KR102324252B1 - Terminal Block Insert Type CJC Sensor Structure for Thermocouple Module of Industrial controller - Google Patents

Abstract

The present invention relates to a terminal block-inserted CJC sensor structure of an industrial controller thermocouple sensor module.
The present invention includes a CJC sensor structure detachably coupled to a terminal block of an industrial controller thermocouple sensor module,
The CJC sensor structure consists of a substrate and a sensor unit mounted on the substrate,
The substrate may be provided with a CJC sensor structure including a mounting unit on which the sensor unit is mounted, and a connection unit extending from the mounting unit and connected to the terminal block.

Description

Terminal Block Insert Type CJC Sensor Structure for Thermocouple Module of Industrial controller}

The present invention relates to a terminal block-inserted CJC sensor structure of an industrial controller thermocouple sensor module.

An industrial controller can use a thermocouple sensor module to measure temperature.

The thermocouple sensor module is provided with a CJC (Cold Junction Compensation) sensor structure to reduce measurement errors. This CJC sensor structure is not easy to mass-produce due to manufacturing, and there is a high risk of failure due to disconnection when separated from the terminal block.

Republic of Korea Public Utility Model No. 20-2009-0007165

Accordingly, the present invention was invented to solve the conventional problems as described above, and the problem to be solved by the present invention is an industrial controller that compensates the temperature of the thermocouple by connecting it to a terminal block provided in the thermocouple sensor module of the industrial controller. To provide a terminal block-inserted CJC sensor structure of a thermocouple sensor module.

A solution of the present invention includes a CJC sensor structure detachably coupled to a terminal block of an industrial controller thermocouple sensor module, wherein the CJC sensor structure includes a substrate and a sensor unit mounted on the substrate, wherein the substrate includes the sensor unit A CJC sensor structure including a mounting unit to be mounted, and a connection unit extending from the mounting unit and connected to the terminal block may be provided.

As described above, since the CJC sensor structure according to the present invention can provide a sensor unit and a connection unit on a substrate, mass production is possible and costs can be reduced because mass production is easy.

The CJC sensor structure according to the present invention is easy to attach and detach for connection to and release from the terminal block of the industrial controller thermocouple sensor module, and it is not damaged during the detachment operation, so it is possible to significantly reduce the possibility of failure.

1 is a view showing a state in which a CJC sensor structure according to a first embodiment of the present invention is separated.
FIG. 2 is a cross-sectional view showing the connection state of the CJC sensor structure from FIG. 1 .
3 is an enlarged view of the CJC sensor structure according to the first embodiment of the present invention.
4 is a cross-sectional view taken along line AA of FIG. 2 .
5 is a view showing a state in which the CJC sensor structure according to the second embodiment of the present invention is separated.
6 is a view showing a state in which the CJC sensor structure is connected to the terminal block from FIG. 4 .
7 is an enlarged view of the CJC sensor structure according to the second embodiment of the present invention.
8 is a cross-sectional view showing a connection state of a CJC sensor structure according to a second embodiment of the present invention.
9 is a schematic diagram of a thermocouple sensor for explaining a thermocouple.

Hereinafter, specific contents for carrying out the present invention will be described in detail based on the accompanying exemplary drawings.

1 is a view showing a CJC sensor structure according to a first embodiment of the present invention. Referring to FIG. 1 , the CJC sensor structure 100 of the present invention may have a structure detachably coupled to a terminal block 200 used in a thermocouple sensor module.

The CJC sensor structure 100 may include a substrate 110 having a predetermined area and a sensor unit 120 mounted on the substrate 110 .

The CJC sensor structure 100 may be connected to the terminal block 200 at intervals therebetween.

The sensor unit 120 is a resistance temperature detector (RTD) sensor in the form of a chip for temperature compensation.

Also, the substrate 110 may include a mounting unit 112 on which the sensor unit 120 is mounted, and a connection unit 114 extending from the mounting unit 112 and connected to the terminal block 200 . In other words, the mounting part 112 and the connecting part 114 may be integrally formed.

The connection part 114 is provided to be energized, is inserted and connected with an interval equal to the pin spacing of the terminal block 200 based on the mounting part 112, and has a predetermined length and is provided as a pair spaced apart from each other. and may be integrally formed with the mounting unit 112 .

The sensor unit 120 may be fixedly mounted by soldering (soldering) to the mounting unit 112 .

FIG. 4 is a cross-sectional view taken along line A-A of FIG. 2 , and is schematically illustrated for convenience. Referring to FIG. 4 , the terminal block 200 may be provided with a connection means to which the connection part 114 of the CJC sensor structure 100 can be connected.

The connection means may include an insertion groove 202 formed in the terminal block 200 , a release button 210 provided in the insertion groove 202 , and an elastic member 220 . The release button 210 may have a structure in which it enters and exits from the outside of the insertion groove 202 .

The connection part 114 of the CJC sensor structure 100 may be inserted into the insertion groove 202 and supported by the elastic member 220 .

When the release button 210 is pressed when the connection part 114 of the CJC sensor structure 100 is separated from the insertion groove 202, the gap between the CJC sensor structure 100 and the elastic member 220 is widened and the connection part 114 of the CJC sensor structure 100 is easily opened. can be separated.

In FIG. 4 , the release button 210 may have a structure provided in the insertion groove 202 of the terminal block 200 to perform a pressing operation and a return operation after assembly.

In the CJC sensor structure 100 of the present invention, since the connection part 114 integrally formed on the substrate 110 can be connected to and separated from the terminal block 200, connection and release operations are simple, and the CJC sensor structure 100 ) to prevent damage.

A plurality of thermocouple sensors (not shown) for measuring a temperature may be provided in the terminal block 200 .

Thermocouples are made up of different metals with connected ends. The contacted end of the thermocouple is called a junction. When the junction is heated, electrons flow between the two metals. At this time, when the two metals are separated, one end becomes an anode (+) and the other metal becomes a cathode (-).

Each metal is charged with a different polarity. This is called the Seebeck effect.

The greater the temperature difference between the junction and the open portion, the greater the charge on the metal. That is, the potential difference between the two metals increases.

If heat is applied to the joint and the open part at the same temperature, the temperature of both sides becomes the same and the temperature difference between the two metals becomes 0°C.

Referring to FIG. 9 , a portion of the thermocouple whose temperature is determined may be divided into a measurement junction (hot junction) and a reference point (cold junction).

(a) If the temperature of the measurement junction is constant (for example, if it is always 100℃), (b) the magnitude of the induced voltage depends on the temperature of the reference point.

For example, if the reference point temperature in (b) is 20, 0, -20℃, each measurement temperature is 100℃-20℃ = 80℃, 100℃-0℃ = 100℃, 100℃-(-20℃) = 120 It may become ℃ and it may be different from the temperature of the (a) measurement junction to be measured.

In other words, the thermal electromotive force (voltage) of the thermocouple generates a voltage having a magnitude corresponding to the temperature due to the difference between the temperature of the measurement junction and the temperature of the reference point. Therefore, in order to know the exact measurement junction temperature, it is necessary to calibrate the temperature of the reference point to 0°C and measure it. However, since this is difficult in reality, the function of the CJC sensor is to compensate the temperature of the reference point instead.

If the temperature of the measuring junction is 100°C and the temperature of the reference point is 20°C, the thermocouple sensor will generate an induced voltage corresponding to 100°C-20°C = 80°C. can represent the voltage corresponding to . At this time, an RTD (Resistance Temperature Detector) sensor is used as a sensor for detecting the temperature of the reference point, and it is called a CJC (Cold Junction Compensation) sensor because it is used for cold point compensation.

The CJC sensor compensates for errors in the actual measured temperature by measuring the ambient temperature of the terminal block connected to the thermocouple.

The CJC sensor can usually be located in the plastic case part of the screw-type terminal block. If the temperature of CJC rises and the time passes for the temperature of the surrounding contact points to equalize, the measured value can output a compensated value.

The present invention is a second embodiment, and with reference to FIGS. 5 to 8 , the CJC sensor structure 300 according to the second embodiment of the present invention includes a substrate 310 and a sensor unit 320 mounted on the substrate 310 . ) can be made.

A sensor unit 320 may be provided on the substrate 310 .

In addition, a pair of connection pins 312 may be coupled to one side of the substrate 310 at an interval therebetween.

The connection pin 312 may be made of a metal material having conductivity, and may have a structure bent in the shape of "a", referring to FIG. 8 .

The connection pin 312 may include a first connection part 312a provided parallel to the connection direction, and a second connection part 312b bent from the first connection part 312a and coupled to the substrate 310 .

The first connection portion 312a of the connection pin 312 may be inserted under the washer 420 positioned under the head portion of the screw 410 , and may be pressed by the screw 410 and the washer 420 . .

When the CJC sensor structure 300 is released, the screw 410 at the corresponding position of the terminal block 400 may be loosened and the connection pin 312 of the board 310 may be separated.

Since the CJC sensor structure 300 according to the second embodiment of the present invention has a structure in which the connection pin 312 is coupled to the substrate 310, connection and release to the screw 410 of the terminal block 400 can be easily performed. have.

Although the CJC sensor structure 300 is gripped by the screw 410 of the terminal block 400, the connection pin 312 can withstand it sufficiently, and it can maintain a connected state without receiving any deformation or damage, and when detaching the screw Since the 410 is slightly loosened and separated, the separation operation can be performed conveniently.

Although the CJC sensor structure 300 according to the second embodiment of the present invention has been described with respect to the structure being pressed by the screw 410 of the terminal block 400, the present invention is not limited thereto and the insertion groove of the connecting means according to the first embodiment is not limited thereto. It can be removably connected in 202.

100: CJC sensor structure 110: substrate
112: mounting part 114: connection part
120: sensor unit 200: terminal block
202: insertion groove 210: release button
220 ; Elastic member 300: CJC sensor structure
310: board 312: connection pin
312a: first connection 312b: second connection
320: sensor unit 400: terminal block
410: screw 420: washer

Claims (6)

CJC sensor structure detachably coupled to the terminal block of the industrial controller thermocouple sensor module;
including,
The CJC sensor structure measures the ambient temperature of the terminal block connected to the thermocouple and compensates for errors in the actual measured temperature,
The CJC sensor structure consists of a substrate and a sensor unit mounted on the substrate,
The board includes a mounting unit on which the sensor unit is mounted, and a connection unit extending from the mounting unit and connected to the terminal block,
The connection part is provided in a pair spaced apart from each other with a predetermined length from the mounting part,
The connection part is formed integrally with the mounting part,
The CJC sensor structure is detachably coupled to a connection means provided on the terminal block,
The connection means,
CJC formed in the terminal block and comprising an insertion groove for attaching and detaching the CJC sensor structure, a release button provided in the insertion groove for separating the CJC sensor structure, and an elastic member that is elastic when the CJC sensor structure is inserted into the insertion groove sensor structure. delete delete CJC sensor structure detachably coupled to the terminal block of the industrial controller thermocouple sensor module;
including,
The CJC sensor structure measures the ambient temperature of the terminal block connected to the thermocouple and compensates for errors in the actual measured temperature,
The CJC sensor structure consists of a substrate and a sensor unit mounted on the substrate,
A pair of connection pins connected to the terminal block are coupled to one side of the substrate in a spaced apart state from each other,
The connection pin consists of a first connection portion provided parallel to the connection direction of the terminal block, and a second connection portion bent from the first connection portion and coupled to the substrate,
The CJC sensor structure in which the first connection part is inserted so as to be pressed under the head part of the screw provided on the terminal block. delete delete

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