KR200223563Y1 - Gap Measurer - Google Patents

Abstract

The object of the present invention is to provide a gap measuring device that can measure a precise gap by directly measuring the moving distance of a taper, thereby improving maintenance quality.

The gap measuring device of the present invention is formed as a taper gauge and has a taper 10 having a predetermined inclination angle, a guide plate 20 for guiding the taper 10 to be slidable, and a taper 10 fixed to the guide plate 20. The laser sensor 30 for detecting the movement distance of the laser beam, the display device 40 for converting, digitizing and displaying the movement distance detected by the laser sensor 30, and data provided by the display device 40 as a calculation program. It is characterized in that it comprises a computer 60 to calculate the gap by calculating and to store and process the calculated data.

Description

Gap Measurer

The present invention relates to a gap measuring device for measuring a gap between objects, and in particular, to measure the gap between the rotor and diaphragm during power plant turbine maintenance, or to measure the general gap that requires other precision. It relates to a gap measuring device used to.

During planned maintenance of a plant turbine, the distance between the rotor and diaphragm must be measured in the axial and radial directions. At this time, the measuring instruments used are Axial Gauge and Taper Gauge. Except for some establishments, most establishments use taper gauges.

However, when measuring the gap using a taper gauge in a narrow space (between the rotor and the diaphragm) as in the present invention, it is difficult to read the measurement position directly. Therefore, it is difficult to obtain an accurate gap measurement value because it takes a lot of work time because the measurement position has to be confirmed by temporarily marking with a pencil or the like. In addition, even if the measurement gap is a little large, the measurement data must be managed by hand by reading the scale indicated by the taper gauge. Comes with difficulty.

In addition, accurate vibration measurement may be very important since vibration cases caused by axial rubbing of the turbine are likely to occur due to incorrect gap measurement or measurement error between the turbine and the diaphragm.

Accordingly, the present invention has been made to solve the problems of the prior art as described above, by providing a gap measuring device that can measure the precise gap by directly measuring the moving distance of the taper to improve the maintenance quality Its purpose is to.

1 is a schematic view for explaining the components of the gap measuring device according to an embodiment of the present invention,

2 and 3 are side views and cross-sectional views for explaining the coupling relationship of important parts of the gap measuring device shown in FIG.

FIG. 4 is a schematic diagram of a display device which is an important part of the gap measuring device shown in FIG. 1.

♠ Explanation of symbols on the main parts of the drawing ♠

10: taper 11: guide groove

20: information board 21: guide protrusion

22: handle 30: laser sensor

31 cable 40 display device

50: power supply 60: notebook computer

The gap measuring apparatus of the present invention for achieving the above object is formed as a taper gauge, the taper having a predetermined inclination angle, a guide plate for guiding the taper is slidable, and fixed to the guide plate to detect the movement distance of the taper A laser sensor, a display device that converts, digitizes and displays the moving distance detected by the laser sensor, calculates a gap by calculating data provided by the display device using a calculation program, and stores and processes the calculated data. It characterized in that it comprises a computer.

In the following, with reference to the accompanying drawings a preferred embodiment of the gap measuring device according to the present invention will be described in detail.

In the drawings, Figure 1 is a schematic diagram for explaining the components of the gap measuring device according to an embodiment of the present invention, Figures 2 and 3 illustrate the coupling relationship of the important parts of the gap measuring device shown in FIG. 4 is a side view and a cross-sectional view thereof, and FIG. 4 is a schematic view of a display device, which is an important part of the gap measuring device shown in FIG. 1.

As shown in FIG. 1, the gap measuring device of the present invention includes a taper 10 having the same size and shape as a conventional taper gauge, and a guide plate 20 for slidably guiding the taper 10 in a vertical direction. The laser sensor 30 is fixed to the guide plate 20 and detects the moving distance of the taper 10. The display device 40 converts and digitizes and displays the moving distance detected by the laser sensor 30. A notebook for calculating a gap and calculating and storing the calculated data by using a power supply device 50 for supplying power to the display device 40 and data provided by the display device 40 with a calculation program. It consists of the computer 60.

The taper 10 has a predetermined inclination angle as in the conventional taper gauge, and the guide groove 11 is formed on the lower surface thereof as shown in FIG. 3. The guide plate 20 has a size sufficient to allow the taper 10 to be seated thereon, and a guide protrusion 21 is formed on an upper surface thereof. That is, the guide protrusions 21 of the guide plate 20 are inserted into the guide grooves 11 of the taper 10 so as to slide, but are not separated from each other. Moreover, the stopper (not shown) which defines the sliding range of the taper 10 in the guide plate 20 is formed in the taper 10 and the guide plate 20, respectively. A handle 22 is formed on the side of the guide plate 20 so as to conveniently perform the operation as shown in FIGS. 2 and 3.

And the laser sensor 30 is attached to one side of the guide plate 20, ie, the upper part where the taper 10 is located. The laser sensor 30 senses a moving distance of the taper 10 moving along the guide plate 20 and has an accuracy of about 5 μm. The laser sensor 30 is connected to the display device 40 through a cable 31, the display device 40 converts and digitizes the movement distance detected by the laser sensor 30 so that the measurement source can see In addition, the measurement data is transmitted to the notebook computer 60.

The notebook computer 60 receives the measurement distance data transmitted from the display device 40, calculates the gap by calculating the calculation program, stores the data and processes the calculated data, and outputs a report. The arithmetic program embedded in the notebook computer 60 calculates and displays a gap using a trigonometric function of the moving distance of the taper 10 detected by the laser sensor 30, and displays the gap in the Excel program of the notebook computer 60. It is programmed to be loaded. The equation for calculating the gap in such an operation program is the same as Equation 1 and Equation 2.

Q in Equations 1 and 2 denotes an inclination angle of the taper.

4, the display device 40 of the present invention has a strobe button 41, a channel button 42, a reset button 43, a mode button ( 44 and a display unit 45 are formed.

When the strobe button 41 is pressed once, the data sensed by the laser sensor 30 is displayed on the display 45 at each time, and the data is transmitted to the notebook computer 60 and stored. In addition, the channel button 42 and the reset button 43 are used to set the zero point, and the mode button 44 is switched so that the display unit 45 displays Abs., Max., Min., Rel., D00. It plays a role.

In the following, the process of measuring the gap using the gap measuring device of the present invention configured as described above will be described.

First, after placing the guide plate 20 on the object to be measured, the taper 10 is gradually slid along the guide plate 20, and the taper 10 is inserted into the gap to be measured. Then, the taper 10 slides into the gap and is no longer inserted. The laser sensor 30 detects the movement distance in which the taper 10 slides and moves, and the detected movement distance is converted and digitized in the display device 40 and displayed by the measurer. In the notebook computer 60, the gap between the measurement targets is calculated by using a calculation program, and the output is displayed in a report form using the calculated data.

As described in detail above, the gap measuring device of the present invention can detect a moving distance through a laser sensor and measure an accurate gap, thereby securing reliability of maintenance. In addition, when the gap measuring device of the present invention is used, the gap measuring time is remarkably shortened.

Although the technical details of the gap measuring apparatus of the present invention have been described together with the accompanying drawings, this is illustrative of the best embodiment of the present invention and is not intended to limit the present invention.

In addition, it is obvious that any person skilled in the art can make various modifications and imitations without departing from the scope of the technical idea of the present invention.

Claims (3)

In the gap measuring device for measuring the gap between the object and the object, A taper formed as a taper gauge and having a predetermined inclination angle, a guide plate for guiding the taper to be slidable, a laser sensor fixed to the guide plate to detect the moving distance of the taper, and a moving distance detected by the laser sensor And a display device for digitizing and displaying the display device, and a computer for calculating a gap by calculating data provided by the display device using a calculation program, and storing and processing the calculated data. The device of claim 1, wherein the gap is calculated using a trigonometric function of the moving distance of the taper. The gap measuring apparatus according to claim 1 or 2, wherein a handle is formed on the guide plate so as to conveniently perform the operation.