SU989382A1 - Viscometer - Google Patents

Description

(54) VISKOSIMETER

Claims (4)

The invention relates to technical physics, in particular to devices for studying the physical properties of substances. A device for measuring the physical properties of substances is known, the action of which is based on raising the sensitive element in the form of a rod. in the 4th medium placed in a cylindrical vessel. In this device, the sensitive element during its rise is subjected to rotation. The movements of this sensing element are stabilized by moments of gyroscopic passage 11. However, when measuring this device viscosity, in the case of viscosity anomalies, the sensitive element can touch the wall of the vessel, which leads to an inaccurate measurement .. the closest to the proposed is a universal viscometer Goppler with a sensitive element in the form of a ball. The viscometer consists of a body with a level in which a cylindrical vessel for the liquid being examined is placed in a C 2 thermostatic liquid bath. However, in this viscometer when the ball moves in the liquid, it may touch the wall of the tube due to viscosity anomalies, which inevitably causes significant norpetuity in measurement. In addition, when using this viscometer, it is impossible to make a measurement express, as they involve a lot of manipulations with a sensitive element. The purpose of the invention is to improve the accuracy and ensure express | 1 measurements. The goal is achieved by the fact that a viscometer containing tesmostatisation, a body with a level, a cylindrical vessel for the test liquid with a sensitive element installed in it, and a recording system, additionally contains a control device, an electrodiagitic coil and a motor with a reducer, the sensitive element is made in the form of streamline with face surfaces, the cylindrical vessel being installed in the housing inside the electromagnetic card, and the motor mechanically connected through a reducer p with a cylindrical vessel and electrically with a control device to which an electromagnetic coil is connected. The drawing shows the kinematic scheme of the Viscometer. The viscometer consists of a housing 1 installed vertically at a level 2. A cylindrical vessel 3 with the liquid under study 4 is placed in the housing 1. In the liquid 4 there is a sensitive element 5 made in the form of a magnetizing rod. The cylindrical vessel 3 is installed in the housing 1 by means of a trunnion 6 and bearings 7, due to which it rotates around its own axis. A reducer 8 is installed in the lower part of the cylindrical vessel 3, which mechanically connects the vessel 3 to the engine 9, which is electrically connected with the control device 10. Engine 9 and gearbox 8 constitute the drive of a cylindrical vessel. 3. The second input of the control device 10 is electrically connected with an electromagnetic cartridge 11 installed in the lower part of the cylindrical vessel 3 by means of a tube 12 rigidly fixed on the housing 1. The control device 10 and the coil 11 constitute a system for bringing the sensing element 5 into the original (zero) position and motor control 9 In the tube 12, two solenoids 13 and 14 are installed at a distance of one from each other, which have electrical connections with the time meter 15. The solenoids 13 and 14 and the time meter 15 constitute automatic A recording device designed to automatically measure the transit time of a sensitive element 5 in a liquid 4, distance 6 between solenoids 13 and 14. For thermostatic control, the viscometer is connected to the thermostat through fitting 16. In the cylindrical vessel 3, the test liquid is poured 4. The housing 1 of the viscometer is set at level 2 so that its longitudinal axis coincides with the local vertical. From the control unit 3) 0, power is supplied to the engine 9, which, through the gearbox 8, rotates the cylindrical vessel 3 with the liquid 4 at a certain angular velocity around its own axis. In addition, the control device 10 is simultaneously energized to the coil 11, which, due to the magnetic field, sets the sensitive element 5 to its initial position C from zero, due to its implementation being magnetized. When the cylindrical vessel 3 is rotated due to centrifugal forces and provided that the density of the liquid is greater than the density of the sensing element 5, the sensitive element 5 is centered along the axis of the cylindrical vessel and can only be moved along this axis. Power is supplied to the recording device, consisting of two solenoids 13 and 14 and time meter 15. Then, the power is removed from the coil 11, and the sensitive element 5 under the action of buoyancy begins to move along the longitudinal axis. Based on the transit time of the sensitive element 5 at a fixed distance K between the solenoids 13 and 14, the viscosity of the fluid can be measured. To increase the reliability of the viscometer readings, the measurement process can be repeated several times by energizing the coil 11 and setting the sensing element to the zero position with subsequent turning off the power of the coil 11. Introducing the control device associated with the motor and the electromagnetic coil holding the sensing element provides rapid measurement, minimizing the number of operations required. for measurement with this viscometer. The accuracy of the measurements is increased due to the exclusion of the sensing element, made in the form of a rod with streamlined face surfaces, against the walls of a cylindrical vessel when it moves in the liquid under study, which is achieved by using a viscometer in motion with a cylinder connected to the cylinder. The invention The viscometer contains a thermostatically controlled housing with a level, a cylindrical vessel for the test liquid with a sensing element installed in it and a recording system, characterized in that, in order to improve the accuracy and ensure the express measurement, it additionally contains a control device, an electromagnetic coil and a motor with the gearbox, the sensing element is designed as a magnetizing rod with streamlined face surfaces, with the cylindrical vessel n in the housing inside the electromagnetic coil and the motor is mechanically coupled through a gearbox with cylindrical vessel and electrically - with 5989382 control device to which 1. Paten GDR No. 36132, cl. 421. 1/02, electromagnetic coil connected. 1965. Sources in (1), 2. Geppler viscomashls. TSB, taken into account in examination T.5, 1971, p.102 (prototype).  J fs s Do u