KR20110053609A - Test apparatus for vibration displacement sensor and test method - Google Patents

Abstract

The present invention relates to a test apparatus for a vibration displacement sensor. The test apparatus of the vibration displacement sensor according to the present invention includes: a vibration unit installed at a base and having a reference measuring plate for vibration measurement and generating vibration; A movable measuring unit having distance measuring means installed opposite to the reference measuring plate provided in the vibrating unit and measuring the distance therebetween, and at least one vibration sensor configured to measure vibration characteristics of the reference measuring plate; A driving unit for moving forward or backward in a sliding function with respect to the vibrating unit; An analysis unit analyzing a vibration signal from the vibration displacement sensor; And a control unit for driving by applying a control signal to the driving unit. It includes. The test apparatus of the vibration displacement sensor according to the present invention having such a configuration can test the precision of the displacement sensor quickly and accurately with a simple configuration. The invention also relates to a test method of a vibration displacement sensor.

Vibration, displacement sensor, motor, measuring distance, DC voltage value, feeder, ball screw

Description

Apparatus for testing vibration displacement sensor and method

The present invention relates to a test apparatus for a vibration displacement sensor, and to an apparatus and a test method thereof capable of quickly and accurately testing the accuracy of a displacement sensor.

In general, in a place where vibration occurs, such as a rotating body plant of a power plant, a displacement sensor is used to measure the vibration of the rotating body plant in a non-contact manner. The accuracy of the vibration displacement sensor is tested and evaluated through relative or absolute comparison.

In the conventional precision test method of the vibration displacement sensor, the operator manually adjusts and measures the distance between the measured object and the vibration displacement sensor by using a meter such as a micrometer. By the way, since the operator measures the distance to the measured object while moving the instrument in parallel, accurate distance measurement is difficult, and there is a problem that an error occurs in the measurement distance depending on the operator.

Accordingly, the development of a device capable of quickly and easily testing and evaluating the precision of the vibration displacement sensor to measure the vibration of the object under test is required.

 Accordingly, the present invention has been made to solve the above problems,

It is an object of the present invention to provide an apparatus capable of quickly and easily testing and evaluating the precision of a vibration displacement sensor for measuring vibrations of an object to be measured.

It is another object of the present invention to provide a method for adjusting the zero point of a vibration displacement sensor for measuring the vibration of an object to be measured and for easily measuring the static displacement.

It is still another object of the present invention to provide a method capable of quickly and easily testing and evaluating the precision of a vibration displacement sensor for measuring vibrations of an object to be measured.

According to an aspect of the present invention, there is provided a test apparatus for a vibration displacement sensor, including: a vibration unit provided at a base and having a reference measuring plate for vibration measurement; A movable measuring unit having distance measuring means installed opposite to the reference measuring plate provided in the vibrating unit and measuring the distance therebetween, and at least one vibration sensor configured to measure vibration characteristics of the reference measuring plate; A driving unit for moving forward or backward in a sliding function with respect to the vibrating unit; An analysis unit analyzing a vibration signal from the vibration displacement sensor; And a control unit driving the control unit by applying a control signal.

According to another aspect of the present invention, a method of testing a vibration displacement sensor includes selecting an automatic or manual selection switch; Selecting a zero adjustment switch and adjusting the zero point of the vibration displacement sensor by moving the feed table on the support frame; Setting a measurement distance between the vibration displacement sensor and the measurement reference plate; Transferring the vibration displacement sensor via a feed table at a set measuring distance; Measuring a DC voltage value of the vibration displacement sensor at a measurement distance; And repeating the above steps while changing the measurement distance.

According to another aspect of the present invention, a method of testing a vibration displacement sensor includes selecting an automatic or manual selection switch; Selecting a zero adjustment switch and adjusting the zero point of the vibration displacement sensor by moving the feeder on the support frame; Setting a measurement distance between the vibration displacement sensor and the measurement reference plate; Transferring the vibration displacement sensor via a feed table at a set measuring distance; Driving the excitation device to apply vibration to the measurement reference plate; Measuring vibration characteristics of the reference plate by means of a movable measuring unit including an vibration displacement sensor and an absolute vibration measuring unit; And repeating the above steps while changing the measurement distance.

The present invention has a simple configuration, which makes it easy to adjust the zero point of the vibration displacement sensor that measures the vibration of the object to be measured, and quickly and easily tests the precision of vibration characteristics including the static displacement and the dynamic displacement of the vibration displacement sensor. Can be evaluated

1 is a schematic view showing the configuration of a vibration displacement sensor test apparatus according to the present invention. The test apparatus of the vibration displacement sensor of the present invention includes: a vibration unit (2) installed on the base (1) to generate vibrations; A movable measuring unit (4) having one or more vibration displacement sensors (3) installed to face the vibration unit (2) and capable of moving forward and backward while measuring vibration characteristics thereof; A driving unit 5 for moving the movable measuring unit 4 forward or backward in a sliding function with respect to the vibrating unit 2; An analysis unit 6 for analyzing signals from the vibration unit 2 and the vibration displacement sensor 3; And a controller 7 which applies a control signal to the driver 5 and drives the same.

Referring to FIG. 1, the vibrator 2 is installed on the base 1 to vibrate at various frequencies and sizes, and is attached to the front of the vibrator 8 to vibrate. And a reference plate 9 facing the vibration displacement sensor 3.

The movable measuring unit 4 may move forward or backward with respect to the vibrating unit 2 on the base 1. The movable measuring unit 4 is provided with at least one vibration displacement sensor 3 via the fixing member 10 so as to detect the vibration characteristics of the measurement reference plate 9 of the vibration unit 2. That is, the vibration displacement sensor 3 measures the vibration characteristics of the measurement reference plate 9 and sends the data to the analyzer 6. The vibration displacement sensor 3 is installed on the driving unit 5 to be described later, so that the distance between the reference plate 9 and the measurement reference plate 9 can be adjusted while moving forward or backward with respect to the excitation device 8. 1 shows that a pair of vibration displacement sensors 3 are provided.

On the other hand, the drive unit 5, as shown in Fig. 2 (A), (B), includes a feed table 12 that is slidable to a substantially U-shaped support frame (11). The vibration displacement sensor 3 is fixedly installed on the feed table 12 via the fixing member 10. A ball screw 13 is installed through the center of the feed table 12 via a bearing (not shown), and one end of the ball screw 13 passes through the support frame 11 to support the motor 14 and It is connected to the handle 15 and the other tip is connected to the carriage 12. Thus, by driving the motor 14 or by turning the handle 15, the feed table 12 can be slidably moved relative to the support frame 11 via the ball screw 13. That is, as shown in Figs. 2 and 3 (A) for the relative movement of the transfer table 12 and the support frame 11, the support frame 11 is a U-shaped guide groove 16 in the longitudinal direction It is extended to. On the other hand, at both edges of the conveyance table 12, the guide protrusions 17 corresponding to the guide grooves 16 so as to be slidable are formed to their full lengths.

Here, as shown in (B) of FIG. 3 as a modification of the guide groove 16 and the guide protrusion 17, to the dovetail-shaped guide groove 16 'and guide protrusion 17' of the trapezoidal cross section. It may be formed.

On the other hand, the distance measuring means 18 is installed in the center rear of both vibration displacement sensors 3 on the feed table 12 so as to face the measurement reference plate 9 so as to measure the static distance therebetween. Is installed.

And, the analysis unit 6, as shown in Figure 1, provides an input such as the vibration frequency and magnitude of the vibration unit 2, and transmits the detected signal from the vibration displacement sensor 3 to the amplifier 19 It includes a test analysis device 20 to receive and process as a medium.

In addition, the laser vibration is fixed to the base 1 in the test analysis device 20 to measure the absolute vibration of the measurement reference plate 9 of the vibration unit 2, and output the detection signal to the test analysis device 20. An absolute vibration measuring unit comprising a sensor 21 is further connected.

In addition, the controller 7 configured to control the forward and backward movement of the carriage 12 on the support frame 11 includes a plurality of operation switches. That is, as shown in FIG. 1, the control unit 7 automatically selects whether the feeder 12 is automatically or manually moved back and forth with respect to the vibrator 2 on the controller body 22. A switch 23 and a manual selector switch 24 are provided. In addition, a zero adjustment switch 25 is provided to adjust the zero point of the vibration displacement sensor 3 with respect to the measurement reference plate 9, and the distance value between the vibration displacement sensor 3 and the measurement reference plate 9. A pair of input format switches 26 for selecting whether to display in the form of DC voltage or DC voltage, and whether the measured distance is to be displayed as a distance value or DC voltage value. There is a pair of output format switches 27 for selecting each. Here, the DC voltage value is proportional to the static distance between the vibration displacement sensor 3 and the reference measuring plate 9. In addition, a keyboard 28 for inputting the distance as described above is provided, and a transfer start switch 29 for driving the motor 14 to start moving the transfer table 12 is provided.

On the other hand, the numerical display 30 is provided on one side of the feed table 12 to display the input and output numerical values as described above.

The following describes a test method of the vibration displacement sensor according to the present invention having the configuration as described above.

First, the static displacement test method of the vibration displacement sensor 3 will be described with reference to FIG. 4. 4A is a flowchart when the automatic selection switch 22 is selected, and FIG. 4B is a flowchart when the manual selection 23 switch is selected.

A method of automatically testing the static displacement of the vibration displacement sensor 3 by selecting the automatic selection switch 23 and setting it will be described with reference to FIG.

In step S1, the automatic selection switch 23 is selected. Subsequently, when the zero adjustment switch 25 is pressed (S2), a driving signal is applied from the control unit 7 to the motor 14, and the motor 14 is operated to transfer the feed table 12 through the ball screw 13. To advance to the vibrator portion 2 on the support frame 11 (S3). When the vibration displacement sensor 3 mounted on the carriage 12 touches the measurement reference plate 9, the motor 14 is stopped by the control unit 7, and the result of the zero adjustment is checked (S4). . If the zero adjustment is not correct, the above steps S2-S4 are repeated.

When the zero point of the vibration displacement sensor 3 is adjusted as described above, the numerical display 30 displays a numerical value as zero. In the input and output format switches 26 and 27, the distance value / DC voltage value is selected by inputting the distance value. Subsequently, the measurement distance value between the vibration displacement sensor 3 and the measurement reference plate 9 is measured by the distance measuring means 18, and the distance value is input using the keyboard 27 to measure the measurement distance for the test. Set (S5). The input measurement distance is displayed numerically on the numerical display (30).

Next, when the feed start switch 29 of the control unit 7 is pressed, the feed table 12 starts to move forward on the support frame 11 while the motor 14 is driven to reach the measurement distance input in step S5. In response to the control signal from the control unit 7, the motor 14 is stopped while the feed table 12 is also stopped (S6). Next, the DC voltage value is selected by the output type switch 27, and the DC voltage value displayed on the numeric display device 30 is then measured and confirmed (S7).

When the distance to the reference plate 9 of the vibration displacement sensor 3 is set to be input to several, and the above steps S5-S7 are repeated, the DC voltage value according to the increase of the constant static displacement is obtained (S8). To complete.

Next, a method in which the manual selection switch 24 is selected and the operator manually tests and sets the static displacement of the vibration displacement sensor 3 will be described with reference to FIG. 4B.

The manual selection switch 24 is selected (S1 '). Subsequently, the zero adjustment switch 25 is pressed (S2 '). At this time, the numerical display 30 displays zero. The handle 15 is moved forward on the support frame 11 to move the carriage 12 toward the vibrator 2 (S3 '). After making the vibration displacement sensor 3 touch the measurement reference plate 9, check the resultant state of the zero adjustment (S4 '). If the zero adjustment is not correct, the above steps S2'-S4 'are repeated.

When the zero point of the vibration displacement sensor 3 is adjusted as described above, the input and output type switches 26 and 27 select to output the distance value among the distance value / DC voltage value.

Next, the carriage 12 is advanced on the support frame 11 while rotating the handle 15 (S6 '), and the carriage 12 is required while checking the DC voltage value displayed on the numerical display 30. When the measurement distance is reached, the DC voltage value at that time is measured (S7 '). When the distance to the reference plate 9 of the vibration displacement sensor 3 is set to several, the above step S6 '-S7' is repeated to obtain a DC voltage value according to an increase of a predetermined distance (S8 '). To complete.

 Next, a vibration test method of the vibration displacement sensor 3 will be described with reference to FIG. 5. FIG. 5A is a flowchart when the automatic selection switch 23 is selected, and FIG. 5B is a flowchart when the manual selection 24 switch is selected.

First, the vibration test method including the automatic displacement of the vibration displacement sensor 3 by selecting the automatic selection switch 23 will be described with reference to FIG.

However, referring to FIG. 5 (A), it can be seen that the zero adjustment steps S1-S4 of the vibration displacement sensor 3 are the same as in FIG. 4A, and the same reference numerals are used for simplicity of explanation. The description will be omitted.

When the zero point of the vibration displacement sensor 3 is adjusted, the numerical display 30 displays a numerical value as zero. In the input and output format switches 26 and 27, the distance value / DC voltage value is selected by inputting the distance value. Subsequently, the distance value between the vibration displacement sensor 3 and the measurement reference plate 9 is input using the keyboard 28 to set the measurement distance for the test (S5).

Next, when the feed start switch 29 of the control unit 7 is pressed, the feed table 12 starts to move forward on the support frame 11 while the motor 14 is driven to reach the measurement distance input in step S5. In response to the control signal from the control unit 7, the motor 14 is stopped while the feed table 12 is also stopped (S6).

When the vibration displacement sensor 3 is placed at a predetermined measurement position with respect to the measurement reference plate 9 as described above, the vibration unit 2 is driven to vibrate at various vibration frequencies and vibration magnitudes (S9). At this time, the vibration characteristics including the dynamic displacement of the vibrating measurement reference plate 9 is measured by the vibration displacement sensor 3, and outputs it to the test analysis device 20 (S10). On the other hand, the absolute vibration measurement unit, that is, the value of the vibration characteristics of the measurement reference plate 9 measured by the laser sensor 21 is also input to the test analysis device 20.

Subsequently, the above steps S5-S10 are repeated while changing the distance between the vibration displacement sensor 3 and the measurement reference plate 9 (S11), and the test is completed when the desired value is obtained.

Next, the vibration test method including the dynamic displacement of the vibration displacement sensor 3 by manually selecting the manual selection switch 24 will be described with reference to FIG.

However, referring to FIG. 5 (B), it can be seen that the zero adjustment steps S1-S4 of the vibration displacement sensor 3 are the same as in FIG. 4B, and the same reference numerals are used for simplicity of explanation. The description will be omitted.

When the zero point of the vibration displacement sensor 3 is adjusted, the input and output type switches 26 and 27 select to output the distance value among the distance value / DC voltage value.

Next, while moving the handle 15 to advance the feed table 12 on the support frame 11 (S6 '), while checking the measured distance value displayed on the numerical display 30, the feed table 12 is required When the measuring distance is reached, stop it.

As such, when the vibration displacement sensor 3 is placed at a predetermined measurement position with respect to the measurement reference plate 9, the vibration unit 2 is driven to vibrate at various vibration frequencies and vibration magnitudes (S9 '). At this time, the vibration characteristics including the dynamic displacement of the vibrating measurement reference plate 9 is measured by the vibration displacement sensor 3, and outputs it to the test analysis device 20 (S10 '). On the other hand, the value of the vibration characteristics of the measurement reference plate 9 measured through the absolute vibration measuring unit composed of a laser sensor 21 is also input to the test analysis device (20).

Subsequently, the steps S6'-S10 'are repeated while varying the distance between the vibration displacement sensor 3 and the measurement reference plate 9, and the test is completed.

The above description describes a preferred embodiment of the present invention and the present invention is not limited thereto. Those skilled in the art should understand that various changes and modifications can be made within the scope of the present invention.

As described above, the present invention can easily adjust the zero point of the vibration displacement sensor for measuring the vibration of the object to be measured, and quickly and easily the precision of vibration characteristics including the static displacement and the dynamic displacement of the vibration displacement sensor. Can test and evaluate.

1 is a schematic view showing the configuration of a vibration displacement sensor test apparatus according to the present invention.

Figure 2 (A) is an enlarged perspective view showing the configuration of the transfer support of the vibration displacement sensor test apparatus according to the present invention.

Figure 2 (B) is an enlarged perspective view showing the configuration of the transfer table of the vibration displacement sensor test apparatus according to the present invention.

Figure 3 (A) is a partial cross-sectional view showing a coupling relationship between the conveyance and the support of the vibration displacement sensor test apparatus according to the present invention.

Figure 3 (B) is a partial cross-sectional view showing a modified example of the coupling relationship between the feed table and the conveying support of the vibration displacement sensor test apparatus according to the present invention.

4 (A) shows a static displacement test method of the vibration displacement sensor according to the present invention, which is a flowchart when the automatic conversion switch is selected.

4B is a flowchart illustrating a static displacement test method of the vibration displacement sensor according to the present invention, in which a manual conversion switch is selected.

5 (A) shows a vibration test method of the vibration displacement sensor according to the present invention, which is a flowchart when the automatic conversion switch is selected.

5 (B) shows a vibration displacement sensor vibration test method according to the present invention, which is a flowchart when a manual conversion switch is selected.

Claims (8)

 A vibration unit installed at the base and having a reference measuring plate for vibration measurement, the vibration unit generating vibration; A movable measuring unit having distance measuring means installed opposite to the reference measuring plate provided in the vibrating unit and measuring the distance therebetween, and at least one vibration sensor configured to measure vibration characteristics of the reference measuring plate; A driving unit for moving forward or backward in a sliding function with respect to the vibrating unit; An analysis unit analyzing a vibration signal from the vibration displacement sensor; And Vibration displacement sensor test apparatus including a control unit for driving by applying a control signal to the drive unit. According to claim 1, wherein the drive unit U-shaped support frame, the support frame which is slidably installed on the support frame, the vibration displacement sensor is installed, including a ball screw connected to the support frame through the center of the transport platform Vibration displacement sensor test device characterized in that. The vibration displacement sensor test apparatus according to claim 2, wherein one end of the ball screw is connected to a motor or a handle, and the other end is connected to a conveyer. The vibration displacement sensor test apparatus according to claim 2, further comprising a distance measuring means arranged at a rear side of the vibration displacement sensor on the conveyance table so as to measure a distance therebetween facing the measurement reference plate. The vibration displacement sensor test apparatus according to claim 1, wherein the analysis unit includes a test analysis device configured to process information such as vibration frequency and magnitude of the vibration unit and a detected signal from the vibration displacement sensor. The vibration displacement sensor test apparatus according to claim 5, wherein the test analysis device is further connected to an absolute vibration measuring unit including a laser sensor to detect the absolute vibration of the vibration unit. Selecting an automatic or manual selection switch; Selecting a zero adjustment switch and adjusting the zero point of the vibration displacement sensor by moving the feeder on the support frame; Setting a measurement distance between the vibration displacement sensor and the measurement reference plate; Transferring the vibration displacement sensor via a feed table at a set measuring distance; Measuring a DC voltage value of the vibration displacement sensor at a measurement distance; And Vibration displacement sensor test method comprising the step of repeating the step while changing the measurement distance. Selecting an automatic or manual selection switch; Selecting a zero adjustment switch and adjusting the zero point of the vibration displacement sensor by moving the feeder on the support frame; Setting a measurement distance between the vibration displacement sensor and the measurement reference plate; Transferring the vibration displacement sensor via a feed table at a set measuring distance; Driving the excitation device to apply vibration to the measurement reference plate; Measuring vibration characteristics of the reference plate by using a vibration displacement sensor and a laser sensor; And Vibration displacement sensor test method comprising the step of repeating the step while changing the measurement distance.

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