SU1026811A2 - Organism blood circulation simulating stand - Google Patents

Abstract

STAND-IMITATOR OF THE SYSTEM BLOOD EDUCATION ORGANISM BY av.ev. No. 685294, characterized in that, for the purpose of the pacL-JHpeHHH functionality of the stand, by enabling the modeling of the effect of pulmonary D1lhan41 on hemodynamics, a package imitating the venous bed of the small and large circulation circuits is provided with an additional package, one wall of the latter is fixed on one of limiters, and another made at the same time with the wall of the package, imitating the venous bed.

Description

6. 17, in, 19

The invention relates to medi1; ins technique and can be used to test cardiac pumps, their control systems and to investigate the functioning of vascular CHCxeNttii. The invention is an improvement of the stand-imitator of the blood circulatory system of the body according to Aut. No. 685294. According to the main auth. M 685294 is known for a stand-simulator containing tanks simulating the arterial and venous beds of the large and small circles of circulation, equipped with a rotating frame, heart pumps connected to tanks-simulators and flat limiters, while the heart pumps and flat ones; The restraints are mounted on a swing frame, and the tanks are made in the form of elastic bags and are located at the stop fll. The disadvantage of this test bench is that it cannot be used to simulate the effects associated with the effect of pulmonary respiration on hemodynamics. Therefore, it is impossible to carry out reliable AND on this stand, for example, 1 artificial heart with an automatic control system. The purpose of the invention is to enhance the functional capabilities of the bench by allowing the modeling of the effect of pulmonary respiration on hemodynamics. The goal is reached by those JTOs in the simulator booth of the body's blood imaging system, each package imitating the venous bed of the small and large circles of the body, is equipped with an additional one - the package, with one wall of the latter fixed on one of the limiters, and another is made at the same time with the wall of the package, simulating the venous bed, Figure 1 and 2 presents the scheme of the stand-simulator; FIG. 3 shows the principle operating scheme of the system. The simulator stand contains pawy 1, which is rotatably fixed with respect to rack 2. Frame 1 serves to simulate various fields of the body in space due to its rotation about axis 3. The frame contains an organism circulatory system simulator containing heart pumps 4, mounted on a crocodile 5 frame 1 n simulator of the circulatory system. The simulator of the circulatory system is made flat; it contains five flat elastic packages, two of which imitate the venous bed (pack 6} and the arterial bed (pack 7) of the greater circle of circulation, and the other two, the venous 1 core (pack 8) and the arterial bed (pack 9 / pulmonary circulation. The fifth flat bag imitates the depositing containers 10 that exist in a living organism. Each of the flat elastic bags that imitate the venous beds (packages B and 8 of the arterial bed Spackets 7 and 9) and the depositing containers 10 are placed between the parallels Flax-secured 1 and plates, which are flat stoppers 11-15. CajD1: Dy is divided into liquid and pneumatic cavities from elastic bags 9, 6, 7 and 8. Elastic bags are used as separators. placed inside one of the elastic packages 6-8. In addition, packages 6 and 8 of the venous channels are additionally equipped with packages 20 simulating pulmonary respiration and connected to pneumatic actuator 21. At the same time, one short-circuit wall of 22 containers of packages of venous beds and packages simulating pulmonary respiration Is common and in Total mobility, and other package wall are fixedly provided on the restrictor x. Limiters 11–15 with bags and heart pumps are mounted on the pivoting frame 1. Elastic bags B and 8, simulating venous beds, with bags 20 imitating the effect of pulmonary respiration on the large and small circles of the blood circulation, are connected to the inlets of the heart pumps 4 and to an independent pneumatic actuator 21. Elastic bags 7 and 9, imitating arterial beds, are connected to the outlets of the heart pumps 4. Elastic bags that imitate deposit tanks 10 are connected between elastic packs 1 and 6 to 7, they are wearing Yu1 noznoe channel and channel blood circulation. The pneumatic cavities of the elastic bags 16-19 are connected to a pressure regulator for the change in venous pressure. Input pressures are monitored by gauges 23. The stand-simulator operates as follows. In the pneumatic chambers 16-19 of the bags 6-9 and the depositing container 10, a medium-system pressure setting is established. Then, the pneumatic drive of the heart pumps 4 is activated. The frame 1, turning relative to the stand 2, changes the position of the body's circulatory system, fixing the position corresponding to the position of the living organism of the animal and the position of the animal on the back. In the course of work of ventricles - there is a pumping of liquid cordial; pumps 4. During the system, fluid is displaced into elastic bags 7 and 9 imitating the arterial beds.

The pressures are set by a pressure regulator which changes the pressure in the pneumatic cavities of the elastic bags 16-19 and by the pneumatic actuator 21 connected to the pneumatic cavity of the packs 20 simulating pulmonary respiration. This achieves a pressure change in the 5-fluid cavity of the elastic packages 9, b, 7 and 8. The pressure control of the LIQUID of the liquid with regard to the pressure of the hydrostatic column is carried out by pressure gauges 23. The blood flow through the heart pump 4 is monitored by a flow meter 24. The volume of fluid passing through the heart pump 4 is monitored by a capacitive sensor built into the heartbeam 4,

A simulator of the circulatory system of the body allows one to simulate the effect of pulmonary respiration on hemodynamics, which makes it possible to use it to check cardiac pumps under conditions as close as possible to the conditions of the body.

STANDING position

 ON THE BACK

FIG. 2

4 f pneVmbbr in 2i

YU

Claims (1)

STAND-SIMULATOR OF THE SYSTEM OF THE BLOOD CIRCULATION OF THE ORGANISM on aut.se. No. 685294, characterized in that, in order to expand the functionality of the stand by providing the ability to simulate the effect of pulmonary respiration on hemodynamics, each package that simulates the venous channel of the small and large circles of blood circulation is equipped with an additional package, while one wall of the latter is fixed to one of the limiters and the other is made at the same time with the wall of the package that simulates a venous bed. 8, 17,8,19 g ³ h Ζξξ = ξξ £? JZzi _u -2 ... ^ d 22 22. To event 21 FIG. 1 102681