UA20804U - Method for determining properties of liquid or free-flowing material - Google Patents

Abstract

The proposed method for determining properties of liquid or free-flowing material consists in using sounding and reference electromagnetic signals anddetermining the properties of the liquid or free-flowing material by the length of the time delay between the reflected sounding signal and the reference signal.

Description

Description of the invention

The useful model relates to the measuring technique and can be used when measuring the level, boundaries of separation, dielectric constant, density and other characteristics of liquid and bulk media.

There is a known method of determining the parameters of liquid and solid media based on the delay of the signal reflected from the inhomogeneity of the wave resistance, relative to the probing pulse electromagnetic signal sent to the controlled environment using a waveguide, which provides for the reference to the controlled environment of the measuring probing pulse electromagnetic signal to the controlled environment of the test probing pulsed electromagnetic signal and determination of the characteristics of the transformation by delay of the signal reflected from the inhomogeneity of the wave resistance, distant at a predetermined distance (for example, the inhomogeneity of the delay line of a predetermined length), relative to the test probing pulsed electromagnetic signal (Patent of Ukraine for an invention Mo 31791, БО1Е 23/ 28, 30.10.1998.

However, during the implementation of the known method, the test and measuring probing pulse electromagnetic 12 signals have the same wavelength (duration), in the case of which is proportional to the dimensions of the structural elements of the waveguide (for example, the dimensions of the waveguide attachment) due to the attenuation of the pulse on the inhomogeneities of the wave resistance corresponding to these structural elements, a significant weakening of the energy of the pulse reflected from the inhomogeneity of the wave resistance is possible, the distance to which is measured, for example, the level of the environment or the boundary of the separation of environments, which leads to a decrease in the accuracy of measurements.

The technical task of the useful model is to improve the method of determining the parameters of liquid and loose media based on the delay of the reflected signal relative to the probing pulse electromagnetic signal sent to the controlled environment using a waveguide, which provides for the reference to the controlled environment of the measuring probing pulse electromagnetic signal to the controlled environment of the test probing pulsed electromagnetic signal by referring to 29 a controlled environment of a test probing pulse signal with a duration less than (/-) the duration of the measuring probing pulsed electromagnetic signal, which prevents the fading of the pulse on the inhomogeneities of the wave resistance corresponding to the structural elements of the waveguide and the weakening of the energy of the pulse reflected from inhomogeneity of wave resistance, the distance to which is measured, contributing to increase the accuracy of measurements. WITH

The method of determining the parameters of liquid and solid media based on the delay of the signal reflected from the inhomogeneity of the 3-wave resistance, relative to the probing pulse electromagnetic signal sent using a waveguide into the controlled medium, provides for the reference of the test probing pulse electromagnetic signal before the reference of the measuring probing pulse electromagnetic signal and determination of the transformation characteristics by the delay of the signal reflected from the inhomogeneity of the wave 325 resistance, located at a predetermined distance, relative to the test probing pulse electromagnetic signal, and is characterized by the fact that the duration of the test probing pulse electromagnetic signal is shorter than the duration of the measuring probing pulse electromagnetic signal.

Fig. 1 shows a block diagram of a device for determining the parameters (levels and separation limits) of liquid or loose media based on the delay of the reflected signal relative to the probing 50 pulse signal sent to the controlled environment. Fig. 2 and Fig. 3 show received on the reflectogram by the reflections of the corresponding Z s test and measuring probing impulse electromagnetic signals and reflected signals.

I" The device for determining the levels and boundaries of the separation of liquid and solid media contains unit 1 for generating, receiving and processing a probing electromagnetic signal, to which a waveguide (sensitive element) 2 is connected. Unit 1 for generating, receiving and processing a probing electromagnetic signal and a waveguide (sensitive element ) 2 can be performed as per the patent of Ukraine for the invention No. 11006 (ЗО1Е 23/28, 25.12.1996). o To ensure the rigidity of the structure, the waveguide has fasteners (struts) along its length, located av | which is known in advance.

During the implementation of the method of determining the parameters of liquid and bulk media in a controlled environment,

So what are, for example, two immiscible liquids C and 4, with the help of a waveguide av at least partially immersed in it! 20 (sensitive element) 2 send a test probing pulse electromagnetic signal A,. The wavelength (duration) of the test probing pulse is commensurate with the dimensions of the mount in the waveguide structure, therefore under

During the test cycle of measurements, the reflected signals A;, corresponding to these elements of ensuring the rigidity of the structure will be highlighted on the reflectogram, that is, the signals reflected from the inhomogeneities of the wave resistance along the waveguide 2, separated by a known distance in advance; according to the delays of these signals relative to the test 52 probing pulse signal A, (in particular, the reflected signal A/, corresponding to the stiffening element closest to the boundary of separation from the media), the transformation characteristic of the device for determining the parameters of liquid and loose media is determined. During the measurement stroke, a measuring probing pulsed electromagnetic signal АЯ is sent to the controlled environment using a waveguide (sensitive element) 2 that is at least partially immersed in it, and the delay of the signal A», reflected from the 60 inhomogeneity of the wave resistance, which is the boundary of the separation of the media - immiscible liquids, is determined 4 and 5. The measuring probing pulse electromagnetic signal is longer than the test probing pulse electromagnetic signal A,, (T«Tu) And therefore, during the measurement cycle, the attenuation on the inhomogeneities of the wave resistance, which are the elements of ensuring the rigidity of the structure, does not lead to a significant weakening of the pulse energy - signal A", reflected below the boundaries of separation of media. The distance to the boundary of separation of the media (immiscible liquids C and 4), determined by the delay of the reflected signal A, is adjusted based on the defined characteristics of the transformation of the device for determining the parameters of liquid and bulk media.

The proposed method of determining the parameters of liquid and loose media contributes to increasing the reliability and accuracy of the obtained results.

Claims (1)

The formula of the invention is the method of determining the parameters of liquid and solid media based on the delay of the signal reflected from the inhomogeneity /o Wave resistance, relative to the sounding pulsed electromagnetic signal sent by means of a waveguide into the controlled environment, which includes before the reference of the measuring sounding pulsed electromagnetic signal the reference of the test sounding pulsed electromagnetic signal and determining the delay transformation characteristics of the signal reflected from the inhomogeneity of the wave resistance, located at a predetermined distance, relative to the test probing pulse electromagnetic /5 signal, which is characterized by the fact that the duration of the test probing pulse electromagnetic signal is shorter than the duration of the measuring probing pulse electromagnetic signal. what about " "c) (ee) "c) c - i" name) («c) (ee) (c) c" 60 b5