SU1476349A1 - Device for analysing blood properties - Google Patents

Abstract

The invention relates to medicine and can be used to determine the hemorheological parameters and aggregation processes of the blood cells. The purpose of the invention is to increase accuracy and reduce research time. In a device for studying the properties of blood, containing a thermostat 1, a container for blood 2, a glass with calibration liquid 3, a stirrer 5, a photo sensor 16, a light source and a light filter located in the channels perpendicular to the axis of the device, the mixer is equipped with electrodes 6 connected to an electric source voltage 7, its bottom is made conical, the channels for the light source, light filter and photocell are offset relative to the vertical axis of the device by a distance exceeding the radius of the glass in which the agitator is placed, and the glass behind filled with electrorheological suspension 4. 2 Il.

Description

1

The invention relates to medicine and can be used to determine homo-rheological indicators and aggregation processes of blood corpuscles.

The purpose of the invention is to improve the accuracy and reduce the measurement time.

FIG. 1 shows the proposed device, a longitudinal section; in fig. 2 is a section A-A in FIG. one.

A device for examining blood properties contains a thermostat 1, a cylindrical transparent tank 2 for blood with a cone-shaped bottom, a cup 3 filled with electrorheological suspension 4, a mixer 5 with a cone-shaped bottom and electrodes b attached to the outer surface circumferentially around the external voltage source 7 through finger current collectors 8, drive 9, sound generator 10, two through channels in a thermostat, in one of which (11) light source 12 is placed and a light filter 13, and in the other (14) a photocell 15, photosensors 16 measuring the period of rotation of the nozzle 3 mounted in the thermostat 1.

The device works as follows.

The container 2 is filled with a blood sample, a glass 3 is lowered into it, filled with electrorheological suspension 4, in the glass there is an agitator 5 with electrodes 6. The light flux from the light source 12 through the optical filter 13, the channel 11 and the transparent wall of the container 2 falls on the blood sample. The agitator 5 rotates in an electrorheological suspension 4, the viscosity of which can be changed by applying voltage from the source to the electrodes 6, depending on the blood viscosity. Since in operation with this device the measured value is the period of rotation of the glass 3, determined by the photo sensor 16, then by measuring the period of rotation of the glass 3 for blood at some operating point and then comparing it with the calibration graph viscosity (the device is calibrated prior to the measurement of liquids whose viscosity is known, after which a calibration graph is drawn up).

In the study of erythrocyte aggregation, the voltage applied to the electrodes is increased to the limiting value at which the glass 3 "adheres to the agitator 5 and they begin to rotate as a single whole. The scattered light flux from the erythrocytes enters the photocell, causing a corresponding electrical signal, which is processed by well-known equipment (not shown).

Electrodes, which are fixedly mounted on the outer surface of the agitator, connected to a high voltage source, allow using electrorheological suspensions in the proposed device, reversibly changing their viscosity. The use of electrorheological suspension as a calibration fluid increases the accuracy of measurements, there is no need

Q in the frequent replacement of the calibration fluid, thereby shortening the measurement time. In addition, the design of the device is simplified, since the electrorheological suspension is capable of acting as a lock when high electrical voltages are applied to it.

Performing the bottom of the agitator cone-shaped provides face orientation and centering the outer surface of the agitator relative to the inner surface of the glass. When the agitator rotates,

0 it together with the conical part of the glass forms a hydrodynamic bearing, in which the hydrodynamic forces center the glass. This achieves the coaxiality of the surfaces forming the gap, where the size of the electrorheological suspension is increased, which improves the measurement accuracy.

The displacement of the channels in which the light source, the light filter and the photocell are located, relative to the vertical axis of the device, is greater than

0 The radius of the glass in which the mixer is placed improves the accuracy of the measurements, since the luminous flux passes only through the blood layer, the calibration liquid does not cross in its path.

35

Claims (1)

Invention Formula A device for examining blood properties, containing a thermostat, inside which a transparent cylindrical blood tank with a cone-shaped bottom, a glass of similar shape for a calibration fluid placed inside the tank, a stirrer placed inside the glass, and a photosensor including a light source, a light filter and a photocell, 5 located in the channels perpendicular to the axis of the device, characterized in that, in order to increase accuracy and shorten the test time, the mixer is equipped with electrodes integrated on its outer surface connected to a high voltage source, the bottom of which is conical, and the channels are offset from the axis devices to a distance greater than the radius of the glass, and an electrorheological suspension was used as a calibration liquid. 74 FIG. g