KR200237798Y1 - A rotary thermometer - Google Patents

Abstract

The present invention relates to a rotary temperature distribution measuring device, the support body 10, the rotating member 20 rotatably installed on the support body 10, the rotating means for rotating the rotating member 20, and The vertical movable member 40 is fitted to the rotary member 20 so as to be slidably movable in the vertical direction, and the plurality of temperature sensors 41 are fixedly installed at predetermined intervals in the longitudinal direction, and the vertical movable member 40 is moved up and down. It consists of a vertical movement means, it is possible to measure the temperature at any point in the cylindrical space by a simple operation to reduce the cost, it is possible to efficiently perform the measurement work by reducing the time to reinstall the temperature sensor.

Description

Rotary temperature distribution meter {A rotary thermometer}

The present invention relates to a temperature measuring device, and more particularly to a rotary temperature distribution measuring device for measuring the temperature within a certain radius by a polar coordinate system.

In general, the three-dimensional space is different depending on the height and the horizontal position by measuring a point, the temperature of the other point can not be estimated, a plurality of thermometers are provided at each point to measure the temperature.

Here, the method of indicating a specific position includes a Cartesian coordinate system displayed on the X, Y, and Z axes and a polar coordinate system displayed on an angle, and the temperature distribution of each point may be measured by displaying the specific space in the polar coordinate system.

As shown in FIG. 1, when measuring a temperature in a cylindrical space, conventionally, the temperature is measured by arranging the thermometers 101 at positions where the temperature is to be measured, respectively, and a plurality of thermometers 101 are required at positions. Since each must be provided, the installation work is not only cumbersome, but also expensive to install, there is a problem that maintenance is not easy, such as cumbersome work to replace each thermometer (101).

In addition, when the position to be measured is changed, a person needs to move or reinstall it, which takes a lot of time.

On the other hand, a blowing fan that measures temperature along the inside of a cylinder such as a chimney and turns the operation on and off by the data value has a temperature sensor itself or a temperature sensor at predetermined intervals along the chimney. Since the temperature distribution is uneven, the control is not performed according to the required temperature.

In addition, in order to measure the accurate temperature, it is necessary to measure the temperature at various points, but there is a limit in the number of thermometers to be installed, and the installation is not easy, and there is a problem that the installation cost of the unit is high.

The present invention has been made to solve the above problems, the object of the present invention is to provide a rotary temperature distribution measuring device that can detect the temperature distribution by measuring the temperature while moving to the polar coordinate system in the cylindrical space.

The present invention for achieving the above object, a support body, a rotating member rotatably installed on the support body, a rotating means for rotating the rotating member, and the slide member to be movable in the vertical direction A vertical movement member fitted with a plurality of temperature sensors fixed at a predetermined interval in the longitudinal direction, and a structure consisting of vertical movement means for moving the vertical movement member.

Therefore, the temperature sensor is fixed to the vertical moving member at a predetermined interval and a plurality of fixed and rotated by the rotating member to measure the temperature of any point within a certain radius, the vertical moving member of the rotating member The temperature distribution in the cylindrical space can be detected by moving in the up and down direction along the outer circumferential surface and measuring the temperature at any point in the cylindrical space.

1 is a perspective view showing a temperature distribution measuring instrument according to the prior art,

2 is a perspective view showing a rotary temperature distribution measuring device according to the present invention,

3 is a cross-sectional view showing an operating state of the rotating member of the present invention,

Figure 4 is a cross-sectional view showing an operating state of the vertical movement member of the present invention,

5 is a perspective view showing a use state of the present invention.

Explanation of symbols on the main parts of the drawings

10: support body 20: rotating member

21: rack 22: worm gear

30: rotation support member 31: worm

32: first sub-motor 40: vertical moving member

41: temperature sensor 50: moving support member

51: pinion 52: the second sub-motor

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

Figure 2 is a perspective view showing a rotary temperature distribution measuring device according to the present invention, Figure 3 is a cross-sectional view showing an operating state of the rotary member of the present invention, Figure 4 is a cross-sectional view showing an operating state of the vertical moving member of the present invention, Figure 5 Is a perspective view showing a state of use of the present invention.

The present invention according to the above drawings, the support body 10 is installed on the bottom of the measurement space, and the support body 10 is installed in the vertical direction in a vertical direction rotatably and the rack 21 in the longitudinal direction on its outer peripheral surface Is formed and the scale is formed, the worm gear 22 is formed on the lower portion and the worm gear 22 is fixed to the support body 10, the worm gear 31 is fitted to the worm gear 22 of the rotary member 20 And a rotation means for rotating the rotary member 20 by driving the worm 31 with the first sub-motor 32 and being slidably fitted in the vertical direction to the rotary member 20. Vertical movement member 40 having a plurality of temperature sensors 41 fixedly installed at predetermined intervals in the direction, and pinion 51 installed on the vertical movement member 40 and engaged with the rack 21 of the rotation member 20. And the pinion 51 is driven by the second sub-motor 52 to move the vertical. It is a structure consisting of vertical moving means for moving the member 40.

The features of the present invention having the above structure is that the rotary member 20 and the vertical movement member 40 is provided and the temperature sensor 41 is fixed to the vertical movement member 40, the temperature sensor 41 ) Is fixed to the vertical movable member 40 at a predetermined interval and a plurality of fixed and rotated together with the rotating member 20 can measure the temperature of any point within a certain radius, as well as the vertical movable member 40 ) Is moved up and down along the outer circumferential surface of the rotating member 20 to measure the temperature at any point in the cylindrical space to detect the temperature distribution in the cylindrical space.

The support body 10 is disposed on the floor in the space to be measured to serve to rotatably support the vertical movable member 40 and the rotating member 20.

The rotating member 20 serves to rotate the temperature sensor 41, is installed in the vertical direction at the center of the support body 10 in a vertical direction and rotatably installed, and along one side outer circumferential surface thereof. The rack 21 is formed, and the worm gear 22 is formed at the lower end.

That is, the vertical movement member 40 is fitted to the rotation member 20, the rack 21 is rotated by the rotation of the rotation member 20 serves as a locking jaw so as not to rotate in the radial direction.

The rotating means is installed on the upper portion of the support body 10, the rotary support member 30 is installed to surround the lower end of the rotating member 20, and the rotating member (30) inside the rotary support member (30) It consists of a worm 31 which is installed to be engaged with the worm gear 22 of the 20, and the first sub-motor 32 for rotating the worm 31.

That is, the rotation support member 30 supports the lower end of the rotation member 20 so that the rotation member 20 can rotate coaxially, and the first sub-motor 32 rotates the worm 31. The worm 31 rotates the worm gear 22 of the rotating member 20 so that the rotating member 20 rotates coaxially.

On the other hand, a scale is formed on the outer circumferential surface of the rotating member 20 so that the measurer can identify the moving distance or the measuring position of the vertical moving member 40.

The vertical movement member 40 serves to move the temperature sensor 41 in the up and down direction, and is disposed in the rotation member 20 in a direction crossing the rotation member 20, and movable in the up and down direction. It is fitted, the plurality of temperature sensors 41 are fixedly spaced at a predetermined interval with respect to the rotation member 20 symmetrically, and vertical movement means is installed at the portion intersecting with the rotation member 20.

The vertical movement means is fixedly installed in the center of the vertical movement member 40, the movable support member 50 is fitted to the outer circumferential surface of the rotating member 20, and the built-in installed on the movable support member 50 and the rotation The member 20 is composed of a pinion 51 engaged with the rack 21 and a second submotor 52 for rotating the pinion 51.

The movable support member 50 is inserted into the outer circumferential surface of the rotating member 20 and slides, but does not rotate in the radial direction by the rack 21 of the rotating member 20. Vertical moving members 40 are symmetrically fixed to both sides.

The pinion 51 is engaged with the rack 21 and rotated by the second sub-motor 52 such that the vertical movement member 40 moves in the vertical direction.

On the other hand, a scale is formed on the outer circumferential surface of the vertical movable member 40 so that the position of each temperature sensor 41 can be seen at a glance.

Therefore, the temperature sensor 41 is not only movable in the vertical direction by the vertical moving means, but also provided with a plurality of rotations at a predetermined distance to the vertical moving member 40, so that any point in the cylindrical space is rotated. The temperature can be measured.

As described above, according to the rotary temperature distribution measuring device according to the present invention, it is possible to measure the temperature at any point in a cylindrical space by simple operation, thereby reducing the cost and reducing the time for reinstallation of the temperature sensor. This has the effect of making it efficient.

Claims (1)

A support body 10 installed at the bottom of the measurement space; Rotating member 20 is installed in the vertical direction to the support body 10 is rotatably installed, the rack 21 is formed in the longitudinal direction on the outer circumferential surface and the scale is formed, the worm gear 22 is formed at the bottom Wow; A worm 31 fixed to the support body 10 and engaged with the worm gear 22 of the rotating member 20, and the worm 31 is driven by the first sub-motor 32. Rotating means for rotating the rotating member 20; A vertical movable member 40 fitted to the rotary member 20 to be slidably movable in the vertical direction and having a plurality of temperature sensors 41 fixedly installed at predetermined intervals in the longitudinal direction; A pinion 51 installed on the vertical moving member 40 and engaged with the rack 21 of the rotating member 20, and driving the pinion 51 by a second sub-motor 52 to provide the pinion 51. And a vertical movement means for moving the vertical movement member 40 up and down.