RU2143936C1 - Device for cryoultrasonic therapy - Google Patents

Abstract

FIELD: medical engineering, particularly, physiotherapeutic devices. SUBSTANCE: device has recess on face of bushing in which source of ultrasonic oscillations in the form of ceramic plate with current leads is secured. Current leads are connected to control unit, thus forming monoblock. Thermoelectric element is positioned in casing between bushing and radiator. Device is additionally provided with fan. Several small vent holes are positioned on side surface of casing. Their area is equal to that of one large vent hole located on casing face opposite to recess of bushing. Control unit is connected to thermoelectric element and fan to form control signals. Device provides for simultaneous cold and ultrasonic effects. Device may be used in acute phase of inflammatory process. EFFECT: higher efficiency of treatment. 2 dwg

Description

 The invention relates to medical equipment, in particular to devices for physiotherapy.

 A device for hypothermia is known containing a thermoelectric battery enclosed in a casing (A.S. USSR, 1179987, A 61 F 7/00).

 The disadvantage of this device is its low efficiency, associated with the possibility of the simultaneous use of only one type of energy transfer, namely, cold.

 As a prototype, a device for conducting ultrasonic impacts, made in the form of an ultrasonic emitter made in the form of a ceramic plate with current leads, mounted on a metal plate located in the casing, and a control unit (Prospect apparatus UZT-101, approved by the Ministry of Medical Industry, 1980), is considered. )

 The disadvantage of this device is also the low efficiency associated with the possibility of the simultaneous use of only one type of energy transfer, namely ultrasound. The absence of a device capable of simultaneously cooling the affected tissues and acting on them with ultrasound limits the therapeutic possibilities of physiotherapy, requires its development and application.

 The technical result of the device is to provide the possibility of simultaneous cold and ultrasound exposure and the use of the device in the acute phase of the inflammatory process, in particular, with severe synovitis.

 This result is achieved by the fact that in the device for ultrasonic physiotherapy, made in the form of an ultrasonic emitter, in the form of a ceramic plate with current outputs connected to the control unit mounted on a metal plate, which is attached to the end of the sleeve located in the casing of the device additionally in the same casing a thermoelectric element is placed located between the radiator and the sleeve with a recess at one end, and a metal plate with a ceramic element is fixed to this recess. The device is equipped with a fan and ventilation holes, while the source of ultrasonic vibrations and the thermocouple form a monoblock having an associated working surface, all current outputs are connected to the control unit, and the area of several small holes in the casing is equal to the area of one large one, small holes are located on the side surface of the device casing, and one large from the end opposite the recess of the thermocouple sleeve.

 In FIG. 1 shows a device, side view.

 In FIG. 2 shows the device, view from the side of the working surface (view A).

 The device for cryo-ultrasound physiotherapy consists of an ultrasonic emitter, in the form of a ceramic plate 1 with current leads, mounted on a metal plate 2, which is attached to the end of the sleeve 3 with a recess 4 at one end, which is located in the casing 10 of the device and control unit 11. The device is equipped with in the same case with a thermoelectric element 6 located between the radiator 5 and the sleeve 3, and a metal plate 2 with a ceramic element 1 is fixed on this recess, while the device is equipped with a vent emitter 8 and ventilation holes, while the source of ultrasonic vibrations and the thermocouple form a monoblock, and the current leads are connected to the control unit, while the area of several small holes 7 in the casing 10 is equal to the area of one large 9, small holes 7 are located on the side surface of the device casing, and one large 9 from the end opposite the recess of the sleeve 3.

 A device for ultrasonic physiotherapy works as follows. The control unit 11 generates control signals for ultrasonic radiation, consisting of a ceramic plate 1 with current leads, mounted on a metal plate 2, which is located in the casing 10. The control unit 11 also generates control signals for the thermoelectric element 6 in such a way that its surface pressed against a sleeve having a recess 4, covers the sleeve, and the opposite, pressed against a radiator located opposite the opening 9 of the casing 10, is heated. The control unit 11 also generates control signals for the fan 8. Thus, the working elements of the device: the source of ultrasonic vibrations 1, 2 and the sleeve 3, cooled by the thermocouple 6, form a monoblock, which is the source of cryo-ultrasonic influences. In this case, small openings 7 located on the side surface of the casing of the device, and one large 9 from the end opposite the recess 4 of the sleeve 3, allow the air flow cooling the radiator 5 to leave the casing.

The procedure is carried out according to standard techniques for ultrasound therapy (exposure is carried out according to a labile technique, the frequency of ultrasound is 850 - 2225 Hz, power is up to 1 W / cm). The temperature of the end of the thermocouple is maintained in the range from plus 10 to minus 12 ^o C, and is also determined by the indications for the purpose. Before the procedure, the working element is wiped with alcohol, and a gel is applied to the area of influence. The proposed device is capable of simultaneously cooling the affected tissues and acting on them with ultrasound and thus carry out cryo-ultrasound physiotherapy, providing mutual potentiation of the antispasmodic and absorbable effects of ultrasound with the analgesic, anti-inflammatory and vascular effects of cold influences. The device is applicable in the acute phase of the inflammatory process, for example, with severe acute synovitis.

Claims (1)

 Device for ultrasonic physiotherapy, containing an ultrasonic emitter in the form of a ceramic plate with current leads connected to a control unit mounted on a metal plate mounted on the end of the sleeve located in the casing, characterized in that a recess is made on the end of the sleeve, in which the source of ultrasonic vibrations is fixed , with the possibility of their formation of a monoblock, a thermoelectric element is installed in the casing between the sleeve and the radiator, the device is additionally equipped with a fan, while some small ventilation holes are arranged on the side surface of the casing and equal in area to one large vent opening on the casing end opposite to the recess of the sleeve, and the control unit is connected to generate the control signals to the thermoelectric element and the fan.

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