KR20240028737A - Dielectric constant measuring device of oil using capacitance sensor - Google Patents

Abstract

The present invention relates to a device for measuring the dielectric constant of oil using a capacitance sensor, and more specifically, to a device for measuring the dielectric constant of oil using a capacitance sensor, which measures the dielectric constant of a mixed oil containing two oils among the lubricating oils used as industrial oils. Capacitance sensor for; an analysis control unit that analyzes and determines the mixed oil amount of the two oils mixed based on the dielectric constant of the mixed oil measured by the capacitance sensor; and an oil state output unit that outputs the measured mixed oil amount based on the analysis result of the mixed oil amount of the mixed oil containing the two oils of the analysis control unit.
According to the device for measuring the dielectric constant of oil using a capacitance sensor proposed in the present invention, a capacitance sensor for measuring the dielectric constant of a mixed oil containing two oils among lubricants used as industrial oils, and a An analysis control unit that analyzes and determines the mixed oil amount of the mixed oil mixed with the two oils based on the dielectric constant, and an oil that outputs the measured mixed oil amount based on the analysis result of the mixed oil mixed with the two oils of the analysis control unit. By including a status output unit, the mixed oil amount of phosphoric acid ester control oil (EHC) and mineral oil turbine oil is measured using measurement data when phosphoric acid ester control oil (EHC) and mineral oil turbine oil are mixed, and phosphoric acid ester control is performed accordingly. It is possible to efficiently manage the condition of EHC.
In addition, according to the device for measuring the dielectric constant of oil using a capacitance sensor of the present invention, it is possible to measure the mixed oil amount of mineral oil-based turbine oil mixed in phosphoric acid ester control oil (EHC) used as industrial oil through the capacitance sensor, thereby reducing the phosphoric acid It is possible to manage the condition of the ester control oil (EHC), and the stability of the turbine equipment can be further improved along with prompt maintenance through replacement and maintenance of the phosphate ester control oil (EHC). .

Description

Oil dielectric constant measuring device using a capacitance sensor {DIELECTRIC CONSTANT MEASURING DEVICE OF OIL USING CAPACITANCE SENSOR}

The present invention relates to a device for measuring the dielectric constant of oil using a capacitance sensor. More specifically, the present invention relates to measurement data when phosphoric acid ester control oil (EHC) and mineral oil turbine oil are mixed, and the measurement data of phosphate ester control oil and mineral oil turbine oil are measured. This relates to a device for measuring the dielectric constant of oil using a capacitance sensor that allows measuring the mixed oil amount.

In general, lubricating oil is an oil used to reduce the frictional force generated on the friction surface of a machine or to disperse frictional heat generated from the friction surface. These lubricants are used while circulating within facilities at industrial sites. Here, the lubricant is an insulator and does not have electrical conductivity, but most additives are electrically conductive, so the more additives are added, the higher the dielectric constant.

In addition, in addition to differences in dielectric constant depending on additives, there are differences in dielectric constant depending on the type of lubricating base oil. Synthetic phosphate ester base oils, which are generally used as flame-retardant hydraulic oils, have a high dielectric constant when new.

Accordingly, the dielectric constant (acid value) of the lubricant becomes high, and the dielectric constant (acid value) decreases due to the loss of additives during the deterioration process. After all the additives are lost, the dielectric constant (acid value) rapidly increases as the lubricant oxidizes. In this way, managing the deterioration of lubricating oil used as industrial oil in various industries becomes very important.

In particular, contaminated lubricant causes excessive wear and failure of mechanical equipment. Currently, domestic industrial sites only apply oil replacement at the end of the oil lifespan in response to contaminants in these fluids, and efforts to prevent contamination are insufficient. Equipment failures caused by the use of already contaminated oil result in high maintenance costs. This is causing huge losses not only in terms of industrial productivity but also in profits.

In particular, in the case of nuclear power plants, steam exhaust is used to drive turbines, and a hydraulic system called EHC is operated to control the speed of the steam exhaust. The hydraulic oil used in these EHC hydraulic systems is a flame-retardant hydraulic oil, typically a synthetic phosphoric acid ester-based hydraulic oil, to prevent fire when oil leaks and comes in contact with a nearby steam exhaust line. However, many power plant sites mistakenly use mineral oil-based turbine oil. As refueling accidents occur, the need for an online device to diagnose mixing of different types of oil is emerging.

The present invention was proposed to solve the above-mentioned problems of previously proposed methods, and includes a capacitance sensor for measuring the dielectric constant of a mixed oil containing two types of lubricating oil used as industrial oil, and An analysis control unit analyzes and determines the mixed oil amount of the two oils based on the dielectric constant of the mixed oil, and the analysis control unit determines the measured mixed oil amount based on the analysis result of the mixed oil mixed with the two oils. By including an oil status output unit that outputs, the mixed oil amount of phosphoric acid ester control oil (EHC) and mineral oil turbine oil is measured using measurement data when phosphoric acid ester control oil (EHC) and mineral oil turbine oil are mixed, and the resulting phosphoric acid The purpose is to provide a device for measuring the dielectric constant of oil using a capacitance sensor that allows efficient management of the state of ester control oil (EHC).

In addition, the present invention enables the state management of the phosphoric acid ester control oil (EHC) by measuring the mixed oil amount of mineral oil-based turbine oil mixed in the phosphoric acid ester control oil (EHC) used as industrial oil through a capacitance sensor. It is possible to provide a device for measuring the dielectric constant of oil using a capacitance sensor that can further improve the stability of turbine equipment along with prompt maintenance through replacement and maintenance of phosphoric acid ester control oil (EHC). for a different purpose.

A device for measuring the dielectric constant of oil using a capacitance sensor according to the characteristics of the present invention to achieve the above object,

A device for measuring the dielectric constant of oil using a capacitance sensor,

A capacitance sensor for measuring the dielectric constant of a mixed oil containing two types of lubricating oil used as industrial oil;

an analysis control unit that analyzes and determines the mixed oil amount of the two oils mixed based on the dielectric constant of the mixed oil measured by the capacitance sensor; and

The analysis control unit is characterized in that it includes an oil state output unit that outputs the measured mixed oil amount based on the analysis result of the mixed oil mixed with the two oils.

Preferably, the lubricant is:

Oil used as industrial oil may be composed of phosphoric acid ester control oil (EHC) and mineral oil-based turbine oil.

Preferably, the mixed oil is,

It may be composed of oil mixed with phosphoric acid ester control oil (EHC), which is used as industrial oil, and mineral oil-based turbine oil.

Preferably, the capacitance sensor is:

It can be configured as a dielectric constant sensor that measures the dielectric constant of a mixed oil containing two types of lubricating oil used as industrial oil.

More preferably, the capacitance sensor is:

It consists of a dielectric constant sensor that measures the dielectric constant of a mixed oil containing two types of lubricating oils used as industrial oils, and can measure the dielectric constant of a mixed oil containing phosphoric acid ester control oil (EHC) and mineral oil-based turbine oil.

Even more preferably, the capacitance sensor:

The dielectric constant of a mixed oil containing phosphoric acid ester control oil (EHC), which is used as an industrial oil, and mineral oil-based turbine oil can be measured, and the capacitance and conductance of the mixed oil can be measured.

Preferably, the analysis control unit,

Based on the dielectric constant of the mixed oil measured from the capacitance sensor, the mixed oil amount of the two oils mixed is analyzed and determined, and can be compared with the dielectric constant information measured according to the conditions of the preset mixing ratio.

More preferably, the dielectric constant information is,

It can be composed of capacitance and conductance values for each ratio of mixed oil containing phosphoric acid ester control oil (EHC), which is used as industrial oil, and mineral oil-based turbine oil.

According to the device for measuring the dielectric constant of oil using a capacitance sensor proposed in the present invention, a capacitance sensor for measuring the dielectric constant of a mixed oil containing two oils among lubricants used as industrial oils, and a An analysis control unit that analyzes and determines the mixed oil amount of the mixed oil mixed with the two oils based on the dielectric constant, and an oil that outputs the measured mixed oil amount based on the analysis result of the mixed oil mixed with the two oils of the analysis control unit. By including a status output unit, the mixed oil amount of phosphoric acid ester control oil (EHC) and mineral oil turbine oil is measured using measurement data when phosphoric acid ester control oil (EHC) and mineral oil turbine oil are mixed, and phosphoric acid ester control is performed accordingly. It is possible to efficiently manage the condition of EHC.

In addition, according to the device for measuring the dielectric constant of oil using a capacitance sensor of the present invention, it is possible to measure the mixed oil amount of mineral oil-based turbine oil mixed in phosphoric acid ester control oil (EHC) used as industrial oil through the capacitance sensor, thereby reducing the phosphoric acid It is possible to manage the condition of the ester control oil (EHC), and the stability of the turbine equipment can be further improved along with prompt maintenance through replacement and maintenance of the phosphate ester control oil (EHC). .

1 is a diagram illustrating the configuration of an oil dielectric constant measurement device using a capacitance sensor according to an embodiment of the present invention in functional blocks.
Figure 2 is a diagram showing the configuration of an example of a mixed oil applied to a device for measuring the dielectric constant of oil using a capacitance sensor according to an embodiment of the present invention.
Figure 3 is a diagram illustrating an example of the configuration of an oil state output unit of an apparatus for measuring the dielectric constant of oil using a capacitance sensor according to an embodiment of the present invention.
Figure 4 is a diagram showing a ratio configuration for a test for detecting mixed oil of phosphoric acid ester control oil (EHC) and mineral oil-based turbine oil applied to a device for measuring the dielectric constant of oil using a capacitance sensor according to an embodiment of the present invention.
Figure 5 is a diagram showing the measurement of each ratio sample for a mixed oil detection test of phosphoric acid ester control oil (EHC) and mineral oil-based turbine oil applied to an oil dielectric constant measurement device using a capacitance sensor according to an embodiment of the present invention. .
Figure 6 is a diagram showing the capacitance and conductance values for each sample of the ratio of phosphoric acid ester control oil (EHC) and mineral oil-based turbine oil applied to the device for measuring the dielectric constant of oil using a capacitance sensor according to an embodiment of the present invention.
Figure 7 is a graph showing the mixing ratio of phosphoric acid ester control oil (EHC) and mineral oil-based turbine oil for each sample applied to the device for measuring the dielectric constant of oil using a capacitance sensor according to an embodiment of the present invention.

Hereinafter, with reference to the attached drawings, preferred embodiments will be described in detail so that those skilled in the art can easily practice the present invention. However, when describing preferred embodiments of the present invention in detail, if it is determined that a detailed description of a related known function or configuration may unnecessarily obscure the gist of the present invention, the detailed description will be omitted. In addition, the same symbols are used throughout the drawings for parts that perform similar functions and actions.

Additionally, throughout the specification, when a part is said to be 'connected' to another part, this is not only the case when it is 'directly connected', but also when it is 'indirectly connected' with another element in between. Includes. Additionally, ‘including’ a certain component does not mean excluding other components, but rather including other components, unless specifically stated to the contrary.

Figure 1 is a diagram illustrating the configuration of a device for measuring the dielectric constant of oil using a capacitance sensor according to an embodiment of the present invention in functional blocks, and Figure 2 is a diagram showing the dielectric constant measurement of oil using a capacitance sensor according to an embodiment of the present invention. It is a diagram showing an example configuration of mixed oil applied to the device, and FIG. 3 is a diagram showing an example configuration of an oil state output unit of an oil dielectric constant measurement device using a capacitance sensor according to an embodiment of the present invention. As shown in FIGS. 1 to 3, the oil dielectric constant measuring device 100 using a capacitance sensor according to an embodiment of the present invention measures the dielectric constant of a mixed oil containing two oils among lubricating oils used as industrial oils. A capacitance sensor 110 for measuring, an analysis control unit 120 that analyzes and determines the mixed oil amount of the two oils mixed based on the dielectric constant of the mixed oil measured by the capacitance sensor 110, and an analysis control unit. It may be configured to include an oil state output unit 130 that outputs the measured mixed oil amount based on the mixed oil amount analysis result of the mixed oil containing the two types of oil (120). Hereinafter, the specific configuration of an oil dielectric constant measuring device using a capacitance sensor according to an embodiment of the present invention will be described with reference to the attached drawings.

Figure 4 is a diagram showing the ratio configuration for a test for detecting mixed oil of phosphoric acid ester control oil (EHC) and mineral oil-based turbine oil applied to the device for measuring the dielectric constant of oil using a capacitance sensor according to an embodiment of the present invention. 5 is a diagram showing the measurement of each ratio sample for the mixed oil detection test of phosphoric acid ester control oil (EHC) and mineral oil-based turbine oil applied to the oil dielectric constant measurement device using a capacitance sensor according to an embodiment of the present invention. , Figure 6 is a diagram showing capacitance and conductance values for each sample ratio of phosphoric acid ester control oil (EHC) and mineral oil-based turbine oil applied to the device for measuring the dielectric constant of oil using a capacitance sensor according to an embodiment of the present invention. Figure 7 is a graph showing the mixing ratio of phosphoric acid ester control oil (EHC) and mineral oil-based turbine oil for each sample applied to the device for measuring the dielectric constant of oil using a capacitance sensor according to an embodiment of the present invention.

The capacitance sensor 110 is a sensor configured to measure the dielectric constant of a mixed oil containing two types of lubricating oil used as industrial oil. This capacitance sensor 110 may be configured as a dielectric constant sensor that measures the dielectric constant of a mixed oil containing two types of lubricating oil used as industrial oil. Here, the lubricating oil is an oil used as industrial oil and may be composed of phosphoric acid ester control oil (EHC) and mineral oil-based turbine oil.

In addition, the mixed oil may be composed of oil mixed with phosphoric acid ester control oil (EHC), which is used as industrial oil, and mineral oil-based turbine oil. In other words, mixed oil is composed of mineral oil-based turbine oil mixed with phosphoric acid ester control oil (EHC) used in turbine equipment.

In addition, the capacitance sensor 110 is configured as a dielectric constant sensor that measures the dielectric constant of a mixed oil containing two types of lubricating oils used as industrial oils, and a mixed oil containing phosphate ester control oil (EHC) and mineral oil-based turbine oil. The dielectric constant can be measured.

In addition, the capacitance sensor 110 measures the dielectric constant of a mixed oil containing phosphate ester control oil (EHC) and mineral oil-based turbine oil, which are used as industrial oils, and can measure the capacitance and conductance of the mixed oil. This capacitance sensor 110 may be composed of one or two or more sensors capable of measuring the capacitance and conductance of the mixed oil.

The analysis control unit 120 is configured to analyze and determine the mixed oil amount of the mixed oil containing the two oils based on the dielectric constant of the mixed oil measured by the capacitance sensor 110. This analysis control unit 120 analyzes and determines the mixed oil amount of the two oils mixed based on the dielectric constant of the mixed oil measured from the capacitance sensor 110, and determines the dielectric constant measured according to the conditions of the preset mixing ratio. Information can be compared. Here, the dielectric constant information may be composed of capacitance and conductance values for each ratio of mixed oil containing phosphoric acid ester control oil (EHC), which is used as industrial oil, and mineral oil-based turbine oil.

In addition, the analysis control unit 120 can obtain capacitance and conductance values in advance as the dielectric constant for each ratio of the mixed oil containing phosphoric acid ester control oil (EHC) and mineral oil-based turbine oil and store and manage them as a reference. That is, as an example of a mixed oil (control oil: turbine oil) containing phosphoric acid ester control oil (EHC) and mineral oil turbine oil, 100:0, 98:2, 95:5, 90:10, 60:40, It can be preset to 40:60, 10:90, 5:95, 2:98, 0:100, etc.

The oil status output unit 130 is configured to output the measured mixed oil amount based on the analysis result of the analysis control unit 120's mixed oil amount of the mixed oil containing the two oils. This oil status output unit 130 outputs the mixed oil amount analyzed by the analysis control unit 120, and can output the mixed oil amount by displaying it on a display so that the user can easily understand it.

In addition, the oil status output unit 130 not only displays and outputs the mixed oil amount through a display so that the user can easily know the mixed oil amount analyzed by the analysis control unit 120, but also displays and outputs the mixed oil amount analyzed by connecting to a preset external device. The flow rate can be provided through communication, and if the mixed flow rate is preset, an alarm can be issued if the mixed flow rate exceeds the preset value.

Figure 4 is a diagram showing the ratio configuration for a test for detecting mixed oil of phosphoric acid ester control oil (EHC) and mineral oil-based turbine oil applied to the device for measuring the dielectric constant of oil using a capacitance sensor according to an embodiment of the present invention. 5 is a diagram showing the measurement of each ratio sample for the mixed oil detection test of phosphoric acid ester control oil (EHC) and mineral oil-based turbine oil applied to the oil dielectric constant measurement device using a capacitance sensor according to an embodiment of the present invention. , Figure 6 is a diagram showing capacitance and conductance values for each sample ratio of phosphoric acid ester control oil (EHC) and mineral oil-based turbine oil applied to the device for measuring the dielectric constant of oil using a capacitance sensor according to an embodiment of the present invention. Figure 7 is a graph showing the mixing ratio of phosphoric acid ester control oil (EHC) and mineral oil-based turbine oil for each sample applied to the device for measuring the dielectric constant of oil using a capacitance sensor according to an embodiment of the present invention. Figures 4 to 7 show dielectric constant measurement tests of mixed samples of phosphoric acid ester control oil (EHC) and mineral oil turbine oil. The control oil and new turbine oil collected from the AA nuclear power plant were stirred at various ratios to measure the capacitance sensor 110. It was measured. Each oil was stirred at a minimum ratio of 0 to a maximum of 100, and each sample was measured for 5 minutes with a capacitance sensor (110), and the median hexadecimal value was recorded. The temperature and atmospheric humidity during measurement are 22.9℃~25.2℃/57%~65%.

Figure 4 shows the ratio of phosphoric acid ester control oil (EHC):mineral oil turbine oil, from left to right: 100:0, 98:2, 95:5, 90:10, 60:40, 40:60, 10:90, 5 Indicates mixing ratios of :95, 2:98, and 0:100. Figure 5 shows an example of the measurement for each sample, and Figure 6 shows in a table the capacitance and conductance with the measured dielectric constant and the mixed flow amount of phosphoric acid ester turbine oil according to the mixing ratio of phosphoric acid ester control oil and mineral oil turbine oil. 7 shows a graph showing the ratio of mixed oil for each sample of phosphoric acid ester control oil (EHC) and mineral oil-based turbine oil applied to the device for measuring the dielectric constant of oil using a capacitance sensor according to an embodiment of the present invention.

As described above, the device for measuring the dielectric constant of oil using a capacitance sensor according to an embodiment of the present invention includes a capacitance sensor for measuring the dielectric constant of a mixed oil containing two oils among the lubricating oils used as industrial oils, and a capacitance sensor. An analysis control unit that analyzes and determines the mixed oil amount of the mixed oil mixed with the two oils based on the dielectric constant of the mixed oil measured from By including an oil status output unit that outputs the mixed oil amount, the mixed oil amount of the phosphoric acid ester control oil (EHC) and mineral oil-based turbine oil is measured using measurement data when the phosphoric acid ester control oil (EHC) and mineral oil-based turbine oil are mixed, As a result, it is possible to efficiently manage the condition of the phosphoric acid ester control oil (EHC). In particular, the mixed oil amount of mineral oil-based turbine oil mixed in the phosphoric acid ester control oil (EHC) used as industrial oil can be measured through a capacitance sensor. By being able to measure the condition of the phosphoric acid ester control oil (EHC), it is possible to manage the condition of the phosphoric acid ester control oil (EHC), and the stability of the turbine equipment can be improved along with prompt maintenance through replacement time and maintenance of the phosphoric acid ester control oil (EHC). We can make further improvements.

The present invention described above can be modified or applied in various ways by those skilled in the art, and the scope of the technical idea according to the present invention should be determined by the claims below.

100: Dielectric constant measurement device according to an embodiment of the present invention
110: capacitance sensor
120: analysis control unit
130: Oil status output unit

Claims (8)

A device (100) for measuring the dielectric constant of oil using a capacitance sensor,
A capacitance sensor 110 for measuring the dielectric constant of a mixed oil containing two types of lubricating oils used as industrial oils;
An analysis control unit 120 that analyzes and determines the mixed oil amount of the two oils mixed based on the dielectric constant of the mixed oil measured by the capacitance sensor 110; and
Characterized in that it includes an oil state output unit 130 that outputs the measured mixed oil amount based on the analysis result of the mixed oil mixed with the two oils of the analysis control unit 120. Dielectric constant measurement device.
The method of claim 1, wherein the lubricant is:
An oil used as industrial oil, characterized in that it is composed of phosphate ester control oil (EHC) and mineral oil-based turbine oil. A device for measuring the dielectric constant of oil using a capacitance sensor.
The method of claim 1, wherein the mixed oil is:
A device for measuring the dielectric constant of oil using a capacitance sensor, characterized in that it consists of oil mixed with phosphoric acid ester control oil (EHC), which is used as industrial oil, and mineral oil-based turbine oil.
The method of claim 1, wherein the capacitance sensor 110 is:
A device for measuring the dielectric constant of oil using a capacitance sensor, characterized in that it consists of a dielectric constant sensor that measures the dielectric constant of a mixed oil containing two types of lubricating oils used as industrial oils.
The method of claim 4, wherein the capacitance sensor 110 is:
It consists of a dielectric constant sensor that measures the dielectric constant of a mixed oil containing two types of lubricating oils used as industrial oils, and is characterized by measuring the dielectric constant of a mixed oil containing phosphoric acid ester control oil (EHC) and mineral oil-based turbine oil. A device for measuring the dielectric constant of oil using a capacitance sensor.
The method of claim 5, wherein the capacitance sensor 110,
A device for measuring the dielectric constant of oil using a capacitance sensor, characterized in that it measures the dielectric constant of a mixed oil containing phosphoric acid ester control oil (EHC) and mineral oil-based turbine oil, which are used as industrial oils, and measures the capacitance and conductance of the mixed oil. .
The method of any one of claims 1 to 6, wherein the analysis control unit 120,
Based on the dielectric constant of the mixed oil measured from the capacitance sensor 110, the mixed oil amount of the two oils is analyzed and determined, and compared with the dielectric constant information measured according to the conditions of the preset mixing ratio. A device for measuring the dielectric constant of oil using a capacitance sensor.
The method of claim 7, wherein the dielectric constant information is,
A device for measuring the dielectric constant of oil using a capacitance sensor, characterized in that it consists of capacitance and conductance values for each ratio of a mixed oil containing phosphoric acid ester control oil (EHC), which is used as industrial oil, and mineral oil-based turbine oil.