RU147901U1 - DEVICE FOR COLLECTION AND TREATMENT OF WOUNDED BLOOD - Google Patents

Abstract

A device for collecting and processing wound blood, comprising a vacuum pump, a separator, a control unit, a compressor and highways, located in the housing, characterized in that it is equipped with a digital unit for determining the color of the stock liquid with the housing and a three-channel digital color sensor and an active backlight unit located therein, while the block for digital determination of the color of the stock liquid is connected to the control unit by means of a signal loop, and the body of the block for the digital determination of the color of stock liquid is made with a slot for magi Tral and fixed on the surface of the device body.

Description

The invention relates to the field of medical technology, in particular to devices for collecting and treating a patient’s wound blood during an operation in order to return it to the patient’s bloodstream and reduce the need for donated blood.

The device allows tracking the color of the stock liquid at the outlet of the process of purification of the collected blood in a rotating separation bell when collecting the patient’s own blood, followed by its separation into two fractions - red blood cells and other components in the autotransfusion apparatus. This separation is carried out by the method of high-speed centrifugation (separation of liquid solutions). The separator is essentially a centrifuge in which red blood cells, due to their higher specific gravity, are separated from the blood serum, its other fractions and related solutions. In the process of erythrocyte separation, a washing solution is supplied to the rotating bell. Its output to the waste line (drain line) must be controlled to prevent the red blood cells from being treated in the waste. After separation and washing, the purified erythrocyte fraction enters the patient’s bloodstream.

The proposed utility model can be used to trigger a quality control system for flushing fluid exiting the rotating bell at the moment of its maximum filling until it is full and erroneously gets into the drain line of the separation waste.

A device for collecting and processing wound blood (Patent of the Russian Federation for utility model No. 110277 dated 04/20/2011), containing a vacuum pump and a separator for separating red blood cells from wound blood, lines with clamps connected to the control unit. In the known device, this unit is absent, which makes it impossible to control the drain line and reduces the quality of its operation.

The problem to which the utility model is directed is to create a device that ensures the timely operation of the pump of the blood supply line to the separation unit when it is full and the washing quality is monitored.

The technical result is to increase the reliability of the system settings due to the additional recognition of blood level overflow using a special three-channel digital color sensor.

The technical result is achieved due to the fact that the device for the collection and processing of wound blood, containing a vacuum pump, a separator, a control unit, a compressor and highways, is equipped with a digital unit for determining the color of the stock liquid with the body, while the unit for digitally determining the color of the stock liquid consists from a housing with a slot and a three-channel digital color sensor and an active backlight unit located therein, while the housing of the digital liquid color determination unit of the stock liquid is fixed to the surface device housing and is connected to the signal loop control unit.

The device is illustrated by drawings, where

in fig. 1 shows a diagram of a device for collecting and processing wound blood,

in fig. 2 shows a block diagram of a digital color determination of the stock liquid.

The device for collecting and processing wound blood contains: a vacuum pump 1, a separator 2, a control unit 3, highways 4, a compressor 5, a digital unit for determining the color of the stock liquid 6, comprising a housing 7 and a three-channel digital color sensor 8 and an active backlight unit 9 The housing 7 of the digital color determination unit for the stock liquid 6 is made with a slot under the line 4 (tube of the drain channel of the apparatus) and, with a signal cable 10, is connected to the control unit 3 and mounted on the surface of the device body 11.

The three-channel digital color sensor 8 on the drain line analyzes the color of the waste liquid and is triggered if blood enters the drain line. At the same time, it saves wasting solution consumption.

At the beginning of the operation of the device, the bell of the separator 2 spins up to 5600 rpm, and blood begins to flow into it for cleaning. Red blood cells are washed and waste is discharged into a container (not shown in Fig.). After triggering a three-channel digital color sensor 8 in the device, the blood supply is suspended and the washing solution begins to flow into the bell of the separator 2.

In this case, the plasma or flushing solution, which differ in color from the blood being cleaned, continues to flow through the separator bell 2 into the container (not shown in the figure) of the waste stream. As soon as the color of the flushing liquid, visible through the transparent tube (line 4) of the drain line, becomes different from the usual (light yellow or brown), this means that the red blood cells from the bell of the separator 2 go into the drain tank, which is unacceptable during the blood separation procedure.

In this case, the data from the three-channel digital color sensor 8 is processed by the control unit 3 and according to a special algorithm and the values R, G, B of the colors of the drain liquid known for the emergency, the algorithm of the digital block color determination module 6 is triggered and a command is given to stop the flow of the wash solution or reduce the speed of its supply to the separation line for a period of 2-5 seconds. After that, the supply of the washing solution resumes.

Monitoring by the three-channel digital color sensor 8 takes place continuously, which allows, upon reaching a specific color of the stock liquid, to stop the washing process and to complete the separation of blood, which leads to optimal consumption of the washing solution.

Thus, the proposed technical solution with the help of modern integrated implementation of highly sensitive three-channel digital color sensors makes it possible to compactly place a fundamentally new block of digital determination of the color of stock liquid in the blood separation apparatus, which gives an optimal flow rate of the washing solution and prevents the cleaning process from unwanted excess red blood cells entering the drain line .

Claims (1)

A device for collecting and treating wound blood, comprising a vacuum pump, a separator, a control unit, a compressor and highways, located in the housing, characterized in that it is equipped with a digital unit for determining the color of the stock liquid with the housing and a three-channel digital color sensor and an active backlight unit located therein, while the block for digital determination of the color of the stock liquid is connected to the control unit by means of a signal loop, and the body of the block for the digital determination of the color of stock liquid is made with a slot for magi Tral and fixed on the surface of the device body.

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