RU2163368C2 - Capillary microviscosity meter - Google Patents

Abstract

FIELD: analytical technology. SUBSTANCE: invention refers to aids measuring viscosity of liquids, including blood and other biological media. Capillary microviscosity meter of liquid media has vessel to take in sample of analyzed liquid medium with marks for visual counting of values of level of liquid medium made in the form of injector and capillary coming in the form of injection needle, container for analyzed liquid medium anchored on one bracket into which injection needle is fitted. Injector is mounted in another bracket for fixing in it in vertical position. Analyzed liquid medium flows through injection needle into container of analyzed liquid medium by gravity. Cylinder of injector is provided with hole located above level corresponding to maximum volume of sample of analyzed liquid medium. EFFECT: provision for fastness and possibility of mass check of viscosity of blood and other biological media. 1 dwg

Description

 The invention relates to the field of analytical technology, namely to means for measuring the viscosity of liquids, including blood and other biological media.

 A known viscometer of liquid media containing two capillary graduated pipettes of the same diameter, connected at one end using a three-way valve with a rubber tube through which air is pumped out (A. Ya. Lyubina and other Clinical laboratory studies.- M .: Medicine, 1984, p. 180). The determination of the viscosity of a liquid medium using this viscometer is based on a comparison of the rates of advancement of the analyzed liquid and distilled water in the same capillary pipettes in vacuum at room temperature.

 The disadvantages of this viscometer are the need for washing, drying and sterilizing capillary pipettes before each measurement of blood viscosity and other biological media, the need for the exact manufacture of two identical capillary pipettes, the complexity and subjectivity of the measurements.

 Also known is a means of measuring the viscosity of liquid media — a microviscometer of the type VPZHM (B.V. Belyanin, V.N. Erich. Technical analysis of oil products and gas. - L.: Chemistry, 1970, p. 184 - 186), containing a glass sample container analyzed liquid medium with marks for visual reading of the values of the liquid medium level, capillary and receiver of the analyzed liquid medium.

 The operation of the microviscometer is based on measuring the expiration of a constant volume of the analyzed liquid medium, enclosed between two marks, through a capillary of a certain diameter.

 The disadvantages of the described viscometer are the complexity and high cost of manufacturing containers and capillaries of the same size, the need for their special processing and sterilization in the analysis of blood and other biological environments.

 Closest to the proposed device is a capillary micro viscometer of liquid media containing a container for a sample of the analyzed liquid with marks for visual reading of the level of the liquid medium, made in the form of an injection syringe, and a capillary made in the form of an injection needle (see international application PCT WO 92/15239 Cl. A 61 B 5/026, 1992).

 The disadvantages of this device are the complexity and high cost of manufacturing containers and capillaries of the same size, the need for their special treatment and sterilization in the analysis of blood and other biological environments.

 The objective of the invention is the creation of simple in design and manufacture, convenient to use, reliable and cheap microviscometer for rapid measurement of the viscosity of liquids, including blood and other biological environments.

 The technical result to which this invention is directed is to ensure the expressness and mass control of viscosity and other biological environments.

 This technical result is achieved due to the fact that the capillary microviscometer of liquid media containing a container for a sample of the analyzed liquid medium with marks for visual reading of the level of the liquid medium, made in the form of an injection syringe, and the capillary made in the form of an injection needle, according to the invention, has the receiver of the analyzed liquid medium located on one bracket, into which the injection needle is inserted, and the injection syringe is placed in the hole of the other bracket with the possibility of fixing it in an upright position, and the injection needle is configured to allow the analyzed fluid to flow through it into the receiver of the analyzed fluid under gravity, and also due to the fact that the cylinder of the injection syringe has an opening located above the level corresponding to the maximum sample volume analyzed liquid medium.

 The proposed design does not require special processing of technical analysis tools through the use of an injection syringe and a single-use needle, and also has a distinctive feature in the design of the elements.

 A positive result from the use of the invention is to provide convenience, reliability, expressness and mass measurements.

 The invention is illustrated in the drawing, which shows a diagram of a capillary microviscometer for liquid media.

 The capillary micro viscometer contains a single-use injection syringe 1, which consists of a cylinder 2 with marks 3 and 4 for visual reference of the level of the analyzed liquid, piston 5, hole 6 and shoulder 7, single-use injection needle 8, receiver 9 of the analyzed liquid medium, bracket 10 s hole 11, bracket 12 and tripod 13.

 The operation of the microviscometer is as follows.

 Before starting the measurements, the analyzed liquid medium is taken with the help of a piston 5 into the cylinder 2 of the injection syringe 1 so that the piston 5 is located between the mark 4 and the hole 6. Then the injection syringe 1 is placed in the hole 11 of the bracket 10 and fixed in it in a vertical position with shoulder 7. Injection needle 8 is inserted into the receiver 9 of the analyzed liquid medium, which is located on the bracket 12.

When measuring the piston 5 is moved up. In this case, through the hole 6, the internal cavity of the cylinder 2 of the syringe 1 communicates with the atmosphere, and the analyzed fluid under the action of gravity begins to flow from the capillary 8 into the receiver 9. The viscosity of the medium is determined by the time of expiration of the realized fluid between marks 4 and 3 by the formula Δτ = C · ν, where Δτ is the expiration time of the analyzed liquid medium through the capillary;
C is the constant of the viscometer;
ν is the kinematic viscosity.

An experimental verification of the proposed microviscometer was performed using a single-use injection syringe with a volume of 1 cm ³ and a single-use injection needle with an internal diameter of 0.6 mm and a length of 45 mm. The sample volume of the analyzed liquid, which was used as solutions of glycerol in water with a concentration of 0 - 50 vol.% And blood, was 0.1 - 0.5 cm ³ . The measurement time did not exceed 40 s, the measurement error was ± 2%. The experiments were carried out at 23 ^o C.

 The advantage of the proposed technical solution is the rapidity of measurements, simplicity of design and the ability to provide mass control of the viscosity of blood and other biological environments in medical institutions.

 This capillary micro-viscometer of liquid media can be used for the expressness of measuring the viscosity of blood and other biological media in medical research, as well as for measuring the viscosity of various liquid media in scientific and factory laboratories.

Claims (2)

 1. A capillary micro viscometer of liquid media, containing a container for a sample of the analyzed liquid medium with marks for visual reading of the level of the liquid medium, made in the form of an injection syringe, and a capillary made in the form of an injection needle, characterized in that it has a receiver located on one arm the analyzed liquid medium into which the injection needle is inserted and the injection syringe is placed in the hole of another bracket with the possibility of fixation in it in a vertical position, the injection the needle is made with the possibility of flowing through it of the analyzed liquid medium into the receiver of the analyzed liquid medium under the action of gravity.  2. The capillary micro viscometer of liquid media according to claim 1, characterized in that the cylinder of the injection syringe is equipped with an opening located above the level corresponding to the maximum sample volume of the analyzed liquid medium.