RU2326627C2 - Thermoelectric semiconducting device for local thermal exposure on human foot inferior surface - Google Patents

Abstract

FIELD: medicine; medical equipment.

SUBSTANCE: thermoelectric semiconducting device for local thermal exposure on human foot inferior surface consists of bath with base made of high-heat-conducting material as metal plate lower surface of which is adjacent to first junctions of thermoelectric battery, and second junctions of which is in thermal contact with fluid heater. Upper surface of plate is furnished with longitudinal recesses totally restricted with flanges and filled with granulated metal. In recess bottom there is a turned square groove containing two electroconductive flexible plates with surface covered with electrical insulator and with two electrical-contacting ends connected to homopolar current plates.

EFFECT: enables to extend range of products for local thermal exposure.

2 dwg

Description

The invention relates to medicine and is intended for local temperature effects on the lower surface of the foot and can be used in physiotherapy.

It should be noted that local temperature exposure has certain advantages over other treatment methods. Temperature irritants help reduce and even stop pain. Moreover, the effectiveness of heat and cold applied locally for therapeutic purposes is closely interconnected with the technique and technique of the applied irritations. The temperature of the skin is of great importance for the perception of temperature irritation, which depends on the individual characteristics of the human body, so the same stimulus can be perceived differently. The most effective is the thermal effect (heating and cooling), since locally deeply penetrating heat causes tonicity, wide and surface heat has a sedative effect. Heat sensitive points are located mainly on the fingers and toes. That is why a hot foot bath of gradually increasing temperature increases blood flow in the vessels of the brain.

Well-known methods of heat therapy, such as contrast baths, baths of gradually increasing temperature, treatment with paraffin and ozokerite, etc., have several disadvantages: low efficiency and discomfort of the procedures, inconvenience of implementing this method for medical staff (the need for periodic heating and cooling of water, monitoring temperature in the baths), as well as insufficient accuracy of the dosage of the temperature effect.

The closest device is a device for local temperature exposure on the foot of a person (RU 2245694 C2, 02.10.2005), containing a bath whose base is made of highly thermally conductive material in the form of a metal plate, the lower surface of which is paired with the first junctions of a thermoelectric battery, the second junctions of which are shown in contact with a liquid radiator, and metal granulate.

The aim of this invention is to increase the effectiveness of the combined effect on the lower surface of the human foot by expanding the technical means, consisting in enhancing the mechanical effect on the reflexogenic zones of the human foot.

To achieve this goal, a device is proposed (Figs. 1, 2), which is a bath 1, the base of which is made of highly thermally conductive material in the form of a metal plate 2, in the upper surface of which there are three longitudinal cavities 3, bounded on all sides by gentle protrusions 4. At the bottom a cavity filled with metal granulate 5 has a rectangular groove in which two electrically conductive elastic plates 6 and 7 are embedded. The surface of the elastic plates 6 and 7 is coated with an insulating material 8 (for example, varnish). At the plate 6 only the ends are rigidly fixed. To both ends of the elastic plates 6 and 7, electrical contacts 9 are connected, connected with the possibility of flowing through the plates 6 and 7 of a unipolar current.

The lower surface of the plate 2 is in thermal contact with the cold junctions of the thermoelectric battery (thermopile) 10. The second junctions of the thermopile 10 are in thermal contact with the liquid radiator 11.

The device operates as follows. The patient places the foot on a support located above the bath 1. Next, a pulsed current of polarity corresponding to the required procedure mode is applied to the thermoelectric battery 10 (the first junction of the thermoelectric battery cools or heats the surface of the foot). Moreover, the polarity and level of nutrition varies in accordance with the nature of the procedures. When a rectangular pulse is applied, unipolar current flows through the elastic plates 6 and 7, as a result of which they are repelled from each other, which leads to a “shot” by granulate 5 along the lower surface of the patient’s foot located above the bath 1, which, in addition to the temperature effect, also provides mechanical . In the absence of a current pulse under the influence of elastic forces, the elastic plates 6 and 7 return to their original position, and the metal granulate is again at the bottom of the depressions 3 above the plates 7. At the same time, heat is removed from the second junction of thermoelectric batteries 10 by means of a liquid radiator 11. Duration of the procedure, nature impacts (cooling or heating) and the degree of exposure (degree of cooling or heating of the foot) are determined by the operator performing this procedure. The strength and frequency of impact of the granulate on the patient's foot is regulated by the amplitude, frequency and duty cycle of rectangular current pulses.

This device is easy to manufacture, easy to maintain and highly reliable. The proposed device can operate in various temperature conditions, providing the possibility of alternating exposure to negative and positive temperatures. In addition, in addition to thermal effects, the effect of mechanical massage is observed.

Literature

1. Klyachkin L.M., Vinogradova M.N. Physiotherapy, Moscow: Medicine, 1995.

2. Molostov V.D. Acupuncture: A Practical Guide. - Rostov n / a: Phoenix, 2000

Claims (1)

A thermoelectric semiconductor device for local temperature exposure on the lower surface of the human foot, containing a bath, the base of which is made of highly thermally conductive material in the form of a metal plate, the lower surface of which is paired with the first junctions of a thermoelectric battery, the second junctions of which are brought into thermal contact with a liquid radiator, characterized in that in the upper surface of the plate there are three longitudinal depressions bounded on all sides by gentle protrusions filled with metal granules at the bottom of the depression machined rectangular slot into which incorporated two conductive elastic plate whose surface is covered with an electrically insulating material, and both ends of plates summed electrical contacts connected with the possibility of leakage current of the unipolar plates.

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