RU2149378C1 - Viscosimeter - Google Patents

Abstract

FIELD: instrument building, in particular, manufacture of viscosimeters used in systems for measuring rheological properties of liquids, including automated process lines and laboratories. SUBSTANCE: viscosimeter has casing, outer and inner cones defining measuring space, and flexible pipe with adjusting screw on its upper end. Adjusting screw allows measuring space of 0.5 mm, 1 mm, 1.5 mm or 2 mm to be set without necessity for disassembling of viscosimeter. EFFECT: reduced labor consumed for readjustment of viscosimeter and wider operational capabilities. 1 dwg

Description

 The invention relates to instrumentation and can be used in the manufacture of viscometers for measuring the rheological properties of liquids, including in automated production lines and in laboratory conditions.

 A known viscometer (see USSR author's certificate N 1670534, class G 01 N 11/14, published in BI N 30, 08/15/91), containing a housing, external and internal cones forming a measuring gap, an elastic tube, a drive, a rod, seals, supply and outlet pipes.

 The disadvantage of this viscometer is the inability to simulate the fluid flow in the measuring gaps of different sizes, the high complexity of its readjustment from the measuring gap of one size to another.

 A known viscometer (see USSR author's certificate N 1469316, class G 01 N 11/14, published in BI N 12, 03/30/89), containing a housing, external and internal cones forming a measuring gap, an elastic tube, a drive, a rod, seals, supply and outlet pipes.

 This device is the closest to the proposed technical essence and the achieved result (prototype).

 The disadvantage of a viscometer is the inability to simulate the processes of fluid flow in measuring gaps of different sizes, the high complexity of its readjustment from the measuring gap of one size to another.

 Existing designs of centrifugal liquid separators with cone plates have different sizes of inter-plate gaps (from 0.5 to 2.0 mm), determined by the distance between the generators of the cones of the adjacent plates and selected depending on the properties of the processed solutions.

 The purpose of the present invention is the expansion of the functionality of the viscometer by simulating the processes of fluid flow in different sizes of inter-plate gaps of centrifugal separators, reducing labor costs when changing from a measuring gap of one size to another.

 This goal is achieved by the fact that in the viscometer containing the housing, the outer and inner cones forming a measuring gap, an elastic tube, the upper end of which is equipped with an adjusting screw, a drive, a rod, seals, supply and discharge pipes, according to the invention, the adjusting screw is made with the possibility of installation measuring gap between the outer and inner cones of 0.5 mm, 1.0 mm, 1.5 mm or 2 mm without disassembling the viscometer.

 The essence of the invention lies in the fact that the adjusting screw, rigidly connected with the upper end of the elastic tube, serves as a means of changing the magnitude of the measuring gap.

 The drawing shows a viscometer (vertical section).

 The viscometer comprises a housing 1, external 2 and internal 3 cones forming a measuring gap 4, an elastic tube 5, a drive 6, a rod 7, an adjustment screw 8, seals 9, a supply 10 and a branch pipe 11.

 The adjusting screw 8, rigidly connected with the upper end of the elastic tube 5, serves as a means of increasing or decreasing the size of the measuring gap 4. Turning the screw 8 into the housing 1, increase the measuring gap 4, unscrewing the screw from the housing - reduce.

As an example, taking the angle of inclination of the generatrix of the cone to the vertical axis α = 45 ^o and the thread pitch of the adjusting screw S = 0.7 mm, we show the procedure for setting the viscometer to measure the rheological properties of liquids in the indicated range of measurement gaps: 0.5; 1.0; 1.5 and 2.0 mm.

The measuring gap 4 is installed before the fluid is supplied through the supply pipe 10. To do this, unscrew the screw 6 from the housing 1 until it stops, when the inner cone 3 is in its highest position, completely close the measuring gap 4. Reverse rotation of the adjusting screw 8 (screwing into the body of the viscometer) one revolution will provide a distance between the generators of the cones of 0.5 mm (S • Cos α = 0.7 • Cos 45 ^o = 0.5 mm). Turn on the fluid supply through the pipe 10 and the drive 6. Measure rheological properties. If it is necessary to measure the rheological properties of the same liquid in a gap 4 of a different size, for example 1 mm, screw 8 is wrapped in the viscometer housing for one more revolution (2 • S • Cos α = 2 • 0.7 • Cos 45 ^o = 1 mm). With a measuring gap of 1.5 mm, the adjusting screw 8 is screwed into the housing three turns, with a gap of 2 mm - four turns.

 The present invention allows to expand the functionality of the viscometer due to the simulation on one instrument of the processes of fluid flow in different sizes of inter-gap gaps of centrifugal separators of various designs, to reduce labor costs during its readjustment.

Claims (1)

 A viscometer comprising a housing, outer and inner cones forming a measuring gap, an elastic tube, the upper end of which is provided with an adjusting screw, characterized in that the adjusting screw is configured to set a measuring gap between the outer and inner cones of 0.5 mm, 1.0 mm , 1.5 mm or 2 mm without disassembling the viscometer.