KR200458944Y1 - A portable gap measuring device for turbine rotor using tactile displacement sensor - Google Patents

Abstract

The present invention relates to a portable turbine rotor gap measuring device using a contact displacement sensor, the taper gauge 10 is inserted into the gap of the turbine rotor to measure the gap; A holder body 20 connected to the taper gauge 10 by a tip 21; A displacement rod (30) connected to the taper gauge (10) via a spring (31), the moving length of which is determined according to the size of the gap measured by the taper gauge (10); A transducer 40 for converting the length change of the displacement rod 30 into a measurement gap; Consists of a control analyzer 50 that receives the conversion data of the transducer 40 to analyze the measured gap and controls the measuring device. The contact indicates the size of the gap as a change in length using a taper gauge and a potentiometer. By using the displacement sensor, it is easy to measure the gap where it is difficult to measure the gap, and it is possible to obtain the gap measurement data measured by the taper gauge by measuring the change of the length of the rod connected by the spring to the taper gauge with a potentiometer. It is compact and lightweight, easy to carry, and has a control analyzer that controls the measuring device and analyzes the interval data measured by the change of the length of the rod. This is a useful design.

Description

A portable gap measuring device for turbine rotor using tactile displacement sensor

The present invention relates to a turbine rotor clearance measuring device, and more particularly, a contact displacement sensor, which is easy to carry while being able to easily measure a gap in a difficult place by using a tapered gauge and a potentiometer contact displacement sensor. The present invention relates to a portable turbine rotor gap measurement device using a sensor.

Generally, turbines used in thermal or nuclear power plants include rotors and rotors, which are rotating parts, and casings and diaphragms, which are fixed parts.

The turbine of such a configuration is a system in which a rotor rotates by steam generated by thermal power or nuclear power, and transmits this rotational force to a generator rotor to convert thermal energy to obtain electrical energy.

The rotational force of the rotor is generated by the impulse action and the reaction action by the momentum change by passing the high-pressure steam through the nozzle to generate a high-speed steam flow, and impinge the steam flow to the rotary wing.

Rotation of the rotor as described above should not cause rubbing (rubbing) in the rotation axis of the rotor, for this purpose it is very important to adjust the gap between the rotor and the fixed blades.

When rubbing occurs in the rotor, not only the loss of energy, but also the rubbing generated during the rotation of a large-weight rotor can cause serious damage to the device, so measuring the gap between the rotor and the stator blades is a very important task.

Conventionally, the gap between the rotor and the fixed blade is measured by using a filler gauge measurement or a taper gauge, which is directly measured by an operator using a lead having a different diameter. Measured. That is, in the measurement by the filler gauge, the measurement lead wire was sandwiched between the rotor and each of the fixed blades, and the gap according to the degree of pressing was measured.

In the conventional manual measurement using a taper gauge, many measurement errors occur depending on the viewing angle, and the reliability of the measurement data may be degraded due to human error, and the conventional measurement using a filler gauge By using a large number of thin gauges not only takes a lot of time to measure, there is a concern that the error due to error due to the thickness should be calculated.

In addition, if many points are measured by the above-mentioned filler gauge or taper gauge, two workers are always required to prevent human error, and the measurement environment is poor, so the measurement time is relatively long for accurate measurement. In addition to this requirement, the measurement data recorded in the notebook was re-transferred to the computer and the maintenance inspection report for quick measurement, resulting in duplication of work and high risk of error in processing.

The conventional gap measuring method of such a manual method takes a lot of measurement time, a problem that the efficiency and reliability is degraded due to a lot of work to be put.

The present invention has been made to solve various defects and problems caused by the conventional turbine rotor gap measurement using a filler gauge or a taper gauge, and the purpose thereof is to use a taper gauge and a potentiometer. Therefore, the present invention provides a portable turbine rotor gap measuring apparatus using a contact displacement sensor that facilitates measuring a gap at a location where gap measurement is difficult by using a contact displacement sensor that indicates a gap size as a change in length.

Another object of the present invention is to measure the change in the length of the rod connected to the taper gauge with a spring using a potentiometer to obtain the gap measurement data measured by the taper gauge while using a compact, lightweight and portable contact displacement sensor. The present invention provides a portable turbine rotor gap measurement device.

Another object of the present invention is a contact displacement sensor that controls the measuring device and has a control analyzer that analyzes the interval data measured by the change in the length of the rod, and displays the measured values graphically so that the current left and right gap state can be easily checked. It is to provide a portable turbine rotor gap measuring apparatus using.

Portable turbine rotor gap measuring device using the present invention contact displacement sensor for achieving the above object is a wedge-shaped tapered gauge 10 is inserted into the gap of the turbine rotor to measure the gap; A holder body 20 connected to the taper gauge 10 by a tip 21; A displacement rod (30) connected to the taper gauge (10) via a spring (31), the moving length of which is determined according to the size of the gap measured by the taper gauge (10); A transducer 40 for converting the length change of the displacement rod 30 into a measurement gap; It is characterized by consisting of a control analyzer 50 for receiving the conversion data of the transducer 40 to analyze the measured gap and control the measuring device.

The present invention uses a contact displacement sensor that shows the size of the gap as a change in length by using a taper gauge and a potentiometer to facilitate gap measurement where it is difficult to measure the gap, and a rod connected to the taper gauge by a spring. It is possible to obtain the gap measurement data measured by the taper gauge by measuring the change of the length with the potentiometer while being compact and light and easy to carry, and also to control the measuring device and analyze the gap data measured by the change of the length of the rod Equipped with an analyzer to display the measured value in the graph has a particular advantage that can easily check the current left and right gap state.

1 is a view showing the configuration of a portable turbine rotor gap measuring apparatus using a contact displacement sensor of the present invention.

Hereinafter, with reference to the accompanying drawings will be described in detail a preferred embodiment of the portable turbine rotor gap measuring apparatus using the present invention contact displacement sensor.

1 is a view showing the configuration of a portable turbine rotor gap measuring apparatus using a contact displacement sensor of the present invention, the portable turbine rotor gap measuring apparatus using a contact displacement sensor of the present invention is inserted into the gap of the turbine rotor to measure the gap A wedge-shaped taper gauge 10; A holder body 20 connected to the taper gauge 10 by a tip 21; A displacement rod (30) connected to the taper gauge (10) via a spring (31), the moving length of which is determined according to the size of the gap measured by the taper gauge (10); A transducer 40 for converting the length change of the displacement rod 30 into a measurement gap; It is composed of a control analyzer 50 for receiving the conversion data of the transducer 40 to analyze the measured gap and control the measuring device.

Here, the taper gauge 10 is preferably mounted to the front end of the holder body (20).

The displacement rod 30 is moved into the transducer 40 according to the degree of insertion of the tapered gauge 10 at the tip end into the measurement gap, and the displacement rod 30 moved into the transducer 40 is a spring ( 31) is configured to return to the restoring force.

In addition, the transducer 40 is configured to convert the length change of the displacement rod 30 to a measurement gap and transmit the wired or wireless to the control analyzer 50.

In addition, the control analyzer 50 sets the storage group and the number of measurements, sets the zero point, initializes and stores the measurement sequence, determines the measurement sequence before measurement, calibrate the device, checks the stored data, and replaces the taper gauge. It is equipped with the function to input the thickness and taper ratio, and it controls the measuring device, analyzes the measured gap, and displays the graph.

Next will be described in detail the operation of the portable turbine rotor gap measuring device using the present invention the contact displacement sensor configured as described above.

To measure the gap between the rotor and the stator blades, first, the tapered gauge 10 is inserted into the gap between the rotor and the stator blades. Then, the displacement rod 30 is moved into the transducer 40 according to the insertion degree of the taper gauge 10, and the measured length is measured by measuring the length of the displacement rod 30 into the transducer 40. It is converted into the gap between the rotor and the fixed blade.

That is, the gap Gap between the rotor and the fixed blade = (the moving length of the displacement rod 30 / tapping rate of the tapered gauge 10) + the end thickness, and the gap between the rotor and the fixed blade. The displacement rod 30 is transmitted to the control analyzer 50 by wire or wireless, and the displacement rod 30 is converted as described above in the control analyzer 50 to automatically generate a gap between the rotor and the fixed blade. Will be obtained.

Although the present invention has been described as a preferred embodiment, the present invention is not limited thereto, and may be variously modified and implemented within the scope not departing from the gist of the invention.

10: taper gauge 20: holder body
21: Tip 30: Displacement Rod
31: spring 40: transducer
50: control analyzer

Claims (5)

A wedge-shaped taper gauge 10 inserted into the gap of the turbine rotor to measure the gap; A holder body 20 connected to the taper gauge 10 by a tip 21; A displacement rod (30) connected to the taper gauge (10) via a spring (31), the moving length of which is determined according to the size of the gap measured by the taper gauge (10); A transducer 40 for converting the length change of the displacement rod 30 into a measurement gap; Portable turbine rotor gap measurement apparatus using a contact displacement sensor composed of a control analyzer 50 for receiving the conversion data of the transducer 40 to analyze the measured gap and control the measuring device. 2. The portable turbine rotor gap measurement apparatus according to claim 1, wherein the taper gauge (10) is replaceably mounted at the tip of the holder body (20). The displacement rod of claim 1, wherein the displacement rod 30 is moved into the transducer 40 according to the degree of insertion of the tapered gauge 10 at the tip end into the measurement gap, and the displacement rod moved into the transducer 40. 30 is a portable turbine rotor gap measurement apparatus using a contact displacement sensor, characterized in that configured to return to the restoring force of the spring (31). The method according to claim 1, wherein the transducer 40 is configured to convert the length change of the displacement rod 30 into a measurement gap and transmit the wire to the control analyzer 50 by wire or wireless. Portable turbine rotor clearance measuring device. The method of claim 1, wherein the control analyzer 50 sets the storage group and the number of measurements, sets zero point, initializes and stores the measurement sequence, determines the measurement sequence before measurement, calibrate the instrument, checks stored data, and replaces the taper gauge. The contact displacement sensor is characterized in that it has a function of inputting the end thickness and the taper ratio to control the measuring device, and to analyze and measure the measured gap and display the graph. Portable turbine rotor gap measurement device.

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