SU1081473A1 - Viscometer - Google Patents

Description

The invention relates to measuring the viscosity of various liquids and can be used to measure the viscosity of opaque, sticky and sticky environments, such as gum and turpentine in the wood chemical industry.

A known viscometer containing a ball on a thread placed in a cylinder for a liquid, a system for recording the path and time of movement of a ball in a liquid, and a G1J recorder.

The disadvantage of this device is the limited use of it in the wood chemical industry Tai; how impossible it is to measure the viscosity of resin from sticking it to a thread. j

Closest to the invention is a device for measuring viscosity, containing a sensing element in the form of a ball located in a cylindrical housing for the medium under study, a ball discharge assembly, a permanent magnet and a recording system with magnetically sensitive sensors. The permanent magnet is made in the form of a ring and is installed with the possibility of sliding along the outer surface of the cylindrical body of the device t2J.

In this device, to ensure the sliding of the ring magnet to the cylinder, it is required to ensure during manufacture and maintain during operation the high quality of the outer surface of the cylinder. In addition, maintaining good quality of the outer surface of the cylinder during operation requires an external protective casing or constant periodic surface care. The bulkiness increases, the 4Q becomes more complicated and the operation of the device becomes more expensive, with time the measurement accuracy decreases, which is the ogre. Nicholas application of vlesochemical industry.

In addition, the accuracy of measurements is reduced due to the sticking of the adhesive of the studied materials on the thread and yes ’ball. At the same time, the ball rotates when it falls, which creates unsteady conditions (turbulent flows at its surface) when it falls.

The purpose of the invention is to simplify the design and increase the fineness of the device by ensuring the constancy of mass and position: of the sensitive element during measurements.

This goal is achieved by the fact that in a viscometer containing a sensing element in the form of a ball located in a cylinder made of dielectric material for the medium under study, a ball discharge unit, a permanent magnet and a VNIIPI Order 1537/36 recording system with magnetically controlled sensors, the ball is made of non-magnetic material, for example fluoroplastic, and a permanent magnet is located inside it eccentrically.

· The drawing shows a diagram of a viscometer.

The viscometer consists of a ball 1 made of a non-magnetic material, such as fluoroplastic, a permanent magnet 2, eccentrically mounted inside the ball 1, a cylinder 3 of dielectric material, magnetically controlled sensors 4 in the form of magnetically controlled tight contacts (MUGCs) located at reference points 5 time counter.

The principle of operation of a viscometer is as follows.

Ball 1 with a permanent magnet 2 located inside is lowered into the medium under investigation. When the ball 1 passes the upper reference point, the magnetic field of the permanent magnet 2 closes the MUGC and turns on the time counter 5. When the ball passes the lower reference point, the field of the permanent magnet closes the MUGC, which includes a 5 time counter. The calculation of viscosity is carried out according to (Generally accepted formulas.

Compared with the known proposed viscometer has the following advantages:

the location of the permanent magnet inside the ball of non-magnetic material - a polymer of fluorine plastic simplifies the design, eliminates rubbing parts, and thereby increases the accuracy of measurements;

the eccentric displacement of the permanent magnet inside the non-magnetic ball ensures a constant position of the feed ball, i.e. eliminates its rotation and therefore turbulence at its surface, thereby increasing the measurement accuracy ·, a ball of non-magnetic material, such as fluoroplastic, stabilizes the thickness of the shell held by the surface of the ball, especially when measuring the viscosity of wood chemistry products (gum, turpentine /, ensuring constant mass of the ball, which also increases the accuracy of measurements. Determining the quality of the chemical products in the harvesting areas stimulates an increase in its grade, which frees up part of the transport funds from the transportation of low-grade raw materials.

The simplicity of design and portability of the device contribute to the development of express methods for determining the quality of resin and turpentine.

Claims (1)

| (57 | A VISCOSIMETER containing a sensing element in the form of a ball located in a cylinder of dielectric material for the medium under study, a ball discharge unit, a permanent magnet, and a recording system with magnetically controlled sensors>, characterized in that, in order to simplify the design and increase accuracy for by providing a constant weight and ^by: • Proposition sensor during a measurement, the ball is made 'from a nonmagnetic material such as fluoroplastic and the permanent magnet is arranged eccentrically within it, e