RU137386U1 - DEVELOPMENT OF A HEMATOLOGICAL EXPRESS ANALYZER - Google Patents

Abstract

1. The device is a hematological express analyzer containing a cartridge with a sample and with an aperture mounted in a holder that is located in the compartment lid (8) in contact with a micro switch using springs; a micromotor mounted on the board to create an alternating magnetic field in the cartridge chamber and actuate a magnetic stirrer to mix the reagent with a blood sample, a vacuum micropump to pump air through the valves from the cartridge path and create a fixed vacuum; a fiber-optic cable fixed to the emitter and photodetector screws for transmitting spectral radiation from the emitter board, which is connected to the holder, and a fiber for receiving part of the transmitted radiation and transmitting it to the photodetector board (5), a conductivity Culter cell for counting blood cells when the sample passes through the aperture .2. The device according to claim 1, characterized in that the aperture is made in the polymer by microlaser technology.

Description

The utility model relates to medical equipment and is designed to quickly carry out hematological express diagnostics of the cellular composition of the blood, including in non-laboratory conditions, and the identification of inflammatory processes, anemia, etc.

The hematological express analyzer device is a portable device for performing express tests within minutes. It is most applicable and effective for units of the Ministry of Defense, the Ministry of Emergency Situations and the Federal Security Service, it is not demanding in operation and can also be used in medical institutions located away from large laboratory centers, for example, in rural areas, in express laboratories, medical centers where a small amount of general clinical research is performed. The high accuracy and reproducibility of the results of rapid analyzes allows you to exclude possible errors: both at the initial stage of diagnosis, and directly during treatment.

A device is known. Calibration method for particle counting apparatus. US Pat. No. 7,928,718.

The disadvantage is that an insufficiently convenient control panel is used, an insufficiently rational arrangement of technical devices, elements, as well as an insufficiently functional kinematic scheme and software.

The required technical result is to determine the cellular composition of blood in an automatic mode, due to the improved structure of the hydraulic system, data processing system, location of the control panel, as well as due to a more efficient arrangement of technical devices, elements, kinematic scheme and software. In a generalized form, the work of the developed analyzer can be represented as follows:

A conductometric cell (Culter cell) is used to count cells. The principle is based on a change in the electrical resistance of a cell passing through an aperture. When the cell passes through the aperture, a change in impedance occurs, which causes an electrical impulse with an amplitude proportional to the volume of the cell. The size of the change depends on the volume of the cell. The product uses a cassette in which the aperture is located. The aperture is produced in the polymer through microlaser technology. Measurement requires 20 μl of blood, of which a fixed volume fills the capillary of the rotary valve. When the valve is turned, the reagents are mixed with a blood sample in a special chamber.

After mixing, the dissolved analyzed material passes through the aperture, where the blood cells are counted. Hemoglobin is counted by photometry in a special camera.

The required technical result is achieved by the fact that the cartridge with the sample (measuring cartridge) is installed in the holder located in the compartment lid, the installed cartridge is in contact with the microswitch and with contact probes using springs. Channels for the passage of air through the pump are in the cartridge. A micromotor forms an alternating magnetic field in the chamber, which drives a magnetic stirrer. The micropump pumps air through the cartridge.

The drawings show the hematological express analyzer device: Figure 1 - main components of the analyzer (front view); Figure 2 - the main nodes of the analyzer (rear view); Figure 3 - the main nodes of the analyzer (top view); Figure 4 - the main nodes of the analyzer (top view without covers); Figure 5 - the main nodes of the analyzer (side view). Hematological express analyzer device: contains an optoelectronic unit (1), a GEM cartridge holder (2), an automation board (3), an emitter board (4), a photodetector board (5), a housing (6), a housing cover (7) , compartment cover (8), plate for valves (9), switch (10), switch (11), valve (12), vacuum micropump (13), micro switch (14), control board (15), silicone tube 2, 0 × 1.0 (16), silicone tube 2.5 × 1.0 (17), silicone tube 3.0 × 1.0 (18), shield (19), fiber 1 (20), fiber 2 (21 ) The proposed device operates as follows. The cartridge with the sample (measuring cartridge) is installed in the holder (2) located in the compartment lid (8), the installed cartridge is in contact with the microswitch (14) using springs. A micromotor mounted on the board generates an alternating magnetic field in the cartridge chamber, which drives the magnetic stirrer. The micropump through the valves (12) pumps out air from the cartridge path, creating a fixed vacuum. The light guide 1 (20), which transmits spectral radiation from the emitter board (4), which is connected to the holder, and the light guide 2 (21), which receives part of the transmitted radiation and transfers it to the photodetector board (5), are fixed with screws to the radiator and photodetector board. Through the optoelectronic unit board, the results are displayed on the screen (19).

Thus, thanks to the proposed technical solution, the required technical result is achieved, which consists in determining the cellular composition of blood in automatic mode due to the improved structure of the hydraulic system, data processing system, location of the control panel, as well as due to a more efficient arrangement of technical devices, elements, and kinematic scheme and software.

Claims (2)

1. The device is a hematological express analyzer containing a cartridge with a sample and with an aperture mounted in a holder that is located in the compartment lid (8) in contact with a micro switch using springs; a micromotor mounted on the board to create an alternating magnetic field in the cartridge chamber and actuate a magnetic stirrer to mix the reagent with a blood sample, a vacuum micropump to pump air through the valves from the cartridge path and create a fixed vacuum; a fiber-optic cable fixed to the emitter and photodetector boards for transmitting spectral radiation from the emitter board, which is connected to the holder, and a fiber for receiving part of the transmitted radiation and transmitting it to the photodetector board (5), a conductivity Culter cell for counting blood cells when the sample passes through the aperture . 2. The device according to claim 1, characterized in that the aperture is made in the polymer by microlaser technology.

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