provide a low level 
signal so as to not energize the coil 102. The AND gate 230 receives at 
one input terminal a high level signal via line 231 from the AND gate 35 
and receives at other input terminal a high level signal via the line 209 
from the signal generating circuit 207, and consequently supplies a high 
level signal to the other input terminal of the OR gate 212 to energize 
the coil 105. Accordingly, a feeding operation is performed so as to feed 
the copy paper sheets which are stored in the lower cassette 12 and have a 
desired JIS B5 size. 
When copying operations are performed successively without operating the 
feeding roller selecting switch 202 and thus all the copy paper sheets 
stored in the upper cassette 12 and having a JIS B5 size are fed out, the 
switch 27 is closed. Accordingly, a signal on the line 50 is low level and 
supplied via the line 51 to one input terminal of the OR gate 52. The OR 
gate 52 receives a high level signal at the other input terminal via lines 
78 and 57, and continues to supply a high level signal therefrom to 
maintain the condition that the display lamp 1c of the display element 1 
for indicating the size of the stored copy paper sheets and the display 
lamp 3c of the selecting display element 3 are actuated. The AND gate 59 
receives a low level signal at one input terminal via lines 50 and 58, and 
thus supplies a low level signal therefrom. Therefore, the coil 102 is not 
energized so as to stop the driving and rotation of the feeding roller 14. 
The signal on the line 50 is at low level, and thus the AND gate 56 
supplies a low level signal. At this time, the AND gates 65 and 70 
continue to supply low level signals. Therefore, the OR gate 74, in 
response to these low level signals from the AND gates 56, 65 and 70, 
supplies a low level signal to one input terminal of the OR gate 211. In 
the case where the feeding roller selecting switch 201 is not manually 
operated, that is, the upper cassette 13 is not specifically chosen to 
feed copy papers, the OR gate receives a low level signal at the other 
input terminal. Accordingly, the NAND gate 92 supplies a high level signal 
via the line 93 to the other input terminal of the AND gate 91. The AND 
gate 91 receives at one input terminal thereof a high level signal from 
the OR gate 82. Therefore, the AND gate 91 supplies a high level signal to 
one input terminal of the AND gate 94. Since the AND gate 94 receives at 
the other input terminal a high level signal from the circuit 86 for 
generating a copying operation signal, the AND gate 94 supplies a high 
level signal. Accordingly, the OR gate 212 supplies a high level signal to 
cause the transistor 95 to be turned on so as to actuate the 
phototransistor 96. Therefore, the coil 105 is energized to enable the 
rotation of the feeding roller 15. As a result, the copy paper sheets 
stored in the lower cassette 13 and having a JIS B5 size are fed. 
In this situation, let us assume that the selecting switch 201 is manually 
operated so as to not feed out the copy paper sheets which are stored in 
the lower cassette 13 and have a JIS B5 size, which are not desired as set 
forth previously, the signal generating circuit 220 supplies a high level 
signal via the line 211 to the display lamp driving circuit 55, so that 
the display lamp 213 is turned on. Since the signal generating circuit 220 
supplies the high level signal via lines 221 and 222 to the other input 
terminal of the OR gate 211, the OR gate 211 supplies a high level signal 
to cause the NAND gate 92 to supply a low level signal. Accordingly, the 
coil 105 is not energized as set forth previously. As a result, the 
desired copy paper sheets stored in the lower cassette 13 and having a JIS 
B5 size are not fed. 
The copy paper sheets having a JIS B5 size are fed out from the lower 
cassette 13, and consequently the copy paper stored in the lower cassette 
13 are entirely fed out, and then the switch 30 is opened. Consequently, 
AND gates 79, 67 and 81 receive low level signals via lines 78, 60 and 109 
individually to cause the OR gate 82 to supply a low level signal. 
Therefore, AND gates 91 and 94 respectively supply low level signals, and 
the OR gate 211 receives at an input terminal a low level signal from the 
AND gate 94. On the contrary, the other input terminal of the OR gate 212 
receives a low level signal from the AND gate 230. Therefore, the coil 105 
is not energized so as to stop the rotation of the feeding roller 15. 
In this fashion, in the case where the copy paper sheets having the same 
size are respectively stored in the cassettes 12 and 13, first, the copy 
paper sheets stored in the upper cassette 12 are fed out until the upper 
cassette 12 is empty, then the copy paper sheets stored in the lower 
cassette 13 are fed out. In the case where one of the cassettes 12 and 13 
stores the undesired copy paper sheets, even if these two cassettes 12 and 
13 store the copy paper sheets having the same size, only the desired copy 
paper sheets are capable of being fed out from the remaining cassette 12 
or 13. 
The invention may be embodied in other specific forms without departing 
from the spirit or essential characteristics thereof. The present 
embodiments are therefore to be considered in all respects as illustrative 
and not restrictive, the scope of the invention being indicated by the 
appended claims rather than by the foregoing description and all changes 
which come within the meaning and range of equivalency of the claims are 
therefore intended to be embraced therein.