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MX-FNX4  OPERATIONAL DESCRIPTION  5 – 21

If the No.1 tray passes the delivery slot while any paper stack is
present on the No.1 tray, stacked paper may be caught by the
delivery slot. The delivery slot is equipped with the shutter to pre-
vent such a trouble. When the No.1 tray passes the delivery slot,
the shutter is closed. This operation is implemented even if no
paper is stacked on the tray.
When the delivery motor (FAM) is rotated while the shutter open/
close clutch (FSHC) and the delivery lower roller clutch (FAORC)
are on, the shutter is raised (closed) and lowered (opened, delivery
is enabled) when the motor runs reverse. Opening and closing of
the shutter is detected by the shutter home position sensor
(FSHTD).

Detected item

No.1tray shift area sensor PCB

Area sensor 1
(FAED3)

Area sensor 2
(FAED2)

Area sensor 3
(FAED1)

No.1 tray upper limit

ON

ON

ON

Excess in number of 
sheets stacked, 
over 650 sheets

OFF

ON

ON

Excess in number of 
sheets stacked, 
over 1550 sheets
 (No.1tray lower 
limit)

OFF

ON

OFF

Detected item

No.2 tray shift area sensor PCB

Area sensor 1 
(FAED23)

Area sensor 2 
(FAED22)

Area sensor 3 
(FAED21)

No.2 tray upper limit

ON

OFF

ON

Excess in number of 
sheets stacked, 
over 650 sheets

OFF

ON

ON

Excess in number of 
sheets stacked, 
over 1550 sheets

OFF

ON

OFF

Excess in number of 
sheets stacked, 
over 1700 sheets

OFF

OFF

OFF

Excess in number of 
sheets stacked, 
over 2450 sheets

ON

OFF

OFF

No.2 tray lower limit 
(finisher)

ON

ON

OFF

No.2 tray lower limit 
(saddle finisher)

ON

ON

ON

Paper height sensor (FSLD1)

No.2 tray paper height

sensor (FSLD2)

Paper height sensor flag

Edge

No.1 tray

Paper height

sensor flag

Edge

No.2 tray

Delivery lower roller clutch (FAORC)

Delivery roller (lower)

Delivery motor (FAM)

Shutter home position

sensor (FSHTD)

Shutter

Shutter open/close clutch (FSHC)

MX-FNX4  OPERATIONAL DESCRIPTION  5 – 22

The punch module is an option, and is designed for installation
between the host machine and the paper path of the finisher.
When the sheets from the host machine reach the punch module,
they are fed by the punch feed roller. When the trailing edge of a
sheet from the host machine reaches the punch module, the sheet
is stopped once, and the punch shaft is rotated to punch a hole
along the trailing edge. These operations are controlled by the fin-
isher control PCB, and the components of the punch module are
driven by the punch controller PCB.

The punch module is located in the paper path from the host
machine to the finisher, and is used to punch holes in sheets when-
ever they are stopped once. The sheets from the host machine are
led by the punch feed roller. When the trailing edge of a sheet
reaches the punch module, the punch feed roller stops the sheet
once to punch a hole along the trailing edge of the sheet.
Names and functions of the motors and sensors to be used for
punch operation are shown below.

The punch module has a die and hole puncher (punch blade). The
hole puncher is driven by the punch motor (FPNM). It is attached to
the eccentric cam of the punch shaft, and rotation of the punch
shaft is converted into reciprocating motion for punching operation.
The punch motor (FPNM) is a DC motor. The home position of the
punch shaft is detected by the punch home position sensor
(FPHPD). To make sure that the punch motor (FPNM), which is a
DC motor, stops exactly at its home position, the punch motor is
stopped in relation to the count of the clock pulses kept by the
punch motor clock sensor (FPE). A single punching operation is
executed by rotating the punch shaft 180

° from its home position.

As many as five light-receiving transistors (photosensor PCB) are
mounted over the inlet paper path of the punch module; on the
other hand, as many as five LEDs (LED PCB) are mounted under
the path, together serving as five sensors. The frontmost sensor
(LED5, PTR5) is used as a trailing edge sensor to detect the train-
ing edge of sheets, and the remaining four (LED1 through LED4,
PTR1 through PTR4) are used as horizontal registration sensors to
detect the rear position of sheets when punching holes.
The punch motor, punch module, and sensors shown above make
up the punch slide unit, which moves to the front/rear to suit the
selected paper size. The movement to the front/rear is driven by
the punch horizontal registration motor (FPSM). The home position
of the punch slide unit is detected by the horizontal registration
home position sensor (FPSHPD), and the horizontal registration
motor (FPSM) is a two-phase stepping motor.
The punch motor and the horizontal registration motor are driven
by the punch controller PCB according to the control commands
from the finisher controller.
The waste paper occurring as the result of punching is collected in
the waste paper case. The case is monitored by the reflection type
sensor (FPDD on the dust full sensor PCB).

Motor or sensors

Functions

Punch motor (FPNM)

Drive of punch module

Horizontal registration motor (FPSM)

Drive of punch slide unit

Punch feed motor (FSIFM)

Drive of punch feed roller

Horizontal registration home position 
sensor (FPSHPD)

Detection of home position of 
punch slide unit

Punch motor clock sensor (FPE)

Clock detection of punch motor

Punch home position sensor 
(FPHPD)

Detection of home position of 
punch shaft

Horizontal registration sensor (LED 1 
to LED4, PTR1 to PTR4)

Detection of edge in the back side 
of paper

Trailing edge sensor (LED 5, PTR5)

Detection of trailing edge of paper

Dust full sensor (FPDD)

Detection of punch dust full

Finisher unit

control system

Punch

control

PCB

Horizontal

registration

drive system

Punch

drive

system

Feed

drive

system

Punch control PCB (1/2)

Punch control PCB (2/2)

Trailing

edge

detector

signal

(LED5,PTR5)

PAEND

W

aste

full

detection

signal

(FPDD)

DFULL

Horizontal

registration

home

position

(FPSHPD)

detection

signal

SREGHP

Punch

feed

motor

(FSIFM)

drive

signal

Horizontal

registration

motor

(FPSM)

drive

signal

Horizontal

registration

detection

signal

(LED1-4,PTR1-4)

SREG1-4

Punch

motor

(FPNM)

drive

signal

Punch

motor

clock

(FPE)

detection

signal

PUNCHCLK

Punch

home

position

(FPHPD)

detection

signal

PUNCHHP

MX-FNX4  OPERATIONAL DESCRIPTION  5 – 23

The hole puncher is driven by the punch motor (FPNM). The home
position for the hole puncher is detected by the punch home posi-
tion sensor (FPHPD). 
The hole puncher punches a hole when the punch shaft is rotated
180

° from the home position, causing the punch to make a single

round trip. The 2/3-hole type punches a hole, but the circumference
of the punch shaft is divided into two (half for 2-hole and the other
half for 3-hole). Selection of the 2-hole type or 3-hole type depends
on the commands from the host machine.
1) 2-Hole, 4-Hole Type

The home position is identified when the punch home position
sensor is ON. The punching operation for the first sheet ends
when the punch shaft has rotated 180

° and the

punch home position sensor goes ON from OFF; the punching
operation for the second sheet ends when the punch shaft has
rotated 180

° in reverse and the punch home position sensor

goes ON from OFF.
Punch operation in the case of two sheets is as shown below.
a)

A hole is punched along the trailing edge of the 1st sheet.

b)

A hole is made along the trailing edge of the 2nd sheet.

2) 2/3-Hole Type

The home position is identified when the punch home position
sensor is ON. To make two holes, the punching operation for
the first sheet ends when the punch shaft rotates 180

° (half cir-

cumference) and the punch home position sensor goes ON. At
this time, the 3-hole puncher makes a single round trip in
escape direction (moving up the hole puncher) on a half cir-
cumference of the punch shaft. The punching operation for the
second sheet ends when the punch shaft has rotated 180

°

counterclockwise and the punch home position sensor goes
ON.
At this time, the 3-hole puncher makes a single round trip in
escape direction (moving up the hole puncher) on the other
half circumference of the punch shaft. The punching operation
takes place as shown below when making two holes in two
sheets of paper.

a)

A hole is punched along the trailing edge of the 1st sheet.

While two holes are being made, the 3-hole puncher
makes a single round trip in escape direction (moving up
the hole puncher).

b)

Holes are made along the trailing edge of the 2nd sheet.

While two holes are being made, the 3-hole puncher
makes a single round trip in escape direction (moving up
the hole puncher).

Punch home

position sensor (FPHPD) Sensor flag

Punch shaft

Eccentric cam

Die

Die

Hole

puncher

Paper

[punch shaft at rest/

home position]

Waste paper

[punch shaft CW rotation

by 90°/hole made]

[punch shaft CW rotation by 180°/

end of punching operation]

[punch shaft at rest/

home position]

[punch shaft CCW rotation

by 90°/hole made]

[punch shaft CCW rotation by 180°/

end of punching operation]

Punch home

position sensor (FPHPD) Sensor flag

Punch shaft

Eccentric cam

Die

Die

Hole

puncher

Paper

[punch shaft at rest/

home position]

Waste paper

[punch shaft CW rotation

by 90°/hole made]

[punch shaft CW rotation by 180°/

end of punching operation]

[punch shaft at rest/

home position]

[punch shaft CW rotation

by 90°/punch at upper limit]

[punch shaft CW rotation by 180°/

punch back to initial position]

[punch shaft at rest/

home position]

[punch shaft CCW rotation

by 90°/hole made]

[punch shaft CCW rotation by 180°/

end of punching operation]

[punch shaft at rest/

home position]

[punch shaft CCW rotation

by 90°/punch at upper limit]

[punch shaft CCW rotation by 180°/

punch back to initial position]

MX-FNX4  OPERATIONAL DESCRIPTION  5 – 24

The horizontal registration drive for the punch slide unit is provided
by the horizontal registration motor (FPSM). The home position of
the punch slide unit is detected by the horizontal registration home
position sensor (FPSHPD). The punch slide unit detects the trailing
edge of sheets using the trailing edge sensor (LED5, PT5) and the
horizontal registration sensors (LED1 through 4, SREG1 through
4), and causes a move to a specific position matching the trailing
edge of each sheet (in relation to the size of the sheet).
The horizontal registration operation takes place as follows:
1) When the leading edge of a sheet from the host machine is

detected by the trailing edge sensor (LED5, PT5), the horizon-
tal registration motor (FPSM) starts to move the punch slide
unit toward the front.

2) When the horizontal registration sensor (LED1 through 4, PT1

through 4) suited to the paper size signal from the host
machine detects the rear edge of the sheet, the horizontal reg-
istration motor (FPSM) causes a further move to a specific
position, and stops the punch slide unit.

3)

When the trailing edge sensor (LED5, PT5) detects the trailing
edge of the sheet, the drive of the punch feed motor (FSIFM) is
stopped, thereby stopping the sheet. Then, the punch motor
(FPNM) is driven to punch holes in the sheet.

4)

When the punching operation ends, the punch feed motor
(FSIFM) of the finisher is driven and, at the same time, the hor-
izontal registration motor (FPSM) is rotated in reverse to return
the punch slide unit to its home position.

5)

For each sheet that arrives in succession, the punch slide unit
is returned to its home position, and is caused to repeat steps
1 through 4.

Punch slide unit

Trailing edge sensor

(LED5,PTR5)

Horizontal registration motor (FPSM)

Direction of

paper delivery

Paper

Horizontal registration sensor 1 (LED1 PTR1)

;used to detect the edge of sheets of A3, A4, LTR,

279mm x 432mm (11x17).

Horizontal registration sensor 2 (LED2 PTR2)

;used to detect the edge of sheets of B4, B5, LTRR, LGL.

Horizontal registration sensor 3 (LED3 PTR3)

;used to detect the edge of sheets of A4R.

Horizontal registration sensor 4 (LED4 PTR4)

;used to detect the edge of sheets of B5R.

Punch

Trailing edge sensor

(LED5,PTR5)

Horizontal registration

sensor (LED1-4,PTR1-4)

Punch home position sensor

(FPHPD)

Horizontal registration home

position sensor (FPSHPD)

Horizontal registration motor

(FPSM)

Punch motor (FPNM)

Punch feed motor (FSIFM)

CW rotation

CCW rotation