JPH0511862A - Temperature detecting device - Google Patents

Abstract

PURPOSE:To obtain the temperature detecting device which detects the defect of a thermistor irrelevantly to temperature and has high safety by detecting the temperature nearby two series-connected thermistors and the defect of the thermistor corresponding to the contact voltage at the connection point between the two thermistors. CONSTITUTION:As the temperature of the thermistors R1 and R2 rises, the contact voltage VTH also rises. Thus, the contact voltage which is different with the temperature of the thermistors R1 and R2 is generated and converted by an AD converter 10 into a digital value, which is inputted to a CPU 1 to calculate the temperature of the thermistors R1 and R2. The CPU 1 turns off a solid-state relay 5 through an input/output interface 6 when the temperature of the thermistors R1 and R2 rises above previously set upper-limit temperature. Thus, the relay 5 is turned on and off according to the previously set temperature to hold a halogen heater 4 within a constant temperature range.

Description

Detailed Description of the Invention

[0001]

BACKGROUND OF THE INVENTION 1. Field of the Invention The present invention relates to a temperature detecting device capable of detecting a failure of a temperature detecting portion.

[0002]

2. Description of the Related Art Conventionally, in a temperature control device that controls the temperature using a thermistor or the like, in order to detect a break in the thermistor, a thermistor and a resistor are connected in series, and a voltage is applied across both ends of the thermistor, and the thermistor and the resistor are connected. When the contact voltage of 1 is equal to the preset voltage, it was determined that the thermistor was broken, and the heat source was controlled.

[0003]

As described above, according to the conventional method, the resistance value of the thermistor becomes high at a low temperature, and it cannot be distinguished whether the resistance is high when the wire is disconnected. Control was performed to raise the temperature of the heating element regardless of the temperature of the body, and it was determined whether or not the wire was broken. However, in such a method, if the temperature of the heating element is already high, the temperature of the heating element rises more than necessary, and there is a risk of causing damage to the heating element or its surroundings, ignition, etc. It was

An object of the present invention is to provide a temperature detecting device capable of detecting a defect in the thermistor regardless of temperature.

[0005]

In order to solve the above problems, the present invention is a temperature detecting device for detecting the temperature in the vicinity of the thermistor using a thermistor, in which two thermistors having different characteristics are connected in series, Apply different voltage to both ends of the thermistor connected,
The temperature of the vicinity of the thermistor and the defect of the thermistor are detected according to the contact voltage at the connection point of the two thermistors.

[0006]

In the above structure, the temperature near the thermistor and the defect of the thermistor are detected according to the contact voltage at the connection point of the two thermistors connected in series.

[0007]

FIG. 1 shows an embodiment of the present invention. FIG. 3 is a circuit diagram of a temperature control device such as a fixing device of a copying machine. Reference numeral 1 is a CPU for temperature control, 2 is a ROM in which control contents are written, and 3 is a RAM for reading and writing data. Four
Is a halogen heater which is a heating element, 5 is a solid state relay for switching the power source of the halogen heater 4 under the control of the CPU 1, and 6 is an input / output interface between the CPU 1 and the solid state relay 5. R1 and R2 are thermistors, and their resistance values are R1 and R2.
The thermistor R1 and thermistor R2 are, as shown in FIG.
Each has different temperature-resistance value characteristics, and the rate of change of the resistance value with respect to the temperature of the thermistor R1 is larger than the rate of change of the thermistor R2. The thermistor R1 and the thermistor R2 are connected in series, one end of the thermistor R1 is connected to the reference voltage V ₁ , and one end of the thermistor R2 is connected to the reference voltage V ₂ . The contact voltage at the contact between the thermistor R1 and the thermistor R2 is V _TH . Reference numeral 9 is a resistance, which is sufficiently higher than the resistance values of the thermistors R1 and R2. 1
0 is AD conversion (analog digital conversion) of contact voltage V _TH
It is an AD converter that does. Reference numeral 11 is a temperature fuse that shuts off the power supply to the halogen heater 4 at a predetermined temperature when the halogen heater 4 continues to be energized due to a malfunction of the CPU 1 or a short circuit of the solid state relay 5.
The halogen heater 4 is prevented from overheating. Reference numeral 12 is a connector for connecting the thermistors R1 and R2 to the CPU 1.

In the above structure, the heat of the halogen heater 4 is transmitted to the thermistors R1 and R2, and the thermistors R1 and R2.
2 has a resistance value according to temperature. When the temperature of the halogen heater 4 rises, the temperatures of the thermistors R1 and R2 also rise, and as can be seen from FIG. 2, the ratio of the resistance values R1 and R2 increases.

Here, the contact voltage V _{TH at} the contact point between the thermistor R1 and the thermistor R2 is V _TH = V ₂ + (V ₁ −V ₂ ) × R 2 / (R 1 + R 2) = (R 1 · V ₂ + R 2 · V ₁ ) / ( R1 + R2).

Therefore, as shown in the normal operation graph of FIG. 3, when the temperature of the thermistors R1 and R2 rises, the contact voltage V _TH also rises. In this way, the thermistor R1,
A contact voltage V _TH that differs depending on the temperature of R2 is generated, and the contact voltage V _TH is converted into a digital value by the AD converter 10 and input to the CPU 1. The CPU 1 calculates using the value of the contact voltage V _TH that has been digitally converted, and the thermistor R
The temperatures of 1 and R2 are calculated. CPU1 is the thermistor R
When the temperatures of 1 and R2 exceed a preset upper limit temperature, the solid state relay 5 is turned off via the input / output interface 6. Further, when the temperature of the thermistors R1 and R2 falls below a preset lower limit temperature, the CPU 1 turns on the solid state relay 5 via the input / output interface 6. By turning on / off the solid state relay 5 according to a preset temperature, the temperature of the halogen heater 4 can be kept within a certain range.

Next, the thermistor R1 or the thermistor R2
A case will be described in which the wire breaks and the wire breaks.

When the thermistor R1 is disconnected, the contact voltage V _TH becomes V ₂ . When the CPU 1 determines that the contact voltage V _TH is V _2, it turns off the solid state relay 5 via the input / output interface 6, stops the power supply to the halogen heater 4, and outputs an error code indicating the thermistor R1 disconnection. Occur. If the thermistor R2 is broken, the contact voltage V _TH becomes V ₁ . When the CPU 1 determines that the contact voltage V _TH is V _1, it turns off the solid state relay 5 via the input / output interface 6 and generates an error code indicating the thermistor R2 disconnection. When both the thermistor R1 and the thermistor R2 are disconnected or the connector 12 is disconnected, the contact voltage V _TH becomes 0 [V]. CPU1 has 0 contact voltage V _TH
When it is determined to be [V], the solid state relay 5 is turned off via the input / output interface 6, and an error code indicating disconnection of the connector is generated.

As described above, since the CPU 1 can determine the disconnection of the thermistors R1 and R2 by looking at the contact voltage V _TH and turn off the power source of the halogen heater 4, the halogen heater 4 is overheated. It is possible to prevent damage to parts and fire.

[0014]

As described above, according to the present invention, a defect of the thermistor can be detected irrespective of the temperature, so that the temperature detecting device having high safety in any temperature state can be provided. is there.

[Brief description of drawings]

FIG. 1 is a circuit diagram of a temperature control device according to an embodiment of the present invention.

FIG. 2 is a diagram showing temperature-resistance characteristics of thermistors R1 and R2.

FIG. 3 is a diagram showing temperature-contact voltage characteristics of the thermistors R1 and R2.

[Explanation of symbols]

 1 CPU 4 Halogen heater 5 Solid state relay 9 Resistance 10 AD converter R1 Thermistor R2 Thermistor

Claims (1)

Claim: What is claimed is: 1. A temperature detecting device for detecting a temperature in the vicinity of the thermistor using a thermistor, wherein two thermistors having different characteristics are connected in series, and both ends of the thermistor are connected. Respectively apply different voltages, and detect the temperature near the thermistor and the defect of the thermistor according to the contact voltage at the connection point of the two thermistors.