KR900003377Y1 - Thermometor - Google Patents

Abstract

No content.

Description

Handheld temperature gauge

1 is an exemplary view showing a temperature measurement example according to a conventional thermocouple type temperature measuring device.

2 is an exemplary view showing a temperature measurement example according to a conventional bimetal type temperature measuring instrument.

3 is a schematic cross-sectional view showing the configuration of the subject innovation compact temperature measuring instrument.

Figure 4 is a perspective view showing the configuration of the main needle and the indicator needle of the small temperature measuring instrument according to the present invention.

5 and 6 are explanatory diagrams showing an example of use of the present invention temperature measuring device.

* Explanation of symbols for main parts of the drawings

1: Case 2, 2 ': Reference contact

3: setter 4: thermocouple wire

5: measuring contact 6: coil

7: indicator 8: coarse needle

8a: protrusion 9: indicator hand

10: axis 11: scale

The present invention relates to a small temperature measuring device, and more particularly, to a small temperature measuring device capable of accurately measuring the temperature inside a sealed container regardless of the sealed container by combining a thermocouple principle and a bimetal type temperature measuring device. .

Conventionally, thermocouple type and bimetal type temperature measuring instruments are used to measure the temperature inside an airtight container. A thermocouple type temperature measuring device is capable of accurate temperature measurement. As shown in the figure, a hole is formed in the outer wall of the sealed container 21, and the temperature measurement is performed by inserting the sensing rod 23 of the thermocouple type temperature measuring device 22. Therefore, the design of the sealed container 21 is specifically designed and sealed. There was a defect that requires an attachment for, there was a problem that can not be portable, compact.

As shown in FIG. 2, the bimetal type temperature measuring device inserts the bimetal type temperature measuring device 25 itself into the sealed container 210 in which the angle of the needle 24 is moved according to the temperature. It is supposed to measure the temperature inside the device, which is portable and compact, but the temperature measurement is more inaccurate than the thermocouple type temperature gauge.

The present invention was devised to solve the defects caused by the conventional temperature measuring device. The point where two thermocouple wires meet meet as a measuring contact exposed to the high temperature part to be measured, and the measuring contact and zero inside the insulation case. A voltage corresponding to the temperature is generated at the reference point at which the point (0 ° C.) is maintained, and the voltage is applied to a vortex coil in the insulation case to generate a magnetic field, and the temperature indicator hand is rotated by the magnetic field. By allowing the temperature to be confirmed, it is possible to accurately measure the internal temperature of any kind of sealed container, which will be described in detail with reference to the accompanying drawings.

As shown in FIG. 3 and FIG. 4, a setter (3) for automatically setting the reference contact (2) (2 ') to the zero point (0 ° C) inside the insulation case (1). And a thermocouple wire 4 having an inner end connected to each of the reference contacts 2 and 2 'is exposed to the outside of the insulation case 1, and the other end of the thermocouple wire 4 is welded to obtain a high temperature. The measuring contact 5 is formed.

In addition, a coil 6 for generating a magnetic field is installed in the heat insulation case 1, and both ends thereof are connected to the reference contacts 2, 2 ′, respectively, and the temperature indicator is adjacent to the coil 6. (7) is provided.

The temperature indicator 7 has a main needle 8 and a non-magnetic indicator needle 9 which are rotated by a magnetic field generated around the coil 6 on the same axis 10, and the scale for indicating the temperature ( 11) is formed.

The same shaft 10 should be insulated so that the temperature therein can be maintained below 50 ° C.

Therefore, in order to prevent the high temperature of the outside of the case 1 from being radiated to the inside, aluminum or silver is coated on the surface of the case 1 according to the outside temperature to heat reflection, and the inside of the heat insulation case 1 is vacuumed to conduct heat. To prevent it.

The setter 3 uses a cold junction IC, which is currently commercialized by OMEGA CO., LTD.

As described above, when the reference junction (2) (2 ') is set to 0 ° C by the setter (3) using cold junction IC, and the temperature measurement contact point (5) is exposed to the high temperature part to be measured, Electromotive force is generated by the temperature difference between the temperature measuring contact point 5 and the reference contact point 2 (2 '), the magnetic field is generated in the coil 6, and the main needle 8 rotates following the magnetic field.

When the main needle (8) is rotated in this manner, the indicator needle (9) is pushed by the locking projection (8a) of the main needle (8) and rotated so that the indicator needle (9) corresponds to the temperature scale (11) Will be indicated.

As described above, the small temperature measuring device is placed in the sealed container 21 to be measured, as shown in FIGS. 5 and 6, and the temperature and the material (6) inside the sealed container 21 are measured. The temperature (FIG. 5) of FIG. 26 is measured, and the temperature difference between the temperature measuring contact 5 exposed inside the sealed container 21 and the reference contact 2, 2 'installed inside the insulation case 1 It is pushed by the main needle (8) of the indicator needle (9) by a different degree to indicate the corresponding temperature.

Then, if the temperature measuring instrument is taken out from the inside of the airtight container 21, it will be out of the influence of the magnetic field, so the main needle 8 will be returned to its original position, but the indicator hand 9 will stop and point to the temperature inside the airtight container 21. After checking the temperature, turn the dial adjustment knob (not shown) installed in the indicator 7 of the heat insulation case 1, and the indicator needle 9 also returns to its original position.

The operation structure of the main needle (8) and the indicator needle (9) is similar to the indicator needle operating structure used in the material tester for the tensile test, etc. The structure of turning the indicator needle (9) to its original position by turning the dial You can also find it on the Volt mater, which is supposed to return.

In implementing the present invention, the electromotive force generated by the temperature difference may be directly connected to a differential amplifier or an operational amplifier and displayed as a 7 segment driver.

The small temperature measuring device of the present invention as described above puts the present product into the sealed container as long as there is a volume so that the present invention can fit inside the sealed container, and accurately measures the temperature inside the thermocouple based on the thermocouple principle. There is an advantage that the trouble of forming a hole for measurement or attaching an attachment for airtightness is eliminated.

This invention can be applied to various applications in the field to measure the temperature inside the sealed container.

Claims (3)

A setter 3 is set inside the case 1 to set the reference contact points 2 and 2 'to zero points, and the outer end of the thermocouple wire 4 exposed to the outside of the case 1 is welded so that the measurement contact ( 5) is formed and its inner end is connected to the reference contact (2) (2 '), and the temperature is generated by using the potential difference generated by the temperature difference between the reference contact (2) (2') and the measurement contact (5). In the measurement, a coil 6 for generating a magnetic field following the potential difference and an indicator 7 for indicating a temperature by the magnetic field are provided in the case 1 and the case 1 is provided. Insulating the main wall of the small temperature measuring device, characterized in that configured to maintain a vacuum inside. 2. The indicator needle (7) according to claim 1, wherein the indicator (7) is rotated by a magnetic field generated around the coil (6), and is coaxial with the main needle (8) for returning to its original position when the magnetic field disappears. Compact temperature measuring instrument, characterized in that it has a temperature indicator (11) indicating indicator (9) to be pushed by the locking projection (8a) of the main shaft (8) and rotated, and to return to its original position by turning the adjustment knob (10). . The small temperature measuring device according to claim 2, wherein a heat reflective metal such as aluminum or silver is coated on an outer circumferential surface of the heat insulating case (1).