RU48637U1 - DEVICE FOR MEASURING VISCOSITY - Google Patents

Abstract

The utility model relates to the field of studying the properties of fluids and can be used in particular in cheese making to determine the viscosity of the cheese mass. A device for measuring viscosity includes a working cylinder equipped with a measuring system with an end hole and a piston associated with a loading mechanism. New in the device for measuring viscosity is that the working cylinder is equipped with a heating system, the loading mechanism is made in the form of a pneumatic cylinder connected to a source of compressed air with a piston connected to the piston of the working cylinder by a common rod, and the measuring system consists of a timer with start sensors and “Stop” and a movement indicator mounted on the rod with the ability to contact with these sensors. The proposed device for measuring viscosity has a wider functionality, in particular it allows you to measure the viscosity of materials such as cheese mass.

Description

The utility model relates to the field of studying the properties of fluids and can be used in particular in cheese making to determine the viscosity of the cheese mass.

A device for measuring viscosity is known (Hepler viscometer), which is a bed with a rotary mechanism and a measuring system consisting of a tube with marks installed at an angle in which the ball moves (see A. Semionov, “Testing of printing materials”, M. , 1964, p. 326).

This device for measuring viscosity is characterized by low productivity in the study of a large number of samples, the complexity of the design, as well as the presence of an error in the measurement of time associated with the reaction of the observer, the error of the stopwatch, and visual errors.

A device for measuring viscosity is also known, including a working cylinder equipped with a measuring system with an end hole and a piston associated with a loading mechanism (see RF patent No. 2184362, IPC G 01 N 11/00, claimed 19.04.00, published 06.27.02).

This technical device is the closest to the claimed combination of essential features (prototype).

The known device allows measurements with greater productivity and accuracy. However, the loading mechanism of the device is made in the form of a spring, and the measuring system is a float chamber with a scale. These circumstances make it possible to accurately determine the viscosity of materials such as liquid paints and varnishes. However, using the known device for determining the viscosity of materials with a higher consistency, such as cheese mass, is difficult.

The objective of this utility model is to create such a device for measuring viscosity, which could be used to work with materials of relatively higher consistency, such as cheese mass.

To solve the problem in a device for measuring viscosity, including a working cylinder equipped with a measuring system with an end hole and a piston associated with a loading mechanism, the working cylinder is equipped with a heating system, the loading mechanism is made in the form of a pneumatic cylinder connected to a compressed air source with a piston connected to the piston the working cylinder with a common rod, and the measuring system consists of a timer with start and stop sensors and a movement indicator mounted on the rod with the possibility ontaktirovaniya to said sensors.

Equipment of the working cylinder with a heating system, execution of the loading mechanism in the form of a pneumatic cylinder connected to a compressed air source with a piston, a common rod connected to the piston of the working cylinder, and a measuring system in the form of a timer with start and stop sensors and a movement indicator installed on a rod with the ability to contact with these sensors, expands the functionality of the device, in particular, allows you to measure the viscosity of materials such as cheese mass.

In the future, the utility model is illustrated by a description of specific options for its implementation and the attached drawing, which schematically shows a device for measuring viscosity.

A device for measuring viscosity consists of a working cylinder 2 and a pneumatic cylinder 3 mounted on the frame 1. Each of the cylinders 2 and 3 have pistons 4 and 5, respectively, connected by a common rod 6.

The working cylinder 2 has an end hole 7 and is equipped with a heating system. In one embodiment, the slave cylinder 2 can be made of an electrically conductive material with a high resistivity.

In this case, the heating system includes an electric current source 8, a temperature controller 9 and an electronic thermometer 10.

The pneumatic cylinder 3 is the main element of the loading mechanism and is connected to the compressed air source by the pipe 11. This connection can be made through the air pressure regulator 12.

The measuring system consists of a timer 13 with sensors "start" 14 and "stop" 15 and the pointer 16, which is mounted on the rod 6 with the possibility of contact with the sensors 14 and 15.

For the end hole 7, interchangeable nozzles 17 with internal channels of various diameters can be provided.

A device for measuring viscosity works as follows.

Before starting the measurements, the working cylinder 2 is filled with a sample of the test material (cheese mass). After that, compressed air is fed into the pneumatic cylinder 3 through the pipe 11, which moves the piston 4 of the working cylinder 2 through the piston 5 and the rod 6 to the initial compaction of the cheese mass to remove air from it.

The compacted cheese mass is thermostated using a heating system for 3-4 minutes to equalize its temperature by volume of the sample. After reaching a predetermined temperature controlled by an electronic thermometer 10, a working pressure (3-10) atm is supplied to the pneumatic cylinder 3. Before applying the operating pressure, the timer readings are set to 0.

Under the action of working pressure, the piston 5 moves and through the rod 6 moves the piston 4 of the working cylinder 2, which in turn causes the cheese mass to flow out through the end hole 7 or through the replaceable nozzle 17 installed in this hole.

During this process, along with the pistons 4 and 5 and the rod 6, the displacement indicator 16 is moved. After the sensors “start” 14 and “stop” 15 pass through it, the passage time of the control section is measured using the timer 13 and the viscosity of the cheese mass is determined by known dependencies.

Thus, the equipment of the working cylinder with a heating system, the loading mechanism in the form of a pneumatic cylinder connected to a source of compressed air with a piston connected to the piston of the working cylinder by a common rod, and the measuring system in the form of a timer with start and stop sensors and a movement indicator mounted on a rod with the ability to contact with these sensors, expands the functionality of the device, in particular allows you to measure the viscosity of materials such as cheese mass.

Claims (5)

1. A device for measuring viscosity, comprising a working cylinder equipped with a measuring system with an end hole and a piston associated with a loading mechanism, characterized in that the working cylinder is equipped with a heating system, the loading mechanism is made in the form of a pneumatic cylinder connected to a source of compressed air with a piston associated with the piston of the working cylinder with a common rod, and the measuring system consists of a timer with start and stop sensors and a movement indicator mounted on the rod with the possibility of contact anija to said sensors. 2. The device for measuring viscosity according to claim 1, characterized in that the pneumatic cylinder is connected to a source of compressed air through a pressure regulator. 3. The device for measuring viscosity according to claim 1, characterized in that the end hole of the working cylinder is equipped with interchangeable nozzles. 4. The device for measuring viscosity according to claim 1, characterized in that the working cylinder is made of an electrically conductive material with high resistivity. 5. A device for measuring viscosity according to claims 1 and 4, characterized in that the heating system of the working cylinder includes an electric current source connected to the working cylinder through a temperature controller and an electronic thermometer.