RU2164399C2 - Physiotherapeutic installation - Google Patents

Abstract

FIELD: medical engineering. SUBSTANCE: installation may be used for treatment and prophylaxis of different diseases as well as for saturation of sick person's organism with biologically active and mineral substances. Installation has treatment unit with stiff base made in the form of bell and water-and-airproof double-layer casing. Installation also includes mechanical unit which contains compressor, heat-insulating vessel for liquid with dosing assembly, agitator and thermometer, as well as foam generator which has at least three branch pipes with stop valves for removal of foam. Double-layer casing of treatment unit is coupled to compressor by means of pipeline with control valve. Foam generator is coupled to compressor by air-supply branch pipe, to vessel with the aid of liquid-delivery branch pipe, and to treatment unit by means of branch pipes with stop valves for removal of foam, air and for draining of condensate. Treatment unit is provided with a seat with arm rests and back formed as a jumper. EFFECT: enhanced efficiency of treatment. 3 cl, 1 dwg

Description

 The invention relates to medical equipment and can be used for the treatment and prevention of cardiovascular diseases, neurosis, disorders of fat metabolism, skin diseases, polyarthritis, children's exudative diathesis, as well as for saturating the body of a sick person with bioactive and mineral substances, etc.

 A shower cabin is known in which a person is exposed to a medium containing steam and aerosols of essential oils. The cabin contains a relatively hermetic space in which a person and a complex of massage devices, showers, devices for heating the air in the cabin, creating water vapor, saturating the air with essential oils, trace elements, etc. are located. (Prospectus from Jacuzzi Whirpool GtbH, Italy).

 The disadvantages of the well-known cabin are significant energy costs for steam production and dispersion of essential oils, the instability of this environment, significant costs of oils. In addition, the patient is in the middle of the cabin and breathes air that is saturated with aerosols, the concentration of which is difficult to control, which can lead to a deterioration in his condition.

 A device is known with which it is possible to carry out foam therapy containing a bathtub filled with half warm water, in which the blowing agent is dissolved using special vibrators, hand mixers or by passing air from the compressor through a special grill that is laid on the bottom of the bathtub. After filling the entire bathtub with foam, the patient is placed on a stand installed in the bathtub so that the body does not touch the water (Dragomiretsky Yu.A. Aquatherapy - the healing power of water. IKF "Stalker", 1996, p. 259).

 Foam baths are used for patients who cannot tolerate common baths, with hypertension, chronic heart disease, arthritis and other diseases. The main disadvantage of the known device is the significant water consumption for treatment facilities. In such baths, weak hydrostatic pressure and the temperature of the bubbles in the upper layers of the foam rapidly decrease, which leads to the disintegration of the foam into components, and thus the patient experiences discomfort.

 The closest technical solution to the claimed invention is an aerotherapeutic installation intended for the treatment of seriously ill patients, which contains a bath with microspheres, a porous diffuser and a filter sheet, a compressor, a container with a flowmeter, a metering valve, which is installed in the pipeline between the compressor outlet and the container, an evaporator with heater, which is located in the pipeline between the compressor and the bath. First, air from the compressor is supplied to the bath, as a result of which the microspheres become fluidized, after which the patient is placed in the bath. The tank is filled with the necessary chemical or biological liquid component, which passes through the metering valve and the evaporator and is supplied as a vapor through the nozzle into the bath, mixed with microspheres and flows around the patient. Changing the degree of opening and closing of the dispensing tap, the air pressure is changed, which displaces the liquid from the tank, and thus provides a metered supply of components into the bath, which improves the therapeutic effect of the unit (ed. St. USSR N 1724231, MKI A 61 H 33 / 00, 1992).

 The main disadvantages of the known installation for the therapeutic treatment of seriously ill patients are the high energy consumption for evaporation of the liquid, which increases its energy consumption, the inability to maintain a constant temperature in the bath, which violates comfort and negatively affects the patient's condition, and the absence of a mixer and foaming agent does not allow simultaneous treatment of several components, as well as foam treatment, which limits the technological capabilities of the installation.

 The basis of the invention is the task of improving the well-known installation for the treatment of seriously ill patients by supplying it with a foam generator, a stirrer and a heater and executing a procedural unit in the form of a two-layer shell and supplying it with an infrared lamp, this makes it possible to obtain a stable foam, maintain a constant temperature and concentration of components throughout ways of their passage, to carry out complex physiotherapeutic treatment in one installation, for example, heat therapy and foam therapy, which provides expanded irradiation of the functionality of the installation, reducing its energy intensity, increasing the effectiveness of treatment and creating comfortable conditions for the patient.

 The problem is solved in that in a physiotherapeutic installation, which contains a procedural unit with a rigid base, inside which a perforated grate is placed, and a machine unit including a compressor, a fluid container with a metering unit, pipelines with control and shut-off valves and flow meters, according to the invention, a procedural the block is made in the form of a dome from a two-layer shell, which is attached on the periphery to the base of the block in which the pipe with holes is placed, the machine block is equipped with a foam generator orom, which has at least three nozzles with shut-off valves for the removal of foam, and the tank is equipped with a stirrer and a heater, while the two-layer shell of the treatment unit is connected to the compressor using a pipeline with a control valve, the foam generator is connected by an air supply pipe to the compressor, a liquid supply pipe - with a container and nozzles for foam removal - with a pipe with holes using pipelines with flowmeters and with control valves, and a liquid tank, a foam generator body, a base percent bad block and all the pipes are made insulated.

 In addition, the problem is solved in that the container and the foam supply pipe to the treatment unit are equipped with thermometers. In addition, the problem is solved by the fact that the treatment unit is equipped with a patient seat with armrests and a back in the form of a jumper, which is attached to the perforated grate, an infrared lamp, which is cantileverly attached to the base of the unit, and valves for venting excess air, foam and condensate drain.

 In addition, the problem is solved in that the two-layer shell is made of water and airtight material.

 The implementation of the procedural unit in the form of a dome from a water- and airtight two-layer shell connected to a compressor, with the help of which it is filled with warm air, makes it possible to insulate the treatment unit and maintain a constant temperature in it, to carry out the treatment in a comfortable sitting position, which ensures the creation of comfortable conditions for the patient during physiotherapeutic procedures due to the fact that he does not breathe the internal air of the treatment unit, which is saturated with therapeutic components.

 The supply of the machine unit with a foam generator, which is connected to the compressor, the liquid tank and the treatment unit, and the execution of the foam generator body and all pipelines with heat insulating materials allows to obtain a stable foam saturated with bioactive and surface-active substances, maintain a constant temperature throughout the passage of the mixture of air, medical components and foams, to carry out complex treatment, such as heat therapy and foam therapy, which extends the functionality of the installation, provides effective The effectiveness of the treatment reduces the fluid flow rate per treatment session.

 The implementation of the foam generator with at least three nozzles with shut-off valves for the removal of foam allows you to control the density and flow rate of the foam, get the foam and feed it into the treatment unit with different characteristics, which are determined by the type of physiotherapy procedure, which increases the effectiveness of treatment and creates comfortable conditions for the patient.

 Providing a liquid tank with a stirrer, a heater and a thermometer, as well as making it thermally insulated, allows you to get a homogeneous mixture of bioactive and surfactants, such as extracts of medicinal plants, essential oils, etc., to maintain a constant temperature and concentration of the mixture, which positively affects the conditions for physiotherapy procedures.

 The location in the treatment unit of an infrared lamp allows you to preheat the patient's body to perspiration, which helps to increase the effectiveness of the foam, the penetration of the therapeutic components of the foam into the pores of the patient's body. In addition, the presence of an infrared lamp allows, if necessary, to conduct heat therapy or complex treatment, which extends the functionality of the installation.

 The drawing shows a diagram of the inventive installation.

 The physiotherapeutic installation comprises a treatment unit 1 with a rigid heat-insulated base 2, inside which a perforated grate 3 and a pipe 4 with holes 5 for supplying foam are placed, and a machine unit, which includes a compressor 6, a heat-insulated liquid tank 7 with a metering unit 8, a mixer 9, a heater 10 and a thermometer 11, a foam generator 12, which has a thermally insulated housing 13 with nozzles 14, 15 for supplying air and liquid, respectively, and nozzles with shut-off valves 16, 17, 18 for the removal of foam, inside which a pipe 19 with perforation at the end and spirally wound ribs 20 is laid. A foam generator 12 is connected to the compressor 6 by a pipe 14 with an air flow meter 21 and a control valve 23, a liquid supply pipe 15 is connected to the tank 7 by a pipe 24 with a flow meter 25 and a shutoff valve 26, and the nozzles 16, 17, 18 for foam removal, it is connected to the pipe 4 with holes 5 using the pipe 27, on which the thermometer 28 is located. The compressor 6 is connected by a pipe 29 through the control valve 30 to the treatment unit ohm 1. The liquid tank 7 is connected by a pipe 31 through a shut-off valve 32 with a metering unit 8, and by a pipe 33 through a control valve 34 with a compressor 6.

 The treatment unit 1 is made in the form of a dome from a two-layer shell 35, which is attached on the periphery to the base 2 and is connected to the compressor 6 through the control valve 30 and pipe 29, and has a seat 36 for the patient attached to the perforated grating 3 with armrests and a back in the form of a jumper , an infrared lamp 37, which is cantilevered to the base 2 of unit 1, valves 38, 39, 40 for venting excess foam and air and for draining condensate, respectively, and an opening 41 for the patient’s neck. Along the two-layer shell 35 there is a section with a fastener 42.

 Physiotherapeutic installation works as follows.

The patient is placed in the middle of the treatment unit 1, seated on a seat 36 with a predetermined height. The disinfected bilayer sheath 35 is attached to the heat-insulated base 2, the shut-off valve 30 is opened and the compressor 6 is turned on, the control valves 23 and 34 are closed. Air with a compression temperature of 35 - 40 ^o C fills the internal volume of the two-layer shell 35 and spreads it. The excess air is discharged through the open valve 39. After that, the patient fastens the fastener 42 and through the hole 41 brings his head out. To increase the effectiveness of the therapeutic effect of the foam on the patient's body, it is heated with the included infrared lamp 37 until perspiration, after which the lamp is turned off. The shut-off valve 32 is opened and the necessary amount of liquid, which can be simple or mineralized water, a bioactive substance, such as an extract of a medicinal plant, essential oil, a surfactant, such as shampoo, is poured into a container 7 from a metering unit 8 through a pipe 31 into a mixture of substances the mixer 9, turn on the heater 10 and heat the mixture to a temperature of 37 - 45 ^o C, which is controlled using a thermometer 11. After the mixture is ready, open the control valve 34 (control valve s 23, 30 and shut-off valves 26, 32 are closed at the same time) and through pipelines 29, 33 they supply air to the container 7, creating excessive pressure in it, then open the shut-off valve 26 and through the pipe 24 and nozzle 15 feed mixed into the foam generator 12 liquid, and through the pipe 14, the open control valve 23 and the pipe 21 to the foam generator 12, air is supplied from the compressor 6. The amount of liquid and air supplied to the foam generator 12 is controlled by flow meters 25 and 22.

 In the foam generator 12, air bubbles that exit through the perforated end of the tube 19 are mixed with a turbulent fluid stream created by moving it along the spiral wound ribs 20, and become foam (gas bubbles separated by very thin layers of liquid). If you open the shut-off valve 16, then the densest and most stable foam will be supplied to the pipeline 27, but at a lower cost than when using the valve 18. The valve 17 is used if necessary to obtain a foam with average characteristics, which are determined by the type of physiotherapy procedure, treatment components and duration session. Foam, the temperature of which is controlled using a thermometer 28, is passed through a pipe 27 through a pipe 4 with holes 5 and a perforated grate 3 to the middle of the procedure unit 1. Filling the internal volume of the procedure unit 1, the foam envelops the body of the patient who has just finished perspiration, penetrates through pores of the skin in the patient's body, providing a therapeutic effect. The excess foam from the treatment unit 1 is removed through the valve 38. At the end of the treatment procedure, the internal equipment of the unit 1 is treated with a disinfectant solution, which is removed along with the condensate through the valve 40 into the sewer.

 Throughout the treatment procedure, a constant temperature and foam concentration are maintained in the treatment unit. Penotherapy procedures are carried out for 10 to 20 minutes, depending on the purpose, the course of treatment is 10 to 15 sessions.

 Thus, the use of the invention makes it possible to increase the efficiency of the formation of persistent and dense foam, and saturation with bioactive and mineral substances increases the biological effectiveness of the foam and the effectiveness of the treatment of diseases such as cardiovascular diseases, neurosis, impaired fat metabolism, skin diseases, polyarthritis, children's exudative diathesis and other diseases, create comfortable conditions for a sick patient due to the fact that he does not breathe the internal air of the treatment unit, etc. to introduce a comprehensive physiotherapeutic treatment.

Claims (3)

 1. Physiotherapeutic installation comprising a treatment unit with a rigid base, inside which a perforated grate is placed, and a machine unit including a compressor, a liquid tank with a metering unit, pipelines with control and shut-off valves and flow meters, characterized in that the treatment unit is made in the form domes from a water- and airtight two-layer shell, attached peripherally to the base of the block in which the pipe with holes is located, and is equipped with a seat with armrests and a back in the form of straps, valves for venting excess foam and air to drain condensate, as well as an opening for the patient’s neck, the machine unit is equipped with a foam generator, which has at least three nozzles with shut-off valves for removing foam, and the tank is equipped with a stirrer and a heater, with a two-layer shell the treatment unit is connected to the compressor by means of a pipeline with a control valve, the foam generator is connected by an air supply pipe to the compressor, a liquid supply pipe - with a tank and foam pipes - with a pipe with openings using a pipeline with flowmeters and with control valves, and the liquid tank, the foam generator body, the base of the treatment unit and all pipelines are insulated.  2. The physiotherapeutic installation according to claim 1, characterized in that the liquid tank and the foam supply pipe to the treatment unit are equipped with thermometers.  3. Physiotherapeutic installation according to claim 1, characterized in that the treatment unit is equipped with an infrared lamp, which is cantilevered attached to the base of the unit.