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CHAPTER 3
SADDLE STITCH UNIT
BASIC OPERATION
I.
BASIC OPERATION .................... 3-1
A. Outline ....................................... 3-1
B. Electrical Circuitry ...................... 3-2
C. Inputs to and Outputs from the
B. Electrical Circuitry ...................... 3-2
C. Inputs to and Outputs from the
Saddle Stitch Controller PCB .... 3-3
II.
FEEDING/DRIVE SYSTEM ........ 3-8
A. Outline ....................................... 3-8
III. PAPER OUTPUT
MECHANISM ............................ 3-14
A. Outline ..................................... 3-14
B. Controlling the Inlet
B. Controlling the Inlet
Flappers ................................... 3-17
C. Controlling the Movement of
Sheets ...................................... 3-21
D. Aligning the Sheets .................. 3-23
E. Controlling the Phase of the
E. Controlling the Phase of the
Crescent Roller ........................ 3-26
IV. STITCHING SYSTEM ............... 3-28
V.
FOLDING/DELIVERY
SYSTEM ................................... 3-31
SYSTEM ................................... 3-31
VI. CHECKING FOR A JAM ........... 3-38
VII. POWER SUPPLY ...................... 3-43
VII. POWER SUPPLY ...................... 3-43
1. This chapter discusses the purpose and role of each of the saddle stitch functions, and the prin-
ciples of operation used for the stitch mechanical and electrical systems. It also explains the
timing at which these systems are operated.
timing at which these systems are operated.
The
symbol in drawings indicates transmission of mechanical drive, and signals marked by
together with the signal name indicates the flow of electrical signals.
2. In descriptions of digital circuits on the stitch, “1” indicates a high signal voltage level, while “0”
indicates a low signal voltage level. Voltage values differ according to circuit.
A microprocessor is used on the stitch. A description of microprocessor operation is omitted in
this chapter as it is practically impossible to check internal operation of the microprocessor.
this chapter as it is practically impossible to check internal operation of the microprocessor.
Descriptions in this chapter also assume that PCBs will not be repaired at user sites. For this
reason, descriptions of circuits on PCBs is limited to block diagrams. Two types of block dia-
grams are provided for separate functions: diagrams indicating details from sensors up to input
sections of major PCBs, and diagrams indicating details from the output sections of major PCBs
up the loads.
reason, descriptions of circuits on PCBs is limited to block diagrams. Two types of block dia-
grams are provided for separate functions: diagrams indicating details from sensors up to input
sections of major PCBs, and diagrams indicating details from the output sections of major PCBs
up the loads.
3-1
CHAPTER 3 SADDLE STITCH UNIT BASIC OPERATION
I.
BASIC OPERATION
A.
Outline
The unit “stitches” (2 points) a stack of sheets delivered by the finisher unit and folds it in two for
delivery. All these operations are controlled by the saddle stitch controller PCB in response to com-
mands from the host machine via the finisher unit.
mands from the host machine via the finisher unit.
Finisher unit control system
Control system
Guide plate drive system
Paper positioning plate
drive system
Alignment drive system
Saddle stitch drive system
Delivery drive system
Feed drive system
Paper pushing plate
drive system
Paper folding roller
drive system
Figure 3-101
3-2
CHAPTER 3 SADDLE STITCH UNIT BASIC OPERATION
B.
Electrical Circuitry
The sequence of operations used for the saddle stitch is controlled by the saddle stitch controller
PCB. The saddle stitch controller PCB has a microprocessor. This microprocessor is used to control
the sequence of operations and to handle serial communications with the finisher controller PCB,
driving solenoids and motors in response to the various commands from the finisher controller PCB.
the sequence of operations and to handle serial communications with the finisher controller PCB,
driving solenoids and motors in response to the various commands from the finisher controller PCB.
The saddle stitch controller PCB is also used to communicate the state of various sensors and
switches to the finisher controller PCB in serial.
The functions of the major ICs mounted on the saddle stitch controller PCB are as follows:
●
Q1
Controls the sequence of operations.
Controls the sequence of operations.
●
Q2
Contains the sequence program.
Contains the sequence program.
●
Q3
Controls the sequence of operations.
Controls the sequence of operations.
●
Q4
Handles IPC communications.
Handles IPC communications.
Electrical circuitry block diagram
Sensors
Switches
Q1 CPU
Q2
ROM
Q3
RAM
Q4
Communi-
cations IC
Saddle stitch
controller PCB
Motors
Solenoids
Host machine
Finisher controller
PCB
Figure 3-102
3-3
CHAPTER 3 SADDLE STITCH UNIT BASIC OPERATION
C.
Inputs to and Outputs from the Saddle Stitch Controller PCB
1.
Inputs to the Saddle Stitch Controller PCB
Paper folding
motor clock
sensor
motor clock
sensor
Alignment
plate home
position sensor
plate home
position sensor
Paper
positioning
plate home
position sensor
positioning
plate home
position sensor
Tray paper
sensor
sensor
PI7S
J402A
J402
J502
J106-3
-1
-2
-2
PI6S
J100-3
-1
-2
-2
J6-7
-9
-8
-8
J6-4
-6
-5
-5
-3
-1
-2
-1
-3
-2
J202A
J302
J202
-6
-4
-5
-1
-3
-2
-3
-1
-2
-4
-6
-5
PI5S
J101-3
-1
-2
-2
J11-1
-3
-2
-2
PI4S
J102-1
-2
-3
-3
J11-6
-5
-4
-4
PI3S
J103-3
-1
-2
-2
J11-7
-9
-8
-8
-3
J303-1
-2
-1
J203-3
-2
-3
J309-1
-2
-1
J209-3
-2
PI2S
J104-3
-1
-2
-2
J11-10
-12
-11
-11
PI1S
J107-1
-2
-3
-3
J11-15
Saddle stitch controller PCB
When the paper pushing plate
motor is rotating, alternately
between “1” and “0”.
motor is rotating, alternately
between “1” and “0”.
+5V
LUNGECLK
LUNGECLK
When the front door is open,
“0”.
“0”.
+5V
FDR
FDR
When the paper folding motor
is rotating, alternately between
“1” and “0”.
is rotating, alternately between
“1” and “0”.
+5V
FLDCLK
FLDCLK
When the alignment plate is
at home position, “1”.
at home position, “1”.
+5V
JOGHP
JOGHP
When paper is present on the
tray, “1”.
tray, “1”.
+5V
TRYPAR
TRYPAR
When the paper positioning
plate is at the home position
sensor, “1”.
plate is at the home position
sensor, “1”.
+5V
PAPPOS
PAPPOS
When the delivery cover is
open, “0”.
open, “0”.
+5V
EJCVR
EJCVR
-14
-13
-13
Paper pushing
plate motor
clock sensor
plate motor
clock sensor
Front door
open/closed
sensor
open/closed
sensor
Delivery cover
sensor
sensor
Figure 3-103