KR200206019Y1 - Rotary contact temperature measuring device of traveling object - Google Patents

Abstract

The present invention measures the temperature of a moving object by a rotary contact type, so that accurate temperature can be measured over a temperature range of up to approximately 1000 ° C., and an improved rotary contact temperature measurement of a traveling object can be performed to prevent a safety accident of an operator. Relates to a device.

The present invention, in the contact thermometer for continuously measuring the temperature of the running object, is provided with a hollow vertical rod, the first frame of the c-shaped cross section is mounted on the lower side of the vertical rod. Fixing parts mounted on both sides of the frame to be rotatable a plurality of wheels; It is mounted in the frame of the fixed portion, the upper side is provided with a supporting rod extending into the vertical rod, the lower side of the support is mounted in the second frame of the c-shaped cross section so that the cylindrical ceramic bearing is rotatable, the ceramic bearing The insulator is coated on the circumferential surface thereof, and a plurality of thermocouple rings are mounted, and a plurality of brushes respectively contacting the thermocouple rings are fixed to the second frame, while the conductors connected to the brushes are drawn out through the supporting rods and the vertical rods. And a measuring unit coupled to an electromotive force measurer; and an elastic spring positioned in a vertical bar of the fixing unit, wherein the elastic spring includes a buffer unit which always supports the supporting rod of the measuring unit downwardly. The bottom edge of the thermocouple ring is located on the lower side of the wheel I provides a contact temperature measuring device.

Description

Rotary contact temperature measuring device of traveling object

1 is a cross-sectional view showing the overall configuration of a rotary contact type temperature measuring apparatus according to the present invention.

2 is a block diagram of a measuring unit provided in the rotary contact temperature measuring apparatus for a traveling object according to the present invention.

Figure 3 is an exploded perspective view showing a configuration for mounting the measuring unit equipped with a rotary contact type temperature measuring apparatus according to the present invention.

4 is a cross-sectional view taken along the line A-A of FIG.

* Explanation of symbols for main parts of the drawings

5 vertical bar 10 fixed part

12: first frame 15: wheels

20: measuring unit 28: ceramic bearing

31: thermocouple ring 40: fixed holder

50: buffer 52: elastic spring

The present invention relates to a contact thermometer that continuously measures the temperature of a moving object. More specifically, by measuring the temperature of a moving object by rotating contact, it is possible to accurately measure the temperature over a temperature range up to approximately 1000 ° C. In addition, the present invention relates to a rotary contact type temperature measuring device of an improved traveling object to prevent a worker's safety accident.

In general, the temperature measurement of an object is performed by bringing the thermometer directly into contact with the object. However, when the temperature is excessively high or when it is difficult to measure the temperature by contact, it is known to measure the temperature using a radiation thermometer. However, when measuring the temperature using such a radiation thermometer, this has a problem that the reliability of the temperature measurement is deteriorated depending on the atmosphere of the site, the surface roughness of the object, the composition of the object, and such a radiation thermometer needs to adjust the emissivity. .

On the other hand, many contact thermometers for measuring temperature using thermocouples have been developed, but it is difficult to compensate for frictional heat in continuous running objects, and the accuracy of temperature measurement is degraded due to wear of the point of contact with the object. will be.

In addition, the contact thermometer using a thermocouple has a problem that can not reduce the error due to frictional heat with the traveling object. In addition, since the temperature measurement is made only where the thermocouple is fixed, when the rotating body is applied, the temperature is measured intermittently, which makes it difficult to continuously measure the temperature.

The present invention has been devised to solve the above-mentioned problems, and its object is to prevent errors caused by frictional heat with a traveling object, which enables accurate temperature measurement, and does not damage the traveling object. The present invention provides a rotary contact type temperature measuring device for a traveling object that can be used even in a high place, and is easy to carry and store so that the temperature can be easily measured and an operator can prevent a safety accident.

As a technical means for achieving the above object, the present invention, in the contact thermometer for measuring the temperature of the object continuously running, having a hollow vertical rod, the lower end of the vertical rod of the c-shaped cross section A first frame is mounted and fixed parts to which a plurality of wheels are rotatably mounted on both sides of the frame;

The fixing part is mounted inside the frame, and the upper side has a supporting rod extending into the vertical rod, and the lower side of the supporting rod is rotatably mounted in a cylindrical frame in a second frame of the c-shaped cross section, and the ceramic bearing The insulator is coated on the circumferential surface thereof, and a plurality of thermocouple rings are mounted, and a plurality of brushes respectively contacting the thermocouple rings are fixed to the second frame, while the conductors connected to the brushes are drawn out through the supporting rods and the vertical rods. Measurement unit coupled to the electromotive force meter; And,

It includes an elastic spring is located in the vertical bar of the fixed portion, the elastic spring is a buffer for supporting the elastic support of the measuring rod downwards always;

The thermocouple ring bottom edge of the measuring unit is located on the lower side than the bottom edge of the wheel of the fixing unit by providing a rotary contact type temperature measuring device of the running object.

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

As shown in FIG. 1, the rotary contact temperature measuring apparatus 1 of the traveling object according to the present invention includes a fixing part 10 having a hollow vertical rod 5 and a fixing part 10. A measuring part 20 having a thermocouple ring in contact with an object being driven and being mounted, and a buffer part which appropriately absorbs shock during temperature measurement by elastically supporting the measuring part 20 with respect to the fixing part 10 ( 50).

The fixing portion 10 is provided with a vertical rod 5 of a predetermined length, the vertical rod 5 can be extended to the upper side long so that the operator is convenient to use as needed, the lower end of the vertical rod (5) The first frame 12 of the c-shaped cross section is mounted on the side. The frame 12 is integrally connected to the lower end of the vertical rod (5), the through hole 13 is formed in the center portion, both sides have a configuration that is mounted so as to be rotatable a plurality of wheels (15) will be.

In addition, the measuring unit 20 mounted on the fixing unit 10 has a cylindrical support rod 22 extending inwardly through the through hole 13 of the vertical rod 5 on the upper side thereof, and the support rod An upper end of the 22 has an annular protrusion 24 having a diameter larger than the inner diameter of the through hole 13 so that the supporting rod 22 is not drawn out from the inside of the vertical rod 5.

In addition, a second frame 26 having a c-shaped cross section is connected to a lower side of the support bar 22, and a cylindrical ceramic bearing 28 is rotatably mounted to the second frame 26, and the ceramic bearing ( An insulator layer 30 is formed on the circumferential surface of 28 and has a structure in which a plurality of thermocouple rings 31 are mounted thereon. In addition, a plurality of brushes 32 respectively contacting the thermocouple ring 31 are positioned in correspondence with the center lower surface of the second frame 26 as shown in FIG. 32 is connected to the electromotive force meter 35 by being drawn out through the support rod 22 and the vertical rod (5).

On the other hand, the plurality of thermocouple rings 31 mounted on the insulator 30 of the ceramic bearing 28 in the cross-section is formed in a curved surface, respectively, does not cause defects such as scratches on the surface of the driving object in contact therewith, The ceramic bearing 28 is mounted on the second frame 26 via a holder 40.

As shown in FIG. 3, the holder 40 has quadrangular protrusions 42 formed at both end portions of the second frame 26, and the rectangular protrusions 42 have a fixed cross-sectional shape corresponding thereto. The holder 45 is mounted, and the female threaded holes 42a and 45a are formed in the square protrusions 42 and the fixed holders 45, respectively, to be coupled to each other by the bolt member 46. In addition, between the lower end of the second frame 26 and the fixed holder 45, a fixed block 47 for supporting both sides of the ceramic bearing 28 so as to be rotatable is located, and in the fixed block 47 A female thread hole 47a corresponding to the female thread hole 45b formed in the fixing holder 45 is formed and fixed by the bolt member 49, so that the ceramic bearing 28 is fixed with the blocks 47 located on both sides. It has a structure that is mounted to the second frame 26 through the holder 45.

In addition, the buffer unit 50 that absorbs the shock during the temperature measurement by elastically supporting the measuring unit 20 with respect to the fixing unit 10 is elastic in the vertical bar 5 of the fixing unit 10 It is provided with a spring 52, the elastic spring 52 has an upper end is supported on the inside of the vertical bar (5), the lower end is in contact with the support bar 22 of the measuring unit 20 to the vertical bar (5) The supporting rod 7 is downwardly supported, and consequently, the measuring unit 20 is always elastically supported downward with respect to the fixed portion 10.

When the measurement unit 20 is supported to the lower side by the elastic spring 52 of the buffer unit 50, the lower edge Pl of the thermocouple ring 31 is the lower wheel edge P2 of the fixing unit 10. It is located on the lower side than) is configured so that the contact of the traveling object and the thermocouple ring 31 is made accurately.

Reference numeral 60 is a connecting rod.

Referring to the effect of the present invention made in this configuration as follows.

In the rotary contact temperature measuring apparatus 1 according to the present invention, when the temperature of the traveling object is to be measured, the operator moves the measuring unit 20 toward the traveling object side by using the vertical rod 5 of the fixed part 10. The thermocouple ring 31 of the measuring unit 20 is brought into contact with the surface of the traveling object. In this case, while the elastic spring 52 of the shock absorbing portion 50 is kept somewhat compressed, the bottom edge P1 of the thermocouple ring 31 of the ceramic bearing 28 is the first frame (1) of the fixing portion 10. 12) The measurement unit 20 is reversed to the inside of the fixing unit 10 so as to coincide with the bottom edge P2 of the wheel 15 to match the surface of the traveling object. Therefore, the ceramic bearing 28 of the measuring unit 20 is continuously rotated by the thermocouple ring 31 in contact with the traveling object, and at the same time wheels located on both sides of the first frame 12 of the fixing unit 10. (15) is also rotated in contact with the driving object at the same time, the thermoelectric power measured in the thermocouple ring 31 according to the temperature of the measurement object is transmitted to the electromotive force measuring device 35 through the brush 32 and the conductive wire 33, etc. , Temperature is detected.

On the other hand, if this operation is performed for a long time and the wear and breakage of the thermocouple ring 31 occurs, it must be replaced, in this case, the holder for fixing the ceramic bearing 28 to the second frame 26 to be rotatable When the bolt member 46 of the 40 is dismantled to separate the volum 47, the ceramic bearing 28 is disassembled from the block 47, and the thermal absolute ring 31 is replaced. will be.

In addition, when the distance between the measuring object and the measuring instrument is far, the vertical bar 5 of the fixing part 10 is long connected. In this case, the connecting rod 60 easily detachable from the vertical bar 5 is 90. ° Rotation allows easy removal to the vertical bar (5) by extending the vertical bar (5) by using the connecting rod 60 from a long distance can be easily measured, thereby allowing the operator a safe distance from the traveling object Is maintained to prevent safety accidents.

On the other hand, the thermocouple ring 31 in contact with the surface of the traveling object has a curved surface is processed so that the area in contact with the running object is minimized, and does not cause problems such as scratching.

As described above, according to the rotary contact type temperature measuring device 1 of the traveling object according to the present invention, it is possible to measure the temperature of the running object not only in a low temperature running object but also in a high temperature state of 1000 ° C., and the temperature rise by frictional heat. It is possible to prevent the temperature measurement even if the running object is a little vibration. In addition, since the curvature is formed in the thermocouple ring 31, damage to the measurement object is prevented, and the temperature of the measurement object can be accurately measured at a long distance by extending the 5 per vertical portion of the fixing part 10. In addition, since the device can be compactly configured, the disassembly and assembly are easy, and the practical effect of accurate temperature measurement of the traveling object can be obtained regardless of the place and space.

Claims (1)

In the contact thermometer for continuously measuring the temperature of the running object, it is provided with a hollow vertical bar (5), the first frame 12 of the c-shaped cross section is mounted on the lower end side of the vertical bar (5) A fixing part 10 mounted on both sides of the frame 12 so that the plurality of wheels 15 are rotatable; It is mounted to the inside of the frame 12 of the fixing portion 10, the upper side is provided with a support rod 22 extending into the interior of the vertical rod (5), the lower side of the support rod 22, the second frame of the c-shaped cross section A cylindrical ceramic bearing 28 is rotatably mounted in a 26, a circumferential surface of the ceramic bearing 28 is coated with an insulator 30, and a plurality of thermocouple rings 31 are mounted. A plurality of brushes 32 respectively contacting the 31 are fixed to the second frame 26, while the conductive wire 33 connected to the brushes 32 supports the support rod 22 and the vertical rod 5. Measuring unit 20 is drawn through and coupled to the electromotive force measuring unit 35; And, having an elastic spring 52 located in the vertical bar (5) of the fixed portion 10, the elastic spring 52 is the And a buffer part 50 which always supports the support rod 22 of the measuring part 20 downwardly, and includes a thermocouple ring 3 of the measuring part 20. 1) The lower edge (Pl) is a rotary contact type temperature measuring device of the running object, characterized in that located on the lower side than the lower edge (P2) of the wheel 15 of the fixing portion (10).