SU1066596A1 - Physiotherapeutic device - Google Patents

Abstract

PHYSIORETHAPTICAL DEVICE, containing interconnected nneumatic sleeve with a number of sections, air inlet and outlet distributor, and a source of increased pressure, characterized in that, in order to reduce naso-operative venous thrombosis, it is provided with a stimulator mom, containing a drive, a base and a slat connected to the drive through a crank mechanism and connected to the base, and the device is interconnected with the base; a driving control unit, a synchronizer, a control switch regulating the block ok and the measuring unit, with the drive control unit being connected with the stimulator drive, and the control unit with the air inlet and outlet distribution. (L Oi 05 ate with O5

Description

The invention relates to medical equipment used for human physiotherapy effects, for example, therapeutic patients who have to remain stationary or on bed for a long time, or surgical patients during and after operations for prophylactic acute venous thrombosis and pulmonary embolism. A physiotherapeutic device is known, a pneumatic hose with a number of sections, an air inlet and outlet distributor, and an increased pressure source 1 are contained between them. However, this device is characterized by insufficient effectiveness of the effect on the venous blood flow, especially in the muscular sinuses and the small muscle veins, which has a special effect essential for the prevention of acute venous thrombosis. The purpose of the invention is to reduce venous thrombosis ileleration. To achieve the goal, a physiotherapeutic device containing interconnected pneumatic sleeve of a series of sections, an air inlet and outlet distributor, and a source of elevated pressure is equipped with a human stimulator, a 1m actuator, a base and a plaque with a gripper connected to it. driven through cranks P1YYY. lmeha) and nshrnirno connected to the base, as well as the device connected to each other by the drive control unit, the synchronizer, the control unit and the measuring unit, while the drive control unit OM is connected by a stimulator drive, and a control and regulation unit with an intake and air distributor. The drawing shows a block diagram of the device. The device comprises a sleeve 1 consisting of a plurality of overlapped sections 2 between each other. Sections are connected by pipes 3 to an air discharge distributor 4, for example, valves with electric drive 7 to the distributor 4, air comes from a new pressure source 5, for example, co-compressor, with electronic drive and control unit last (not shown). A control-controlled unit 6 is placed between the distributor and the cameras. The device is equipped with a muscle contraction stimulator 7 made, for example, in the form of a rocking chair 8, an articulated joint with the base 9 and an eccentric 10 driven by the rotation of the drive 11. The rocking wheel is equipped with a 12 foot pickup and covering her sleeves. The control unit 13 of the actuator II is electrically controlled by the control unit of the drive of the distributor by the synchronizer 14, from where the signals of the control and regulation unit B are given to the signals of the measuring unit 15, cover the limb above the sleeve 11. The device operates as follows. Before the operation, for example, in the operating room, the patient is dressed in a sleeve (stocking) 1 connected to the source 5 at an elevated pressure as described above, and a foot is pinched around its sleeve I in the clamps 12 of the rocking chair 8 and the compressor 5 motor is turned on. Compressor 5 distribution; 1 4 inlet and emptying begins to supply air under pressure of up to 40 mm Hg. in section 2, sleeves 1 through tubes 3. Air, successively passing through section 2, starting from the bottom, covering the foot, creates greater pressure in each lower chamber, four steps: at the top, and provides its own extrusion and reinforcement the current of venous blood from the leg to the heart, which leads to a reasonable likelihood of venous tromba formation. The pressure in chambers 2, the filling sequence, the filling rate, and the opacity of the chamber are controlled by the control device 6. At the same time as the air supply is turned on, the stimulator is reduced. includes an eccentric drive 11 10, which causes the rocking chair 8, and the patient to moan consistently, coBepnjaTb oscillating optimal movements relative to the hinge of the joint 9. At the same time, the foot muscles perform physical work, rhythmically bending and unraveling moan, imitating the work of a muscle pump or walking in bed The axis of the joint 9 is located so as to be close to the axis of the ankle joint, and the rocking chair 8 is filled with the profiled plantar surface of the human exerciser. The speed of rotation of the eccentric 10, and consequently the speed of the extension of the moans, can vary due to the impact on the control of the electric motor 10 of the eccentric 11. The synchronizer 14 establishes the connection between the operation of the distributor 4 and the emptying chambers 2 and rocking driver 11 8 according to the parameters of measuring unit 15. At the same time, synchronizer 14 provides maximum pressure of pneumatic pressure 1-1 and sleeve 1 at the time of stroke 8, at which the muscles go down in a COMPLETE maximal contraction. As a result, the above-mentioned joint actions, when the pressure in the pneumatic stocking is approaching 40 mm Hg. and. the minids, gradually diminishing, approaching their maximum conglomeration, a factor arises. The maximum stress at the height of which increases impulse, contributing to the jerky movement of blood through the venous muscular sinuses, the small and large veins of the limb. As the stimulator of muscle contraction 7 works, the cyclogram of the operation of sleeve I, the magnitude of the speed of emptying and pumping up chambers 2, the speed of the pressure wave in the sleeve, etc. can change. The coordination of these parameters and their selection is carried out for each patient individually, influenced by the signals of the synchronizer 14 on the motor control unit m of the compressor 5, the inlet and outlet distributor 4, or the actuator 11. For example, a patient with more pronounced lower limb musculature requires less pressure. chambers 2 sleeves 1, as the muscular sti. the musculature optimally contracts the muscles and, therefore, pushes venous blood through the vessels, and for patients with less pronounced musculature more pressure is required chambers 2, speed of cell switching, etc. Thus, due to the presence in the proposed device of two physiologically conditioned and simultaneously acting factors, external pneumatic compression mainly promotes the movement of venous blood from the superficial veins to the deep ones, and stimulation of the muscular contraction (mechanically) allows to significantly improve not only the venous outflow along the deep muscular sinuses, small and large veins. due to muscular contractions, but also the flow of arterial blood, which ultimately creates a mode of adequate work of the periphery eskogo heart. In addition, with simultaneous m of local action (optimal. Mute contraction and external pneumatic compression), the maximum effect of stimulation (pulse) of blood flow is noted, especially in the muscle venous sinuses, as well as in small and large veins. , which is an effective means of combating venous congestion, effective prevention of acute venous thrombosis and pulmonary embolism. The physiological device can be used for surgical, gynecological, urological, trauma and groups of patients who are most often operated under general anesthesia with the use of miorepaxapts, as well as a heavy cohort of therapeutic patients, for example, myocardial infarction, myocardial stroke, for a long time. immobilized, is on bed rest to prevent and eliminate venous blood stasis in the r.iy6oKiix veins of the lower extremities and stimulate the peripheral circulation. Optimization of the peripheral circulation is one of the most important pathogenetic factors for the prevention of acute venous thrombosis and embo, a pulmonary artery, which can be obtained with the help of the proposed physiotherapeutic device.

Claims (1)

PHYSIORETAPEUTIC DEVICE containing interconnected pneumatic sleeve with a number of sections, an air inlet and outlet distributor, and an increased pressure source, characterized in that. that, in order to reduce postoperative venous thrombosis, it is equipped with a muscle stimulator containing a drive, a base and a grip with a grip connected to the drive through a crank mechanism and pivotally connected to the base, as well as interconnected drive control unit, synchronizer, control a control unit and a measuring unit, while the drive control unit is connected to the stimulator drive, and the control and control unit is connected to the air inlet and outlet distributor.