JPS6347633B2 - - Google Patents

Description

DETAILED DESCRIPTION OF THE INVENTION The present invention relates to a protection circuit for a printer, particularly a non-impact thermal printer head.
The purpose is to prevent burnout of the printer head during transient conditions when the power is turned on and off.

First, the operation of the thermal printer will be briefly explained using FIG. In FIG. 1, the printer drive circuit mainly consists of transistors 1, 2, and 3, and the thermal printer head 4 operates as a load for the transistor 3. Here, 5 is a gate circuit, 6 is a base resistance of transistor 1, 7 is a collector load resistance of transistor 1, 8 is a constant voltage element, 9 is a base resistance of transistor 2, 10,
11 is a bias resistor of the transistor 3.

In the above configuration, when printing, a printing pulse with a pulse width of 100 μs is applied to the gate circuit 5,
The output makes transistor 1 conductive, and further makes transistors 2 and 3 conductive. As a result, a heat pulse is applied to the head 4.

However, in this case, the thermal head 4 may burn out if the power supplies (5V power supply for logic, -24V power supply for printer driver) are not sufficiently monitored, especially during transient states when the power is turned on and off. To explain this point in detail, for example, if we consider that when the power is turned on, the driver power supply -24V rises first, and then the logic power supply +5V rises.In this state, the input to the drive circuit is undefined. Therefore, a heat pulse of several milliseconds or more is applied to the thermal head 4, causing the thermal head 4 to burn out.

The present invention eliminates these drawbacks. An example of this will be described below with reference to FIGS. 1 to 3. As mentioned above, in the configuration of the printer drive circuit shown in FIG. 1, +5V is the power supply for logic such as the gate 5, and -24V is the head drive power supply for driving the printer thermal head. When the power is turned on, as shown in Figure 2, if +5V is applied first to stabilize the logic system, and then -24V is applied to the head drive, the head 4 will not be burnt out. On the other hand, considering when the power is turned off, −24V
The head drive power goes out first, then the +
If 5V is cut off, there is no problem.

The present invention is constructed based on this principle of operation, and its specific construction and operation will be explained below. In Figure 1, 12 is a power transformer;
AC power is added to the primary side. 13 is a full-wave rectifier circuit, 14 and 15 are resistors and capacitors that constitute a smoothing circuit, and this output DC voltage V ₁ is applied to the collector of transistor 16, and transistor 1
6 power supply. 17 is a diode, 1
8 is a resistor connected in parallel to this diode 17, 19 is a capacitor, 20 is a diode, 21
is an emitter resistor of the transistor 16; 22 is a transistor whose base is connected to the emitter of the transistor 16 through a resistor 23; and whose emitter is connected to the base of the transistor 1 through a diode 24.

Next, the operation will be explained using FIG. 3.

Now, when you close the power switch (not shown),
The AC power is rectified and smoothed by a rectifier circuit 13, a smoothing resistor 14, and a smoothing capacitor 15, and is applied to the collector of a transistor 16 to become a power supply _V1 for the transistor 16. Meanwhile, capacitor 19 begins to be charged through resistor 18. As a result, immediately after the power switch is closed, transistor 16 is in a cut-off state and transistor 22 is in a conductive state. Therefore, the diode 24 becomes conductive and leads the base potential V ₅ of the transistor 1 to a low level.
Here, the resistor 18 is set to a relatively large resistance value, and the capacitor 19 is also composed of a capacitor of several tens of μF. As a result, the DC voltage V ₁ is transmitted to the base of the transistor 16 with a time delay determined by the resistor 18 and capacitor 19. This value is shown in FIG. 3 as _V4 . As a result, the transistor 16 becomes conductive for the first time, the transistor 22 becomes cut off, and the transistor 22 becomes conductive.
The emitter potential _V3 of increases, bringing diode 24 into the cut-off state. As a result, potential _V5 is applied to transistor 1, and the printer drive circuit starts operating. That is, here, when the power is turned on, the printer drive circuit starts operating with a time delay determined by the resistor 18 and capacitor 19.

On the other hand, when the power is turned off, it is necessary to immediately cut off the transistor 1. That is, −
The idea is to keep _V5 low until the 24V power is turned off. When the power is turned off, the rectified and smoothed voltage V ₁ rapidly decreases. Therefore, the charge in the capacitor 19 is rapidly discharged through the diode 17, turning off the transistor 16.
As a result, transistor 22 is further rendered conductive. As a result, the emitter potential _V3 becomes low level, keeping _V5 at low level and inhibiting the printing operation.

As explained above, according to the present invention, when the power is turned on, the print drive circuit starts operating with a certain time delay, and when the power is turned off, the operation of the print drive circuit is immediately stopped. , it is possible to reliably prevent burnout of the printer head, and is extremely valuable in practice.

[Brief explanation of the drawing]

Fig. 1 is a circuit diagram of a printer head protection circuit according to an embodiment of the present invention, Fig. 2 is a diagram for explaining the principle of the present invention, and Fig. 3 is a diagram for explaining the operation of the present invention. FIG. DESCRIPTION OF SYMBOLS 1, 2, 3...Transistor constituting a printer drive circuit, 4...Printer head, 12...Power transformer, 13...Rectifier circuit, 14...Smoothing resistor, 15...Smoothing resistor, 16, 22... ...transistor, 17...discharging diode, 18...charging resistor, 19...capacitor, 20...diode.

Claims (1)

[Claims] 1 Connect the cathode of a first diode to the rectified and smoothed voltage output terminal, connect a resistor in parallel to this first diode, and connect the anode of the first diode to the base of the transistor via a second diode. The collector of this transistor is connected to the rectified and smoothed voltage output terminal, a capacitor is connected to the connection point between the two diodes, and the base of a drive transistor that controls the print head drive circuit is connected to the output terminal of the transistor. A printer head protection circuit characterized in that the time constant of the circuit made up of the resistor and the capacitor is set to be larger than the rise time of a drive power source for the printer head.