Copying apparatus

A copying apparatus capable of performing a first preset number of copying operations corresponding to a first original document in a successive copying operation mode, and performing a second preset number of copying operations corresponding to a second original document in an intruded copying operation mode includes preset number display elements for indicating a first and second preset numbers, first counter for counting a number of copying operations, a copy number display element for indicating a value counted by the first counting means, a second counter for counting a discharged copy paper after the completion of a copying operation, and a detector for detecting a jam of the copy paper. The counted value of the first counter is revised so as to be equal to the counted value of the second counter when a copy paper jam occurs.

BACKGROUND OF THE INVENTION 
1. Field of the Invention 
The present invention relates to a copying apparatus, and more 
particularly, to a copying apparatus which is capable of performing a 
successive copying operation mode wherein a first preset number of copying 
operations corresponding to a first original document is achieved 
successively and performing a intruded copying operation mode wherein a 
second preset number of copying operation corresponding to a second 
original document is intruded within the successive copying operation mode 
and then a remaining number of the first preset number corresponding to 
the first original document is achieved. 
2. Description of the Prior Art 
In a prior art arrangement, a number of copied sheets are counted when the 
sheets are fed from a cassette, and a desired preset number of copied 
sheets are obtained by ceasing feeding of copy paper sheets when the 
counted value reaches a preset number. Therefore, a significant problem is 
encountered in such a copying apparatus. When the copy paper is jammed in 
a copy sheet transporting path before completion of the preset number of 
copying operations in that copying mode and the jammed copy paper and any 
other copy paper located in the transporting path are taken out from a 
housing of the copying apparatus during a interruption of the copying 
operation, the copy papers taken out from the housing have been counted. 
Therefore, when the copying operation is commenced again, the number of 
copied sheets obtained is less than the preset number by the number of the 
copy papers which has been taken out from the housing. Consequently, in 
the prior art, it is necessary to revise the previously preset number of 
copying operations when the copying operation is commenced again after 
releasing a copy paper jam. 
Accordingly, it is an object of the present invention to provide an 
improved copying apparatus which is capable of performing the successive 
copying operation without resetting the number of copying operations so as 
to obtain a desired number of copied sheets after a paper jam is released. 
SUMMARY OF THE INVENTION 
To accomplish the foregoing object, there is provided a copying apparatus 
which comprises a preset number display element for displaying a preset 
number of copying operations, a first counting means for counting copying 
operations each time that a single of copying operation is performed, a 
copy number display element for indicating a number counted by the first 
counting means, a second counting means for counting a copy paper 
discharged after completion of a copying operation, and the detecting 
means for detecting occurrence of copy paper jamming. When a copy paper is 
jammed, the value counted by the first counting means is revised so as to 
be equal to a value counted by the second counting means. 
According to the present invention, the copying apparatus is capable of 
performing the successive copying operations without resetting the number 
of copying operations so as to obtain a desired number of copied sheets 
after a paper jam is released. 
According to the preferred embodiment of the invention, a change of 
operation mode is prohibited when the copy paper sheet is jammed at the 
change of operation modes between the successive copying operation mode 
and the intruded copying operation mode. A revise key is also provided, 
and in response to a signal from the revise key, the control means causes 
the preset number display element to indicate the revised number of 
copying operations. Furthermore, the size display element corresponding to 
the size of the copy paper sheet kept in the cassette turns on and off 
repeatedly, and the size display element corresponding to the original 
document in the successive copying operation mode turns on when the size 
of the copy paper sheets kept in the cassette are not suitable for copying 
the original document in the successive copying operation mode after the 
operation mode returns to the successive copying operation mode from the 
intruded copying operation mode.

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 limited sense, but is made merely for the purpose of illustrating the 
general principles of the invention since the scope of the invention is 
best defined by appended claims. 
Referring now to FIG. 1 which is a perspective view illustrating a general 
construction of an embodiment according to the present invention and FIG. 
2 which is a simplified schematic elevational view of the embodiment, 
there is provided an original document table 2 capable of moving 
horizontally in a lateral direction of FIG. 2 in the upper position of a 
housing 1 of an electrostatic copying apparatus. The original document 
table 2 has a transparent plate 4 on which a original document to be 
copied is placed. The original document 3 is covered by means of the 
original document-pressing cover 5 which is supported to be swingable 
around a rotary shaft 6 having an axis parallel to the transparent plate 4 
on the original document table 2. The original document-pressing cover 5 
is provided with a handle 7 for opening and closing the original 
document-pressing cover 5. The original document-pressing cover 5 is of a 
size which is larger than the maximum size of the original document to be 
copied. A cassette 9 is mounted on one side (right hand side in FIG. 2) of 
the housing 1 for storing sheets of copy papers 8 having sizes 
corresponding to the sizes of Japanese Industrial Standard A3, B4, A4, B5, 
A5 and B6. Completed copy sheets are fed out on a tray 10 mounted at the 
other side of the housing 1 (left side in FIG. 2.) The housing 1 is 
capable of being opened by pulling a front panel 15 over the paper of FIG. 
2 when the copying apparatus is repaired. 
In the housing 1, light from an exposure lamp 16 fixed under the 
transparent plate 4 passes through the transparent plate 4, is reflected 
by the original document 3, and then reaches an outer surface of a 
photosensitive drum 22 through a mirror 18, mirror lens 19 and mirrors 20 
and 21 as shown by a dotted line 17 to form an image of the original 
document. Consequently, an electrostatic latent image of the original 
document 3 is formed on the photosensitive drum 22 which is charged by a 
charging device 23. The electrostatic latent image is developed as a toner 
image by a developing device 24. Copy papers 8 in the cassette 9 are fed 
one by one by means of a paper feeding roller 25. A charging device 26 for 
transfer the serves to transfer toner image on the photosensitive drum 22 
onto the copy paper 8. The transferred copy paper is fixed by a thermal 
fixing device 27 and then discharged on the tray 10 by means of 
discharging rollers 28. 
A detecting switch 34 is provided above the cassette 9 in the housing 1 for 
detecting whether or not copy papers 8 are stored in the cassette 9. Size 
detector 32a to 32c are also provided for detecting the JIS A3, B4, A4, 
B5, A5 or B6 size of the copy paper 8 stored in the cassette 9. A jam 
detecting circuit 33 mounted in the housing 1 has two microswitches (not 
shown) spaced from each other in a transporting direction on a copy paper 
transporting path where the copy paper 8 is transported in the copying 
operation set forth above, The jam detecting circuit 33 detects a paper 
jam in the case where a copy paper 8 is not detected by the microswitch 
downstream in the transporting direction within a predetermined time 
period after the detection of the copy paper 8 by the microswitch upstream 
in the transporting direction, and in the case where the microswitch 
downstream in the transporting direction keeps detecting the copy paper 8 
over a predetermined time period. A detecting switch 35 is provided on the 
upper position of the housing for detecting reciprocal movement of the 
original document table 2. A detecting switch 36 provided in the vicinity 
of the discharging rollers 28 detects a trailing edge of the copy paper 8 
when copy paper 8 is discharged by the discharging rollers 28 on the tray 
10. A temperature detector 37 is provided in the vicinity of the thermal 
fixing device 27. The temperature detector 37 detects that the temperature 
of the thermal fixing device 27 reaches a temperature suitable for fixing 
after a power switch in an operation panel 40 (shown in FIG. 3) is closed. 
When a paper jam is detected by the jam detecting circuit 33, the copying 
operation stops owing to a control means 38 which will be mentioned 
hereinafter. A reset switch 39 is mounted in the housing 1 for releasing 
the above-mentioned disabled state of the copying operation. 
Referring further to FIG. 3, an operation panel 40 is provided on a front 
and top portion of the housing 1. The operation panel 40 comprises a power 
switch 11, a knob 14 for adjusting exposure density, a ten key 12, a print 
button 13, a memory key 41, an intrusion key 42, a clear key 43, a revise 
key 60 and display means 44 of a display device. The knob 14 is manually 
operated to adjust an image density of the toner image formed on the copy 
paper 8. The ten key 12 is manually operated to preset the number of 
copying operations and have numerals "0" to "9" on the faces thereof 
individually. The print button 13 is manually operated to commence the 
copying operation of the electrostatic copying apparatus. When the same 
number of copying operations are to be performed corresponding to each of 
original documents, the memory key 41 is manually operated to store the 
preset number until copying operations corresponding to the original 
documents are completed. During a plurality of copying operations 
corresponding to one original document, the intrusion key 42 is manually 
operated to store the remaining number of copying operations so that a 
copying operation corresponding to another original document is interposed 
so as to be performed. The clear key 43 is manually operated to clear the 
number which is preset by the ten key 12. The revise key 60 is manually 
operated to revise the preset number of copying operations before a 
plurality of preset number of coying operations corresponding to a single 
of the original document are completed. 
The display means 44 comprises a plurality of display elements 45 to 49, 
56a to 56f, and 58 for indicating symbols and abbreviations on the faces 
thereof, a preset number display element 50 having display segments driven 
to indicate a preset number, and a copy number display element 51 for 
indicating the number of copying operations which have been performed. The 
display element 45 is actuated at the same time that the memory key 41 is 
manually operated. The display element 45 indicates that the memory key 41 
was manually operated. The display element 46 is actuated at the same that 
the intrusion key 42 is manually operated, and indicates manual operation 
of the intrusion key 42. The memory key 41 and the intrusion key 42 are 
manually operated successively to release the operation modes 
corresponding to the memory key 41 and the intrusion key 42. The display 
element 47 is actuated when the detecting circuit 33 detects the copy 
paper jamming and indicates the of jamming of the electrostatic copying 
apparatus. The display element 48 is actuated when the detecting switch 34 
detects that copy papers 8 have been consumed in the cassette 9. The 
indicating element 49 is actuated just after the power switch 11 is turned 
on, and is turned off to indicate that the electrostatic copying apparatus 
is capable of performing a copying operation when the temperature detector 
37 detects that the temperature of the heat fixing device 27 reaches a 
value suitable for heat fixing. The size display elements 56a to 56f are 
actuated in response to each of output signals from the size detectors 32a 
to 32c, and indicates which of JIS sizes A3, B4, A4, B5, A5 or B6 of the 
copy papers 8 are kept in the cassette 9. The display element 58 is 
actuated when the cassette keeping the sheets of copy papers having a size 
corresponding to the original document to be copied successively is not 
mounted on the housing 1 after the completion of the interposition of 
copying operation by means of the intrusion key 42, and notifies in a 
fashion such as "cassette size is unsuitable," to mean that the cassette 
suitable for the original document to be copied should be mounted on the 
housing 1. The preset number display element 50 is actuated by the manual 
operation of the ten key 12 to indicate the preset number of copying 
operation to be performed by means such as two figures. The preset number 
display element 50 comprises a display portion 50a composed of segments of 
7B front and a display portion 50b for indicating dots. The copy number 
display element 51 indicates the accumulated number of copying operations 
actually performed in the electrostatic copying apparatus by means of, for 
example, two figures. 
FIG. 4 is a simplified block diagram of a control system. A control means 
38 receives signals from the jam detecting circuit 33, detecting switches 
35 and 36, the reset switch 39, the power switch 11, the ten key 12, the 
print button 13, the memory key 41, the intrusion key 42, the clear key 43 
and the revise key 60 to actuate the display elements 45 to 51, 56a to 56f 
and 58 of the display means 44. The control means 38 has a first register 
R1, second register R2 and first to ninth memories M1 to M9 which are 
associated with signals from the jam detecting circuit 33, the switches 
35, 36, 39 and 11, the keys 12, 41, 42, 43, and 60, and the print button 
13. Each time that registers R1 or R2 receive a high level pulse signal at 
an input terminal (not shown), that register serves to add pulse number of 
the signals to a prestored number, that is, to count the number of pulse 
signals, and to store the resultant value. Each register R1 and R2 
receives a signal indicating a number from the memories M1 to M9 as set 
forth hereinafter and stores the number. In each register R1 and R2, a 
prestored number is erased when the signal indicating a number from the 
memories M1 to M9 is supplied, and the number supplied from the memories 
M1 to M9 is stored. The control means 38 is responsive to signals from the 
jam detecting circuit 33, the switches 35, 36, 39 and 11, the keys 12, 41, 
42, 43 and 60, and the print button 13, and drive the preset number 
display element 50, the copy number display element 51, the display 
elements 56a to 56f and a display element 58 via the driving means 59. 
Referring now to FIGS. 5(a) to (c), there is shown a flow chart 
illustrating the operation of the control system shown in FIG. 4. 
Operation is performed in the order of the following steps in a successive 
copying operation mode wherein a predetermined plurality of copying 
operations corresponding to a single original document are performed 
successively. 
(A) successive copying operation mode 
The power switch 11 is manually operated in a step S1, and the control 
means 38 is set and enabled to operate. In the next step S2, the size 
detectors 32a to 32c supply signals to the control means 38 indicating 
which size of copy paper sheets is stored in the cassette 9 in accordance 
with the truth table 1. 
TABLE 1 
______________________________________ 
Size Detector 
Size 32a 32b 32c 
______________________________________ 
A3 1 1 1 
B4 1 0 1 
A4 1 0 0 
B5 0 1 1 
A5 0 1 0 
B6 0 0 1 
No Cassette 0 0 0 
______________________________________ 
Referring to the table 1, in the case where the cassette 9 contains copy 
paper sheets having a JIS A3 size, each size detector 32a to 32c generates 
a high level signal which is supplied to the control means 38. 
Correspondingly, the control means 38 causes the driving means 59 to 
illuminate the size display element 56a in the step S2. 
In a step S3, a signal indicating the predetermined number n1 of copying 
operations is preset by the ten key 12 and is supplied to the control 
means 38. The signal is stored in the first memory M1 of the control means 
38 in a step S4. The control means 38 causes the driving means 59 to drive 
the preset number display element 50 in a step S5 for displaying the 
preset number n1 stored in the first memory M1 in the step S4. 
Let us assume that the clear key 43 is manually operated in a step S6 so as 
to revise the preset number n1. The stored information in the first memory 
M1 is erased and the operation is performed again from the step S1. When 
the print button 13 is manually operated in a step S7, the control means 
38 starts the copying operation of the electrostatic copying apparatus, so 
that the original document table 2 is moved reciprocally. The detecting 
switch 35 supplies a high level pulse signal to the control means 38 at 
each reciprocal movement of the original document table 2, that is, at the 
time when each copying operation corresponding to the original document 3 
is performed. The control means 38 causes the first register R1 to count 
the high level pulse signal in a step S8, and causes the second memory M2 
to store the counted value, namely the number m1 of copying operations, in 
a step 59. The control means 38 causes the driving means 59 to drive the 
copying number display element 51 for displaying the number m1 of copying 
operations stored in the second memory M2 in a step S10. In this fashion, 
the copying number display element 51 displays the number m1 of copying 
operations at each reciprocal movement of the original document table, 
that is, each time that a single copying operation of the electrostatic 
copying apparatus is performed. 
In the next step S11, jam detecting circuit 33 detects whether or not a jam 
of the copy papers 8 has occured. In a case where a jam of the copy papers 
8 does not occur, it is determined whether or not the revise key 60 has 
been manually operated to change the number of preset number n1 of copying 
operations in the next step S12. When the revise key 60 is not operated, 
the number n1 of copying operations stored in the first memory M1 and the 
number m1 of copying operations stored in the second memory M2 are 
compared with each other. In the case where the preset number n1 stored in 
the first memory M1 is not equal to the number m1 of copying operations 
stored in the second memory M2 (n1&gt;m1), the next step S14 is executed. 
After the electrostatic copying apparatus performs a copying operation, the 
copy paper 8 is discharged on the tray 10. The detecting switch 36 
supplies a high level pulse signal to the control means 38 each time that 
the copy paper 8 is discharged. The control means 38 causes the second 
register R2 to count the high level pulse signal in the step S14, and 
causes the third memory M3 to store the counted value, i.e. the number of 
discharged copy papers m2 in a step S15. 
In a step S16, it is determined whether or not the intrusion key 42 has 
been manually operated. In the case where the intrusion key 42 is not 
operated, a new operation commences from the step S8. 
When the jam of the copy paper 8 is detected in the step S11, the general 
copying operation of the electrostatic copying apparatus is stopped in a 
step S17 as shown in FIG. 5(b). The general copying operation of the 
electrostatic copying apparatus includes moving of the original document 
table 2, the photosensitive drum 22 and feeding roller 25 and other 
rollers to transfer the copy paper 8. In the next step S18, the number m2 
of the discharged copy papers stored in the third memory M3 is transferred 
so as to be stored in the second memory M2. At the same time, the number 
m1 of copying operations which was prestored in the second memory M2 is 
erased. In a step S19, the number m2 of discharged copy paper stored in 
the second memory M2 is displayed by means of the copying operation 
display element 51 which is driven by the driving means 59. 
When the jammed copy paper 8 is taken out from the housing 1 and the reset 
switch 39 is manually operated in a step S20, the electrostatic copying 
apparatus is released from discontinuation of the general copying 
operation in the step S17 and is able to perform copying operations. At 
the same time that the reset switch 39 is manually operated in the step 
20, the number m2 of the discharged copy papers stored in the second 
memory M2 is transferred to as to be stored in the first register R1 is a 
step S21. A series of operations is performed again from the step S7 owing 
to the manual operation of the print button 13, and in the step S8, the 
first register R1 begins to operate for counting from discharged copy 
sheet number m2. Accordingly, the number of copying operations (n1-w2) 
which remained when a copy paper was jammed are performed so that the 
required copied paper sheets are obtained. 
When the revise key 60 is manually operated in the step S12, the control 
means 38 causes the driving circuit 59 to disable the display element 50a 
in a step S22 shown in FIG. 5(c) and to enable the display element 50(b) 
intermittently. The operation of the control means 38 in the step S22 is 
maintained for a predetermined time period such as 3 seconds. In the 
operation of the step S22, the operations of the steps S8 to S16 are 
performed successively by the control means 38. 
When the ten key 12 is operated to provide a signal indicating a revised 
number n.sub.a of copying operations to the control means 38 in a step 
S23, the control means 38 compares the revised number n.sub.a supplied 
from the ten key 12 with the number m1 of the copy papers which have been 
copied in a step S24. In the case where the revised number n.sub.a is 
greater than the preset number m1, the preset number n1 stored in the 
first memory M1 is erased, and the revised number n.sub.a is stored in the 
first memory M1 in a step S25. Instantaneously, the revised number n.sub.a 
stored in the first memory M1 is displayed by the preset number display 
element 50 as a new preset number of copying operations. Therefore, in the 
step S13, the revised number n.sub.a stored in the first memory M1 and the 
number m1 of the copying operations stored in the second memory M2 are 
compared. As a result, the copying operations of step S8 to S16 are 
performed repeatedly until the number m1 of copying operations becomes 
equal to the revised number n.sub.a. In other words, copying operations of 
the electrostatic copying apparatus are performed repeatedly until the 
number m1 of copying operations displayed by the copy number display 
element 51 becomes equal to the revised number n.sub.a displayed by the 
preset number display element 50. 
In the case where the revised number n.sub.a is less than the number m1, 
the number n1 is displayed by the preset number display element 50 in the 
steps S24 to S26. Then, the number n1 stored in the first memory M1 and 
the number m1 of copying operations stored in the second memory M2 are 
compared. As a result, copying operations are performed repeatedly from 
the steps S8 to S13 until the number m1 of copying operations becomes 
equal to the revised number n.sub.a. In other words, copying operations of 
the electrostatic copying apparatus are performed until the number m1 of 
copying operations indicated by the copy number display element 51 is 
equal to the number n1 indicated by the preset number display element 50. 
Consequently, when the preset number n1 is revised, it is not necessary to 
subtract the revised number n.sub.a i.e. the number of copying paper to be 
copied from the number m1 of copy papers which has been copied to input 
the resultant value (n.sub.a -m1) by the operation of the ten key 12. 
According to the invention, the operator may input the revised number 
n.sub.a of the copy papers to be copied by the manual operation of the 
revise key 60. Therefore, the situation is avoided in which the operator 
presets a wrong number such that copy papers are consumed wastefully. 
Also, it is easy to operate the electrostatic copying apparatus. 
When the information stored in the first memory M1 and the information 
stored in the second memory M2 are found equal to each other in the step 
S13, the copying operation of the electrostatic copying apparatus is 
stopped in a step S27. The copying operation of the electrostatic copying 
apparatus includes the movements of the original document table 2, the 
photosensitive drum 22 and paper feeding roller 25, etc. for transporting 
the copy paper 8, and does not include movements of the discharge rollers 
28 and other rollers for discharging the copy papers 8 having been copied 
from the housing 1, and therefore is different from the general copying 
operation as discribed previously. In the next step S28, the second 
register R2 counts the number of copy papers 8 which have been discharged 
from the housing 1 after the copying operation of the electrostatic 
copying apparatus was stopped. In a step S29, the third memory M3 stores 
the counted value counted by the second register R2 in the step S28, that 
is, the number m2 of discharged copy papers 8. In a step S30, the number 
m1 of copying operations stored in the second memory M2 and the number m2 
of discharged copy papers stored in the third memory M3 are compared. In 
the case where the number m1 of copying operations and the number m2 of 
discharged copy papers are equal to each other, the general copying 
operation of the electrostatic copying apparatus is terminated in the next 
step S31. In the case where the number m1 of copying operations stored in 
the second memory M2 and the number m2 of discharged copy papers 8 stored 
in the third memory M3 are different (m1&gt;m2), the operation of steps S17 
to S21 are performed as set forth previously. This means that the copy 
paper 8 which has been copied and is not discharged from the housing 1 is 
jammed when the copying operation is terminated in the step S27. In this 
fashion, the control means 38 controls the operation of (A) successive 
copying operation mode in the steps S1 to S31. 
Briefly, in the case where a jam of the copy paper 8 occurs in (A) 
successive copying operation mode, the number m1 of copying operations 
counted by the first register R1 in accordance with each copying operation 
of the electrostatic copying apparatus is revised so as to be number m2 of 
discharged copy papers counted by the second register R2, and is stored in 
the second memory M2. Therefore, the number of jammed copy papers 8 is not 
added to the number m1 of copying operations even when a jam of the copy 
paper 8 occurs and the jammed copy paper is then taken out from the 
housing 1. Accordingly, the copied papers 8, the number of which was 
preset by the ten key 12, is obtained when the copying operation is 
commenced again after the release of the jam of the copy paper 8. 
Furthermore, it is not necessary to reset the preset number in case of a 
copy paper jamming. 
It is determined in the step S16 whether or not the intrusion key 42 has 
been manually operated so as to achieve the intruded copying operation 
during the series of operations S1 to S31 set forth previously, namely, in 
the successive copying operation mode. Consequently, the interposed 
copying operation mode is performed according to the flow chart shown in 
FIGS. 6(a) to 6(f). 
(B) Intruded copying operation mode 
When the intrusion key 42 is manually operated, the copying operation of 
the electrostatic copying apparatus is stopped and the display element 46 
is activated to indicate the state of the intruded copying operation mode 
as set forth previously in a step S32. In the next step S33, the 
information stored in the first, second and third memories M1, M2 and M3 
are transferred so as to be stored in the fourth, fifth and sixth memories 
M4, M5 and M6 respectively. More specifically, the preset number n1 is 
stored in the fourth memory M4, the number m1 of copying operations is 
stored in the fifth memory M5, and the number m2 of discharged copy papers 
is stored in the sixth memory M6. A memory M7 stores the information that 
the cassette 9 used in the successive copying operation mode set forth 
previously is suitable for copy paper sheets having a JIS A3 size. 
In a step S34, copy paper jamming is determined by the signal from the jam 
detecting circuit 33 when the intrusion key 42 is manually operated. When 
the jam of the copy paper 8 is detected, the display element 46 is 
inactivated and the general copying operation of the electrostatic copying 
apparatus stops in a step S35 as shown in FIG. 6(b). In the next step S36, 
the information stored in the fourth, fifth and sixth memories M4, M5 and 
M6 are transferred so as to be stored in the first, second and third 
memories M1, M2 and M3. More specifically, the preset number n1 is stored 
in the first memory M1, the number m1 of copying operations is stored in 
the second memory M2 and the number m2 of discharged copy papers is stored 
in the third memory M3. At this time, the preset number n1 stored in the 
first memory M1 is displayed by the preset number display element 50 which 
is driven by the driving means 59 in a step S37. In a step S38, the number 
m2 of discharged copy papers stored in the third memory M3 is transferred 
so as to be stored in the second memory M2. The number m2 of discharged 
copy papers stored in the second memory M2 is displayed by the copy number 
display element 51 which is driven by the driving means 59 in a step S39. 
When the reset switch 39 is manually operated after the jammed copy paper 8 
was taken out from the housing 1 in a step S40, the electrostatic copying 
apparatus is released from discontinuation which occured in the step S35, 
and is capable of performing a copying operation. In a step S41, the 
number m2 of discharged copy papers stored in the second memory m2 is 
transferred so as to be stored in the first register R1 at the same time 
that the reset switch 39 is manually operated in the step S40. In the case 
where the print button 13 is manually operated without the manual 
operation of the intrusion key 42 in a step S42, a series of operations 
from the step S7 set forth previously is repeated, and consequently the 
first register R1 commences a new counting operation from the number m2 of 
discharged copy papers in the step S8 to perform the copying operations 
equal to the number (n1-m2) which remained when the intrusion key 42 was 
manually operated in the step S16 and a jam had occured in the step S34. 
In brief, in the steps S34 to S42, when the intrusion key 42 is manually 
operated and a jam of the copy paper 8 occurs, the intruded copying 
operation is not performed and state is returned to the state which is 
prior to the intruded copying operation, that is, the successive copying 
operation mode. 
When the intrusion key 42 is manually operated again in the step S42, an 
operation equal to the step S33 set forth previously is performed and an 
intruded copying operation mode is capable of being carried out in a step 
S43. The following operation of the control means 38 is equal to that from 
a step S44 mentioned hereinafter. 
The cassette 9 remains to be mounted on the housing 1 when the cassette 9 
is suitable for the size of the original document to be copied 
intrusively, while another corresponding cassette is mounted on the 
housing 1 when the cassette is not suitable for the size of the original 
document to be copied intrusively. In other words, the cassette capable of 
keeping copy paper sheets having JIS B4 size is to be mounted when the 
original document to be copied has a JIS B4 size. Consequently, display 
element 56b is activated in response to the signal from the size detectors 
32a to 32c. 
The control means 38 commences to perform the step S44 to interpose a 
copying operation when copy paper jamming is not detected in the step S34. 
The control means 38 receives a signal indicating a preset number na1 for 
intrusion of a copying operation from the ten key 12 in the step S44, and 
the signal is stored in the first memory M1 in a step S45. At this time, 
stored information in the first register R1 and the second register R2 are 
erased. The control means 38 causes the driving means 59 to drive the 
preset number display element 50 in a step S46 to indicate the preset 
number n.sub.a1 stored in the first memory M1 in the step S45. When, in 
the next step S47, the clear key 43 is manually operated to revise the 
preset number n.sub.a1, the preset number n.sub.a1 stored in the first 
memory M1 is erased and the operations are repeated from the step S44. 
When the intrusion key 42 is manually operated again to release the 
intruded copying operation, the manual operation of the interposing key 42 
is detected in a step S48. Accordingly, in a step S49 as shown in FIG. 
6(c), the preset number n1 stored in the fourth memory M4 is transferred 
to the first memory M1, the number m1 stored in the fifth memory M5 is 
transferred to the second memory M2, and the discharged number m2 stored 
in the sixth memory M6 is transferred to the third memory M3. At this 
time, the preset number n1 stored in the first memory M1 is displayed by 
the preset number display element 50 in a step S50. Copy number m1 stored 
in the second memory M2 is displayed by the copy number display element 51 
in a step S51. In a step S52, copy number m1 stored in the second memory 
M2 is transferred to the first register R1 and discharge number m2 stored 
in the third memory M3 is transferred to the second register R2. 
In a step S53, it is determined whether or not the size of the copy paper 
which corresponds to the original document in the successive copying 
operation mode, and which is stored in the step S33 is equal to the size 
of the copy papers stored in the cassette which is mounted in the intruded 
copying operation mode. When these sizes are equal to each other, the 
remaining copying operations in the successive copying operation mode are 
performed from the step S7. When these sizes are not equal to each other, 
the display element such as 56a corresponding to the cassette to be 
mounted is turned on and off repeatedly in a step S54, and the display 
element 58 is turned on in a step S55. In this fashion, it is indicated 
that the cassette 9 storing copy papers whose size corresponds to the 
original document in the successive copying operation mode is to be 
mounted in the housing. Accordingly, when the cassette 9 is mounted in a 
step S56, the control means 38, in response to the size detectors 32a to 
32f, causes the display element 58 to turn off and causes the size display 
element 56a to turn on. In this state, the print button 13 is manually 
operated again, the steps S7 to S16 and S27 to S31 mentioned previously 
are performed to complete the remaining number of copying operations. 
In brief, in the case where the cassette 9 does not hold copy papers whose 
size corresponds to the original document in the successive copying 
operation mode after completion of the intruded copying operation mode, 
the display element 58 so indicates this state, and size display elements 
56a to 56f are turned on and off repeatedly to indicate the size of copy 
papers to be used. Thus, copy papers having undesired sizes are not fed to 
the cassette 9. 
Let us assume that the intrusion key 42 is not manually operated in the 
step S48; therefore, the intruded copying operation is not released and 
then the print button 13 is manually operated in a step S57. Steps S58 to 
S60 which are the same as the steps S8 to S10 in the successive copying 
operation mode are performed. More specifically, the first register R1 
counts the number m.sub.a1 of copying operations in the intruded copying 
operation mode. The counted value m.sub.a1 stored in the first register R1 
is transferred to the second memory M2. Stored information, that is, the 
number m.sub.a1 of copying operations stored in the second memory M2, is 
displayed by means of the copy number display element 51. 
In the next step S61, control means 38, in response to the output signal 
from the jam detecting circuit 33, determines whether or not the copy 
paper 8 is jammed in the intruded copying operation mode. When there is no 
occurrence of a copy paper jamming, the preset number n.sub.a1 stored in 
the first memory M1 in the intruded copying operation and the number 
m.sub.a1 of copying operations stored in the second memory M2 in the 
intruded copying operation are compared with each other in a step S62. 
When the preset number n.sub.a1 and the number m.sub.a1 of copying 
operation are not equal to each other (n.sub.a1 &gt;m.sub.a1), steps, S63 to 
S64, which are the same as the steps S14 to S15 mentioned previously, are 
performed. More specifically, the second register R2 counts the number 
m.sub.a2 of the discharged copy papers in the intruded copying operation 
and the counted value that is equal to the number m.sub.a2 of discharged 
copy papers is transferred so as to be stored in the third memory M3. 
In a step S65, it is determined whether or not the intrusion key 42 has 
been manually operated so as to release the intruded copying operation. 
When the intrusion key 42 is not manually operated, operations are 
repeated from the step S58. 
In the case where a jam of the copy paper is detected in the step S61, 
steps S66 to S70 as shown in FIG. 6(d) which are the same as the steps S17 
to S21 mentioned previously are performed. More specifically, the 
electrostatic copying apparatus stops its overall copying operation, the 
number m.sub.a2 of discharged copy papers stored in the third memory M3 is 
transferred so as to be stored in the second memory M2, and the copy 
number display element 51 driven by the driving means 59 displays the 
number m.sub.a2 of discharged copy papers stored in the second memory M2. 
After the jammed copy paper is taken out from the housing 1 and then the 
reset switch 39 is manually operated, the cessation of the overall copying 
operation of the electrostatic copying apparatus is released, and the 
electrostatic copying apparatus is capable of performing the copying 
operation, and the number m.sub.a2 of discharged copy papers stored in the 
second memory M2 is transferred to the first register R1. Then, the print 
button 13 is manually operated, operations are repeated from the step S57 
mentioned previously so as to perform the number (n.sub.a1 -m.sub.a2) of 
copying operation which remained at the occurrence of a jam in the 
intruded copying operation mode. 
When the preset number m.sub.a1 of intruded copying operations stored in 
the first memory M1 and the number m.sub.a1 of copying operation stored in 
the second memory M2 in the copying operation are equal to each other, 
steps S71 to S75 which are the same as the step S27 to S31 mentioned 
previously are performed. More specifically, the second register R2 counts 
the number of copy papers which are discharged from the housing after the 
copying operation of the electrostatic copying apparatus is ceased, and 
the number m.sub.a2 of discharged copy papers stored in the second 
register R2 is transferred to the third memory M3. The number m.sub.a1 of 
copy papers stored in the second memory M2 and the number m.sub.a2 of 
discharged copy papers stored in the third memory M3 are compared with 
each other. Consequently, when the number m.sub.a1 of copying operations 
and the number m.sub.a2 of discharged copy papers are equal to each other, 
the overall copying operation of the electrostatic copying apparatus is 
ceased. When the number m.sub.al of copying operations stored in the 
second memory M2 and the number m.sub.a2 of the discharged copy papers 
stored in the third memory M3 are not equal to each other (m.sub.a1 
&gt;m.sub.a2) in the step S74, it is determined that a copy sheet is jammed, 
and therefore the steps S66 to S70 mentioned previously are performed. 
When the intrusion key 42 is manually operated in the next step S76 so as 
to release the intruded copying operation, stored information in the 
fourth to sixth memories M4 to M6 are transferred to the first to third 
memories M1 to M3 in a step S77. More specifically, the preset number n1 
is stored in the first memory M1, the number m1 of copying operations is 
stored in the second memory M2, and the number m2 of discharged copy 
papers is stored in the third memory M3. The preset number display element 
50 is driven by the driving means 59 so as to indicate the preset number 
n1 stored in the first memory M1 in a step S78. The copy number display 
element 51 is driven by the driving means 59 to display the number m1 of 
copying operations stored in the second memory M2 in a step S79. 
After that, operation is returned to the step S53 to indicate whether copy 
papers whose size corresponds to the original document in the successive 
copying operation mode are stored in the cassette 9. 
In the case where the intrusion key 42 is not manually operated in the step 
S76, namely, the intruded copying operation is not released, and then the 
number of copying operations in the intruded copying operation mode is set 
again by the ten key 12, operation is capable of being performed again 
from the step S44 mentioned previously. 
When the intrusion key 42 is manually operated so as to release the 
intruded copying operation mode in the step S65 before the intruded preset 
copying number na1 stored in the first memory M1 and the intruded copying 
number ma2 stored in the second memory M2 are equal to each other, the 
situation is detected in the step S65 as mentioned previously. On 
operating the intrusion key 42, the display element 46 is turned off to 
indicate that the interposed copying operation mode is released as 
mentioned previously, and information stored in the first to third 
memories M1 to M3 are transferred to the seventh to ninth memories M7 to 
M9. More specifically, the seventh memory M7 stores the preset number 
n.sub.a1, the eighth memory M8 stores the memory m.sub.a1 of the copying 
operations, and the ninth memory M9 stores the number m.sub.a2 of 
discharged copy papers in a step S80 shown in FIG. 6(f). In the next step 
S81, the information stored in the fourth to sixth memories M4 to M6 are 
transferred to the first to third memories M1 to M3. More specifically, 
the first memory M1 stores the preset number n1, the second memory M2 
stores the number m1 of copying operations, and the third memory M3 stores 
the number m2 of discharged copy papers. In this state, the preset number 
n1 stored in the first memory M1 is displayed by the preset number display 
element 50 which is driven by the driving means 59 in a step S82. Copy 
number display element 51 is driven by the driving means 59 so as to 
display the number m1 of copying operations stored in the second memory M2 
in a step S83. 
When the intrusion key 42 is manually operated in the step S65 and when the 
copy paper 8 is jammed, the situation is detected in a step S84. On 
detecting the occurrence of a jam of the copy paper 8 in the step S84, the 
overall copying operation is ceased in a step S85, and information stored 
in the seventh to ninth memories M7 to M9 are transferred to the first to 
third memories M1 to M3. More specifically, the first memory M1 stores the 
preset number n.sub.a1, the second memory m2 stores the number m.sub.a1 of 
copying operations, and the third memory M3 stores the number m.sub.a2 of 
discharged copy papers in a step S86. In this state, the preset number 
n.sub.a1 stored in the first memory M1 is displayed by the preset number 
display element 50 which is driven by the driving means 59 in a step S87. 
In a step S88, the information stored in the third memory M3 is 
transferred to the second memory M2. In the next step S89, the copy number 
display element 51 is driven by the driving means 59 so as to display the 
number m.sub.a1 of copying operations stored in the second memory M2 in 
the step S89. 
The electrostatic copying apparatus is released from the state of 
discontinuation of the overall copying operation, and is capable of 
performing the copying operation in the step S85 after the jammed copy 
paper 8 is taken out from the housing 1 followed by a manual operation of 
the reset signal 39 in a step S90. Then, the control means 38 performs 
operation from the step S57 set forth previously. More specifically, 
changing from the intruded copying operation mode to the successive 
copying operation mode is prohibited when the intrusion key 42 is manually 
operated to release the intruded copying operation mode before the 
completion of the intruded copying operation and a jam of copy paper has 
occurred. Accordingly, operation starts from the step S58 as mentioned 
previously to perform the remaining copying operations (n.sub.a1 
-m.sub.a2) in the intruded copying operation mode after the print button 
13 is operated. 
In the case where the occurrence of a pin of the copy paper is not detected 
in the step S84, the control means 38 is capable of controlling the copier 
so as to perform the operations from the step S53 as set forth previously 
to obtain the number (n1-m2) of copied sheets which remained to be copied 
after the intruded copying operation. 
In brief, when a jam of copy paper 8 has occurred in the intruded copying 
operation mode, the number m.sub.a1 counted by the first register R1 
according to a single copying operation of the electrostatic copying 
apparatus is revised so as to be equal to the number m.sub.a2 of 
discharged copy papers counted by the second register R2, and then the 
revised number m.sub.a2 is transferred to the second memory M2. Therefore, 
when a jam of copy paper 8 has occurred and then the jammed copy paper 8 
is taken out from the housing 1, the number of jammed copy papers 8 is not 
added to the number m.sub.a1 of copying operations. Accordingly, it is 
allowed to obtain the number n.sub.a1 preset by the ten key 12 when 
copying operation is commenced again after release of jam of copy paper as 
is equal to the successive copying operation mode. More preferably, it is 
not necessary to revise the preset number n.sub.a1 when a jam of copy 
paper has occurred. When manual operation is performed so as to change the 
successive operation mode to intruded copying operation mode so as to 
change the intruded copying operation mode to the successive copying 
operation mode to interrupt each former operation mode, and a jam of copy 
paper occurs, a change in the operation mode is prevented. The number m1 
and m.sub.a1 of copying operations counted by the first register R1 in the 
operation mode prior to the manual changing operation is revised so as to 
be equal to the number m2 and m.sub.a1 of discharged copy papers counted 
by the second register R2 respectively to be transferred to the second 
memory M2. Accordingly, when manually changing the operation of an 
operation mode and a jam of copy paper occurs, it is capable of obtaining 
the number n.sub.a1, n.sub.a2 of copy papers preset by the ten key 12 in 
each operation mode, and it is not necessary to revise the preset number 
n1 and n.sub.a1. 
FIG. 7 is a simplified cross sectional view showing cassettes 9a and 9b of 
the electrostatic copying apparatus according to another aspect of the 
invention. In this embodiment, an upper cassette 9a and a lower cassette 
9b are mounted on the electrostatic copying apparatus for keeping copy 
paper sheets of JIS size A3, B4, A4, B5, A5 or B6 respectively. Feeding 
rollers 25a and 25b are fixed rigidly to the rotary shafts 15a and 15b 
respectively and located so as to be in contact with the top sheet of copy 
papers stacked in the cassettes 9a and 9b respectively so that copy papers 
are fed out from either of cassettes 9a and 9b when either of feeding 
rollers 25a and 25b is driven so as to rotate. 
Detecting switches 34a and 34b are provided above the cassettes 9a and 9b 
to detect copy papers stacked in the cassettes 9a and 9b respectively. 
Detectors 32a to 32c and 32d to 32f are provided in the vicinity of the 
cassettes 9a and 9b to detect the JIS size of the copy papers stored in 
the cassettes 9a and 9b respectively. 
Control means 38 as shown in FIG. 4 receives detecting signals supplied 
from the detectors 32a to 32c and 32d to 32f and the detecting switches 
34a and 34b. 
FIG. 8 is a cross sectional view showing a vicinity of the ends of the 
feeding rollers 25a and 25b. There are provided magnetic clutches 100 and 
101 having sprocket wheels 98 and 99 which are driven by a driving means 
(not shown) via chains 97 respectively. The magnetic clutches 100 and 101 
are fixed to the housing 1 of the electrostatic copying apparatus. A coil 
102 of the magnetic clutch 100 is energized so as to connect a rotary disc 
103 and a clutch plate 104 by a magnetic force so that the rotary shaft 
15a and the feeding roller 25a are driven to rotate in the same direction 
as the sprocket wheel 98 so as to feed copy paper sheets stacked in the 
cassette 9a. When the coil 102 is not energized, the rotary disc 103 and 
the clutch plate 104 are apart from each other. Therefore, the sprocket 
wheel 98 rotates about the rotary shaft 15a idlly. Similarly, a coil 105 
of the magnetic clutch 101 is energized so as to connect a rotary disc 106 
and a clutch plate 107 by a magnetic force so that the rotary shaft 15b 
and the feeding roller 25b are driven to rotate together with the sprocket 
wheel 99. When the coil 105 is not energized, the sprocket wheel 99 
rotates about the rotary shaft 15b idlly. 
The control means 38 (see FIG. 4) supplies control signals to energize the 
coils 102 and 105. The operation panel 40 as referred in FIG. 3 has a 
selecting switch (not shown) used to generate a selecting signal which is 
fed to the control means 38 in order to select the cassette 9a or 9b for 
feeding the copy papers. According to one aspect of this embodiment, it is 
convenient for users because the manual replacement of cassettes is not 
required when either of cassettes 9a and 9b keeps copy paper sheets to be 
intrusively copied. 
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.