RU2033777C1 - Thermoelectric device for thermal effect at medical treatment of diseases of hand fingers - Google Patents

Abstract

FIELD: medical engineering. SUBSTANCE: device has a base plate that carries supports for the hand and a body with a cylindrical chamber filled with heat-transfer agent and open from the top. Installed on the external surface of the heat-insulated body are thermomodules with radiators and a temperature control system having a temperature regulator and temperature-sensitive element installed on the body internal surface. EFFECT: enhanced convenience in use and effectiveness of action. 1 dwg

Description

 The invention relates to medicine and is intended for temperature exposure in the treatment of injuries and purulent-inflammatory diseases of the fingers.

 Finding ways to improve the treatment of diseases and injuries of fingers is an urgent task.

 In this regard, the use of low temperatures should be considered promising.

Known devices for temperature exposure include a special vessel for storing liquid refrigerant, a forced refrigerant supply system and interchangeable nozzles adapted for one or another organ or pathological formation [1]
The disadvantages of such devices include bulkiness and complexity, dependence on the refrigerant, the storage of which is difficult and short-term, a large inertia, which leads to difficulties in the need for precise adjustment of the temperature mode. It is known that the therapeutic effect is provided by the cold cooling tissue at different depths to between -8.8 to +12 ^C. Such known devices do not allow precise adjustment.

 Closest to the claimed invention is a cooling medical dressing, consisting of thermal modules mounted on a housing filled with coolant [2] The dressing is equipped with a sensor and a temperature controller, electrically connected to the thermal modules.

 However, this dressing is inconvenient to use and has little effectiveness in treating the fingers of the hand, because due to the fact that it can be applied only to a diseased organ, full contact of the diseased organ with the coolant is not ensured.

 The aim of the invention is to increase the convenience and efficiency of use.

 To achieve this goal, a device is proposed that contains a cylindrical container with liquid, a system for changing the temperature of the container and the liquid in it in the form of thermoelectric modules installed to provide thermal contact on the outer surface of the container, and a temperature control system for the exposure, including a temperature controller, the output of which is connected with thermoelectric modules, and a temperature sensor installed in the tank, the output of which is connected to the input of the temperature controller. In addition, excess heat from the second junctions of thermoelectric modules is removed using heat exchangers connected to them. The specified capacity is installed on the base, on which there is also a stand for the brush.

 In FIG. 1-3 shows a thermoelectric device for intensifying heat transfer and cooling in the treatment of diseases of the fingers.

 On the base 1, a brush stand 2 is installed and made of highly thermally conductive material (for example, copper), the tank 3 open on top, the sides and the base of which are insulated, for example, using a foam layer 4. On the outer side surface of the tank 3, they are mounted on opposite sides with their own the first junctions thermoelectric modules 5 and 6. Moreover, the first junctions of the modules have thermal contact with the walls of the tank, and the second are equipped with air radiators 7 and 8. In the wall of the tank 3 or directly in the container 3 and 9 is liquid temperature sensor 10, whose output is electrically connected to the output of the temperature controller 11, connected to a current source. The output of the controller 11 is electrically connected with thermoelectric modules 5 and 6.

 The device operates as follows.

 Having installed the wrist on the stand 2, the patient dips his finger in the liquid 9 located in the tank 3. The operator sets the temperature required for exposure on the scale of the regulator 11. In accordance with this value, the controller 11 supplies the thermoelectric modules 5 and 6 with a current of the required magnitude and polarity. In this case, the first junctions of modules 5 and 6 change their temperature and cool (heat at a different polarity of the current) the walls of the tank 3, and therefore the liquid 9, the second junctions of the modules are heated and heat is removed from them using air radiators 7 and 8. Actual temperature liquid 9 is measured by the sensor 10 and its value is supplied to the regulator 11, which, if the temperature does not match the value set on its scale by the operator, changes the magnitude of the electric current supplied to modules 5 and 6, achieving the same temperature.

 To change the temperature of exposure, it is enough for the operator to change the set temperature on the scale of the regulator 11, and the liquid 9 in the tank 3 can be both cooled and heated above ambient temperature.

 The application of the proposed device allows the use of temperature effects in the treatment of patients with panaritium, purulent wounds of the fingers, phalangeal fractures and other finger injuries. At the same time, the ability to accurately adjust the exposure temperature significantly improves the treatment result, since too low temperatures are excluded.

 Simplicity of design, independence from hard-to-store liquid refrigerants and ease of use determine the effectiveness of the proposed device.

Claims (1)

 THERMOELECTRIC DEVICE FOR THERMAL INFLUENCE WHEN TREATING FINGERS OF BRUSHES, comprising a housing with a cylindrical cavity filled with a heat carrier, thermal modules fixed to one of the junctions on the housing, and a temperature controller electrically connected to the temperature sensor and the second to let down the thermal module, which improve usability and impact efficiency, the device is additionally equipped with a stand for the brush, mounted on a common base with the body, the body is insulated and its cavity is not closed at the top, the second junctions of the thermal modules are equipped with radiators, and the temperature sensor is installed on the inner surface of the housing.

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