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MX-FNX6  MECHANISM  3 – 2

M1

ENT_M

Inlet motor

M3

LOTRS_M

Lower transport motor

M14

POP_M

Beating roller drive motor

M21

TRYLFT_M

Tray up/down motor

S2

PSTRYEXT

Staple paper exit sensor

S19

UPTRFLSD

Full sensor: Center binding (*)

S20

UPTRFLNS

Full sensor: Without center binding

S33

SDLFLLR

Center binding tray full sensor (*)

S34

SDLFLLF

Center binding tray full sensor (*)

SOL3

POS_S

Beating SOL

SOL4

TEGPRS_S

Rear edge holding SOL

SOL5

SDLPRS_S

Center binding holding SOL (*)

-

-

PCB: STP: Control plate

-

-

PCB: Main: Control plate

-

-

Door SW

* SOL5

PCB: STP:

Control plate

PCB: Main:

Control plate

S20

* S19

* MX-FNX7 only

* S34

* S33

M14

SOL3

SOL4

S2

Door SW

M1

M3

M21

M24

S24

M9

S21

S4

S3

S22

M7

PCB: Punch: Control plate

M7

STSMOV_M

Horizontal resist detection sensor shift motor

M9

PNCHMV_M

Punch shift motor

M24

PNCH_M

Punch drive motor

S21

PNCHMVHP

Punch shift HP sensor

S22

PAPPOSHP

Horizontal resist detection HP sensor

S24

PNCHENC

Punch HP sensor

S3

PAPPOS

Horizontal resist detection sensor

S4

PNCHHPFL

Punch dust full sensor

-

-

PCB: Punch: Control plate

M5

BLT_M

Discharge motor

M6

STPMV_M

Stapler shift motor

M13

STPROT_M

Stapler slant motor

M15

JOG_M

Jogger motor

M17

BDJCTG_M

Bundle branch open/close (*)

M20

STPMOV_M

Stapler

M22

SDLSTF_M

Center binding stapler (*)

M23

SDLSTR_M

Center binding stapler (*)

S14

STPTRPAP

Stapler tray paper presence sensor

S15

JOGHPS

Jogger HP sensor

S16

BLTHPS

Discharge pawl HP sensor

S17

CONSTPHP

Stapler shift HP sensor

S18

STPROTHP

Stapler slant HP sensor

S27

STJCTGHP

Bundle branch open/close HP (*)

S32

STKPRST

Lead edge detection sensor (*)

* S27

* M17

S18

S17

M13

M20

S14

M6

S15

M15

* M23

* M22

M5

S16

*S32

MX-FNX6  MECHANISM  3 – 3

1)

Paper is branched to the three directions by the proof branch
pawl and the staple branch pawl. 

2)

In the proof mode, when discharging to the proof tray, copy
paper is transported to the proof tray by the proof branch pawl. 

3)

In the shift mode, the proof branch pawl and the staple branch
pawl do not operate, and copy paper is transported to the shift
tray.

M8

DRRLVI_M

Drive roller oscillation motor (*)

M11

FLDPLT_M

Folding plate drive motor (*)

M12

FLDROL_M

Folding roller motor (*)

M16

TALFNC_M

Rear edge fence motor (*)

S25

CLPROLHP

Drive roller HP sensor (*)

S26

FLDUNENT

Reach sensor (*)

S28

FLDBTMHP

Rear edge fence HP sensor (*)

S29

FLDPLTHP

Folding plate HP sensor (*)

S30

FLDCMHP

Folding HP sensor (*)

S31

FLDUNEXT

Folding pass sensor (*)

M1

ENT_M

Inlet motor

M2

UPTRS_M

Upper transport motor

M3

LOTRS_M

Lower transport motor

M4

EXIT_M

Paper exit motor

M5

BLT_M

Discharge motor

M11

FLDPLT_M

Folding plate drive motor (*)

M12

FLDROL_M

Folding roller motor (*)

M14

POP_M

Beating roller drive motor

M21

TRYLFT_M

Tray up/down motor

* S25

* S31

* M8

* S26

* S28

* S30

* M16

* S29

* M11

* M12

* MX-FNX7 only

M2

M1

M3

M14

M4

M21

M5

* MX-FNX7 only

* M12

* M11

When in the proof mode:

Staple branch pawl

Proof branch pawl

In the shift mode:

MX-FNX6  MECHANISM  3 – 4

4)

In the staple mode, the staple branch pawl operates to trans-
port copy paper to the staple section.

Four sheets can be discharged with max. three sheets of pre-stack.
In the example below, descriptions are made on discharge of three
sheets with two sheets of pre-stack. 
1)

Stapling the first set is performed.

2)

The first sheet of the second set is switch-back transported to
the pre-stack tray.

3)

The first sheet of the second set is transported from the pre-
stack tray. At the same time, transport of the second sheet of
the second set is started. 

4)

Transport of the first sheet of the second set is completed. At
the same time, the rear edge of the second sheet of the sec-
ond set passes the branch pawl. 

5)

The first sheet and the second sheet of the second set are
switch-back transported together to the pre-stack tray. 

6)

Stapling of the first set is completed. At the same time, the first
sheet and the second sheet of the second set are transported
together from the pre-stack. Transport of the third sheet of the
second set is also started. 

In the staple mode:

Staple branch pawl

Bundle of 1st set

1st sheet of 2nd set

2nd sheet of 2nd set

Pre-stack tray

Pre-stack Branch pawl

3rd sheet of 2nd set

MX-FNX6  MECHANISM  3 – 5

7)

The first set is discharged. 

8)

The first sheet, the second sheet, and the third sheet of the
second set are discharged together to the staple tray. 

<Tray assembly>
The Tray assembly rises or falls depending on the copy paper 
quantity (paper stack height) discharged on the tray. The height is
always adjusted by the OFF state of the paper surface sensor. 
• When discharging in the shift mode: 

Paper surface sensor on the end fence side

• When discharging in the staple mode: 

Paper surface sensor on the filler

1)

Falling operation
When the discharged copy paper is loaded on the tray and the
filler is lifted to turn on the paper surface detection sensor
lower for 3 sec or more, the lift motor rotates to fall the shift
tray. The falling operation varies depends on the mode. 

Staple: 
The lift motor rotates for a certain time to lower the tray height
for a certain interval, adjusting the height. 

Shift: 
The shift tray lifts up to the position where the paper surface
sensor is turned on. Then, the tray falls to turn off the paper
surface sensor, adjusting the height. 
The shift tray full detection is made when the sensor is turned
on and it is displayed on the operation panel, and copying is
stopped. Cancel is made by removing copy paper. 

2)

Rising operation
When copy paper is removed from the shift tray and the paper
surface sensor upper is turned on, the shift tray rises. It stops
when the sensor is turned off. 

Copy paper branched to the staple tray is transported to the staple
tray. After the staple paper exit sensor turns off (A4Y), the align-
ment roller SOL turns on for a certain time (varying depending on
the size and the quantity). The alignment roller pushes paper to the
tray stopper to align the rear edges of paper. 

Copy paper rear edges are aligned by stack operation of (A), then
copy paper side edges are aligned by jogger operation. 
First, the jogger fence closes to 7mm open from the right and the
left edges of paper by the ON signal (copy start). 
When the lead edge of the transported paper passes the staple
paper exit sensor, the jogger fence closes 5mm to receive paper
and performs the operation of (A) to align the rear edges. 
Then, the jogger fence closes 2.6mm furthermore to align the side
edges. 
When the jogger operation is completed, the jogger fence opens
again to 7mm open from the paper edges and the machine enters
the standby state of the next paper. 

Lift motor

Shift tray lower
limit sensor

Filler paper surface sensor

Paper surface
sensor on the end
fence side

Jogger fence

Sliding roller

Jogger motor

Jogger HP
sensor