JPH05107182A - Oil deterioration sensor - Google Patents

Abstract

PURPOSE:To obtain an oil deterioration sensor which works with high reliability, has small size and low cost, heat resistance and durability and is easily repairable in case of trouble and periodically maintainable. CONSTITUTION:An oil deterioration sensor S has a cylindrical light measuring part 2 and a flange part 4 combined in one with the light measuring part 2 for fixing. The light measuring part 2 is formed to project to one side of the flange part 4 and has an empty housing 14 combined in one with the flange part 4 in a slender shape for example, a cylinder. In the empty housing 14, a transparent pipe 20 is placed as to penetrate perpendicularly to the axis of the empty housing. On one side of the transparent pipe 20, a light source 22 is arranged, and on the other side of the transparent pipe 20, a photodiode 24 is arranged. The photodiode 24 is placed on a base plate 30 for fixing electronics circuits fixed to the flange part 4.

Description

Detailed Description of the Invention

[0001]

BACKGROUND OF THE INVENTION 1. Field of the Invention The present invention generally comprises a light emitting portion and a light receiving portion, and the light receiving portion detects the illuminance or the amount of light from the light emitting portion which has passed through the object to be detected. The present invention relates to a sensor for detecting the property of, and particularly to an oil deterioration sensor for detecting deterioration of various lubricating oils such as engine oil, compressor oil and gear oil.

[0002]

2. Description of the Related Art In recent years, in order to save labor, for example, in engine generator systems, automobile engines, marine engines, cogeneration system engines, etc., automation of automatic conversion / automatic replenishment of engine oil, that is, lubricating oil, has been demanded. There is.

Further, in the lubrication system of industrial machines, automation such as automatic exchange / replenishment of lubricating oil is also demanded.

As an example, FIG. 8 schematically shows an engine oil automatic replenishment / automatic exchange system in a power generation engine system.

That is, in the engine oil automatic replenishment / automatic exchange system of the present embodiment, the oil level is indicated from the float magnet type or capacitance type level sensor F arranged in the oil pan P of the engine N. The signal to be converted is converted into a control signal by the signal processing unit D, and the level is displayed on the display unit E. When the level sensor F detects a decrease in the level in the oil pan P, the controller C causes
Open the supply valve B consisting of a solenoid valve etc. and supply oil from the new oil tank A.

On the other hand, an oil monitor, that is, a signal indicating the deterioration degree of oil from the oil deterioration sensor S is similarly converted into a control signal by the signal processing unit K and the deterioration degree is displayed on the display unit L.

When the degree of deterioration exceeds a certain threshold level, the controller M opens the discharge valve G including a solenoid valve and discharges the oil used in the oil pan P.
Drop it into the waste oil tank H. When a level decrease in the oil pan P is detected by the level sensor F, the controller C opens the supply valve B, replenishes the oil from the new oil tank A, and the level sensor F detects that the predetermined level is reached. The valve B is closed by the controller C.

[0008]

The oil deterioration sensor S used in the automatic makeup system for engine oil having the above-described structure is provided with a direct oil pan P or an oil pan P.
It is attached to the nozzle attached to the and measures the degree of deterioration of the engine oil in the oil pan P, and outputs an electric signal to the signal processing unit K.
Reliable operation, small size and low manufacturing cost, heat resistance,
It is required to have durability, and in addition, it should be easy to carry out repair / replacement or periodic maintenance in case of failure.

To the best of the knowledge of the present inventors at present,
There is no oil deterioration sensor that satisfies the above requirements.

Therefore, the object of the present invention is to operate with high reliability, small size, low manufacturing cost, heat resistance and durability, and further repair in case of failure. It is an object of the present invention to provide an oil deterioration sensor that can be easily replaced or regularly maintained.

[0011]

The above object can be achieved by the oil deterioration sensor according to the present invention. In summary, the present invention includes a tubular photometric portion and a mounting flange portion formed integrally with the photometric portion, the photometric portion extending from the flange portion to one side. And has a slender hollow housing integrally connected to the flange portion at the front end and the other end. The hollow housing is transparently penetrated through in a manner orthogonal to the axis of the hollow housing. A transparent hollow tube, and inside the hollow housing, a light emitting part is provided on one side of the transparent tube and a light receiving part is provided on the other side, and the light emitting and receiving part is attached to the flange part. The oil deterioration sensor is electrically connected to the electronic circuit mounting board. Preferably, a light blocking member having a through hole for passing light is arranged between the transparent tube and the light receiving section and / or between the light emitting section and the transparent tube.

[0012]

DETAILED DESCRIPTION OF THE PREFERRED EMBODIMENTS An oil deterioration sensor according to the present invention will be described below in more detail with reference to the drawings.

As shown in FIGS. 1 to 4, an oil deterioration sensor S according to the present invention includes a photometric portion 2 having a cylindrical shape and a mounting flange portion 4 formed integrally with the photometric portion 2. Have and. A sensor mounting hole 6 is provided on the outer periphery of the flange portion 4.
A plurality of them, four in this embodiment. The oil deterioration sensor S of the present invention penetrates the sensor insertion hole 8 formed in the oil pan P, inserts the tubular photometric portion 2 of the oil deterioration sensor S into the oil pan P, and then the flange portion 4
Is attached to the oil pan P with the screw 10 by using the mounting hole 6, and is detachably attached to the oil pan P. At this time, in order to prevent the oil in the oil pan P from leaking to the outside through the gap between the oil pan P and the flange portion 4, it is preferable that the flange portion 4 is provided with an O-ring 12.

Therefore, the oil deterioration sensor S having such a structure
The unit can be easily attached and detached from the oil pan P, and repair and replacement in the unlikely event of failure, or periodic maintenance management is easy.

Next, the structure of the photometric unit 2 will be described.

The photometric section 2 has an elongated hollow housing 14 formed in one piece with the flange section 4 and formed integrally with the flange section 4, which is cylindrical in this embodiment. Further, a transparent hollow oil holding portion, that is, a transparent tube 20 is provided in the hollow housing 14 so as to penetrate in a manner orthogonal to the axis of the hollow housing. The light emitting portion 22 is arranged on one side of the transparent tube 20, that is, the tip side of the photometric unit 2 in this embodiment, and the light is received on the other side of the transparent tube 20, that is, the flange portion 4 side in this embodiment. The part 24 is arranged. The transparent tube 20 does not have to be literally transparent, and may be semi-transparent as long as it allows the light beam from the light emitting section 22 to pass therethrough. Therefore, in this specification, the transparent tube is referred to as a transparent tube. Such a semi-transparent tube is also meant.

The light emitting portion 22 is a cylindrical plug retainer 26 having a flange 26a for closing the tip of the hollow housing 14.
Is a light source such as a light emitting diode, and the light receiving section 24 is a light receiving element such as a photodiode.
The photodiode 24 is mounted on an electronic circuit mounting board 30, which is fixed to an electronic circuit board mounting housing 32 which is formed integrally with the flange portion 4 and which is rectangular in this embodiment. On the opposite side of the substrate 30 from the photodiode 24, as will be described later,
An electronic circuit 50 is provided to electrically connect the photodiode 24 and the light emitting diode 22.

The flange portion 4, the hollow housing 14 and the plug-like retainer 26 are preferably made of a synthetic resin having heat resistance to a temperature of about 80 to 150 ° C., for example, glass fiber reinforced polyphenylene sulfide, glass fiber. Engineering plastics such as reinforced nylon 66 and glass fiber reinforced polyethylene terephthalate or metals are preferably used.

The transparent tube 20 is made of a transparent or translucent synthetic resin such as Teflon or polyethylene.
Or, it can be made of glass, for example, an outer diameter of 2 to 1
A circular hollow tube having a diameter of 0 mm and an inner diameter of 1 to 8 mm can be preferably used.

When the oil deterioration sensor S according to the present invention having the above structure is attached to the oil pan P, the engine oil in the oil pan P fills the transparent tube 20 of the photometric unit 2. Since the engine oil in the oil pan P is agitated and flowed, the current oil is always flowed and held in the transparent pipe 20.

Now, when the light emitting diode 22 of the light emitting portion is turned on, the light passes through the transparent tube 20 and enters the photodiode 24 of the light receiving portion. According to the results of the research and experiments conducted by the present inventors, the light source 22 is preferably a near infrared light source that emits a wavelength of 1000 nm or less.

According to a preferred embodiment of the present invention, when the transparent tube 20 is a cylindrical tube as shown,
As will be understood with particular reference to FIGS. 2 and 5, a light blocking member 34 having a through hole 34 a for passing light, which is smaller than the inner diameter of the transparent tube 20, is disposed between the transparent tube 20 and the light receiving section 24. Is set up. As a result, a part of the light beam from the light source 22 is refracted by the side tube wall of the transparent tube 20 without passing through the oil held in the transparent tube 20, wraps around to the light receiving section 24, and the light receiving section 24. It is possible to solve the problem caused by the “wraparound light” such as photometry at. Of course, the light shielding member 34 may be provided between the light emitting portion 22 and the transparent tube 20, or may be provided on both sides of the transparent tube 20.

Further, the light shielding member 34 is not limited to the above structure, and as shown in FIG. 6 (A), for example,
An opaque plastic film 34 having a through hole 34a for passing light so as to be positioned in the diameter direction of the transparent tube 20.
It is also possible to wind the transparent tube 20 around the transparent tube 20,
In addition, as shown in FIG. 6B, the transparent tube 20 itself is shielded by printing or vapor deposition so that a transparent hole 34a for light passage is formed in the transparent tube 20 in the diameter direction. The film 34 may be provided. Also, in some cases, the light source 2 may be configured to limit the light emitting area of the light source 22 or the light receiving area of the light receiving unit 24.
It is also possible to directly form the light blocking member 34 on the photodiode 2 or the photodiode 24 itself.

In this way, the light ray that has passed through the oil in the transparent tube 20 is received by the photodiode 24 of the light receiving portion, and the output signal from the photodiode 24 proportional to the illuminance or the amount of light is sent to the electronic circuit. Then, for example, as described in FIG. 8, the deterioration degree is displayed on the display section L after being transmitted to the signal processing section K and converted into a control signal, or when the deterioration degree exceeds a certain threshold level. The controller M opens the discharge valve G including a solenoid valve, discharges the oil used in the oil pan P, and drops it into the waste oil tank H. At the same time, a level decrease in the oil pan P is detected by the level sensor F, the controller C opens the supply valve B, oil is replenished from the new oil tank A, and the level sensor F detects that the level has reached a predetermined level. Then, the controller C closes the valve B.

There are various conceivable electronic circuits 50 that can be used in the oil deterioration sensor of the present invention. For example, a configuration as shown in FIG. 7 proposed in Japanese Patent Application No. 3-122480 of the present applicant. can do.

That is, the electronic circuit 50 has the capacitor C connected in series with the photodiode 24 of the light receiving section,
Photodiode 2 in proportion to the illuminance or the amount of incident light
The current I _P output from 4 is accumulated in the capacitor _C and converted into the voltage V _C. The charging voltage V _C is detected by the voltage detecting unit and compared with a preset reference voltage. When the charging voltage reaches the reference voltage, the voltage detecting unit 52 changes the output signal level. Due to this change in signal level, the electric charge accumulated in the capacitor C is discharged, and the capacitor C is again discharged.
To start accumulating the output current I _P from the photodiode. On the other hand, the calculation / measurement unit 54, that is, the timer / counter detects a change in the output signal level of the voltage detection unit 52 and measures the time for which the capacitor C is charged by the change in the signal level, or a fixed time period. The number of pulses in the inside is measured to detect the magnitude of the output current of the photodiode, and the illuminance or the light amount is obtained.

In the above embodiments, the transparent tube 20 is described as a tube having a circular cross section, but the transparent tube 20 is not limited to this, and may be a transparent hollow tube having a rectangular cross section, for example. You can also Further, the oil deterioration sensor S of the present invention
Can be very suitably used for an automatic replenishment / automatic exchange system of engine oil in a power generation engine system, and an oil deterioration sensor for detecting deterioration of various lubricating oils such as engine oil, compressor oil and gear oil of automobiles. Also, it can be suitably used.

[0028]

According to the oil deterioration sensor of the present invention configured as described above, it operates with high reliability, is small in size, is inexpensive to manufacture, and has heat resistance and durability. ,
Further, it has a feature that it is easy to repair and replace it in the event of a failure, or to perform regular maintenance management.

[Brief description of drawings]

FIG. 1 is a vertical sectional view of an oil deterioration sensor according to the present invention.

FIG. 2 is a cross-sectional view of an oil deterioration sensor according to the present invention.

FIG. 3 is a right side view of the oil deterioration sensor according to the present invention.

FIG. 4 is a perspective view of an oil deterioration sensor according to the present invention.

FIG. 5 is a diagram illustrating an operation of a light blocking member.

FIG. 6 is a perspective view showing another embodiment of the light shielding member.

FIG. 7 is a block diagram of an embodiment of an electronic circuit that can be used in the oil deterioration sensor of the present invention.

FIG. 8 is a block diagram schematically showing an engine oil automatic replenishment / automatic exchange system in a power generation engine system to which the oil deterioration sensor of the present invention can be applied.

[Explanation of symbols]

 2 Photometric part 4 Flange part 14 Elongate hollow housing 20 Transparent tube 22 Light emitting part (light source) 24 Light receiving part (photodiode) 30 Electronic circuit board 32 Electronic circuit board mounting housing 50 Electronic circuit

Claims (2)

[Claims] 1. A photometric unit having a tubular shape, and a mounting flange unit formed integrally with the photometric unit, the photometric unit extending from the flange unit to one side, and It has an elongated hollow housing with its front end closed and the other end integrally connected to a flange portion. The hollow housing is penetrated in a manner orthogonal to the axis of the hollow housing to form a transparent hollow. A transparent tube is provided, and inside the hollow housing, a light emitting portion is provided on one side of the transparent tube and a light receiving portion is provided on the other side, and the light emitting and receiving portion is an electronic device attached to the flange portion. An oil deterioration sensor, which is electrically connected to a circuit mounting board. 2. Between the transparent tube and the light receiving portion, and / or
Alternatively, the oil deterioration sensor according to claim 1 or 2, wherein a light shielding member having a through hole for passing light is provided between the light emitting unit and the transparent tube.