SU1010517A1 - Capillary viscometer - Google Patents

Abstract

A CAPILLARY VISCOSYMETER containing, a sleeve for the material under investigation, enclosed in a thermostat, a caliper, a rod connected to the drive, an elastic element connected to the load cell and installed with the possibility of interaction with the sleeve. C fO O-Jii; fifj Vi r; ---:, -f) tnd / cr; C d "as well as a temperature sensor of the material under investigation, characterized in that, in order to increase accuracy and expand the measurement range, it additionally contains a swivel head, a capillary is rigidly fixed in the sleeve, and the elastic element interacts with the sleeve by means of a stem, platform a spring AND an element that transmits forces to the material under study, with one end of the rod resting on the elastic element, and the other on the element transmitting the force to the material being studied, the sleeve is installed on the platform, Jin one end in contact with the platform, and the other - with the thermostat housing, with the drive rod is located on the rotating head and arranged to iggok D) reacting with the top end surface of the liner.

Description

ate

The invention relates to a technique for measuring viscosity, in particular, testing viscosity properties in plastic media, such as greases, and may be used in petrochemical and other industries, where the viscosity of the product being manufactured and the product consumed are required.

A capillary viscometer is known that determines the viscosity as a function of the outflow velocity gradient, temperature and pressure drop of 1J.

In this viscometer, the use of interchangeable capillaries, which reduces accuracy, is required to determine the viscosity at various speed gradients. Result, by definition, viscosity is obtained after mathematical processing. In addition, a large sample flow rate is required.

The closest technical solution is a capillary viscometer, in which there is a loading device in the form of a drive with a rod, a thermostat, a capacitance of the room of the test material in the form of a sleeve, a floating capillary, an elastic element connected to the load cell and with the capacity for the test material and temperature measuring means 2.

However, in a known viscometer, it is difficult to clean the container when testing various products, and this affects the accuracy of viscosity measurement. Low viscosity products are leaking. In addition, the friction between the container and the floating capillary is not taken into account, and the weight is not taken into account. flowing material. creating additional pressure on the power meter ..

The purpose of the invention is to expand the range and increase the accuracy of viscosity measurements.

The goal is achieved by the fact that a capillary viscometer containing a cartridge for the material under investigation, enclosed in a capillary thermostat, a rod connected to the drive, an elastic element connected to the load cells and installed with the ability to interact with the cartridge, as well as a temperature sensor for the material under investigation, additionally contains a swivel head, the capillary is rigidly fixed to the sleeve, and the interaction is elastic; The element with the sleeve is carried out by means of a rod, a platform with a spring and an element that transmits force to the material under study, with one end of the rod resting on the elastic element and the other on the element that transmits force to the material being studied, the sleeve is installed on the platform, the spring is in one end contacting platform, and the other with the thermostat housing, the actuator

with a rod located on the turn head, ke and rod, installed with the possibility of interaction with the upper end surface of the sleeve.

The drawing shows a diagram of a capillary viscometer.

The viscometer includes a housing 1 on which a thermostat 2 is fixed, a rotary shaft Aku 3 with a loading installed on it, including an actuator 4 and a brush 5. In thermostat 2 a container for the material under test is installed in the form of a removable sleeve 6 with a capillary 7 fixed in it and an element that transmits forces in the form of a glass 8. In the viscometer there is also a spring 9, a platform 10, a rod 11, a force meter 12, a force recorder 13 and a temperature 14, an elastic element 15 and a temperature sensor 16.

The viscometer works as follows.

In thermostat 2, a sleeve 6 is inserted, filled with the test material, with a capillary 7 and a glass 8. The sleeve 6 is held in its original position by a spring 9, which is adjusted so that the glass 8 in its original position touches the upper end of the rod 11, and the lower end rests on force meter 12. When moving the sleeve 6 with the capillary 7, the cup 8 remains stationary and the spring 9 is compressed. In this case, the cup 8 inside the sleeve 6 abuts the upper end of the rod 11, creates pressure inside the sleeve 6. The test material under the action of increasing pressure is pushed up through the capillary 7, and the pressure is transmitted through the rod 11 to the load cell 12 and the force recorder 13. After all the test material has been displaced, the shaft 5 is returned to its original position by the loading system drive 4, the sleeve 6 is moved upwards by the spring 9 to the original position. The rod 11 is balanced on the elastic epemeitis 15 and, in the outgoing state, does not: load from the gauge 12. The readiness of the viscometer for temperature tests is transmitted from the temperature sensor 16 to the temperature recorder 14. After the test, the sleeve 6 with the capillary 7 and the glass 8 is removed from thermostat 2 to prepare for the following tests.

Improving the accuracy of the viscometer and expanding the range of measurements makes it possible to use it infrequently for a large range of materials.

Eliminating arbitrary low viscosity materials from the capillary raises the range of substances measured by this device, and reducing the effect of friction between

Claims (1)

A CAPILLARY VISCOSIMETER, comprising a sleeve for the material to be studied, enclosed in a thermostat, a capillary, a rod connected to the drive, an elastic element connected to a force meter and installed with the possibility of interaction with the sleeve, as well as a temperature sensor for the material under study, characterized in that, for the purpose of increasing accuracy and expanding the measurement range, it additionally contains a rotary head, the capillary is rigidly fixed in the sleeve, and the interaction of the elastic element with the sleeve is carried out by means of a rod, pl molds with a spring and an element that transfers forces to the material under study, with one end of the rod resting on the elastic element, and the other on the element that transfers the force to the material under study, the sleeve is mounted on the platform, the spring contacts the platform at one end, and the thermostat body at the other end, the actuator with the rod is located on the rotary head and the rod is installed with the possibility of interaction with the upper end surface of the sleeve.