RU44827U1 - DEVICE FOR MEASURING OPTICAL OPTIONS OF OIL PRODUCTS - Google Patents

Abstract

The device relates to measuring technique and can be used for operational measurement of the coefficients of optical absorption and refraction of petroleum products. Containing two reflective optocouplers 1, LEDs 2, 3, phototransistors 4, reflector 5, filter 6, normalizing amplifiers 7, a comparative device 8, an input device (multi-channel ADC) 9, a processing device (computer) 10, an indicator (printer) 11, different the fact that the combination of the measurement functions of optical refraction and fuel absorption can significantly reduce the dimensions and significantly reduce the cost of the device without loss of measurement accuracy.

Description

The device relates to measuring technique and can be used for operational measurement of the coefficients of optical absorption and refraction of petroleum products.

As a prototype, a sensor of the optical absorption coefficient of the medium was used, which contains a tunable laser, fiber optic fibers, a reflector, a spectral filter, photodetectors, normalizing amplifiers, a processing device, and an indicator (Busurin V.I., Nosov Yu.R. Fiber-optic sensors: physical basis , issues of calculation and application. -M .: Energoatomizdat, 1990. P.35).

The disadvantages of the prototype are that the sensor is expensive, has large dimensions and determines only one parameter: the coefficient of optical absorption.

The task: to create a miniature inexpensive device with advanced functionality.

The solution to this problem is achieved by the fact that the device for measuring the optical parameters of oil products containing a reflector, normalizing amplifiers, a processing device, an indicator further comprises a comparative device, an input device, reflective optocouplers coated with an optically transparent layer, and the outputs of the normalizing amplifiers are connected to the input of the comparative device and with input A of the CPU, the output of the comparator is connected to the input of the ADC, the output of the ADC is connected to the input of the processing device, the output of which connected to the indicator input.

An optically transparent layer is a light filter emitting a wavelength at which the maximum optical absorption of radiation by the oil product is observed and, in addition, isolates the optocouplers, which allows the device to be used in chemically active environments.

The proposed device combines the functions of measuring optical refraction and absorption of fuel. This will reduce the size and significantly reduce the cost of the device without loss of measurement accuracy.

The essence of the utility model is illustrated in the drawing, where figure 1 shows the structural diagram of the device.

The device contains two reflective optocouplers 1, consisting of LEDs 2, 3 and phototransistors 4, a reflector 5, a filter 6, normalizing amplifiers 7, a comparative device 8, an input device (multi-channel ADC) 9, a processing device (computer) 10, an indicator (printer) eleven.

The device works as follows: it is a device that allows you to determine the coefficients of optical absorption and refraction in the infrared wavelength range. Here, LED 2 emits a beam that passes through the fuel, is reflected from the surface of the reflector 5 and gets on the phototransistors 4. The output signals U ₁ , U ₂ proportional to the light flux incident on the phototransistors carry information about the attenuation of radiation, and their ratio characterizes refraction of a light beam. Further, the signals U ₁ , U ₂ through the normalizing amplifiers 7, multi-channel ADC 9 are fed to the processing device 10, where according to the Bouguer-Lambert law, the optical absorption coefficient is determined: P _out = P _in exp (-χd), where:

P _o - output radiation power,

P _in - input radiation power,

χ is the optical absorption coefficient,

d is the optical path of the rays.

Also, the signals U ₁ , U ₂ are fed through normalizing amplifiers 7 to a comparator 8, where the U ₁ / U ₂ ratio is determined, by which the optical refractive index is calculated in the processing device 10 as follows: in the calibration mode, the device is calibrated on liquids with a known optical coefficient refractive defined relationship U ₁ / U ₂ is written in the memory of the processing device 10, in the measurement mode calculating the ratio U ₁ / U ₂ is assigned a value of the processing device 10. The results are displayed and the indicator 11.

Claims (1)

A device for measuring the optical parameters of oil products containing a reflector, standard amplifiers, a processing device, an indicator, characterized in that it further comprises a comparison device, an input device, reflective optocouplers coated with an optically transparent layer, and the outputs of the normalizing amplifiers are connected to the input of the comparative device and to the input ADC, the output of the comparator is connected to the input of the ADC, the output of the ADC is connected to the input of the processing device, the output of which is connected to the input torus.