Specifications
REV.-B
2.1 OVERVIEW OF PRINTER MECHANISM OPERATION
This section describes the PRINTER MECHANISM of the
Model-5E
10\5E60
printer unit and explains
how the printer works. The
Model-5E
10/5E60
has a PRINTER MECHANISM that features a 24-pin impact
I
dot
printhead
for serial printing. There are four main parts to the printer mechanism: 1) the printhead
mechanism, 2) the carriage movement mechanism, 3) the paper advance mechanism, and 4) the ribbon
advance mechanism. Each of these is described below.
2.1.1
Printhead
Mechanism
The printhead mechanism consists of the
printhead
itself, the ink ribbon, and the PLATEN. The printhead
contains 24 wires in a zigzag arrangement in two rows of 12. A drive coil is provided for each of these
wires to make the wires move in and out of the
printhead
and print dots independently of each other.
The basic way that the wires are driven is described in the four steps below.
1.
2.
3.
4.
The control circuit outputs the drive signal to the
printhead
drive circuit. This changes the
printhead
drive voltage, and current flows through the corresponding
printhead
coil. The coil acts as a solenoid
and generates a magnetic force.
This induced force causes the plate to approach the coil rod and the associated dot wire is rapidly
ejected to impact on the platen.
The dot wire presses the ink ribbon up against the paper as it hits the platen, and in this way prints
a dot on the paper.
As soon as the current
througk the coil is switched off, the force induced in the coil rod stops. The
plate then returns to its original position (its position before the coil was energized) through the action
of the plate spring. After the dot wire hits the platen, the rebounding force of hitting the platen works
together with the wire return spring to pull the wire back to its original position in relation to the
plate.
Dot
Wire
RIBBON
Wire Resetting Spring
Stopper
\\
/
Actuating
PLATEN
MASK
f
n-lo-e
~~1~..ad.rivin9coi,
Paper
Actuating plate
Sprin9
Figure 2-1. How the
Printhead
Works
Figure 2-1 shows the action of the PRINTER MECHANISM when a single dot is printed. The printhead
tends to heat up after a period of continuous printing. To minimize the possibility of the dot wire drive
coils overheating within the
printhead
and any loss of performance, the head is equipped with a
thermistor that detects the head temperature. When this thermistor detects changes in the
printhead
temperature, the voltage signal changes. This signal change is read by the control circuit for feedback
control.
2-1