SU848028A1 - Device for stimulating blood circulation - Google Patents

Description

The invention relates to medicine and is intended to stimulate the blood circulation in persons under the control of breathing, as well as in persons in a stationary and sedentary state. A device for stimulating blood circulation, comprising a multi-chamber reduction cuff, is known. elastic membranes, between which intercameral valves are installed, connected through a pneumatic crane to a pressure generating system comprising a pressure source, a regulator and a safety valve Til. However, in the known device, blood circulation stimulation consistent with breathing cycles is not provided. The aim of the invention is to provide stimulation of the blood circulation in persons under controlled breathing, as well as in persons in a stationary and sedentary state. This goal is achieved by the fact that in the device for stimulating blood circulation, containing a multi-cam compression cuff with elastic membranes, between which intercameral valves are installed, connected through a pneumatic crane with a pressure generating system, switching on a pressure source, a regulator and a safety valve, and a node coordination of breathing cycles and wave-reduction, the latter consists of successively connected breathing movements sensor, pneumatic diaphragm actuator, valve photocell and amplifier, each amer valve comprises a sleeve with a flange having a longitudinal and radial apertures, a support ring, a spring disposed between the valve seat and a flange attached to the hub flange elastic cup, and the inlet side of the longitudinal nozzle holes is set. Moreover, the sensor respiratory movements made in the form of an elastic reservoir. FIG. Figure 1 shows schematically a device for stimulating blood circulation; in fig. 2 shows section A-A in FIG. one; in fig. 3 - multi-chamber crimp cuff J in FIG. 4 view B in FIG. 3, in FIG. 5 is a diagram of the operation of the device. The device contains a multi-chamber compression cuff 1 with elastic double diaphragms equipped with inter-cam valves 2. The cavity of the seal cuff through pneumatic flange 3 communicates, on the one hand, with a pressure source and a pressure regulator. Compressed gas from any source can be used to create pressure. In the case of using high-pressure cylinders 4 with a valve 5, a pressure regulator 6 with a pressure gauge 7 must be used as the first pressure reducer and a pressure regulator 8 with a pressure gauge 9 at the outlet. In case of an emergency pressure increase, there is a safety valve 10, which is triggered when the pressure in front of the valve 3 is increased to 25 kPa. On the other hand, the valve 3 is connected with the coordination unit of the breathing cycles and the compression wave, which consists of the respiratory movements sensor 11, the pneumo-membrane drive 12 of the valve photocell 13 and the amplifier 14. The respiratory movements sensor 11 is connected to the pneumo-membrane drive 12 tubular distribution cistepl 15. The intercameral valves (FIG. 2) are designed in the form of a sleeve 16 with a flange that has longitudinal and retractable openings 17 and 18 and is provided with a back ring 19, into the groove of which is placed a sealing gasket 20. On the flange bushings fixed elastic cup 21 and installed spacer spring 22, on which the saddle rests. The saddle 23 is pressed with a sharp edge against the gasket 20 of the support ring of the sleeves 16. At the entrance side of the longitudinal opening of the sleeve. 16 installed nozzle 24 with a calibrated hole. The multi-chamber reduction cuff (Fig. 3), consisting of rubber chambers 25 placed in a fabric case 26, may have a special shape for different parts of the body, for legs, for arms, for torso. To fit the cuff to the diameter of the body, it has lacing 27. A device for stimulating blood circulation works as follows. A multi-, chamber 1 compression cuff is put on the corresponding part of the body so that the compression spreads from the peripheral zone towards the heart. The sensor 11 for respiratory movements is fixed against the movable wall of the peritoneum. When you inhale, the sensor compresses with, the air from it through the distribution system 15 enters the supramembrane cavity of the pneumatic-membrane actuator 12. The sensor membrane is lowered, lowering the movable flap of the photocell 13. The electric signal from the photocell transformed by the amplifier 14 switches on the pneumatic crane 3 which is transmitted by the signal to the position shown in the diagram. At the same time, gas is supplied to the first chamber of the reduction chamber 1 chamber, where the required pressure is established, which is controlled by the reduction of ohm 8. The gas from the chamber flows through the calibrated duéu 24 into the chamber. When the pressure in the chamber reaches a value sufficient to overcome the force of the spring 22, it is compressed, the sleeve 16 rises from the seat 23 and the pressure in the cavities instantly equalizes. Thus, the cuff chambers are alternately filled with compressed gas. Wave Shake runs from the first to the last camera. As the output begins, the pressure in the supramembrane cavity of the actuator 12 drops, the membrane rises up under the action of the spring, raises the photocell flap, and the valve 3 is shifted to the position at which the gas supply line of the systems is blocked, and the cuff chamber cavities are connected to the atmosphere. Under the pressure differential, valves 2 open, and the pressure is released from all the chambers simultaneously. The valves are closed by the action of the springs 22 when the overpressure in the chambers becomes close to zero. Thus, a traveling pressure wave synchronized with respiration contributes to the stimulation of the peripheral circulation towards the heart. The device can be used for massage of the extremities in order to eliminate stagnant zones and the possibility of blood clots in individuals who, due to the nature of their activities, have to be stationary or inactive for a long time, such as drivers and pilots. In this case, when the pilot works in an oxygen mask, the pressure drop on the diaphragm of the actuator 12 can be created due to the breathing resistance created by the mask inhalation and exhalation valves, in this case the absence of a submembrane spring is a design feature of the pneumatic diaphragm actuator. The device may also be used to facilitate the inflow of venous blood to a sick person in the heart, including during surgery under general or local anesthesia, with artificial respiration. In this case, the pressure transfer on the membrane of the diode 12 is created by the oxygen pressure of the artificial breathing apparatus. The advantage of the device being preloaded is that it stimulates the peripheral to the (.) Gotech).

in the direction from the periphery to the center. Unilateral stimulation of blood circulation, synchronized with the act of respiration, eliminates blood turbulence in the blood vessels, which helps prevent blood clotting, congestion and intravascular coagulation of blood. In addition, the device is versatile, it can be used both for patients under controlled breathing and for those who are forced to work in a slow-moving or stationary position for a long time.

Claims (2)

1. A device for stimulating blood circulation, comprising a multi-chamber reduction cuff with elastic membranes, between which intercameral valves are installed, connected through a pneumatic crane with a pressure system, including a pressure source, a regulator and a safety valve, and a matching unit for breathing and compression waves, characterized in that, in order to provide stimulation of the blood circulation in persons under controlled breathing, as well as in persons in a stationary and inactive state, the node The reduction of breathing and compression waves consists of successively connected breathing movements sensor, pneumatic-membrane drive, o valve photocell and amplifier ka} (the inter-chamber valve will hold a sleeve with a flange, having longitudinal and radial holes, a support ring, a spring placed between the 5 valve seat and the flange, an elastic glass is attached to the sleeve flange and a nozzle is installed on the input side of the longitudinal hole . 2. The device according to 11.1, about tons of l and cha that the sensor of respiratory movements is made in the form of an elastic reservoir. Sources of information taken into account in the examination 1. French Patent 2144971, 5 cl. And 61 N 9/00, published. 1973. HELL Fig 2 Type B