SU868471A1 - Rotary viscosimeter - Google Patents

Description

The invention relates to instruments for studying the rheological properties of liquids. A rotational viscometer containing coaxial cylinders is known, one of which is connected to an electric motor through a reducer and the other to a sensitive element, such as a magnetoelectric system. The angle of rotation of the internal cylinder is recorded by a photoelectric device consisting of an illuminator mirror, a photocell and a recording device 1. / However, during operation control of the condition of the surface of the mirror and the photocell data due to its aging is required with this viscometer. intrafamilial photocell required csca beater power supply for lig bodies. All this reduces the reliability of the product. The closest in technical essence to the present invention is a viscometerj containing external and internal cylinders, a direct current electromagnet, a rotating frame installed in the magnetic field of an electromagnet and connected to an internal cylinder, an electric motor with a gearbox connected to an external cylinder, an angle sensor of the internal cylinder and compensation block. The outer cylinder is rotated from the engine through the gearbox and, as it rotates, the torque caused by the viscous forces of the medium under study rotates the inner cylinder and, accordingly, the frame. Turning the pointer rotates the magnet until the frame arrow coincides with the zero on the magnet. At the same time, the potentiometer slider moves and a current is supplied to the frame, the moment from the action of which is equal to the moment caused by the viscous forces of the medium under study. Counting the moment, about; portioned viscosity, is made on a scale of 2. However, this viscometer does not allow automating the process of measuring viscosity, which reduces the accuracy of the instrument and does not allow measurements of fast processes. In addition, when working with it, it is possible to rotate the cylinder associated with the frame of the magnetoelectric system only in one direction. When changing direction

rotation, the need for which arises, for example, when studying the influence of orientation effects on the viscosity of the liquids under study, reconfiguration of the instrument is required. All this reduces its capabilities.

The purpose of the invention is to provide the ability to control fast processes and increase the accuracy of measurements.

This goal is achieved by the fact that in a rotational viscometer containing external and internal cylinders, an electromagnet of direct current, a rotating frame installed in the magnetic field of an electromagnet and connected to an internal cylinder, an electric motor with a gearbox connected to an external cylinder, an angle of rotation of the internal cylinder and compensation block, the rotary frame has two connected opposite windings, the ends and middle point of which are connected to the output of the compensation block, and the input of the compensation block is dinen with the angle sensor of the inner cylinder, and the compensation unit is designed as a power amplifier.

The drawing shows the scheme of the proposed viscometer.

The viscometer has an electromagnet

1 DC with frame 2 placed in the magnetic field of the electromagnet. The frame consists of two windings connected in opposite. The ends of the windings, as well as the middle point, are connected to the output of the compensation unit 3, which is a power amplifier, which sets the same currents in the windings of the frame 2. The inner cylinder 4, coaxially located in the outer cylinder 5, is rigidly connected to the frame. 6 through a reducer 7. On the axis of the frame 2, the induction differential sensor 8 of the angle of rotation is fixed, from which a difference signal proportional to the angle of rotation of the frame 2 arrives at the input of the compensation unit 3. Wii torque difference signal output from the transducer is zero, the compensation unit 3 outputs the frame to the winding

2 equal in magnitude currents. As a result, the frame is fixed in a strictly defined position along the poles of the electromagnet 1. The secondary recording device 9 is connected to the output of the compensation unit 3.

The viscometer operates as follows.

The motor b through reduction gear 7 causes the external cylinder 5 to rotate with the medium under study. The moment caused by the viscous forces of the investigated medium turns the inner: cylinder 4 and frame 2. The difference signal from the angle sensor B enters the compensation unit 3, which redistributes the currents in the windings of the frame 2 so that the external torque is compensated by the magnetic moment of the frame. . The difference in current in the windings, which is proportional to the external torque, is recorded by the secondary device 9.

The use in the proposed viscometer of two interconnected windings, the outputs and midpoint of which are connected to the output of the compensation unit, and its input connected to the angle-turn sensor, allows to automate the measurement process. Since the frame thus has very small angles of rotation, the inertia of the device turns out to be small. All this increases the accuracy of measurements.

Claims (2)

1. Hartmann K. Industrie 1e Viskositatsmessung Erdol und Koh1e-Erdgas-Pefrochemie, l5 .. Jahrg, Mazz, 1962, No. 3, 117. 2. USSR author's certificate W 38U441, cl. G 01 N 11/14, 1У70 (prototype ;.