JPH03144358A - Judgment of liquid life - Google Patents

Abstract

PURPOSE:To detect a mixing of water early and with ease by arranging a high-permeability material in a liquid such as a lubricant, insulating oil or refrigerant to check a change in physical characteristic of the high magnetic permeability material. CONSTITUTION:As water is mixed into an oil 12, a high magnetic permeability material 16 immersed in the oil 12 is corroded by water to lower the permeability thereof. This reduces an inductance of a detection coil 18 with the high magnetic permeability material 16 inserted therethrough to lower a reactance. Therefore, the reactance of the detection coil 18 is detected to monitor a change therein, by which a drop in the permeability of the high magnetic permeability material 16 is detected. This enables early and easy detection of water being mixed into the oil 12 thereby permitting judgment that the oil 12 reaches the life thereof.

Description

Detailed Description of the Invention (Industrial Field of Application) The present invention relates to a method for determining the lifespan of liquids that become unusable due to contamination with water, etc., and is particularly applicable to engine oils that are used for long periods of time while being circulated. The present invention relates to a method for determining the lifespan of a liquid suitable for determining the lifespan of a liquid.

[Conventional technology]

Construction machinery is often powered by a diesel engine, and automobiles are generally powered by a gasoline engine or a diesel engine. These engines convert thermal energy from combustion into mechanical energy by burning fuel and moving a piston at high speed. Lubricating oil (engine oil) is circulated and supplied to sliding parts that move, such as the crankshaft and pistons, to reduce frictional resistance and enable smooth movement, as well as to remove and prevent heat. We are trying to prevent rust etc. Therefore, if the engine oil (hereinafter referred to as "oil") deteriorates, it may cause damage to the shaft, such as galling, and cause malfunctions, so when the oil deteriorates, the oil is replaced.

[Problem to be solved by the invention]

Oil deterioration is caused by a combination of various factors, but the following three are the major causes.

■ Accumulation of water ■ Accumulation of soot ■ Accumulation of abrasion caused by sliding parts The deterioration of oil due to the above-mentioned wear particles is due to the abrasion that occurs.
It is possible to accumulate metal powder in the coil and detect it as a change in the reactance of the coil. Additionally, the oil pan that receives the circulating oil is usually equipped with a strainer, and the circulation path is also equipped with a filter to remove quite fine soot and metal powder. but,
Water mixed in oil is not only difficult to detect, but also cannot be removed by strainers or filters.

For this reason, in order to detect whether or not water has been mixed into oil, conventionally, the inferiority and service life of the oil has been determined by occasionally observing or analyzing the oil with the naked eye. However, it cannot be determined by visual observation unless a considerable amount of water is mixed in, and the analysis of oil is not easy because it takes time.

The present invention has been made in order to eliminate the drawbacks of the prior art, and aims to provide a method for determining the lifespan of a liquid that does not contain water, which can detect water contamination early and easily. There is.

[Means to solve the problem]

Certain types of high magnetic permeability materials, such as iron-based alloys, are generally susceptible to oxidation and are easily corroded by water, reducing physical properties such as magnetic permeability, internal propagation speed of sound, and Young's modulus. Therefore, by monitoring changes in the physical properties of the high permeability material, it can be easily detected that the high permeability material has been corroded by water. The inventors developed the present invention by focusing on the characteristic C of high magnetic permeability materials. By placing a B skewer in commercial transport and detecting changes in the physical properties of this high permeability material, the le
i. It is characterized by determining the lifespan due to the contamination of body water.

The liquid may be engine oil or insulating oil.

In addition, the change in the physical property to be detected may be a change in the magnetic permeability of a high magnetic permeability material.Detection of a change in magnetic permeability of a high magnetic permeability material is
This can be done by exposing the end of a high magnetic permeability material disposed in the liquid from the liquid, inserting this end into a coil, and detecting the reactance of the coil. The high magnetic permeability material is preferably formed into a thin wire shape.

[Effect]

The present invention configured as described above can be used to prevent water from entering liquids such as lubricating oil or refrigerant. n
When the skewers are corroded by mixed water, physical properties such as magnetic permeability, sound velocity, and Young's modulus change. Therefore, by monitoring the physical properties of high magnetic permeability materials and detecting their changes, it is possible to early and easily detect the presence of water in a liquid that does not contain water. It becomes possible to determine the lifespan.

In particular, when the high magnetic permeability material is formed into a thin wire shape, the magnetic permeability changes greatly even if the corrosion of the high magnetic permeability material is small, and the change in magnetic permeability can be easily detected. In addition, when detecting changes in magnetic permeability using a coil, since a high magnetic permeability material is used, the part of the high magnetic permeability material that is away from the corroded part, that is, the part of the high magnetic permeability material that is exposed from the liquid. Changes in magnetic permeability can be easily detected even if a coil is attached to the magnet.

〔Example〕

A preferred embodiment of the method for determining the lifespan of a liquid according to the present invention will be described in detail with reference to the accompanying drawings.

FIG. 1 is an explanatory diagram of another method for liquid life 4'11 according to an embodiment of the present invention.

In FIG. 1, an oil pan 1O is provided below an engine (not shown), and is configured to receive and store oil 12 that has been circulated through the crankshaft, piston, etc. Further, the oil pan 10 is provided with an insertion hole at a position higher than the upper surface of the oil 12, and a sealing material 14 made of rubber, silicone rubber, etc. is attached to this insertion hole.

A high magnetic permeability material 16 passes through the center of the sealing material 14 . The high magnetic permeability material 16 is made of, for example, an amorphous or iron-based single crystal material, and is formed into a thin wire with a diameter of several μm to several tens of μm. One end of the high magnetic permeability material 16 is immersed in the oil 12 in the oil pan 10, and the other end penetrates the sealing material 14 and is drawn out of the oil pan IO, and is inserted into the detection coil 18. It is possible to do so. The number of high magnetic permeability materials I6 immersed in this oil 12 may be one or more.

The detection coil 18 is connected to an AC power source 20 via a resistor R, and is supplied with current from an AC amount ti20. Further, a reactance detection circuit 22 is connected in parallel to the detection coil 18 so that the reactance of the detection coil 18 can be detected.

In the embodiment configured as described above, when water gets mixed into the oil I2, the high magnetic permeability material 16 immersed in the oil I2 is corroded by the water, and the permeability 611 decreases.

Therefore, the detection coil 1 through which the high magnetic permeability material 16 is inserted
The inductance I5 of No. 8 becomes smaller, and the reactance decreases. In other words, if the reactance (Hatsutomo reactance) of the detection coil 18 before the R skewer 16 corroded is ωL0, and the reactance at any measurement is ω, then the relative reactance of the detection coil 16 (ωL/ωL) is .

) decreases as the high magnetic permeability material I6 is corroded by the water mixed in the oil 12, as shown in FIG. Therefore, when the value of relative reactance ωL/ωL0 becomes smaller than, for example, X in FIG. 2, it is determined that the oil 12 has deteriorated due to water contamination and is replaced.

In this way, in the embodiment, the reactance ω1. The oil 1 is detected and its changes are monitored, and the oil 1 is
It is possible to early and easily detect that water has entered the oil 12, and it can be determined that the oil 12 has reached the end of its life. Therefore, the oil 12 can be replaced before damage such as staking occurs to the shaft or failure occurs to the device, making maintenance of the device easy and ensuring proper operation of the device.

In addition, in the embodiment, by using a high magnetic permeability material with high magnetic permeability, there is no need to attach a detection coil to the corroded part (portion where the magnetic permeability changes) of the high magnetic permeability material 16. To easily detect a change in magnetic permeability even if the detection coil 18 is attached to a part away from the oil pan 10, and to extend the end of the high magnetic permeability material 16 to a place far from the oil pan 10 where the detection coil 18 can be easily attached. Therefore, the lifespan of the oil 12 can be easily detected, and the lifespan of the oil 120 can be determined based on the usage state of the device. In the embodiment, by forming the high magnetic permeability material 16 into a thin wire shape,
If the high magnetic permeability material 16 corrodes even a little, the magnetic permeability changes significantly, so water intrusion can be detected with high sensitivity. Moreover, the ease of corrosion (corrosion resistance) of the high magnetic permeability material 16 can be changed arbitrarily by changing the heat treatment, surface treatment, or alloy composition of the high magnetic permeability material 16, and the longevity of the oil 12 can be changed. A high-speed le fi skewer 16 suitable for this can be easily obtained.

In the above embodiment, the lifespan of the oil 12 is determined by monitoring the reactance ωL. However, by connecting the detection coil 18 to an AC bridge and determining the inductance L of the detection coil 18, Alternatively, the lifespan of the oil 12 may be determined by using an oscillation circuit and determining changes in the magnetic permeability of the high magnetic permeability material 16 based on the frequency and amplitude of the oscillation circuit. Further, in the embodiment, a case has been described in which the high magnetic permeability material 16 is formed in the shape of a thin line, but the high magnetic permeability material 16 may be in the shape of a plate or a thin film. In the above embodiment, a case was explained in which only the high magnetic permeability material 16 was placed in the oil 12, but other magnetic bodies were placed in the oil 12 and the deterioration of this magnetic body was also detected. You can. Further, it is desirable that the high magnetic permeability material 16 is subjected to a surface treatment to prevent corrosion on the portion not immersed in the oil 12.

FIG. 3 is an explanatory diagram of another embodiment.

In FIG. 3, in the oil I2 of the oil pan 10,
A thin wire-shaped high magnetic permeability material 16 is stretched.

The high magnetic permeability material 16 has both ends 24 and 26 connected to the oil pan 10.
The sole material 28.30 attached to the hole formed in the coil 3 is passed through and pulled out to the outside of the oil pan 10.
2.34 can be inserted. Furthermore, a connector 36.38 is fixed to the outer end surface of the sealing material 28.30 to facilitate attachment and detachment of the coil 32.34.

The connector 36.38 may be formed integrally with the seal 28.30 from the same material as the seal 28.30.

In the embodiment shown in FIG. 3 configured in this way, for example, by connecting the coil 32 to an AC power source and detecting the electromotive force of the coil 34 or checking the intallance of the coil 34, it is possible to detect the presence of oil mixed in the oil 12. Transmission of high magnetic permeability material 16 due to corrosion due to water! It is possible to detect a decrease in the n-rate and obtain the same effect as described above. Moreover, in this embodiment, since the coils 36 and 38 are provided, the coils 32 and 34 can be easily and reliably attached and detached.

In addition, in the embodiment of FIG. 3, the connector 38.40
Although the case has been described in which the connectors 36, 38 are fixed to the sealing material 28, 30, the connectors 36, 38 may be installed at a position remote from the oil pan 10.

In addition, in each of the above embodiments, the coil reactance ω
Although we have described the case where the lifespan of the oil 12 is determined by measuring AC electromagnetic properties such as Corrosion of the magnetic material 16 is detected, and the oil I2
It is also good to determine the lifespan of °ζ.

Furthermore, in the embodiment described above, the case where the high magnetic permeability material 16 is placed inside the oil tank 10 has been described, but the high magnetic permeability material 16 only needs to be in contact with the oil 12, and can be placed in the oil 12 circulation path or in the oil tank lO. It may also be placed in a tank or the like. In addition, in the above embodiment, the case where the liquid for determining the lifespan is engine oil was explained, but the liquid may be a liquid such as machine oil, insulating oil, or refrigerant that does not contain water and does not corrode high magnetic permeability materials. Bye.

(Effects of the Invention) As explained above, according to the present invention, a high permeability material is disposed in a liquid such as lubricating oil, insulating oil, or refrigerant, and the high permeability material is corroded by water mixed in the liquid. By detecting changes in the physical properties of magnetic materials, it is possible to easily and reliably detect the presence of water in a liquid that does not contain water.
It becomes possible to determine the lifespan of the liquid.

In particular, when the high magnetic permeability material is formed into a thin wire shape, the magnetic permeability changes greatly even if the corrosion of the high magnetic permeability material is small, and the change in magnetic permeability can be easily detected. Since high permeability material with high i8 magnetic property is used, the coil can
When detecting changes in the 34ft ratio, it is not necessary to attach the coil directly to the corroded part; even if the coil is attached to the end of a high-permeability material that is extended to a location far away from the liquid and easy to measure, the permeability It is possible to reliably detect changes in
Measurement becomes easier.

[Brief explanation of the drawing]

FIG. 1 is an explanatory diagram of a method for determining the lifespan pI of a liquid according to an embodiment of the present invention, FIG. 2 is a diagram showing temporal changes in relative reactance of a detection coil through which a high magnetic permeability material is inserted, and FIG. It is an explanatory view of another example. 12-・-Liquid (oil), 16-Ichinoki skewer, ]
]8---Detection coil 22---Reactance detection circuit.

Claims (5)

[Claims] (1) By placing a high magnetic permeability material in a liquid such as lubricating oil, insulating oil, or refrigerant, and detecting changes in the physical properties of this high magnetic permeability material, the lifespan due to water contamination of the liquid can be determined. A method for determining the lifespan of a liquid. (2) The liquid life determination method according to claim 1, wherein the liquid is engine oil. (3) The method for determining the lifespan of a liquid according to claim 1 or 2, wherein the physical property is the magnetic permeability of the high magnetic permeability material. (4) Detection of changes in magnetic permeability of the high magnetic permeability material is carried out by exposing the end of the high magnetic permeability material placed in the liquid from the liquid, inserting this end into a coil, and measuring the reactance of the coil. 4. The method for determining the lifespan of a liquid according to claim 3, wherein the method is carried out by detecting. (5) A method for determining the lifespan of a liquid, characterized in that the high magnetic permeability material is formed into a thin wire shape.