SU685294A1 - Blood circulation imitation stand - Google Patents

Description

The invention can be used to test cardiac pumps and to demonstrate the functioning of the vascular system. Known simulator of the circulatory system of the body containing reservoirs-simulators of the arterial and venous beds of the large and small circles of the blood circulation, equipped with a rotating frame | and heart pumps connected to imitation ij tanks. A disadvantage of the known stand is that the heart pump has only one fixed position. This leads to the fact that the well-known stand cannot create the working conditions of a living organism and has limited possibilities for studying the heart and pumps and the system. blood circulation. The purpose of the invention is to maintain blood circulation that is adequate to the physiological for the positions, corresponding to the positions of the body in space. The goal is achieved by the fact that the stand is equipped with two flat stoppers, the heart pumps and flat stoppers are fixed on the swing frame, and the tanks are made in the form of elastic bags and placed between the stoppers. FIG. 1, 2 shows the scheme of the proposed simulator stand. The ste-simulator contains the frame 1, which is fixed with the possibility of rotation relative to the rack 2. The frame 1 serves to simulate various positions of the organism in space due to its rotation relative to the axis of the swivel 3. On the frame is placed the organism simulator. The body simulator contains sardic pumps 4 mounted on frame 1 on bracket 5, and a circulatory system simulator. The simulator of the circulatory system is flat, contains five flat elastic bands, two of which imitate the venous bed (pack 6) and the arterial bed (pack 7) of the large circulatory, and two are: x. - .gr - HOSFioe riverbed (packot 8} and apTepiiajibiioe bed (pack 9) of the small circle grovrovooborg-puchenn Fifth flat packet from the bottom of his depositional values of Yu, have an organism nos. An individual pattern. Each of the flat elastic packages imitating venospie channel (packs 6, 8) The arterial beds (packs 7j 9) and the depositing containers 10, placed by memeda in parallel fixed layer by us, are flat limiters Each of the elasticity P; K of packages 9b, 7, 8 is divided into liquid vmeBMaTVi43CKyio cavity. pshyut zlasttschnye packageT) 16 9s each of which, p Placement of one of the flexible packages 6-9s, Limiters with packages and ser. Dechiatos 4 are mounted on a pivoting frame 1 Elastic bags 6s S they ™ are used for venous channels, corresponding to the large and small circles KpoBooDpanieinssi are connected to the inlets of the heart pumps 4, Elastic bags 7s About imitation arteries are connected to the inlets 4, and 4 elastic bags 7s About imitation arteries are connected to the inlets, 4, and 4, Elastic bags 7s About imit- ary arteries are connected to the inlets, 4, elbows 4, Elastic bags 7s About imit- ary artery pipes and bridges that are connected to the inlets 4, Elastic bags 7s pe Soce. 4, Elastic bags that imitate. Deposition tanks (lOs) are connected with flexible bags (6/7 imitations): the first venous bed and the araherial bed of the wide circulation. , Pneumatic cavities. Plastic bags .16--19 podLochenE to re.gultora dav.SNi dl. less and less, 1X pressure of the vacuum pump. The pressure, taking into account the pressure of the hydrostatic column, is controlled by pressure gauges 2.0, the flow rate is controlled works as follows. The frame Ij is turned relative to the rack 2.f changes the position of the body simulator, fixing the position, corresponding to the position of the animal and the position of the animal on the back. During operation, the fluid passes through the Cardiac pumps 4 and during systole is forced out into elastic nLikety 7, 9 imitating arterial jjy At the same time, the values of the code pressures of the body position, i turn of the frame 1, are the shaft of the axis of the vraltz ;; 3 and 3; as in T3eK ;; jiv; . In the body This is achieved by following. The magnitude of the effect at the inlet to the heart pumps when changing the body positions is determined by the algebraic sum of the static pressure of the fluid and the hydrostatic DC .Koro column (H) from the longitudinal axis of the implantors b, 8 to the central liii of the heart pumps 4 This is the value of hy.str. Fluid (H) stea.aa corresponds to the distance from the center of the natural heart of the venous channel. of the body positions, the stability of the hydrostatic column value at the time of changing the position of the stand of the stand is rigidly fixed to the heart pump 4 in a plane parallel to the frame plane relative to the frame I, the performance of the hemoglobulin system is flat and the mount is flat. packages in a plane parallel to the plane of the frame. The pressure value is set by the pressure regulator, which is the measurement of the pressure in the pneumatic cavities of the elastic bags 16–19g. This achieves a change in pressure in the fluid cavity of elastic packages 9, 6si 7, 80. Pressure control of liquid-liquid. ; The karathyud shay through the LbTji uacoc 4-j hearts is controlled by a capacitive sensing device.} tuned into a heart pump 4. Imitation of different body conditions allows the body to explore the hydrodynamic characteristics of heart pumps at different positions in the area. The position of the diaphragm of the heart pump relative to the structural elements depends on the position of the pumps in space. In addition to the TorOj, the magnitude of the volumes that flow through the chambers of the cardiac CD3 even under the same pressure conditions at the inlet to the heart pump depends on the pressure of the heart pumps in space. Investigating the behavior of the diaphragm n1) and changing the position of the cardiac pump: it is imperative to assess the stability and accuracy of the capacitive pump of blood volume sensors in the cardiac pump. Investigation of hydrodynamic characterization of heart pumps gfi change

The position in space will help to select the optimal parameters and the mutual arrangement of the design elements of the heart pumps. This will bring the research conditions closer to the working conditions of a living organism.

A simulator stand will allow you to evaluate the characteristics of the heart pump in one fixed position both in the well-known stands and when you change the position in space. In the research laboratory and the working of the artificial heart, a mock-up was made, cardiac pumps were tested, indicating the possibility of variable selection of heart parameters. pumps in conditions close to the conditions of the natural organism - Formulas A. Investigates the Stand-simulator of the body’s circulatory system, containing -imitators of the arterial and venous beds of the large and small circles of circulation, equipped with a rotating frame, and cardiac pumps connected to reservoirs-simulators, different from Teiv, in order to maintain blood circulation adequate to the physiological for the positions corresponding to the positions of the body in space, the stand is equipped two 10 flat limiters, heart pumps and flat limiters are mounted on the swing frame, and the tanks are filled in the form of elastic bags and placed between the limiters. Sources of information taken into account in examination 1, Application No. 2425030, cl. A 61 M 1/03 1976, according to which the decision to issue a copyright certificate.

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