SU1700456A1 - Transducer for studying microvolumes of biological liquids - Google Patents

Abstract

The invention relates to physico-chemical studies of liquids, including those of biological origin. The purpose of the invention is to improve measurement accuracy and simplify operation. The working area of the sensor capillary is formed by detachably connecting two parts adjacent to one another, in one of which a groove is formed. The electrodes pass through the cross section of the groove and are positioned from the beginning and end of the groove at a distance exceeding its width. The zone for collecting and draining the liquid is located in the second adjacent part and coincides with the beginning and the end of the groove in the first part. 1 il. 3 cl With

Description

The invention relates to physico-chemical studies of liquids, including those of biological origin, and can be used primarily for medical laboratory research by recording electrical parameters (impedance, active and reactive components).

The aim of the invention is to simplify operation.

The drawing shows the sensor

The main element of the sensor, the working zone of the capillary 1, is formed by the connection (at the interface) of the surfaces of two parts: the cylindrical body 2 and the removable holder 3. In the case 2, along the circumference of its outer surface, a groove is formed, the dimensions of which are determined

the volume of the investigated fluid, the groove forms an open capillary r. Electrodes 4 are installed from the beginning and end of the groove at a distance exceeding its width, and pass through its cross section: In the holder 3, channels 5 and 6 are made for intake-drain of the test liquid. These channels coincide with the beginning and end of the groove and form a single capillary with the groove. The sleeve 3 is provided with a removable tip 7, coaxial with the channel 5 for the intake-drain of the test liquid. The sensor is equipped with a flow booster (not shown).

The sensor works as follows.

Before measurement, the sensor is assembled. The housing 2 is inserted into the sleeve 3 on which the tip 7 is attached. A rubber tube with a rubber tube is put on the fitting coaxial with the hole 6.

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a pear or removable tip through which a pipette dispenser (rubber tube), a removable tip and a pipette dispenser (not shown) are connected. The electrodes 4 are connected to the measuring circuit of the device. Tip 7 is lowered into the test liquid and through channel 5 using a metering device (rubber bag or pipette dispenser), the liquid is sucked into the working area of the capillary with electrodes 4 until it is completely filled (when using the dispenser dispenser, the dose volume is set in advance ). After obtaining the results on the digital display of the instrument's measuring circuit, the liquid is drained and washed with the help of the same dosing device, and then the tip is reset. Next, a new tip is taken, fastened to the holder, and so on. If whole blood is used as the test liquid and it is collected directly from the patient, the holder is replaced to ensure sterility.

3. By reducing the volume of the test liquid, a liquid can be drawn directly through the nozzle (without tip).

Claims (1)

Invention Formula A sensor for studying microvolumes of bioliquids by measuring electrical resistance, comprising a cylindrical body with a capillary, in which the electrodes are located in a working zone connected to the intake and discharge channels of the liquid and prompting the flow, characterized in that, to simplify operation, the sensor body is equipped the cage, the work area is made at the interface between the cage and the body, in which a groove is formed around the circumference of its casing, through which its electrically cross odes, and the intake and discharge channels of the fluid and the flow rate boosters are located in the holder. I /.