KR20100101990A - Thermo couple temperature measurement apparatus - Google Patents

Abstract

PURPOSE: A device for measuring temperature of a thermocouple is provided to minimize a measured temperature change by distinguishing a current path when electromotive force is measured from when disconnection is detected. CONSTITUTION: A device for measuring temperature of a thermocouple comprises a thermocouple sensor(110), a compensation conducting wire(120), an input part(130), a disconnection detecting part(140), and a controller(150). The thermocouple sensor is installed in a temperature measurement point. The compensation conducting wire is connected to the thermocouple sensor. The input part is connected to the compensation conducting wire. The disconnection detecting part is connected to the input part and detects disconnection of the thermocouple sensor and the compensation conducting wire. The controller measures the temperature of the temperature measurement point.

Description

Thermocouple temperature measurement apparatus {Thermo couple temperature measurement apparatus}

The present invention relates to a thermocouple temperature measuring device capable of minimizing a change in measurement temperature.

In general, various kinds of temperature sensors are used for automation, quality control, and unmanned equipment. Since most of these temperature sensors play an important role in quality control, facility status management, and facility operation decision, etc. Depending on the accuracy of the temperature sensor or the degree of condition monitoring, it has a decisive influence on productivity, product quality, and facility utilization rate, and also on the cost side.

In this way, the function of the temperature measuring sensor is very important, but the detection of the required temperature (required temperature for each equipment) is not accurate, and in the event of an abnormality in the sensor, not only is it possible to take a quick action, but also an incorrect signal is generated to directly affect the equipment. It can be crazy.

The thermocouple uses a thermocouple, and the thermocouple uses a thermocouple to measure temperature using thermoelectric power. After forming, the temperature-contacting point is located adjacent to the heating material to be measured, and the thermoelectric power is measured, and the temperature of the measurement site can be known using the measured thermoelectric power.

The thermocouple temperature measuring device as described above has a simple structure and can measure a wide range of temperatures from cryogenic to 3000 ° C depending on the type of metal wire, so that not only the temperature of the metal melt but also the internal temperature of the furnace It is widely used for temperature measurement such as measurement.

1 is a schematic circuit block diagram of a thermocouple temperature measuring apparatus according to the prior art, which includes a thermocouple sensor 10 installed at a temperature point; A compensation wire 20 connected to the thermocouple sensor 10; An input unit 30 connected to the compensation wire 20; A disconnection detector 40 connected to the input unit 30; The control unit 50 is connected to the disconnection detecting unit 40.

In the thermocouple temperature measuring device configured as described above, when electromotive force Vtc is generated in the thermocouple sensor 10 according to the temperature change of the temperature measurement point, the electromotive force is transmitted to the input unit 30 through the compensation lead 20.

The electromotive force is applied to the temperature measuring unit 50 through the disconnection detecting unit 40, and the temperature measuring unit 50 measures the temperature value.

In this case, when disconnection occurs in the thermocouple sensor 10 or the compensation wire 20, thermal conductivity temperature measurement is impossible.

Therefore, the thermocouple temperature measuring apparatus includes the disconnection detector 40 for detecting the disconnection of the thermocouple sensor 10 or the compensation lead 20.

The disconnection detecting unit 40 applies a constant voltage to the compensation lead 20. In the case of a disconnection, the input unit 30 is an open circuit in a circuit, and the constant voltage is applied to the control unit 50.

Here, the constant voltage is a value that is relatively greater than the electromotive force generated by the thermocouple sensor 10, so that the controller 50 can detect the disconnection.

When the disconnection is not generated in the thermocouple sensor or the compensation lead, the current flowing through the thermocouple sensor or the compensation lead is generated by the applied constant voltage.

Since the thermocouple sensor or the compensating wire has a large change in the wire resistance along its length, a voltage change occurs due to a current, and the voltage change generates a temperature difference when the temperature is converted by the input unit.

Therefore, even if the measuring point of the same temperature is measured, if the length of the thermocouple sensor or the compensation lead is different, there is a problem that the measured temperature is displayed differently.

The present invention is to solve the problem that the error of the measured temperature occurs.

According to a preferred aspect of the present invention,

A thermocouple sensor installed at the temperature point;

A compensation lead connected to the thermocouple sensor;

An input unit connected to the compensation wire;

A disconnection detection unit connected to the input unit to detect the disconnection of the thermocouple sensor and the compensation wire;

A control unit connected to the disconnection detecting unit and receiving an output signal of the disconnection detecting unit to determine whether the thermocouple sensor or the compensation lead is disconnected, and to measure the temperature of the temperature measuring point,

The disconnection detecting unit includes first and second conductive lines connected to the input unit and the control unit, first and second switches connected to each of the first and second conductive lines, and a first and second switches connected to each of the first and second switches. A thermocouple temperature measuring device comprising two current sources, a constant voltage power supply connected to the first current source, and a ground connected to the second current source is provided.

The thermocouple temperature measuring apparatus of the present invention has the effect of minimizing the measured temperature change due to the change in the length of the thermocouple sensor or the compensating wire or the wire resistance by changing the current path during the electromotive force measurement and the disconnection detection of the thermocouple sensor. There is.

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

2 is a schematic circuit block diagram of a thermocouple temperature measuring apparatus according to the present invention, which includes a thermocouple sensor 110 installed at a temperature point; A compensation lead 120 connected to the thermocouple sensor 110; An input unit 130 connected to the compensation lead 120; A disconnection detector 140 connected to the input unit 130 to detect disconnection between the thermocouple sensor 110 and the compensation lead 120; A control unit connected to the disconnection detecting unit 140 and receiving an output signal of the disconnection detecting unit 140 to determine whether the thermocouple sensor 110 or the compensation lead 120 is disconnected, and to measure the temperature of the temperature measuring point. And the disconnection detecting unit 140 includes first and second conductive lines 141a and 141b connected to the input unit 130 and the controller 150, and the first and second conductive lines 141a and 141a, respectively. 141b) first and second switches 142a and 142b connected to each other, and first and second current sources 141c and 142c connected to the first and second switches 142a and 142b, respectively. A constant voltage power supply is connected to the first current source 141c, and a ground is connected to the second current source 142c.

Therefore, in the thermocouple temperature measuring apparatus of the present invention, the electromotive force generated by the thermocouple sensor 110 is input to the disconnection detecting unit 140 through the compensation lead 120 and the input unit 130.

In this case, the disconnection detecting unit 140 includes first and second current sources 141c and 142c and first and second switches 142a and 142b as described above.

 Therefore, when determining the disconnection of the thermocouple sensor 110 and the compensation lead 120, when the switch is turned on by the control signal of the controller 150, the first and second current sources (141c, 142c) ) Is connected to the electromotive force path from the thermocouple sensor 110 to the controller 150, and flows a few microcurrents toward the input unit 130.

When the disconnection determination is finished, the first and second switches 142a and 142b are turned off through the control unit 150, and the first and second current sources 141c and 142c are disconnected from the electromotive path. No current flows through the electromotive force pass.

Therefore, the thermocouple temperature measuring apparatus of the present invention can minimize the change in the measured temperature due to the change in the length of the thermocouple sensor or compensation lead or the change in lead resistance by varying the current path during the electromotive force measurement and the disconnection detection of the thermocouple sensor. There is an advantage.

Here, the control unit 150 of the thermocouple temperature measuring apparatus of the present invention includes an amplifier 151 for amplifying the output voltage of the disconnection detector 140 to a predetermined level; An analog / digital converter 152 for converting the voltage amplified by the amplifier 151 into a digital signal; MPU (Micro Processing Unit) which receives the output signal of the analog / digital converter 152 and determines whether the thermocouple sensor 110 or the compensation lead 120 is disconnected, and measures the temperature of the temperature measuring point It is preferable that it consists of 153.

At this time, the MPU 153 also controls the opening and closing of the first and second switches 142a and 142b.

In addition, the first and second current sources 141c and 142c are constant current sources, and as shown in FIG. 5, a circuit for supplying or sinking a constant current regardless of load variation.

The first and second switches 142a and 142b are switches that are turned on / off by an electric signal as shown in FIG. 6.

In addition, the first and second switches 142a and 142b are controlled by the MPU 153.

Referring to FIG. 6 in detail, a control signal is transmitted to the Logic In pin I1 of the switch through a port of the MPU 153.

At this time, when the high level control signal 5V is applied to the Logic In pin I1, the switches S1-S2 are turned on, and when the low bevel control signal 0V is applied, the switches S1-S2 are turned off ( Off).

That is, when the switch is turned on, the first and second switches 142a and 142b connect the first and second current sources 141c and 142c and the input unit 130.

Therefore, when determining disconnection, the switch is turned on through the MPU 153 to connect the first and second current sources 141c and 142c to the electromotive force path to flow a few nA of microcurrent in the direction of the terminal block.

After disconnection determination, the switch is turned off through the MPU 153 to disconnect the first and second current sources 141c and 142c from the electromotive force pass.

At this time, no current flows through the electromotive force path.

3 is a schematic circuit block diagram for explaining disconnection detection in accordance with the present invention. The first and second current sources 141c and 142c are connected to the input unit 130.

Here, when the thermocouple sensor 110 and the compensation lead 120 which are outside of the input unit 130 are not disconnected, current generated in the first current source 141c flows through the input unit 130. .

The current flows into the second current source 142c via the thermocouple sensor 110.

If the thermocouple sensor 110 and the compensation lead 120 outside of the input unit 130 are disconnected, the circuit is opened outside the input unit 130 and input to the controller 150. The large voltage Vtc is generated close to the power supply voltage of the first current source 141c.

This voltage is larger than the electromotive force generated by the thermocouple sensor 110 in the steady state.

Therefore, if the current for disconnection detection flows and the voltage detected by the control part 150 reaches the maximum value, it will determine that it is disconnection.

At this time, the thermocouple temperature measuring apparatus of the present invention may be further provided with an alarm unit for generating an alarm sound in response to a signal from the control unit.

FIG. 4 is a schematic circuit block diagram for explaining temperature disconnection detection after determining disconnection according to the present invention. When the thermocouple sensor 110 and the compensation lead 120 are not disconnected, the first and second current sources 141c are shown in FIG. The first and second switches 142a and 142b are turned off so that 142c is not connected to the input unit 130.

Therefore, the thermocouple temperature measuring apparatus of the present invention can detect the electromotive force generated by the thermocouple sensor 110 to measure the temperature of the temperature measuring point.

In this case, since the path through which the current flows is removed, the input unit 130 does not generate a change in electromotive force even when the lead resistance of the thermocouple sensor 110 changes.

It will be understood by those skilled in the art that various changes in form and details may be made therein without departing from the spirit and scope of the invention as defined by the appended claims.

1 is a schematic circuit block diagram of a thermocouple temperature measuring device according to the prior art

2 is a schematic circuit block diagram of a thermocouple temperature measuring device according to the present invention;

3 is a schematic circuit block diagram for explaining disconnection detection according to the present invention;

4 is a schematic circuit block diagram for explaining temperature disconnection detection after determining disconnection according to the present invention.

5 is a schematic circuit block diagram of a constant current source according to the present invention.

6 is a schematic circuit block diagram of a switch in accordance with the present invention.

Claims (4)

A thermocouple sensor installed at the temperature point; A compensation lead connected to the thermocouple sensor; An input unit connected to the compensation wire; A disconnection detection unit connected to the input unit to detect the disconnection of the thermocouple sensor and the compensation wire; A control unit connected to the disconnection detecting unit and receiving an output signal of the disconnection detecting unit to determine whether the thermocouple sensor or the compensation lead is disconnected, and to measure the temperature of the temperature measuring point, The disconnection detecting unit includes first and second conductive lines connected to the input unit and the control unit, first and second switches connected to each of the first and second conductive lines, and a first and second switches connected to each of the first and second switches. 2. The thermocouple temperature measuring device of claim 2, wherein a constant voltage power supply is connected to the first current source, and a ground is connected to the second current source. The method according to claim 1, The control unit, An amplifier for amplifying the output voltage of the disconnection detector to a predetermined level; An analog / digital converter converting the voltage amplified by the amplifier into a digital signal; Thermocouple temperature measuring apparatus comprising an MPU (Micro Processing Unit) for receiving the output signal of the analog / digital conversion unit to determine the disconnection of the thermocouple sensor or the compensation lead, and to measure the temperature of the temperature measuring point . The method according to claim 2, The MPU, Thermocouple temperature measuring device, characterized in that for further controlling the opening and closing of the first and second switches. The method according to claim 1, Thermocouple temperature measuring apparatus further comprises an alarm unit for generating an alarm sound in response to the signal of the controller.

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