SU624145A1 - Viscosimeter - Google Patents

Description

(54) VISKOSIMETER

The invention relates to devices for the viscosity of liquid media and can be used in various areas of the national economy, mainly associated with the processing or use of process fluids based on polymers.

Instruments are known for measuring the viscosity of liquids whose action is based on measuring the speed of a fall or the ascent of a ball in a measured medium. For example, the universal Goppler viscometer 1. consisting of a tube with a liquid with a ball placed in it, a thermostatting water bath and a thermometer is widely used.

Its disadvantage is the impossibility of measuring the viscosity of liquids in large capacities without first taking them.

The closest to the technical essence of the present invention is a viscometer, consisting of a cylindrical guide, a ball and a rod for its immersion 2.

The disadvantage of this device is its low accuracy caused by friction of the ball about

a wall layer of a liquid (wall effect also) the device is inconvenient to operate when directly measuring a liquid of an infinitely large volume found in reactors, baths, bottles, etc. fills the cavity of the cylinder, which complicates the measurement procedure. In addition, it is difficult to clean the cylindrical guide of the device after the measurement.

The aim of the invention is to improve the measurement accuracy and to ensure the possibility of measuring the liquid of an unlimited volume without first taking a sample.

The goal is achieved by the fact that in the proposed viscometer the cylindrical guide is made in the form of three rods arranged around the circumference at an equal distance smaller than the diameter of the ball and fastened at the bottom with a disk with a centering hole.

FIG. I given the scheme of the proposed device; in fig. 2 - section along the AA.

The express extra-meter consists of a hollow ball of 1 volumetric weight less than

The green weight of the test fluid and the guide is a net 2, consisting of three rods arranged in a circle, which are fastened in the lower part with a bottom 3, equipped with a centering hole 4. The rods are provided with divisions 5, indicating the level of (loading net nets all). The ball is immersed by the rod 6, abutting against the pin 7 of the standard stopwatch 8. In the upper part, the rods are fastened with a rim 9 having a handle 10. The rods of the hopper are located at a distance B from each other, excluding the penetration between the ball.

Thus, Bf 2g (2g is the diameter of the ball).

The operation of the viscometer occurs in the following order.

The viscometer is immersed in the measured medium on a certain howitzer, fixed in divisions 5. With rod 6, ball 1 is immersed in a net until it touches centering hole 4 of disk 3.

Rod 6 is retracted upward (this includes a stopwatch, 8 by acting on the rod with shshft 7) and pressing the rod is made from the tree. At the moment when ball 1 appears on the liquid surface, the stopwatch is turned off, thereby fixing the time for the balloon to ascend. The viscosity calculation is based on the formula

(V)

where P to p is the density (volumetric weight) of the measured liquid ball; t is the time of splash;

P - the path traversed by the ball when

his ascent;

 - acceleration of free fall. The technical and economic efficiency of the rapid viscometer is caused by an increase in the measurement quality, which makes it possible to select the optimal formulation of the composition and establish the degree of technological readiness of the material. The use of a viscometer makes it possible to measure the viscosity of media of an infinitely large volume without first taking a sample.

The proposed design facilitates cleaning of the viscometer.

Claims (2)

1. Bolsha Sovetsk Encyclopedia, M ,. Soviet etaclopedi 1971, 5, p. 102, the universal Goppler viscometer. 2.Gorshenin G.I., Mikhailov N.V. Polymerbuminous insulation materials. M., Nedra, 1967, p. 71 fisfiepflenafl liquidity Phage. 2 Riga.1