RU183434U1 - Device for measuring the viscosity of the material - Google Patents

Abstract

The utility model relates to techniques for measuring the viscosity of substances. A device for measuring the viscosity of a material contains a base, a stand with an external glass cylindrical tube fixed on it and an internal glass cylindrical tube inside it with control risks applied to its surface, a set of measuring balls, two sensors of an inductive type are additionally installed on the external surface of the device’s internal glass tube in the locations of the control marks, which give an electrical signal to the time measuring unit when passing metal m ball of control pictures, while in the time measuring unit, based on this electrical signal, the time interval is calculated with the result displayed on its digital display, the glass measuring balls have metal inserts in the form of ferromagnetic balls inside, and the time recording unit is equipped with an additional sensitivity adjustment module instrument. The technical result consists in increasing the accuracy of measuring the viscosity of the material and expanding the applicability of the device. 2 ill.

Description

The invention relates to a technique for measuring the viscosity of substances, and in particular to devices for measuring the viscosity of a material using viscometers with a ball falling in the medium under study.

The closest in technical essence and the achieved effect is a device for measuring the viscosity of the material consisting of a base, stands with an external glass cylindrical tube attached to it with fittings for supplying coolant for the purpose of temperature control of the measuring system, in which there is an internal glass cylindrical tube applied to its surface control risks and a set of metal balls. On the outer surface of the inner glass tube, at the locations of the control marks, 2 inductive type sensors are installed. Inductive type sensors are connected to a time measuring unit [Pat. RF number 111296, publ. 07/10/2011, bull. No. 11].

The disadvantages of the device are the reduced accuracy of measuring the viscosity of the material and the technical impossibility of using the device for measuring the viscosity of the material using glass balls included in its kit.

The technical problem is to increase the accuracy of measuring the viscosity of the material and expand the technical capabilities of the device for measuring the viscosity of the material.

The technical problem is achieved in that in a device for measuring the viscosity of a material, including a base, a rack with an external glass cylindrical tube fixed to it and an internal glass cylindrical tube inside it with control risks applied to its surface, a set of measuring balls on the outer surface of the inner glass the instrument tubes are additionally equipped with 2 inductive type sensors at the locations of the control patterns, which provide an electrical signal to the metering unit rhenium time during the passage of the metal ball of the control marks, while in the time measuring unit, based on this electrical signal, the time interval is calculated with the result displayed on its digital display, the new fact is that the glass measuring balls have metal inserts in the form of ferromagnetic balls inside, and the time recording unit is equipped with an additional module for adjusting the sensitivity value of the device.

The technical result consists in increasing the accuracy of measuring the viscosity of the material and expanding the applicability of the device.

In FIG. 1 shows a general view of a device for measuring the viscosity of a material; FIG. 2 - measuring device in section.

A device for measuring the viscosity of a material includes a base 1, a stand 2 with an external glass cylindrical tube 3 attached to it with fittings 9 for supplying a coolant for thermostating of the measuring system, in which an internal glass cylindrical tube 4 is located with control risks applied to its surface 7 and a glass ball 8 with a metal ferromagnetic ball inside, on the outer surface of the inner glass tube, 2 5. snip inductive type sensors are connected to the inductive type time measuring unit 6 is further provided in which the function value of the sensitivity adjustment to achieve maximum sensitivity of the device under the given conditions of its operation.

A device for measuring the viscosity of the material works as follows.

The inner clean, dried glass tube 4 of the device for measuring the viscosity of the material is filled with the test liquid, a glass ball is placed inside it, with a metal ferromagnetic ball inside. The outer glass tube 3 is connected to a thermostat (not shown) and the system is thermostated. Turn on the time measuring unit 6. When the time measuring unit 6 and 2 sensors of inductive type 7 are turned on, the sensitivity of the device is adjusted in a thermostatically controlled device for measuring the viscosity of the material by changing the magnitude of the inductance of the sensors 5. The viscosity of the material is measured by turning the device in a vertical plane by an angle 180 °, while a glass ball, with a metal ferromagnetic ball inside, under the action of gravity moves to the bottom of the device, passing areas yes sensors of inductive type 5. In sensors of inductive type 5, when passing through their internal magnetic field, a glass ball with a metal ferromagnetic ball inside 8, an electrical signal occurs that turns on and off (respectively) the time measuring unit 6. According to the value of the transit time obtained from the measurement glass ball, with a metal ferromagnetic ball inside the control standard distance between inductive type sensors, calculate the viscosity of the material under these conditions x research - the temperature t, ° C and parameters of the glass bulb with a metal ball inside a ferromagnetic calculated by standard formulas.

A device for measuring the viscosity of the material has the following advantages compared to the prototype:

- allows to increase the accuracy of measuring the value of the time interval for a metal ball to travel the distance between the control risks of the device, regardless of the optical density of the investigated fluid;

- allows to increase the accuracy of measuring the value of the time interval the passage of a metal ball of the distance between the control risks of the device, regardless of the viscosity of the investigated fluid;

- the device for measuring the viscosity of the material operates in the automatic mode of measuring the time interval for the passage of the metal ball of the standard distance between the control risks of the device;

- in the device for measuring the viscosity of the material, errors due to the presence of possible errors associated with the visual fixation of the interval of the beginning and end of the passage of the metal ball in the medium under study the standard distance between the control risks.

Claims (1)

A device for measuring the viscosity of a material, including a base, a stand with an external glass cylindrical tube fixed on it and an internal glass cylindrical tube inside it with control risks applied to its surface, a set of measuring balls, an additional 2 are installed on the outer surface of the device’s inner glass tube an inductive type sensor at the locations of the control pictures that give an electrical signal to the time measuring unit when passing metal it with a ball of control marks, while in the time measuring unit, based on this electrical signal, the time interval is calculated with the result displayed on its digital display, characterized in that the glass measuring balls have metal inserts in the form of ferromagnetic balls inside, and the time recording unit is equipped with an additional module for adjusting the sensitivity value of the device.

Images