SU1599013A1 - Device for massaging and electric stimulating of reflex points of foot - Google Patents

Abstract

The invention relates to massagers for stimulation in the reflexogenic zones of the human body and can be used for therapeutic and prophylactic purposes in everyday life and medical institutions for the treatment of arthritis, arthrosis, spinal osteochondrosis, as well as in recreational gymnastics. The purpose of the invention is to increase the intensity of therapeutic effect and reduce the duration of treatment by simultaneous massage, electrical stimulation of the reflex points of the foot and the performance of rotational movements of physiotherapy exercises. This goal is achieved by making the device in the form of a movable upper 5 and lower 17 disks, an overlapping elastic disk 1, having depressions 2 for the legs, in which there are massaging protrusions 7 with pressed metal balls 4, fixing protrusions 6, switching negative gaskets 9, a perforated insulating gasket 10, piezoelectric ferroactive elements 11, connecting conductors 13. A distinctive feature is that the electrostimulating effect directly at the acupressure point. At the same time, the device provides a selective effect on the reflex points and areas of the foot when performing rotational body movements. Electrostimulation is carried out by means of ferroactive elements 11, which generate electric pulses as a result of rolling balls 16 along them along guide ring grooves 15 as the upper support disk 5 rotates relative to the lower support disk 17. 6 Il.

Description

3159901

locking protrusions 6, switching negative charges of the gasket 9, perforated insulating gasket 10, piezoelectric ferroactive elements 11, connecting conductors 13. A distinctive feature is that the electrical stimulating effect occurs directly at the acupressive point of the surrogate effect. At the same time the device provides selectivity

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effects on the reflex points, and areas of the foot when performing rotational body movements. The electrostimulating effect is carried out by means of ferroactive elements 1 1, 1 generating electrical pulses as a result of rolling the balls 16 along them along the guide ring grooves 15 while rotating the upper supporting disk 5 relative to the lower supporting disk 17, beat.

The invention relates to massagers for stimulation in the reflexogenic zones of the human body and can be used for therapeutic and prophylactic purposes in everyday life and in therapeutic days for the treatment of arthritis, arthrosis, spinal osteochondrosis, and also in recreational gymnastics.

The purpose of the invention is to increase the intensity of the therapeutic effect and reduce the duration of treatment by simultaneous massage, electrical stimulation of the reflex points of the foot and the implementation of rotational movements of therapeutic physical training.

Figure 1 shows a device for massage and electrostimulation of the reflex points of the foot, obi; Fig.2 is a section A-A in Fig.1; on fig.Z - section bb on fig.I; figure 4 - the same, increased; .5 - view of the device, explaining the placement of piezoelectric ferroactive elements and rotational balls along the perimeter of the direction of the junction of the annular groove, fixing protrusions and massaging protrusions in the plane of the device; figure 6 is a variant of the perforation gasket.

The device contains an overlay elasti disc 1 with two foot depressions 2, massaging protrusions 3, contact metal balls 4, upper supporting disc 5, fixing protrusions 6, recesses 7 for fixing protrusions, and apertures. 8 for locking lugs, a negative charge commuting gasket 9, a perforated, insulating gasket 10, piezoelectric ferroactive elements 11, gaskets 12, insulating ferroelectrics, connecting conductors 13, holes 14 for connecting conductors 13, guiding annular grooves 15, balls of rotation 16, lower support disk 17, unit 18, which provides connection and relative rotation of the upper and lower supporting disks.

The surface elastic disc 1 is made of an electrically insulating material and has two recesses 2 for the legs, on the surface of which there are many massaging protrusions 3, the distance between which is 10-15 mm. In the massaging arms 3, contact metal balls 4 are pressed in such a way that in the upper part they have open metal points for contact with the bottom of the foot and in the lower part for contact with the switching elements of the device. On the lower surface of the overlapping elastic disc 1 there are four locking protrusions 6, with the help of which it is mounted on the upper supporting disc 5 made of metal. In this case, the locking protrusions 6 enter the recesses 7 for the locking protrusions. Between the applied elastic disk 1 and the upper supporting disk 5, there is a negative charge switching gasket 9 and a perforated insulating gasket 10 having identical perforations, and the perforated holes are located under the contact metal balls 4. Such fixation of the gaskets is ensured by putting them on fixing lugs 6 for what they have about corresponding perforated 8 for fixing protrusions. In those places where there are no perforated holes under the contact metal balls 4, they are con-; clocks with a commuting negative charge pad 9. Perforated

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on the insulating gasket 10 eliminates the contact of the negative charge commutating gasket 9 with the body of the upper support disc 5. Contact metal balls - under which there are perforated holes, in the free state do not end up with the negative gas switching 9, but under pressure on them, they pass through the perforated holes from the top and are in contact only with the body of the upper supporting disk 5. The contact of the metal balls A with the gasket 10 is excluded in the zones of metal rokladki 9 through which is supplied by piezoelectric elements minus the desired BAT. Isolation of points or zones that are undesirable to influence is possible: either by 1-3-layer insulation of metal strip 9 falling into the negative supply circuit from the output of the piezo generator, elastic adhesive plaster 19, or The thickness of the metal gasket 9 is 0.1-0.3 mm or less, the gaskets are cut out with scissors according to the configuration of the shortest current path. The thickness of the insulated gaskets is 0.1-0.3 mm (thin fluoroplastic, polyvinyl chloride, and so on). In this way, all the balls 4 that appear above the strip 9 are minus and all the others fall into the holes of the insulating strip 10 and receive a plus (ground).

In order to ensure the rotational mobility of the upper supporting disk 5, it is connected to the lower supporting disk 17 by means of an assembly 18, which provides connection and relative rotation of the upper and lower supporting disks. In addition, along the perimeter of the lower surface of the upper support disc 5 and the upper surface of the lower support disc 17, guide ring grooves 15 are formed, which coincide when they are joined and form a one-piece guide groove, in which rotation balls 16 are located, having the possibility of rolling along - boo. .

Piezoelectric ferroactive elements 11 are fixed in the upper supporting disk 5 in such a way that their lower edge along the level of arrangement coincides with the upper edge of the guide ring groove 15, i.e. is part of its upper surface in

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this place. At the same time, gaskets 12, which isolate ferroelectrics, exclude the possibility of closing their negative electrodes onto the metal case of the upper supporting disk 5. The bottom surface of piezoelectric ferroactive elements 11 is their positive electrode and, when the rotation balls 16 rotate on it, they contact the upper support body The disk 5. The upper surface of the piezoelectric ferroactive elements 11 is their negative electrode and is connected by means of connecting conductors 13, d through holes 14 for connecting conductors, with a switching negative charges gasket 9.

The upper surface of the upper supporting disc 5 has an elongated part, the curvature of which corresponds to the curvature of the sole of the foot, which ensures due to the elasticity of the surface elastic disc 1 a corresponding bend on the working surface of the device and its contact with the entire area of the foot during operation of the device.

Thus, in assembled form, the device has the form of a composite disk with a diameter of about 400 mm, having leg cavities on the upper working surface, having a convex zone in the middle part, as well as a multitude of massaged protrusions, in the upper part of which open metal points are visible.

The device works as follows

The patient is placed on the working surface of the device so that the feet of the legs are located in the depressions 2 for the legs. At the same time, the contact metal balls 4, pressed into the massaging protrusions 3 of the overlapping elastic disk 1, experience pressure from above, and those of them under which there are perforated holes in the negative charge commutating gasket 9 and the perforated insulating gasket 10 are moved through these the holes are down and are in contact with the body of the upper support plate: ka 5. Contact metal balls 4, under which there are no perforated holes, are in contact with the negative charge commutating strip 9. Because in all of the contact metal balls 4 wherein polu39901

hard support, the protrusion 3 becomes hard and begins to press on the sole of the foot at the points of contact, having a massaging acupressure effect.

Then the patient begins to perform rotational movements with the body, making circular movements with the feet, rotational movements with the pelvis and shoulders around the vertical axis. At the same time, the upper support disk 5 begins to rotate relative to the lower support disk 17, which maintains a stationary position due to the assembly 18, which provides connection and relative rotation of the upper and lower support disks, as well as due to the fact that the rotation balls 16 roll along a one-piece guide groove, formed from guides, ring grooves 15 when the upper support disc 5 and the lower support disc 17 are connected to each other. In those places where the rotational balls 16 roll along the lower edge of the piezoelectric ferroactive elements 11, which are part of the upper surface of the guide annular groove 15 in this place, these piezoelectric ferroactive elements due to their rigid fixing in the body of the upper supporting disc 5 pulsed compression, the duration of which is equal to the time of rolling a ball on the surface of a piezoelectric ferroactive element 11, is experienced. Electric charges arise on the electrodes of these elements. Negative charges

The body electrode of the piezoelectric ferroactive element 11 is fed through connecting conductors 13, passing through the openings 14 for connecting conductors in the body of the upper supporting disk 5, to the negative charge switching gasket 9, when combined, are combined on it and fed to metal contact balls 4 contacting with it. The positive charge from the positive electrodes of the piezoelectric ferroactive elements 11 is applied to the body of the upper supporting disk 5 through balls. ., U, 1 t

16 rotation, lower support disc 17, node 18, which provides connection and relative rotation of the upper and lower support discs, other chars

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ki 16 rotations rolling on the one-piece guiding chute and in contact with the upper supporting disk 5 and the LOWER supporting disk 17, and then entering the contacting metal balls 4 in contact with it, since the device eliminates the possibility of closing the negative polarity charges of the gasket 9 on the body of the upper supporting disk 5, a pulse potential difference arises in the adjacent parts of the surface of the sole of the foot and a pulse current flows which electrically stimulates the reflex points and foot.

The parameters of the electrostimulating effect depend on the material of the ferroelectric, the degree of coincidence of the stimulating pulses at the moment, on the speed of rotation of the rotational movements and can vary in voltage of 5-100 V, in frequency of 0-50 Hz, in current and 80 µA.

The possibility of using a negative switching commutating pad 9, perforated insulating pad 10 with different perforations allows selective action on individual reflex points or reflexogenic zones of the foot. For example, in the case of a Yun-Chuan reflex point located in the center of the plantar surface between II and III metatarsal bones for 2/5 of the distance from the tip of the finger to the back of the heel, stimulation of which directly affects the body's functions associated with such diseases as arthrosis, arthritis, spinal osteochondrosis, a negative charge switching circuit 9 was used with such perforations that contact metal balls 4 contact with it only in the area of this point, for example, four balls , and a positive charge will be applied to the adjacent points of the sole of the foot.

The design of the device causes the occurrence of stimulating pulses according to a random law depending on how many rotation balls 16 and in which phase the pressure affects the piezoelectric ferroactive elements 11, which makes the stimulating effect vary.

according to the mode and eliminates adaptation to it.

Claims (1)

Invention Formula A device for massage and electrostimulation of the reflex points of the foot, comprising a top layer with grooves, the working part of which is profiled, the bottom layer, the active and passive electrodes connected by conductors to a piezoelectric voltage source, the active electrode being installed in one of the top layer slots, characterized by by the fact that, in order to increase the intensity of the therapeutic effect and shorten the treatment time by simultaneous massage, electrical stimulation of the reflex points of the foot and GOVERNMENTAL motion physical therapy, it vveFi2 .2.   J j The added elastic disc, a base with an annular guide groove in which the balls are placed, a movable joint assembly of the base with a lower layer, a commuting and insulating gasket, the lower layer is also made with an annular guide groove, a piezoelectric Q voltage source is made in the form of a set of ferroactive elements placed around the circumference, diameter. which is equal to the diameter of the gutter, and their lower edge is set at one level with the upper edge of the gutter, and the invoice elastic disc contains recesses for the legs, in which massaging protrusions with active 0 and passive electrodes in the form of metal balls located above the grooves of the upper layer. sixteen