KR100217109B1 - Apparatus for measuring oil bubble ratio - Google Patents

Abstract

In the oil bubble rate measuring device, the bubble rate, in which the oil responsible for lubrication, cooling, and airtightness in the engine or each perturbation part of the vehicle is mixed with air, is converted into impedance through the electrical properties of the fluid flowing between the two electrodes. It is measured to provide reliability in the measurement of the bubble ratio, the voltage conversion means for converting the electrical signal for the bubble ratio of the oil applied from the first and second measuring electrodes into a predetermined signal through the coil winding ratio, and the oil A first amplifying means for amplifying and outputting a signal for a bubble ratio of a predetermined level, a filtering means for removing a noise component by filtering a signal of the amplified bubble ratio measurement to a predetermined band, and a signal applied to the filtered signal Rectifying means for converting the signal of the AC component into the signal of the direct current, and the bubble rate measurement signal of the oil Gain detection means for determining the bubble ratio of the oil in the flow path based on the gain of the signal detected after comparison with the quasi-signal, second amplification means for amplifying the bubble rate of the oil in the flow path to a level required for display; It is provided with a display means for displaying the signal of the bubble ratio is instructed to the operator to provide a uniform electric field measurement per measurement volume, thereby providing reliability in measuring the oil bubble rate.

Description

Bubble rate measuring device of oil

The present invention relates to a device for measuring the bubble ratio of oil, and more particularly, the bubble ratio in which oil in charge of lubrication, cooling, and airtightness is mixed with air in an engine or each perturbation part of an automobile. The present invention relates to an apparatus for measuring the bubble ratio of oil, which is measured by impedance through an electrical property of a fluid flowing between two electrodes to provide reliability in measuring bubble ratio.

In general, the oil or coolant, which is responsible for the lubrication, cooling and airtightness of the engine or each perturbation part, which influences the life of the engine and the life of each perturbation part, has a two-phase flow mixed with air. A very important factor that determines the characteristics of the flow in the flow is the flow mode, which refers to the void fraction associated with the mixing ratio of each phase and the interface style of the two phases.

The bubble ratio of oil is classified into local, line-averaged, area average, and volume average depending on the measurement method.

As described above, the conventional method of measuring the bubble ratio of oil is proposed using a difference in capacitance, but in order to allow the output value of the bubble rate measuring device to be sensitively reacted according to the distribution characteristics of bubbles in the flow path. A relatively large electrode was adopted.

Therefore, the apparatus for measuring the bubble ratio of the oil provided in a conventional vehicle has a problem of lowering the viscosity of the oil because the electrode plate results in a decrease in the spatial decomposition ability of the bubbles moving in the flow path, the viscosity of the oil There was a problem of shortening the life of the engine and each perturbation part because it could not be maintained normally.

SUMMARY OF THE INVENTION The present invention has been made in view of the above-described problems, and its object is to detect the bubble ratio in which oil, which maintains the airtightness of the engine or each perturbation part and performs lubrication and cooling of each perturbation part, is mixed with air. In order to improve the lubrication and cooling functions by selecting the viscosity of the oil suitable for the engine, it is possible to measure the bubble rate by detecting the electrical properties of the fluid flowing between the two measuring electrodes with impedance after having two measuring electrodes in the flow path. It is to improve the durability of the engine.

In addition, an object of the present invention is to provide a guard electrode on both sides of the two measuring electrodes to shield the high impedance electrical components so that a uniform electric field in the measurement volume is detected to provide reliability in the measurement of the bubble ratio.

The present invention for achieving the above object is characterized in that it is provided so as to face at an arbitrary position in the flow path, characterized in that the first and second measuring electrodes for measuring the volume fraction of the bubbles contained in the oil with an electrical property of impedance .

In addition, the present invention includes a voltage conversion means for converting the electrical signal for the bubble ratio of the oil detected and applied by the first and second measurement electrodes into a predetermined signal through the coil winding ratio; First amplifying means for amplifying and outputting a signal of a bubble ratio of the oil to a predetermined predetermined level; Filtering means for filtering the signal of the bubble rate measurement to be amplified and applied in a predetermined band to remove noise components; Rectifying means for converting a signal to be filtered and applied into a DC signal; Gain detection means for comparing the bubble rate measurement signal of the oil converted and applied to a direct current with a set reference signal and determining the bubble rate of the oil in the flow path through the gain of the detected signal; Second amplifying means for amplifying and outputting the bubble ratio of the oil in the flow path to a predetermined level required for display; And display means for displaying a signal of the detected bubble ratio and instructing an operator.

1 is a closed circuit configuration of the device for measuring the bubble ratio of oil according to an embodiment of the present invention.

2 is an equivalent circuit diagram of the closed circuit of the present invention shown in FIG.

3 is a cross-sectional view showing an installation structure of a detection sensor for measuring the bubble ratio of oil in accordance with an embodiment of the present invention.

Figure 5 is a front view of the pipe showing the installation structure of the detection sensor for measuring the bubble ratio of the oil in accordance with an embodiment of the present invention.

5 is a block diagram of a device for measuring the bubble ratio of oil according to the present invention.

Hereinafter, exemplary embodiments of the present invention will be described in detail with reference to the accompanying drawings.

As can be seen in FIG. 1, in the closed circuit of the bubble rate measuring apparatus for oil according to an embodiment of the present invention, the volume fraction of the two-phase mixture in which the bubble is contained in the flow path is electrical. In order to measure the impedance having a property, the first measuring electrode 1 having the + property and the second measuring electrode 2 having the-property are configured to face each other.

When the flow of fluid is generated between any two electrodes configured as described above, if the electrical properties existing between the two electrodes are implemented in an equivalent circuit, as shown in FIG. 2, the resistance R and the resistance R And a capacitor Cp connected in series with the capacitor Cp and a capacitor Cd connected in parallel with the resistor R and the capacitor Cp.

At this time, the impedance Z in the equivalent circuit is expressed as follows.

to be.

In this case, R is a resistance value due to electrical conductivity, Cp is a value of capacitance due to polarization of the fluid near the electrode, and Cd is a capacitance due to the dielectric constant of the fluid.

Also, f is the supply frequency of the AC power applied to the two electrodes.

As an example of two-phase flow using this impedance equation, when the liquid and gas phases are mixed, assuming that the electrical conductivity and dielectric constant of the gas phase are much smaller than those of the liquid phase, R is the change in the electrical conductivity and the bubble ratio of the liquid phase. And Cp and Cd are affected by the bubble ratio, the dielectric constant of the liquid phase and the frequency.

Therefore, when the electrical characteristics of the two-phase fluid to be measured are known, the measured impedance changes according to the rate of change of the bubble ratio.

In addition, the detection sensor installed in the pipe through which the fluid flows, as can be seen in the attached Figure 3, a pair of first and second measurement electrodes installed at a predetermined position inside the flow path of the pipe 10 through which the oil is circulated (1) (2) is located in the protection of two pairs of guard electrodes (4) (5) adjacent to it, and as can be seen in FIG. 4, the first measuring electrode (1) and the The two measuring electrodes 2 face each other, and the diagonal angles of each other form 90 °.

At this time, two pairs of guard electrodes 4 and 5 are supplied with the same power as the first and second measurement electrodes 1 and 2, and are electrically shielded by high input impedance to provide a uniform electric field in the measurement volume. This is detected so that the electrical properties of high impedance are not affected by the measured value.

In addition, the bubble rate measuring apparatus of the oil according to the present invention for processing and displaying the signal detected by the measuring electrode (1) (2) installed in the flow path, as can be seen in Figure 5 attached, The transmitter 100 includes a first amplifier 110, a filter 120, a rectifier 130, a gain detector 140, a second amplifier 150, and a display unit 160.

The transmitter 100 converts an electrical signal of a bubble ratio of oil detected and applied from the first and second measurement electrodes 1 and 2 into a predetermined signal through a winding ratio of a coil.

The first amplifier 110 amplifies and outputs a signal applied from the transmitter 100 as a differential amplifier to a predetermined predetermined level.

The filter 120 filters a signal of a bubble rate measurement, which is amplified to a predetermined level by a band pass filter, to remove a noise component.

The rectifier 130 converts the signal that is filtered and applied into an AC signal.

The gain detector 140 determines the bubble ratio of the oil in the flow path through the gain of the detected signal by comparing the bubble rate measurement signal of the oil converted and applied to a direct current with a set reference signal.

The second amplifier 150 amplifies and outputs the bubble ratio of the oil in the flow path determined by the gain detector 140 to a predetermined level required for display.

The display unit 160 displays a signal of the second amplifier 150 to instruct the operator of the degree of bubble of the oil in the flow path.

Referring to the bubble rate measurement operation of the oil in the flow path in the present invention having the function as described above are as follows.

와 같이 검출되어 트랜스미터(100)측에 인가된다.In FIG. 1, FIG. 3, and FIG. 4, when a flow of fluid (oil) is generated in the first measuring electrode 1 and the second measuring electrode 2 provided in the flow path in the structure as can be seen. The electrical property formed between the first measurement electrode 1 and the second measurement electrode 2 is composed of an equivalent circuit as shown in FIG. 2, wherein the impedance Z with respect to the bubble ratio of oil detected in the equivalent circuit (f) is

Is detected and applied to the transmitter 100 side.

The transmitter 100 converts the impedance Z (f) value of the bubble ratio of the applied oil into a power source of a predetermined state through the coil winding ratio, and then applies the voltage to the first amplifier 110. The signal applied from the transmitter 100 is amplified to a predetermined predetermined level and then applied to the filter 120 side.

The filter 120 filters the signal applied from the first amplifier 110 to a predetermined band by using a band pass filter to remove the noise component mixed with the detected frequency, and then applies it to the rectifier 130.

The rectifier 130 rectifies and converts an AC signal with respect to the bubble ratio to which the noise component is removed and converts it into a DC signal, and then applies it to the gain detector 140.

The gain detector 140 compares the applied signal with the set reference signal to detect a gain for the detected bubble ratio and then applies it to the second amplifier 150 side.

The second amplifier 150 amplifies the signal of the bubble ratio of the applied oil to a predetermined level required for the display and then instructs the operator of the system through the display unit 160.

At this time, the guard electrodes 4 and 5 provided around the first and second measurement electrodes 1 and 2 have the same power source as that supplied to the first and second measurement electrodes 1 and 2. It is applied to shield the impedance of the high input so that a uniform electric field is formed in the volume being measured so as not to affect the measured value.

As described above, the present invention provides a fluid flow rate between two measuring electrodes having a bubble rate mixed with air in an oil passage that maintains a lubricating function, a cooling function, and an airtight function in an engine or each perturbation part. The electrical properties are detected by measuring the impedance to provide reliability in measuring the bubble ratio of the oil, and the uniform electric field per measurement volume is measured through the guard electrode, thereby providing the reliability to the measured value.

Claims (1)

First and second measuring electrodes disposed opposite to each other at arbitrary predetermined positions in the flow path and measuring a volume fraction of bubbles contained in the oil flowing in the flow path with an impedance of electrical property; Voltage conversion means for converting an electrical signal of a bubble ratio of oil detected and applied by the first and second measurement electrodes into a predetermined voltage signal through a winding ratio of a coil; First amplifying means for amplifying the voltage signal converted by the voltage converting means to a predetermined level voltage; Filtering means for passing only a predetermined band with respect to the voltage amplified by the first amplifying means and removing noise components; Rectifying means for converting a signal of the AC component filtered by the filtering means into a DC signal; Gain detecting means for detecting a gain by comparing the signal rectified by the rectifying means with a preset reference signal; Second amplifying means for amplifying the gain detected by the gain detecting means to a predetermined level; And a display unit for displaying the signal amplified by the second amplifying means.

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