SU702270A1 - Oscillatory viscometer - Google Patents

Description

The invention relates to gauges based on aperiodic body movement in a medium, and can be used in chemical, petrochemical, food, automotive and other industries to control i; 9XHO logical processes, laboratory express control and scientific research. Known oscillatory viscous, holding the excitation circuit with a control trigger, measuring circuit, measuring transducer, including a measuring sotsd and recording converters. In addition, an oscillating viscometer containing a sensitive element in the form of a rod with magnets attached to it, performing a dvjezhe in the same plane around the anchorage point in the test medium inside the casing. On the BHeuaieft side ha, performed on the non-magnetizing material, there are placed excitation and resistive transducers, which are magnetic-controlled contacts-ger. horses. Also known is a co-robotic BIS-zimeter, which contains a triggering and measuring circuit with trigger, control. A measuring transducer, including recording transducers, including permanent magnets and reed switches, measuring cylinders — stationary and mobile, connected through a drive rod to a supporting moving rocker arm. The principle of action of the viscometer is to measure the time of movement of the moving shlindra, and, therefore, n carrier rocker, from one position to another. Four permanent magnets are fixed on the arms of the rocker arm, two of which, together with the excitation coils, form the driving electromagnets, which lead to the double booster and the cylinder, the magnet together with the magnetic contacts form the register converters, the time between rfl3, 70 bydv. - the mountains are equal to the time of displacement and the cylinder from one position to another. In MOMeHtbi, the operation of contact contacts, when close to them permanent magnetic contact between the contacts and the magnets, creates an interaction force that does not allow for the measurement of small-scale media with the necessary accuracy, especially for ma. shih szhorost x shift. The indicated factors are from the range of measurements of the device and are the main disadvantages of all viscometers not listed above. The purpose of the proposed image is to improve accuracy and extend the range of measurements. To do this, in a known viscometer, which combines the exciting and measuring circuit with a trigger for controlling / converting square transducers, a measuring transducer that includes the conversion of the transducer, the measuring cylinders are fixed and movable connected via a driving rod connected by a driving rod and connected via a driving rod connected and connected by a driving rod connected by a driving rod and movable connected through a driving rod connected by a driving rod and movable connected through a driving rod connected, connected by a driving rod and movable connected through a driving rod, connected by a driving rod and movable connected through a driving rod, connected by means of a driving rod and movable connected through a rod of a transducer, movable connected through a rod of a transducer, which is connected to a transducer and transversal transducer connected to a transducer. the beam, registering the converters, are made in the form of two photoelectric sensors, which have a gap between the light sources in the photodetectors in the extreme measured dimensions: the probe, the mouth Anselena optical curtain attached to the bearing arm. In addition, the codes of the photodetectors are connected via the inputs of the trimming terminal through threshold forms in the foregoing pulses. The drawing shows a functional diagram of the proposed viscometer. The proposed viscometer contains a stationary cylinder 1 with the liquid 2 under test, in which a movable cylinder 3 is immersed and connected via a drive rod 4 to a bearing rocker 5 supported on a core mount 6 by means of stone supports 7 and 8. On one shoulder of the bearing rocker is fixed to the optical shutter 9, alternating between the light sources 10 and 11 and the photodetectors 12 and 13. Permanent magnets 14 are weakly attached to the other shoulder of the carrier and connected to the output coils 15 and 16 ggera control 17, driving the electromagnets. The pulses of the phototransformers 12 into 13 are fed to the input of the trigger 17 of the control unit, through the transverse threshold drivers 18 to 19. hrShubblnyh pulses. The indicator 20 of the veletative scheme is a 2270, -4 frequency meter or a period oscillation meter, calibrated in units of viscosity. The proposed viscometer operates 5 as follows. As a result, the carrier force 5 of the electromagnet 16 and the rest of the magnet 14, carrying the beam 4, will begin to rotate around its axis on the core support 6. By means of the drive rod 4, this torsional vibration will be transmitted to the movable cylinder 3 located in the medium 2, with an optical shutter 9, is rigidly fixed to the other end of the beam 5, will enter the photoelectric conversion gap: l and will block the light flux of the light source 10, resulting in an impulse of, from the photodetector 13 through the thresholds 18 minutes shaper rectangular pulse is applied to the control flip-flop 17 which switches the supply voltage to 15 m gsday apektromagnit carrying Kors 4yslo 5 svoed changes direction of motion is reversed. The movement in the opposite direction will continue until the optical shutter 9 does not enter the photoelectric transducer gap with the source 11 of the light and the photoreceiver 12 and the pulse from the photometric 5, through the threshold driver of the right-angled pulses 19 is applied to the trigger 17 of the control, 25 switch. voltage on electromagnet 16 and reverses the leveling of motion of both the carrying rocker arm and the movable cylinder 3 fixed to it, and so on, 40 Time of movement of the sensitive: ep & one position in the drug depends unambiguously on the viscosity of the medium under investigation and is recorded by the indicator 20 of the measuring circuit, calibrated in units of viscosity. Thus, the use of photoelectric sensors of the photoelectric sensor in the proposed viscometer as reversing transducers consisting of light sources 50, an optical shutter, and photodetectors, whose outputs are connected to the control trigger inputs through the formation of impulses, distinguishes the expected viscometer from the known solutions 55 k eliminates the effects of the interaction of permanent magnets of recording transducers with magnetically stable contacts, resulting in improved accuracy and ts RANGE