RU2641847C2 - Thermoelectric semiconductor device for neck-collar zone massage - Google Patents

Abstract

FIELD: medicine.

SUBSTANCE: thermoelectric semiconductor device for massage of the neck-collar zone contains a flexible elastically deformable base with the possibility of covering the neck-collar zone. The base is made in the form of an elastic interlayer, on which thermoelectric modules (TEM) are fixed. The working junctions of the TEM are in thermal contact with the high-conductivity gel layer containing the thermal sensor, and the support junctions - with the aluminium plates contacting the heat-conducting support blocks including a box. The box is made of a material with low thermal conductivity. In the box cavity, there is a working substance with a high heat of fusion and a melting point in the range 40-50°C, bounded on the inside by aluminium plates. The elastic interlayer contains ferromagnetic needle elements located between each adjacent pair of TEMs. Magnetic action in the device is created by wires surrounding each ferromagnetic needle element with the opposite direction of winding at adjacent ferromagnetic needle elements feeding the corresponding TEM. Fastening of TEM and ferromagnetic needle elements on the elastic interlayer is performed taking into account exclusion of influence on the area of the spinal column.

EFFECT: combined function of alternating heating and cooling massage applicators in a single device, with a possibility to create a temperature regime, a magnet exposure regime and mechanical massage with vibration function.

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Description

The invention relates to medicine and is intended for a combined effect on the cervical-collar zone of a person.

Periodic pain in the neck, shoulders and lower back is one of the most common ailments of people of different ages. They can be caused by diseases of the spine, increased physical exertion, overweight or prolonged stay in a sitting position ("sedentary" work).

Constant pain in the muscles of the neck and shoulders leads to unpleasant chronic diseases associated with damage to the ligamentous-muscular apparatus surrounding the shoulder joint, the shoulder joint itself (bursitis), as well as pathological changes at the level of the cervical spine (cervical osteochondrosis and spondylarthrosis).

Massage of the cervical-collar zone improves blood circulation, provides blood outflow from the head, which helps relieve headaches, dizziness, relieves tension and pain in the neck or shoulders from overwork and tension, etc.

Of the many factors of reflexotherapy, the most effective is thermal (heating and cooling), which is due to irradiation and the depth of heat penetration. Under the influence of heat, arterioles expand, pressure and blood flow in the capillaries increase. The expansion of blood vessels and increased blood circulation lead to hyperemia and an increase in skin temperature. Hyperemia is accompanied by an increase in metabolic processes, the formation of biologically active substances, which helps to strengthen the regeneration process, and resorption of tissue decay products. Thermal exposure promotes the expansion of blood and lymph vessels, relieving vascular spasms and facilitating the cleansing of blood and lymph, accelerates the metabolic processes in the body, destroys or inhibits the activity of many pathogens. All this causes an anti-inflammatory, analgesic, antiseptic and absorbable effect. Local cold exposure leads to a local slowdown in the level of metabolic processes in chilled tissues, a decrease in their oxygen consumption (and the need for it) and nutrients by cells.

The magnetic field significantly increases the efficiency of lymphatic drainage, enhances metabolic processes, stimulates microcirculation, promotes resorption of fibrous tissue, and improves conductivity.

With the simultaneous use of physical factors, the mutual potentiation of their physiological and therapeutic effects is more pronounced than with the combined (sequential) use of the same factors. The combined methods also make it possible, without prejudice to the patient, to reduce the number of treatment methods used daily, and provide a great saving of time spent on several separate procedures.

Known devices for massage procedures that are used to relieve muscle spasms and muscle fatigue, provide a relaxing and calming effect, to prevent the occurrence and therapeutic treatment of diseases of the upper spine.

The closest analogue in technical essence is the applicator (2145834), containing a flexible base, alternating needle elements fixed to the base surface with blunt and sharp ends of the same or different height, the base being made with an elastically deformable surface, and the needle elements made in the form of fixed on separate studs with the possibility of their mutual deviation during deformation of the surface of the base.

The disadvantage of this device is the impossibility of combining in the device the functions of mechanical massage, heating, cooling and magnetic exposure.

The technical result of the present invention is a combination of the alternating heating and cooling functions of massage applicators in a single device, with the possibility of temperature conditions, magnetic effects and mechanical massage with vibration function.

To achieve this goal, a device is proposed that contains a flexible elastically deformable base with the possibility of fitting the neck-collar zone, made in the form of an elastic layer 1, on which thermoelectric modules (TEM) 2 are fixed, the working junctions 3 of which are in thermal contact with a highly heat-conducting gel layer 4, containing a temperature sensor 5, and the reference junctions 6 are in thermal contact with aluminum plates 7, which are in contact with heat-conducting support blocks 8, including a duct 9 made of material with low thermal conductivity, in the cavity of which there is a working substance 10 with a high heat of fusion and a melting point in the range of 40-50 ° C (for example, paraffin), bounded on the inside by aluminum plates 7. However, the elastic layer 1 contains ferromagnetic needle elements 11, located between each adjacent pair of TEM 2. In this case, the magnetic effect in the device is created using each of the ferromagnetic needle elements 11 encircling each of the wires 12 with the opposite direction n vivki on adjacent acicular ferromagnetic elements 11 feeding the corresponding TEM 2. The opposite coiling wires necessary for changing the direction of magnetic field adjacent the needle members 11. In order to enhance mechanical massage needle base elements 8 are conjugate with piezo elements 13 that create vibratory impact. The fastening of TEM 2 and ferromagnetic needle elements 11 on the elastic layer 1 is made taking into account the exclusion of effects on the region of the spinal column.

The principle of operation of the proposed device is as follows.

Before starting work, a certain temperature is set on the programmable control unit 14, the corresponding signals from which are fed to the input of the power supply unit 15, which in turn delivers an electric current of a given magnitude and polarity of the semiconductor TEM 2. As a result, the working junctions 3 of the TEM 2 located in contact with the gel layer 4, begin to heat up or cool to a predetermined temperature and, thus, create a temperature effect on the cervical-collar zone. The temperature of the gel layer 4 is controlled by a temperature sensor 5 and displayed on a digital display 16. The temperature stabilization of the reference junctions 6 of the TEM 2 in contact with the heat-conducting support blocks 8 is carried out by means of a working substance 10 with a high heat of fusion and a melting point in the range of 40-50 ° C ( for example, paraffin), which is located in the cavity of the duct 9 made of a material with low thermal conductivity, bounded on the inside by aluminum plates 7. Electric current flowing through the coil m of wires 12, encircling each of the ferromagnetic needle elements 11, creates a magnetic field acting on the bio-object, and provides power to the piezoelectric elements 13, creating a vibration due to a change in shape. After setting the required exposure temperature, the device is brought into direct contact with the patient’s body.

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 creating the necessary temperature conditions, the device carries out a magnetic effect.

The constructive simplicity of the device and the ability to change modes in a wide temperature range ensures its use in rehabilitation departments and medical institutions of a wide profile.

Claims (1)

Thermoelectric semiconductor device for massage of the cervical-collar zone, containing a flexible elastically deformable base with the ability to fit the cervical-collar zone, made in the form of an elastic layer containing needle elements, characterized in that thermoelectric modules are fixed on the elastic layer, the working junctions of which are located in thermal contact with a highly conductive gel layer containing a temperature sensor, and the reference junctions are in thermal contact with aluminum plates, tactical with heat-conducting support blocks, including a box made of a material with low thermal conductivity, in the cavity of which there is a working substance with a high heat of fusion and a melting temperature in the range of 40-50 ° C, bounded on the inside by aluminum plates, while the thermoelectric modules are connected to a power supply connected to a programmable control unit, which in turn is connected to a temperature sensor and a digital display, and needle elements located between each adjacent pair thermoelectric modules and conjugated to the base with piezoelectric elements are made of ferromagnetic and encircled by wires with the opposite direction of winding feeding the corresponding thermoelectric module, and the fastening of thermoelectric modules and ferromagnetic needle elements on an elastic layer is made taking into account the exclusion of effects on the region of the spinal column.

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