RU87914U1 - DEVICE FOR COLLECTION AND TREATMENT OF WOUNDED BLOOD - Google Patents

Abstract

1. A device for collecting and processing wound blood, comprising a vacuum pump and a separator for separating red blood cells from the wound blood, characterized in that the separator for separating red blood cells from the wound blood is installed in the vacuum line and is equipped with inlet and outlet valves connected to the control unit. ! 2. The device for collecting and processing wound blood according to claim 1, characterized in that the inlet and outlet valves of the separator are made in the form of clamps of a pipeline with pneumatic drive and with a control unit in the form of a pressure distributor.

Description

The device allows filtering and purification of the patient’s own blood, followed by its separation into two fractions, erythrocytes and other components. This separation is carried out by the device according to 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 serum and related solutions. After separation and washing, the purified erythrocyte fraction enters the patient’s bloodstream.

Known used in clinical practice, the domestic device for collecting and processing wound blood "Agate" [1], selected as a prototype. The device is equipped with a vacuum pump for collecting wound blood and a separator. Blood is delivered to the separator line by a perfusion pump. Such pumps, which are widely used in medical practice, have a housing with an inner cylindrical surface to which blood hoses are pressed by means of circularly rotating rollers. To defect the elastic-elastic hoses used in such pumps, the required amount of force exerted on them by the rollers is very significant. The distribution of this force is not uniform over the hose section in the contact zones with the rollers due to mechanical inaccuracies and non-identical conditions for their interaction. This, as practice has shown, leads to damage to the functional state of red blood cells, and, consequently, to a decrease in the overall functioning efficiency of the device.

The problem the utility model aims to solve is to increase the efficiency of the device for collecting and processing wound blood by creating conditions for transporting wound blood in the separator line, in which the possibility of injury to red blood cells is minimized.

Like the device selected as a prototype, the inventive device for the collection and processing of wound blood contains a vacuum pump in the trunk of the wound blood and a separator for separating red blood cells from it.

The difference from the prototype is that the wound blood separator is installed directly in the vacuum pump line and is equipped with inlet and outlet valves connected to the control unit, i.e. as part of the inventive device there is no perfusion pump traumatic in relation to red blood cells.

It should be noted that the inlet and outlet valves of the separator are made in the form of clamps of the main pipeline with pneumatic drive from the control unit (pressure distributor).

Figure 1 presents a diagram of a variant of a specific implementation of the inventive device for collecting and processing wound blood.

In this particular case, the device comprises a vacuum pump 1, a separator 2 (made in the form of a centrifuge), a reservoir for collecting wound blood 3, a container for collecting waste after blood separation 5. The separator 2 is equipped with an inlet 6 and an outlet 7 and 8 valves that are connected to pressure distributor 9. It should be noted that valve 8 can be structurally combined with valve 7, i.e. can be made in the form of a two-position valve controlled from block 9. The vacuum line 10 of the vacuum pump 1 is connected to the waste collection tank 5 installed at the output of the separator 2 (via valve 7) and the wound blood collection tank 3 (through valve 6).

It should be noted that the valves 6, 7 and 8 can be controlled by a pneumatic actuator from the control unit 9, which in this case acts as a pressure distributor.

A device for collecting and processing wound blood works as follows. The vacuum pump 1 creates a vacuum in the vacuum line 10. Clips 6, 7 and 8 are closed. Due to the discharge in the line 10, blood is sucked out of the surgical wound into the reservoir 3 from the wound. In tanks 4 and 5, a vacuum is created. At the command of block 9, the clamps 6 and 7 open, and wound blood from the reservoir 3 enters the separator 2. Upon reaching the working blood level by the signal of the blood level sensor of the separator 2, the clamps 6 and 7 are closed, and the separator 2 goes into operating mode (separation mode) . In this case, the red blood cells separate from the blood solution and their concentration. At the end of the separation mode, clamp 7 opens, and the container 5 is disconnected from the vacuum line 10 and atmospheric air enters it. At the same time, valve 8 opens and the erythrocyte mass moves under pressure from the vacuum into reservoir 4. At the end of this operation, the air bubble sensor is triggered, and at the signal of block 9, clip 8 closes.

The industrial applicability of the inventive device is confirmed by the possibility of its multiple manufacture in industrial production using standard equipment, modern materials and technology.

Claims (2)

1. A device for collecting and processing wound blood, comprising a vacuum pump and a separator for separating red blood cells from the wound blood, characterized in that the separator for separating red blood cells from the wound blood is installed in the vacuum line and is equipped with inlet and outlet valves connected to the control unit. 2. The device for collecting and processing wound blood according to claim 1, characterized in that the inlet and outlet valves of the separator are made in the form of clamps of a pipeline with pneumatic drive and with a control unit in the form of a pressure distributor.