KR200380335Y1 - Device for measuring sensitivity of a vibration sensor - Google Patents

Abstract

The present invention eliminates gaps generated when coupled to a vibrator, so that reliable sensitivity measurements can be made for the vibration sensor. The present invention relates to a sensitivity measuring device of a vibration sensor, which can ensure the reliability of predictive maintenance and facility operation through more accurate facility status diagnosis.

Sensitivity measuring device of the vibration sensor according to the present invention, in the sensitivity measuring device of the vibration sensor to determine whether the vibration sensor abnormality by measuring the sensitivity of the vibration sensor for determining the operation state of the predetermined equipment, can be separated into the predetermined equipment And a vibration sensor having a coupling part integrally formed, the vibration sensor having a vibration frequency at a predetermined frequency when measuring the sensitivity of the vibration sensor, and a coupling part formed integrally with a first part corresponding to the coupling part of the vibration sensor. As the coupling portion is formed, and the second coupling portion corresponding to the coupling portion of the vibrator is formed on the other side, it is interposed between the vibration sensor and the vibrator when measuring the sensitivity of the vibration sensor, so that the vibration of the vibrator remains unchanged by the vibration sensor. Auxiliary tool for sensitivity measurement to be transmitted, and connected to the vibration sensor when measuring the sensitivity of the vibration sensor, by measuring the vibration of the vibration sensor by the excitation of the exciter It characterized in that it comprises a vibration meter for determining the presence of error in the sensor.

Description

DEVICE FOR MEASURING SENSITIVITY OF A VIBRATION SENSOR}

The present invention relates to a sensitivity measuring device of a vibration sensor, and more particularly, the sensitivity of the vibration sensor by removing the gap generated when coupled to the vibrator having a vibration sensor used to determine the operation state of a predetermined equipment By allowing measurement to be performed, the faulty sensor can be identified and replaced in a timely manner to eliminate inaccurate vibration signals, and more accurate equipment condition diagnosis ensures maintenance and reliability of equipment operation. It relates to a sensitivity measuring device of the sensor.

In general, the LNG pump and related facilities are installed with a vibration sensor to determine the operation state, such a vibration sensor periodically measures the sensitivity using a predetermined sensitivity measuring device to determine the presence or absence based on this.

Figure 1a shows a schematic structural diagram of a sensitivity measuring device 100 of a vibration sensor according to the prior art, Figure 1b shows a cross-sectional view taken along the line AA 'of Figure 1a.

As shown in Figure 1a and Figure 1b, the sensitivity measuring device 100 of the vibration sensor according to the prior art is a vibration sensor 110 and a vibration sensor 110 used to determine the operating state of the predetermined equipment predetermined It consists of a structure comprising a vibration measuring device 120 for measuring the sensitivity from the vibration signal of the vibration sensor 110, which vibrates by the excitation of the excitation device 120 and the vibration at the frequency, sensitivity measurement After the vibration sensor 110 is coupled to the oscillator 120 at a predetermined frequency, the vibration measuring device 130 connected to the vibration sensor 110 measures its sensitivity, and there is an abnormality based on the measured sensitivity. Will be determined.

Here, the vibration sensor 110 is formed integrally with, for example, a screw protrusion coupling part 111 to be coupled to the exciter 120 at the sensitivity measurement, the vibration sensor 110 to the exciter 120 For example, a screw groove-shaped coupling portion 121 corresponding to the coupling portion 111 of the coupling portion 121 is formed, where the coupling portion 121 of the exciter 120 is generally defined in shape and dimensions, The coupling part 111 of the vibration sensor 110 is formed in various shapes and dimensions according to the type of the vibration sensor 110, and when coupled to the vibrator 120 having the vibration sensor 110 during sensitivity measurement. The gap A is inevitably generated between the coupling part 111 of the vibration sensor 110 and the coupling part 121 of the exciter 120.

In the above-described sensitivity measurement device 100 of the vibration sensor, due to the gap (A) between the coupling portion 111 of the vibration sensor 110 and the coupling portion 121 of the vibrator 120 of the vibrator 120 Since the vibration cannot be transmitted as it is without change to the vibration sensor 110, precise sensitivity measurement of the vibration sensor 110 can not be performed, and therefore, abnormality of the vibration sensor 110 cannot be properly determined, and equipment operation is performed. There is a problem that the reliability of the.

Accordingly, an object of the present invention is to remove the gap generated when the vibration sensor is coupled to the vibrator so that a reliable sensitivity measurement of the vibration sensor can be performed. It is possible to provide a sensitivity measuring device for a vibration sensor that can eliminate errors and ensure the maintenance and reliability of equipment operation through more accurate equipment condition diagnosis.

The object of the present invention described above,

In the sensitivity measuring device of the vibration sensor for measuring the sensitivity of the vibration sensor for determining the operation state of the predetermined equipment to determine the abnormality of the vibration sensor,

A vibration sensor detachably coupled to a predetermined facility and having a coupling part integrally formed;

Excitation of the vibration sensor at a predetermined frequency when measuring the sensitivity of the vibration sensor, the coupling unit is formed integrally;

The first coupling portion corresponding to the coupling portion of the vibration sensor is formed on one side, and the second coupling portion corresponding to the coupling portion of the vibrator is formed on the other side, and is interposed between the vibration sensor and the vibrator when measuring the sensitivity of the vibration sensor. , Auxiliary tool for sensitivity measurement so that the vibration of the exciter can be transmitted to the vibration sensor as it is without change; And

It is connected to the vibration sensor when measuring the sensitivity of the vibration sensor, a vibration measuring device for measuring the vibration of the vibration sensor by the excitation of the vibration sensor to determine whether there is an abnormality of the vibration sensor; comprising a sensitivity measuring device of the vibration sensor By providing a.

According to a preferred feature of the present invention, the above-described auxiliary measurement tool for sensitivity measurement is manufactured and used separately according to the type and shape of the vibration sensor.

Hereinafter, preferred embodiments of the present invention will be described in detail with reference to the accompanying drawings, which are intended to describe in detail enough to be able to easily carry out the invention by one of ordinary skill in the art, This does not mean that the technical spirit and scope of the present invention is limited.

Figure 2 shows a schematic structural diagram of the sensitivity measuring device 1 of the vibration sensor according to the present invention, Figure 3 shows a perspective view of one example of the sensitivity measuring auxiliary tool 30, Figure 4 is a B of Figure 2 A cross-sectional view taken along the line -B 'is shown.

Sensitivity measuring device 1 of the vibration sensor according to the present invention is, as shown in Figures 2 to 4, the sensitivity of the vibration sensor 10 for determining the operating state of the LNG pump and related equipment (not shown) Vibration sensor to determine whether there is an abnormality in the vibration sensor 10 by measuring the separation, detachably coupled to the LNG pump and related equipment, etc., the coupling portion 11 for the sensitivity measurement auxiliary tool 30 is integrally formed. 10 and the vibration sensor 10 having the vibration sensor 10 at a predetermined frequency when measuring the sensitivity of the vibration sensor 10, the coupling unit 20 is formed integrally with the coupling portion 21 for the auxiliary measurement tool 30 for sensitivity measurement ) And a first coupling portion 31 corresponding to the coupling portion 11 of the vibration sensor 10 is formed at one side, and a second coupling portion corresponding to the coupling portion 21 of the exciter 20 at the other side. As the 33 is formed, the vibration sensor 10 is interposed between the vibration sensor 10 and the vibrator 20 when the sensitivity of the vibration sensor 10 is measured, and the vibration of the vibrator 20 vibrates. Sensitivity measurement auxiliary tool 30 to be transmitted as it is without change to the stand 10, and is connected to the vibration sensor 10 when measuring the sensitivity of the vibration sensor 10, by the excitation of the exciter 20 Vibration measuring device 40 for measuring the vibration of the vibration sensor 10 to determine the abnormality of the vibration sensor 10.

Here, the vibration sensor 10 is used to determine the operating state of the equipment by measuring the vibration of the LNG pump and related equipment (not shown), generally separated on one side of the LNG pump and related equipment, etc. It is used to be coupled to each other, when the sensitivity is measured to be coupled to the exciter 20, which is separated from the corresponding equipment, on one side, in particular in the lower center, the coupling part 11 for the sensitivity measurement auxiliary tool 30 is integrated Is formed.

The coupling part 11 may be formed as a screw protrusion having a predetermined diameter, as shown in FIG. 4, and may also be formed as a screw groove having a predetermined diameter according to an embodiment.

The vibration sensor 10 described above is excited by the exciter 20 during the sensitivity measurement. The vibrator 20 excites the vibration sensor 10 at a predetermined frequency, for example, 60 Hz. And an adjusting unit for adjusting the excitation frequency of the excitation body, and at one side thereof, particularly at the center of the upper end, an engaging portion 21 for the auxiliary measurement tool 30 for sensitivity measurement is integrally formed.

2 and 4, the coupling portion 21 may be formed of a plurality of screw grooves having a predetermined diameter, and may also be formed as a screw protrusion having a predetermined diameter according to an embodiment.

Vibration Pickup & System Tester as shown in FIG. 2 is preferably used as the exciter 20 used in the sensitivity measuring device 1 of the vibration sensor according to the present invention.

When measuring the sensitivity of the vibration sensor 10, the auxiliary measurement tool 30 for sensitivity measurement is interposed between the above-described vibration sensor 10 and the exciter 20, the sensitivity measurement auxiliary tool 30 is a vibration sensor ( The vibration of the vibrator 20 is removed by removing the gap A between the vibrator 10 and the vibrator 20 formed according to the type and shape of the vibrator 10 (see FIGS. 1A and 1B). 3 and 4, the first coupling portion 31 corresponding to the coupling portion 11 of the vibration sensor 10 at one side, in particular, the center of the upper end, as shown in FIGS. 3 and 4. Is formed, and a second coupling portion 33 corresponding to the coupling portion 21 of the exciter 20 is formed at the other side, particularly at the bottom center thereof.

When the coupling part 11 of the vibration sensor 10 is formed as a screw protrusion having a predetermined diameter, the first coupling part 31 is formed as a screw groove in which the coupling part 11 of the vibration sensor 10 is screwable. When the coupling part 11 of the vibration sensor 10 is formed as a screw groove having a predetermined diameter, the coupling part 11 of the vibration sensor 10 is formed as a screw protrusion capable of screwing.

When the coupling portion 21 of the exciter 20 is formed as a screw groove having a predetermined diameter, the second coupling portion 33 is formed as a screw protrusion capable of screwing the coupling portion 21 of the exciter 20. When the coupling portion 21 of the exciter 20 is formed as a screw protrusion having a predetermined diameter, the coupling portion 21 of the exciter 20 is formed as a screwable screw groove.

The above-described sensitivity measuring auxiliary tool 30 is preferably manufactured and used separately according to the type and shape of the vibration sensor 10, in particular, the type and shape of the coupling part 11 of the vibration sensor 10.

When the sensitivity of the vibration sensor 10 is measured, the vibration sensor 10 is connected to the vibration sensor 10, which measures the vibration of the vibration sensor 10 by the excitation of the exciter 20. To determine whether there is an abnormality of the vibration sensor 10 by measuring, as the vibration measuring device 40 used in the sensitivity measuring device 1 of the vibration sensor according to the present invention is that DETAPAC 1500 as shown in FIG. desirable.

Hereinafter, with reference to Figure 4 will be described in detail the overall operation of the sensitivity measuring device 1 of the vibration sensor according to the present invention:

First, after separating the vibration sensor 10, the sensitivity measurement is required from the LNG pump and related equipment, and coupled to the exciter 20, the coupling portion 21 of the corresponding exciter 20 before this And the sensitivity measuring auxiliary tool 30 on the exciter 20 through the second coupling part 33 of the sensitivity measuring auxiliary tool 30, and then, the sensitivity measuring auxiliary tool 30 corresponding to each other. The vibration sensor 10 is coupled to the sensitivity measuring auxiliary tool 30 through the coupling part 11 of the first coupling part 31 and the vibration sensor 10.

At this time, the vibration sensor 10 and the sensitivity measuring auxiliary tool 30 are integrally coupled to each other under the interposition of the sensitivity measuring auxiliary tool 30, thereby transmitting vibration between the vibration sensor 10 and the vibrator 20. There are no gaps that would interfere with this.

After connecting the vibration sensor 10 coupled to the sensitivity measuring auxiliary tool 30 to the vibration measuring device 40, and when the excitation device 20 is excited at a predetermined frequency, vibration by the excitation device 20 is sensitive. It is transmitted to the vibration sensor 10 as it is without deformation through the measurement auxiliary tool 30, and thus a reliable measurement result of the sensitivity of the vibration sensor 10 is displayed on the vibration measuring device 40.

Therefore, the facility operator replaces the defective sensor with a new vibration sensor 10 and installs it on the LNG pump and related equipment based on a reliable measurement result of the sensitivity of the vibration sensor 10 displayed on the vibration measuring device 40. Accordingly, through accurate state diagnosis of the vibration sensor 10 it is possible to ensure the reliability of the equipment operation.

As described above, the sensitivity measuring device of the vibration sensor according to the present invention, by removing the gap generated when the gap is coupled to the vibrator through the sensitivity measurement auxiliary tool interposed between the vibration sensor and the vibrator. As the vibration by the exciter is transmitted to the vibration sensor without change, there is an advantage in that a reliable sensitivity measurement for the vibration sensor can be performed.

In addition, through the reliable sensitivity measurement of the vibration sensor, it is possible to eliminate the error of the incorrect vibration signal by timely identifying and replacing the defective sensor, and the reliability of the predictive maintenance and the operation of the equipment can be secured through more accurate equipment condition diagnosis. It can be effective.

Figure 1a is a schematic structural diagram of a sensitivity measuring device of a general vibration sensor.

1B is a cross-sectional view taken along the line AA ′ of FIG. 1A;

2 is a schematic structural diagram of a sensitivity measuring device of a vibration sensor according to the present invention;

Figure 3 is a perspective view of one embodiment of a sensitivity measuring auxiliary tool in the vibration sensor sensitivity measuring apparatus according to the present invention.

4 is a cross-sectional view taken along the line BB ′ of FIG. 2.

Explanation of symbols on the main parts of the drawings

1: Sensitivity measuring device of vibration sensor

10: vibration sensor

11 coupling part

20: excitation

21: coupling part

30: Assistant tool for sensitivity measurement

31: first coupling part

33: second coupling part

40: vibration measuring instrument

100: sensitivity measuring device of the vibration sensor according to the prior art

110: vibration sensor

111: coupling part

120: excitation

121: coupling unit

130: vibration measuring instrument

Claims (2)

In the sensitivity measuring device of the vibration sensor for measuring the sensitivity of the vibration sensor for determining the operation state of the predetermined equipment to determine the abnormality of the vibration sensor, A vibration sensor detachably coupled to a predetermined facility and having a coupling part integrally formed; A vibrator having the vibration sensor at a predetermined frequency when measuring the sensitivity of the vibration sensor, the coupling part being integrally formed; The first coupling portion corresponding to the coupling portion of the vibration sensor is formed at one side, and the second coupling portion corresponding to the coupling portion of the vibrator is formed at the other side, so that the vibration sensor and the exciter when measuring the sensitivity of the vibration sensor Interposed therebetween, the auxiliary measurement tool for sensitivity measurement so that the vibration of the vibrator can be transmitted to the vibration sensor as it is without change; And When the sensitivity of the vibration sensor is connected to the vibration sensor, by measuring the vibration of the vibration sensor by the excitation of the vibration sensor to determine whether there is an abnormality of the vibration sensor; comprising a, of the vibration sensor Sensitivity measurement device. The method of claim 1, The sensitivity measuring auxiliary tool is manufactured and used separately according to the type and shape of the vibration sensor, the sensitivity sensor of the vibration sensor.