RU2105538C1 - Device for stimulation of peripheral circulation - Google Patents

Abstract

FIELD: medical engineering. SUBSTANCE: device has mechanotherapeutic-effect channel and synchronization channel. Mechanotherapeutic-effect channel includes diaphragm 1 with rod 3 hinge-connected to crank mechanism 4 the crank of which is made as disc 5 positioned on common shaft 6 with drive flywheel 15. Diaphragm 1 is placed in body 7 with chamber 8 for limb and with hole communicating with atmosphere through lever-lock 10 and tie-rod 11 hinge-connected to pusher 12 driven by cams 13 positioned on crank disc 5. Synchronization channels has pulse wave sensor 16 and coupling with tooth 21 provided on its holder 22. Coupling is installed on one shaft with crank disc 5 and flywheel 15. Device also has lever 10 and electromagnet 18 which transmits signal from pulse wave sensor 16 through amplifier to lever 20 and tooth 21 of coupling holder 22. Coupling throws flywheel 15 into engagement with crank disc 5. Pulse wave sensor 16 provides for synchronization of blood inflow and outflow in limb located in chamber 8 with heart ejection. EFFECT: more efficient stimulation of circulation. 1 dwg

Description

 The invention relates to medical equipment, namely to physiotherapeutic devices.

A device for stimulating peripheral blood circulation comprising a mesanotherapeutic channel made in the form of a series-connected compressor, receiver, solenoid valve, pressure gauge and cuff valves, a synchronization channel made in the form of series-connected ECG conductors, an amplifier, a sawtooth voltage generator, a paraphase power amplifier, while the output of the power amplifier is electrically connected to a controlled input of the electromagnetic valve and the channel is vis initial detection of the impact, made in the form of series-connected pulse wave sensor, amplifier, paraphase amplifier and cathode ray tube, while the pulse wave sensor is connected to a tap of the channel of the therapeutic effect, the second input of the paraphase amplifier with the output of the formation of delay pulses, and the outputs of both paraphase amplifiers connected to the deflecting plates of the cathode ray tube [1]
This device is expensive and difficult to manufacture due to the presence of a compressor, receiver, pneumatic control devices in the channel of the mechanotherapeutic effect, and in the synchronization channel of expensive electronics, an electrocardiograph, and a cathode ray tube.

 The basis of the invention is the creation of a cheaper, simpler and more reliable device by replacing the compressor, receiver, monomer and solenoid valve with cheaper, simpler and more reliable pneumatic drive elements, as well as partially replacing expensive electronics with cheaper and more affordable mechanical ones.

 This object is achieved in that in a device for stimulating peripheral blood circulation containing a channel of mechanotherapeutic action and a synchronization channel, according to the invention, the channel of mechanotherapeutic effect has a drive flywheel, a chamber for a limb, a body with a diaphragm and a rod located in it, pivotally connected to the connecting rod of the crank mechanism, the crank of which is made in the form of a disk with cams mounted on a common shaft with a flywheel, the cone is hermetically connected to the chamber for limbs and there is a hole in communication with the atmosphere through a shutter lever pivotally connected to the rod and pusher, the synchronization channel has a pulse wave sensor, an amplifier, a lever, a coupling, the clip of which is made with a tooth and mounted on a common shaft with a flywheel and a crank disk, an electromagnet with a rod, driven through the amplifier from the pulse wave sensor and acting on the lever and tooth of the sleeve of the coupling, which controls the movement of the crank disk.

 The drawing schematically shows a device for stimulating peripheral circulation.

A device for stimulating peripheral circulation contains a diaphragm 1 made of elastic rubber and reinforced with flanges 2, into which a rod 3 is connected, connected to a connecting rod of the crank mechanism 4, the crank of which is made in the form of a disk 5 mounted on the shaft 6. The diaphragm 1 is placed in the housing 7 . To the body 7 adjoins the chamber 8 for limbs. The hole 9 in the housing 7. communicates with atmospheric air by means of a shutter-lever 10. The shutter-lever 10 is pivotally connected to the rod 11 and the pusher 12, which is fixedly fixed at its central point. The pusher 12 is affected by cams 13 located on the disk of the crank 5 at an angle of 180 ^o C. When closing the hole 9 with the shutter lever 10, the spring 14 returns the rod 11 to its original position.

 The device is driven by a flywheel 15, which in turn is driven in a known manner. Flywheel 15 rotates at a speed of 90 rpm.

 To ensure that the rhythm of the mechanotherapeutic effect coincides with the pulse wave, a synchronization channel is used. The synchronization channel includes a photoelectric pulse wave sensor 16. The operation of the sensor 16 is based on the registration of changes in light transmission of vessels due to changes in blood supply. The signal from the sensor 16 is amplified by an amplifier 17, which sends a signal to the electromagnet 18, the rod 19, acting on the lever 20, frees the tooth 21 of the cage 22 of the freewheel clutch mounted on the shaft 6. When the spring 23 acts on the tooth 21, the freewheel engages the crank disk 5 with flywheel 15. Spring 24 returns lever 20 to its original position.

 To seal the chamber for the limb 8 during operation of the device, a cuff 25 is provided, and to ensure tightness, the connection of the chamber for the limb 8 to the body 7 is provided with a connecting sleeve 26 made of elastic material. The hole 27 serves to exit air from the housing 7 when the diaphragm 1 moves to the left.

The device operates as follows. For the treatment procedure, the limb of the patient is placed in a chamber 8, hermetically connected to the housing 7. The device is turned on, the flywheel 15 rotates (continuously). The thumb on the inside is applied to the pulse wave sensor 16. The signal from the sensor 16 is fed to the amplifier 17 and to the electromagnet 18. The rod 19 of the electromagnet 18 at the beginning of the pulse wave acts on the lever 20, freeing the tooth 21 of the clip 22 of the freewheel. As a result of this, the spring 23, when removed, rotates the cage 22, engaging the rotating flywheel 15 with the crank disk 5. The connecting rod of the crank mechanism 4 by means of the rod 3 activates the diaphragm 1, which, moving to the left, creates a lower one in the housing 7 from the side of the camera ( 600 mm Hg) through the hole 27, the air leaves the left side of the housing 7. During the movement of the diaphragm 1 to the left, the rod 3 connected to the connecting rod 4 rotates the crank disk 5, while the cam 13 acting on the pusher 12, rod 11 and shutter lever 10, opens the hole 9. Aperture and 1 under the action of the connecting rod of the crank mechanism 4 moves and creates in the housing 7 increased pressure from the side of the chamber 8 (900 mm RT. Art.). When the disk of the crank 5 is rotated 180 ^o C, and the second cam 13 acts on the plunger 12, the rod 11, as a result of which the shutter lever 10 opens the hole 9. The air leaves the housing 7, and the pressure in the housing 7 is equalized. Due to the rotation of the crank disk 5, the tooth 21 of the cage 22 is fixed by the lever 20, and the freewheel disengages the crank disk 5 and the flywheel 15. The cycle is repeated when the next signal is received from the pulse wave sensor 16. The pulse wave sensor 16 provides synchronization of blood inflow and outflow in the limb with a cardiac output. With reduced pressure in the body 7, the blood supply to the organ located in the chamber 8 is improved due to the expansion of blood vessels. The increased pressure in the housing 7 provides relief of the outflow of blood from the limb.

 Thus, the proposed device for stimulating peripheral blood circulation provides the necessary therapeutic effect without the use of an expensive and cumbersome compressor, pneumatic control devices, expensive electronics. The device is easy to manufacture, reliable and efficient to use.

Claims (1)

 A device for stimulating peripheral blood circulation, comprising a mechanotherapeutic channel and a synchronization channel, characterized in that the mechanotherapeutic channel has a drive flywheel, a chamber for a limb, a body with a diaphragm placed therein with a rod articulated with a connecting rod of the crank mechanism, the crank of which is made in the form a disk with cams mounted on a common shaft with a flywheel, the housing is hermetically connected to the chamber for a limb and has a hole in communication with the atmosphere by means of a shutter lever pivotally connected to the rod and pusher, the synchronization channel has a pulse wave sensor, an amplifier, a lever, a clutch, the clip of which is made with a tooth and mounted on a common shaft with a flywheel and a crank disk, an electromagnet with a rod driven through the amplifier from the pulse wave sensor and acting on the lever and tooth of the sleeve of the coupling, which controls the movement of the crank disk.