RU36736U1 - MOTOR OIL QUALITY CONTROL DEVICE - Google Patents

Description

Engine oil quality control device

The device relates to the field of instrumentation and can be used to determine the quality of oil in the car engine.

Known oil analysis devices based on spectrophotometric methods containing optical emitters of various frequencies associated with photodetectors through a controlled medium 1,2. Also known is a capacitive device containing a conductive housing and a central core located in the oil pan 3. The disadvantage of these devices is the complexity, high cost and instability of the readings when the temperature changes.

The prototype of the proposed utility model is an oil pollution sensor containing a capacitor immersed in a controlled environment, the principle of which is based on a change in the dielectric constant of oil 4. The disadvantage of the prototype is the lack of accuracy associated with the influence of temperature and other external conditions on the measurement result.

The utility model is aimed at improving the accuracy of measurements while maintaining simplicity, reliability, low cost. The solution of this problem is achieved by the fact that in a known device containing a capacitive sensor connected to a generator, the output of which is connected to a processing and display device, a calibration capacitor, a generator and a frequency subtraction device are additionally introduced, the capacitor connected to the first input of the frequency subtraction device, the second the input of which is connected to the main generator, and the output of the subtraction device is connected to the processing and display device.

The proposed device differs from the known ones in a set of specially connected electronic devices that provide information on the quality of the controlled oil, regardless of its temperature and other external conditions. This allows you to accurately control the condition of the oil, using a reliable and cheap element base. According to the authors, the presence of these distinctive features gives significant differences between the proposed device; from known.

The invention is illustrated in the drawing, where in FIG. 1 shows a structural diagram of the proposed device.

The device contains a capacitive sensor 1, made in the form of a cylindrical vessel with coaxial walls, which is installed using an adapter together with an oil pressure sensor in the engine. The capacitive sensor is connected to the main generator 2. The same generator of the calibration channel 4 is connected to the capacitive calibration sensor 3 which is mounted together with the main sensor and is in the same conditions. A capacitive calibration sensor is a capacitor that has a capacity equal to the capacity of the main sensor, filled with clean oil with a temperature characteristic similar to the main sensor. The signals from the outputs of the generators are fed to a frequency subtraction device 5, and then to a processing and indication device 6.

The principle of operation is based on measuring the dielectric constant of the oil, which directly depends on the degree of contamination of the oil.

The device operates as follows. The main generator 2 generates pulses whose frequency depends on the dielectric constant of the medium enclosed between the walls of the capacitive sensor 1. A similar generator of the calibration channel 4 generates pulses whose frequency corresponds to clean oil and depends on the capacity of the calibration sensor 3 mounted together with the main

sensor. Since the main and calibration sensors are in the same conditions, their capacitance varies the same depending on the temperature of the external environment. Therefore, when the temperature changes, the frequencies of both generators change equally, and the frequency difference remains constant. The frequency difference depends only on the dielectric constant determined by oil pollution. The outputs of the generators are connected to a frequency subtraction device 5, which determines the frequency difference between the primary and secondary generators. From the frequency subtraction device, the signal enters the processing and display device 6, which provides information on the degree of oil pollution.

SOURCES OF INFORMATION

1. Application 1054251 EPO, MGZH G 01 N 21/35. A method for determining the quality of engine oil.

2.Pat. 6128561 USA, MGG G 01 D 21/00, F 01 M 11/12 NPK 701/29 Eng. A system for determining the condition and need for oil change in machines with variable load.

3.Pat. 5929754 USA, IPC B 60 Q 1/00 NPK 340/439. Oil level and quality sensor.

4.Pat. 604441 USA, MKI G 01 R 27/26 NCI 324/603. Sensor

oil pollution.

Claims (1)

A device for monitoring the quality of oil containing a capacitive sensor connected to a generator, the output of which is connected to a processing and display device, characterized in that a calibration sensor, a generator and a frequency subtraction device are additionally introduced into the circuit, the calibration sensor being connected to the first input of the frequency subtraction device the second input of which is connected to the main generator, and the output of the subtraction device is connected to the processing and display device.