RU2034264C1 - Viscosimeter - Google Patents

Abstract

FIELD: measuring equipment. SUBSTANCE: viscosimeter has housing wherein parallel calibrated tanks for reference oil and oil to be tested are received. The conical rotatable plug is positioned at the bottom part of the housing. The plug is mounted for permitting connection of the parallel tanks with the drain tanks through calibrated orifices. The calibrated orifices has at least one counterbore. The sizes of the counterbore are chosen to provide the same length of the calibrated orifices. EFFECT: enhanced accuracy. 1 dwg

Description

 The invention relates to instrumentation, namely to viscometers, and can be used to measure the viscosity of petroleum products in ship, workshop and field conditions.

 Known glass viscometers of the type VPZh-1, VPZh-2, VPZh-4 and Pinkevich type [1] The standard establishes a method for determining the kinematic viscosity of a glass viscometer of oil products, liquid at t tests. According to this method, the time of expiration of a certain volume of the test fluid under the influence of gravity is measured. These viscometers used to measure viscosity are glass instruments that provide the required accuracy.

 However, the viscometers used for the known determination of viscosity can only be used in laboratory conditions, they are not suitable for rapid analysis in ship, workshop and field conditions and require large labor costs.

 Known adopted for the prototype viscometer [2] designed to measure the viscosity of petroleum products.

 Viscosity is determined by comparing the flow rates of used and fresh oils. The known device is easy to operate and suitable for rapid analysis.

 However, such a viscometer does not have the necessary accuracy and repeatability of the measurement results.

 The purpose of the invention is to increase the accuracy of determining the viscosity of petroleum products during their express analysis in ship, workshop and field conditions.

 The proposed viscometer contains a housing in which a container with a reference and a container with the test oil are located in parallel, as well as calibrated holes. The difference between the proposed solution and the prototype is that the containers with the reference and test oils are calibrated, and the calibrated holes are made in a rotary tube located in the lower part of the housing and equipped with at least one countersink, the dimensions of which are selected from the condition of ensuring the same length calibrated holes.

 Calibrated holes made in the rotary plug are designed for free flow of oil. The proposed solution ensures the simultaneous expiration of the reference (fresh) and test (working) oils from two parallel calibrated containers through calibrated openings at the same time. As a result of this, the accuracy of determining the viscosity of oil products, in particular oil, is improved by express analysis in ship, workshop and field conditions.

 The drawing shows the proposed viscometer.

 The viscometer comprises a housing 1, in which cylindrical containers 2 and 3 are arranged in parallel for the reference and operating oils, respectively. Capacities 2 and 3 are calibrated. In the upper part there are overflow grooves 4 at the same level 5 and two containers 6 for the transfused amount of oil. On the side surface of the housing 1 are a measuring scale 7 and risk 8, etched in relative viscosity values. In the lower part of the housing there is a socket 9 for a plug 10 that has been ground in it and has two calibrated holes 11. The inlet parts of the holes 11 in the plug 10 have corresponding countersinks providing the same height of the liquid column in containers 2 and 3, as well as the same length of the calibration holes 11. Behind the plug 10 are openings 12 for free drainage of oil. Recess 13 is designed to install the device in a tank for draining oil.

 The viscometer operates as follows.

 Set the plug 10 in the closed position (holes 11 are located perpendicular to the axes of the containers 2 and 3). Fresh or reference oil is poured into the tank 2 until the excess flows through the groove 4 into the tank 6. Thus, the upper level 5 is set in the tank 2. Similarly, the test oil is poured into the tank 3. Next, turn the plug 10 into the "open" position and monitor the flow of oil. According to risk 8, it is determined what level the oil in the tank 2 occupies. On a scale 7, it is determined what level the test oil occupies in the tank 3. Scale 7 is constructed as a function of a change in viscosity with respect to fresh oil. These deviations are rejection values accepted in operation. If the test oil is dark, then the readout is taken after 20-30 minutes.

If known viscosity of fresh oil at the reference or standard definition temperature ⁽⁴⁰ ° C), then multiplying it by a percentage deviation of the viscosity of working oil, its viscosity is obtained ^at 40 ° C, e.g.

).V ₄₀ working oil V ₄₀ fresh oil x (1+

)

The error of such a conversion is ± 2%
Thus, the proposed viscometer can improve the accuracy of determining the viscosity of the oil and provides the ability to determine the specific rejection values established for the operation of this type of oil.

Claims (1)

 A VISCOSIMETER containing a housing in which parallel containers for reference and test oils are made, in the lower part of the housing there is a rotary plug installed with the ability to connect parallel containers to drain tanks using calibrated holes, characterized in that the parallel containers are calibrated, the conical rotary plug, and the calibrated holes of the rotary plug are provided with at least one countersink, the dimensions of which are selected from the condition of ensuring the same cal length ibirovannyh holes.

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