KR940003832B1 - Overheat protecting circuit of heater - Google Patents

Abstract

The circuit prevents the damage of heater caused by a thermistor short circuit. The circuit comprises: a power supply responding to the control signal from a temperature sensor; a short monitoring circuit for watching the sensor output line; a temperature comparison circuit outputting the difference between the sensor output voltage and the reference value; a microprocessor for displaying the short status according to the short monitoring circuit condition.

Description

Heater overheat protection circuit

1 is a block diagram of a conventional heater temperature control circuit.

2 is a block diagram of a heater overheat prevention circuit of the present invention.

3 is a specific view of one embodiment according to FIG. 2;

BACKGROUND OF THE INVENTION 1. Field of the Invention The present invention relates to a heater overheat prevention circuit of a device such as a laser beam printer (LBP), and more particularly, to prevent overheating of a heater during disconnection of a thermistor used as a temperature sensor in a circuit for controlling a heater of a fuser of an LBP. It relates to a circuit for performing.

Typically, overheating of the heater accounts for a very large portion of the life and inoperability of the device, a solution for this is required. Of the commonly disclosed overheat protection circuits of the heater, Figure 1 is a representative LBP heater temperature control circuit.

With reference to FIG. 1, a conventional heater temperature control technique will be briefly described.

Referring to FIG. 1, the voltage according to the temperature value output from the thermistor 5 used as the temperature sensor is applied to the temperature comparison circuit 4 via the line a. The temperature comparison circuit 4 compares the voltage value of the line a with the internal reference voltage and applies the difference value to the microcomputer 3. The microcomputer 3 accordingly outputs a control signal for controlling SSR or TRIAC, that is, a predetermined voltage value according to the difference value, to the control line b. Therefore, the SSR 2 adjusts the AC voltage of the heater 1, and the heater 1 maintains a constant temperature.

However, since the thermistor 5 has high resistance at low temperature, the output of the temperature comparison circuit 4 does not change significantly even if the line a is disconnected by an external factor.

That is, the difference voltage output in the same manner as the low temperature state is output to the microcomputer 3 as it is, and thus the microcomputer 3 triggers the SSR 2 so that the heater 1 is continuously turned on. (turn on) so heating continues.

Subsequently, when the temperature is lowered by the line, an output difference signal is output, and the hutter 1 will be overheated by the turn-on of the SSR 2.

As described above, the conventional circuit has no countermeasure against disconnection of the thermistor and thus has no solution for preventing overheating of the heater. Therefore, there is a serious problem that causes breakage and fire of the device when the thermistor is disconnected due to external factors.

Therefore, an object of the present invention is to provide an overheat prevention circuit of a heater that can solve the above problems.

Another object of the present invention to provide an overheat prevention circuit of the heater that can solve the above problems.

Another object of the present invention is to provide a circuit capable of preventing overheating of the heater by disconnection as well as maintaining the conventional technology having a temperature control function.

According to the present invention for achieving the above object, in a device having a sensor for sensing the temperature of the heater 1 and outputting it as a voltage, applying power to the heater 1 in response to a control signal applied A disconnection monitoring circuit for monitoring the presence or absence of disconnection by monitoring a voltage output line of the sensor, a temperature comparison circuit comparing the output voltage of the sensor with a preset reference voltage and outputting the difference signal, and the temperature A microcomputer for outputting a signal for controlling the power supply element according to the difference signal output from a comparison circuit and displaying a disconnection state according to a monitoring signal of the disconnection monitoring circuit, an output of the micom and the disconnection monitoring circuit Means for inputting the monitoring signal of and outputting the control signal to the power applying element is provided.

Hereinafter, the present invention will be described with reference to the accompanying drawings.

2 is a block diagram of the heater overheat prevention circuit of the present invention, wherein the output of the disconnection monitoring circuit 6 for monitoring the disconnection of the output line a of the thermistor 5 is the microcomputer 3 and the control circuit 7. Is applied to. The control circuit 7 directly inputs both the output of the microcomputer 3 and the output of the disconnection monitoring circuit 6 to directly control the SSR or TRIAC 2.

In addition, the remainder of the configuration is the same as in the first circuit of the conventional circuit, the reference number was used.

3 is a detailed circuit diagram of FIG.

Referring to Figure 3 will be described in detail a preferred embodiment.

In FIG. 3, the input of the disconnection monitoring circuit 6 is the output of the thermistor 5. In the steady state, the first transistor Q ₁ is turned on by the voltage of the line C, which is one side line of the connector CN1 connected to the thermistor 5, and thus the second transistor Q ₂ is also turned on. .

Therefore, the phototransistor is turned on by the photodiode in the photo-coupler type P ₁ so that the point i of the connector becomes LOW. Therefore, the microcomputer 3 recognizes that the output of the line e is applied to the microcomputer 3 so that the thermistor 5 is not disconnected.

Here, the SSR 2 will be described as turning on the heater 1 when the line f, which is an input line of an internal gate-trigger, is low.

On the other hand, the microcomputer 3 outputs a high or low on the output line (k) according to the output of the temperature comparison circuit 4 to adjust the temperature. However, if the thermistor 5 is disconnected or the terminal is not connected from the connector CN1, the output voltage of the temperature comparison circuit 4 is When the resistance is large, V _T becomes about 5V.

However, the temperature comparison circuit 4 stores the difference signal level of a low temperature state whether the voltage state V _T is low or disconnected, and the microcomputer 3 accordingly stores the output line K low. To register. However, since the first transistor Q ₁ bias in the disconnection detection circuit 6 does not become, it is turned off.

Accordingly, the second transistor Q ₂ is also turned off so that no current flows through the photodiode, and the output point i of the P ₁ becomes high. Therefore, when the output point i is high, the microcomputer 3 recognizes the abnormal state of the thermistor 5 and displays a status error message to the user.

In addition, when the point (i) is high, it can be seen that the output of the oragate 7 which is the control circuit 7 becomes high, and overheating of the heater 1 is prevented in advance.

Therefore, disconnection of the thermistor, which is a temperature sensor of the fixing unit of the LBP, is easily detected, and overheating of the heater is prevented.

As described above, since the present invention has an advantage of preventing overheating of the heater even when the temperature control sensor is disconnected, the life and protection of the device can be achieved.

Claims (4)

A device having a sensor for sensing the temperature of the heater 1 and outputting it as a voltage, the device comprising: an element for applying power to the heater 1 in response to an applied control signal, and a voltage output line of the sensor; A disconnection monitoring circuit for monitoring disconnection, a temperature comparison circuit comparing the output voltage of the sensor with a preset reference voltage and outputting the difference signal, and the difference signal output from the temperature comparison circuit. Outputs a signal for controlling a power applying element and inputs a microcomputer for displaying the disconnection state according to the monitoring signal of the disconnection monitoring circuit, and inputs the output of the micom and the monitoring signal of the disconnection monitoring circuit to the power supply element; And overheating prevention circuits, characterized in that the control signal output means. 2. The heater overheat prevention circuit according to claim 1, wherein the sensor is composed of a thermistor. The heater overheat prevention circuit according to claim 1, wherein the control signal output means comprises an orifice for logically combining the output of the microcomputer and the monitoring signal. 4. The heater overheat prevention circuit according to claim 3, wherein the disconnection supervisory circuit comprises first and second transistors (Q ₁ and Q ₂ ), a photocoupler and a resistor for bias.