RU2759461C1 - Device for on-line quality control of transmission oil - Google Patents

Abstract

FIELD: measuring technology.SUBSTANCE: invention relates to the field of measuring technology, in particular to devices and methods for detecting impurities in transmission oil and determining the degree of its contamination. A device for operational quality control of gear oil is proposed, containing a plate of dielectric material, on which sensor 1 is located, the sensitive element of which is made in the form of a planar Tesla coil, connected either to an inductance meter 2 in laboratory conditions, or to a converter in the field, while the device Installed directly into the transmission mechanism for operational monitoring of the condition of the transmission oil.EFFECT: invention makes it possible to quickly monitor the condition of transmission oil in gearboxes, drive axles of transport vehicles and gearboxes of lifting machines and auxiliary mechanisms.1 cl, 1 dwg

Description

The present invention relates to methods for detecting impurities in operating oil and determining the degree of its contamination and performance, as well as measuring equipment.

Known RF patent No. 2361209, class. G01N 33/26, where the device contains a housing with an optical window fixed in it and a transceiver unit, in which an emitter and a receiver of optical radiation with a measuring photodetector are installed. The measuring photodetector is a color sensor that allows simultaneous measurement of the fluorescence intensity of oil in three spectral ranges.

The disadvantages of this device are the high complexity of manufacturing, the complexity of the method used and the impossibility of using it in the field.

The closest to the proposed invention is a device (RF patent No. 2578754, class F01M 11/10) containing a cap mounted on a drain plug, a housing with a spring-loaded cover and antenna, oil sensors with a switching unit, the contact elements of which are fixed in the center of the housing baffle , a radio transmitter installed together with an autonomous rechargeable battery inside the housing and connected to it by a supply circuit through a contact spring with the ability to start when the engine is powered on, a radio receiver located in the vehicle cab and connected by an output to the inputs of the sound signaling device and the unit for issuing visual information. Oil level and condition sensors of induction and capacitive types, respectively, are inserted into the body by means of flange inserts, in which a plastic tube with a wire winding is used as an induction coil, and two plastic tubes inserted into each other are used as capacitive electrodes, in which the mating surfaces are wrapped in metal foil, in the lower part of the induction coil there is an LED, next to which a photocell is fixed, inside the coil and between the electrodes there is engine oil coming through the channels of the cover, flange inserts and the body.

The disadvantages of the device are excessive complexity, increased instability of operation due to the high number of contacts, the need for a separate power battery, low noise immunity and stability of signals due to the use of radio frequency transceivers in the vehicle body shielding signals.

The technical result of the proposed device is the possibility of operational monitoring of the state of the transmission oil without the need to make changes to the design of the transmission itself.

The technical result is achieved in that the sensor, according to the invention, is based on a plate on which a planar Tesla coil is made, which maximally simplifies the design and allows it to be built into the drain plug or the transmission pan.

The novelty of the claimed invention lies in the fact that the proposed device has the most simple design and uses a method for its implementation that does not require the use of complex equipment.

According to the invention, a device for on-line quality control of transmission oil is proposed, comprising a plate of dielectric material, on which a planar Tesla coil is made, and the device is installed directly into a working mechanism for on-line monitoring of the state of the transmission oil.

The proposed technical solution is illustrated by a drawing, where figure 1 shows the basic diagram of the sensor and some elements of the strapping. Additionally, it is noted that the diagram shows an experimental laboratory version of the proposed device.

The sensor contains a base plate on which a planar Tesla coil is made. The piping contains a high frequency laboratory inductance meter. The proposed device works by changing the inductance of the planar coil when metal particles enter the working area, and the amount of metal particles directly affects the change in inductance (Fig. 1). Depending on the version of the sensor, both the shape of the main plate and the version of the Tesla planar coil can be changed: for example, the coil can be made using thin-film technology, which is most suitable for embedding into the drain cover of the transmission housing.

The device works as follows.

When the sensor 1 is connected to the inductance meter 2, the ingress of metal particles into the working area is recorded by registering the change in the value of the inductance of the coil.

Due to the use of the transmission oil control method based on a change in the inductance value and the implementation of the sensor's sensitive element in the form of a planar Tesla coil, the maximum design simplicity is achieved and, at the same time, the sensitivity is high enough for the implementation of the above method.

The sensor has high sensitivity, small dimensions and the most simple design. Due to this, as well as the relative ease of modification, it is possible to manufacture this device in a large number of versions for equipment for various purposes.

Additional entries:

Information on methods and devices for monitoring the state of transmission oil is either incomplete or completely absent, which indicates insufficient coverage of this issue. For this reason, the patent will indicate a prototype and an analogue of methods and methods for monitoring the state of engine oils.

List of Cited Patents:

RF patent №2361209.

RF patent No. 2578754.

US patent No. 6633043.

US patent No. 6459995.

Claims (1)

A device for operational quality control of transmission oil, containing a plate of dielectric material, on which a planar Tesla coil is made, while the device is installed directly into the operating mechanism for operational monitoring of the condition of the transmission oil.

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