RU2560781C1 - Device for physiotherapeutic procedures - Google Patents

Abstract

FIELD: medicine.

SUBSTANCE: device comprises two or more therapeutic fluid containers, at least one of which is configured containing a weighed raw material in its interior content. Each container is provided with a heater, an outlet pipe for therapeutic fluid delivery to the user. Each of the above outlet pipes is connected to a first pipe line provided with a cooler and at least to one system for bath taking. Each bath is connected to a second pipe line provided with a pump and to each container with a temperature adjuster connected to a cold water pipe line and configured to pour the therapeutic fluid in drains as may be required. Each container has an ultrasound radiator at a frequency of 20-24 kHz and intensity of 10-12 Wt/cm2. The cooler has temperature control units on each input and temperature control and adjustment units on each output. The first pipe line is provided with a filter and a pump in front of the cooler. The heater is integrated into each container and attached to its outer surface or air gapped with its outer surface.

EFFECT: device enables creating the conditions eliminating permanent loss of biologically active substances from protein components of the raw material and improving the usability of the produced and used therapeutic fluid by means of the device, including by the ultrasonic exposure on the therapeutic fluid when producing it from the therapeutic raw material in the absence of the user.

14 cl, 1 dwg

Description

The invention relates to the field of physiotherapy, and in particular to devices for taking wellness, rehabilitation baths using aqueous extracts from solid raw materials of animal and plant origin, in particular, an extract obtained from frozen or dried antlers, in medical and preventive, spa .P. institutions.

A known device for conducting physiotherapy according to the certificate for utility model No. 20841 (publ. 06/29/2001) and a device for holding baths according to the patent of the Russian Federation No. 2106850 (publ. 03/20/1998) of the same applicant, which differ from other coolant supplied to the jacket of the reservoir with the healing fluid, and the fact that the utility model does not provide a cooler obtained at high temperature of the extract.

The closest to the claimed technical solution for the combination of essential features (prototype) is a device for holding baths according to the patent of the Russian Federation No. 2106850 (publ. 03.20.1998), containing two or more reservoirs with therapeutic fluid, at least one of which is made with the possibility of placing a sample of raw materials in the internal volume, each reservoir is equipped with a heating means, a drain pipe for dispensing treatment fluid to the user, each of these drain pipes is connected to the first pipeline equipped with a cooler and connected to at least one means of receiving physiotherapeutic procedures in the form of a bath, each bath is in communication with a second pipe provided with a pump and connected to each tank equipped with a temperature controller connected to the cold water supply pipe and configured to drain, if necessary, medicinal fluid into the sewer.

In the known device, there is no drainage from the baths of the used solution and filters on the first pipe in front of the flow-type cooler and on the second pipe in front of the pump pumping the used treatment solution to be pasteurized, there are no means to control the temperature of the treatment fluid at the cooler inlet and there are no control and regulation means temperature at the outlet of the cooler, which means measuring the temperature in the bath manually. In the event of an emergency (rupture of the cloth bag), it is necessary either to drain the treatment fluid into the sewer, which is expensive due to expensive raw materials, or to scoop out the feed that has fallen into the reservoir, which is impossible, with the unconditional exception of its particles in the treatment fluid, and then the bath will get the healing fluid with reduced organoleptic characteristics.

The design of the known device has limitations on the means used to heat the water in the tank (jacket of the tank with a coolant, which is used as heated water), which implements secondary electric heating, in which the heating elements heat the coolant in the jacket, and he, in turn, heats the tank. The water bath has low efficiency, increased inertia of heating, requires constant maintenance of the required water level and measures to remove scale.

The device provides for the presence of a pipeline for washing the tanks, but the same pipeline is used to supply cold water to the tanks, therefore, washing the tanks is also carried out with cold water, which is unacceptable by sanitary and hygienic requirements.

The multilevel placement of reservoirs and bathtubs, due to the lack of a pump in the treatment fluid supply pipeline, leads to an increase in the length of pipelines, increases the metal consumption of the device (the presence of metal structures on which reservoirs are installed, 1-1.5 m high).

The known device provides for the possibility of holding baths with repeated use of pasteurized therapeutic solution by different users who replace each other. But the device does not provide means for temporary storage of medicinal fluid, both with the aim of creating its stock, and for its multiple use by the same user.

The above disadvantages reduce the operational capabilities and amenities of the known device.

The used means of heating water in each of the tanks (water bath) determines the high temperature of obtaining the treatment fluid (extraction of raw materials) and pasteurization - 96-98 ° C for at least 1 hour. It is known (RF patent No. 2268059, published on January 20, 2006, and the applicant is the All-Russian Scientific Research Institute of Antler Reindeer Herding) that when heated to 70-75 ° C, the solubility of proteins inheriting the main factors of the biological activity of antlers decreases. So, the visible precipitation of albumin occurs at 67 ° C, for globulins - 69 ° C, for fibrinogen - 56 ° C. Therefore, the content of amino acids in the treatment fluid is reduced. In addition, a high temperature close to boiling leads, during the extraction and pasteurization processes, to the loss of a number of thermolabile biologically active substances, such as hormones and enzymes (RF patent No. 2054292, publ. 02.20.1996).

There are no means for updating the contact surface of raw materials with water, the extraction of raw materials is only due to keeping water in tanks at a temperature of 96-98 ° C for at least 1 hour, which is not technologically advanced, increases the extraction time, reduces the yield of extractable substances with unit quantities of raw materials.

Thus, the hardware design of the phase of obtaining the treatment fluid is not technologically optimized for processing raw materials with a high content of protein component.

In the prototype, crushed antlers are subjected to extraction, the inner porous part of which is filled with blood. The extraction of raw materials in hot water, in addition to the irretrievable loss of biologically active substances, leads to low organoleptic characteristics of the treatment fluid, which has an increased turbidity due to coagulated proteins, leaves traces (plaque) on the user's body, an odor objectively appears that is perceived as unpleasant. The extract, having low organoleptic characteristics, enters the bathtub to the consumer, reducing the aesthetic quality of the procedure. There are no functional units in the prototype device that improve the organoleptic of both the resulting treatment fluid in the tank and the treatment fluid received by the user in the bath. The unsatisfactory organoleptic properties of the treatment fluid worsen the working conditions of the maintenance staff and may cause the user to completely refuse to accept the physiotherapeutic procedure in the form of a bath, which narrows the circle of potential users.

Moreover, the known device has limited functionality to obtain therapeutic fluid only from antlers.

Therefore, the known device has a narrow functional and operational capabilities and lack of operational amenities.

The objective of the proposed technical solution is to create a technologically optimized device for physiotherapeutic procedures with increased operational capabilities, amenities and cost-effective functioning in the target area of action (the adoption of procedures by the user immediately after receiving the treatment fluid), expanding the arsenal of funds for this purpose while providing the possibility of inclusion in number of users of organolel sensitive the chemical properties of the treatment fluid by creating conditions that exclude the irrevocable loss of biologically active substances from the protein components of the feed and giving improved treatment properties to the treatment fluid that is used and used with the device, while maintaining the dignity of the prototype in terms of minimizing the steps of preparing the feed for treatment fluid without using additional reagents.

The inventive device has a high adaptability for use, as it creates the conditions for the psychologically easy reception of procedures by users and its maintenance by personnel.

The design of the path of movement of fresh and used medicinal fluid has been optimized, in addition, the height dimensions of the device are simultaneously reduced, the reliability of obtaining a functional result with high consumer properties is increased.

Obtaining treatment fluid from raw materials under gentle conditions reduces the energy cost of removing the product from a unit volume of technological equipment.

The structural implementation of the claimed device allows you to expand the raw material base.

Moreover, the inventive device provides for the possibility of providing a supply of therapeutic fluid, as well as the possibility of multiple use of a portion of the therapeutic fluid by the same user after pasteurization upon request.

The problem is solved by the claimed device for physiotherapeutic procedures, containing two or more reservoirs with therapeutic fluid, at least one of which is configured to accommodate a portion of the raw material, each reservoir is equipped with heating means, a drain pipe for dispensing treatment fluid to the user , each of these drain pipes is connected to a first pipe equipped with a cooler and connected to at least one means of receiving physiotherapeutic pro edur a bath tub, each communicated with a second conduit provided with a pump and connected with each tank provided with a temperature controller connected to the cold water supply conduit and adapted to discharge, if necessary, of medical liquids into sewers. The peculiarity lies in the fact that each tank is equipped with an ultrasound emitter with a frequency of 20-24 kHz and an intensity of 10-12 W / cm ² , the cooler is equipped at each inlet with temperature control, and at each outlet with control and temperature control, the first pipeline equipped with a filter and a pump located in front of the cooler, while the heating means is placed inside each tank or attached to its outer surface or placed with an air gap to its outer surface.

In particular, each tank is connected to a source of hot flushing water.

In particular, the heating means is made in the form of a tubular electric heater, or in the form of a submersible coil heat exchanger, or in the form of at least one electric burner, or in the form of an induction heater.

In particular, the means of temperature control and regulation, the device for filling water into each tank are connected to a control panel equipped with digital control elements.

In particular, the cooler is made in the form of a plate heat exchanger or in the form of a single-flow or multi-flow heat exchanger of the pipe-in-pipe type.

In particular, the means for monitoring the temperature at the inlet and outlet of the cooler are sensors or bimetal thermometers.

In particular, the means for controlling the temperature at the outlet of the cooler are two-way linear valves with a servo actuator or control valves with a manual actuator.

In particular, the device is equipped with at least one temporary storage capacity of the treatment fluid.

In particular, each temporary storage container for the treatment fluid is connected to the first pipeline.

In particular, each temporary storage container for the treatment fluid is in communication with each reservoir through a third pipe equipped with a filter and a pump.

In particular, each bathtub and temporary storage tank for treatment fluid is connected to a source of hot flushing water.

In particular, each bath and the temporary storage capacity of the treatment fluid is configured to discharge the treatment fluid into the sewer.

In particular, each temporary storage capacity of the treatment fluid is configured to be equipped with a means carrying information about a particular user.

In particular, one tank in the upper part is provided with a removable metal perforated or mesh cup.

Analysis of information sources showed that in the prior art there is no device for physiotherapy procedures with the claimed combination of essential features. But it is the proposed device with an optimized set of structural elements, selected for reasons of ensuring the necessary level of the whole complex of attainable parameters for the intended use of the device, which made it possible to achieve the above technical result and solve the problem.

The parameters of the ultrasound used are optimal.

Changing them upwards is not economically feasible, since energy costs increase without increasing the output of biologically active substances into the treatment fluid.

Changing them downwards reduces the qualitative and quantitative indicators of extraction and pasteurization.

The prior art method for producing an extract of saiga horns according to the author's certificate of the USSR No. 1814800 (publ. 05/15/1993), in which, simultaneously with a 5-8-minute extraction with distilled water at 20-25 ° C (raw material: water ratio 1:50) and stirring on a magnetic stirrer, the raw material-solvent system is exposed to ultrasound in order to more fully extract (yield) the target product and to intensify the method. At the same time, the core of the horns is removed before extraction, as it does not have biological activity (in antlers of maral, unlike saiga antlers, the most important part containing blood proteins), and the remaining raw materials are ground to a powder state, disintegrated to protoplasm. In this regard, it becomes possible to conduct extraction using ultrasound at a low temperature.

But this requires a complex, expensive step in preparing the raw material for extraction and mixing on a magnetic stirrer to update the contact surface between the raw material and the extractant, which entails the complication of the hardware design of the method. In addition, the known method relates to the industrial production of the extract, does not provide for the storage of disintegrated raw materials and, accordingly, does not allow extraction in close proximity to the place of bathing.

A known method of extraction from solid plant materials (in particular, ginseng roots, hawthorn fruits) according to the patent of the Russian Federation No. 2104733 (publ. 02.20.1998), including pre-grinding of plant materials with subsequent exposure to ultrasound with a frequency of 22 kHz, intensity 1-70 W / cm ² for 60-420 s in a solution of ethanol. The use of ultrasound is carried out in order to intensify the process of extraction of biologically active compounds and increase their content in solution.

The disadvantage is the mandatory use of ethanol (flammable liquid - flammable liquid), which reduces the safety of the process, increases its cost and indicates a small amount of extract obtained in laboratory conditions.

A known method of obtaining an aqueous extract of propolis according to the patent of the Russian Federation No. 2402923 (publ. 10.11.2010), including freezing propolis to a brittle state, grinding into a powder with a particle size of 2-4 mm, mixing the prepared propolis with distilled water and ultrasonic extraction in the mode cavitation for 2.5 hours continuously, while the extraction process gradually increases the temperature of the mixture to 50-60 ° C. The method allows to simplify the aqueous extraction process, provides the possibility of maximum output into the extract of intracellular fluids with the biologically active substances contained in them. The process takes place at temperatures that preserve the biological activity of protein compounds of the feedstock.

The disadvantage of this method is the long, expensive, with complex hardware design stage of preparation of raw materials for extraction, a long period of ultrasonic treatment. In addition, the method does not provide the ability to conduct extraction in close proximity to the place of bathing.

A known method of obtaining an aqueous extract of propolis according to the patent of the Russian Federation No. 2185181 (publ. July 20, 2002). The process of extraction of powdered raw materials with ultrasound is carried out for 20-30 minutes, but at the same time, at the second stage of extraction, after insisting, the temperature is raised to 80-90 ° C, moreover, water is ionized first, a stabilizer is introduced, which increases the cost and complicates the process, and the temperature is increased questions the preservation of the biological activity of protein compounds of the feedstock.

The proposed device allows to optimize the process of obtaining medicinal fluid and its pasteurization, to obtain the extract in one technological operation by setting physical parameters for the equipment. It is suitable for physiotherapeutic procedures using both animal and vegetable solid raw materials in accordance with the existing need.

In the inventive device, the used ultrasound parameters exhibit a set of properties - not only intensify the process of obtaining treatment fluid, although the level of intensification also increases, but also provide a balance between effective disinfection of the treatment fluid used and preservation of biologically active substances, increase the contact surface of raw materials and water without additional mechanical mixing by increasing the penetrating (penetrating) ability of water into the capillaries of the outer, harder part with Raw materials, in particular antlers, due to the sound-capillary effect, exclude the irretrievable loss of biologically active substances from the protein components of the raw materials without additional stages of preparation of the raw materials and without additional administration of any active agents, improve the organoleptic of the resulting treatment fluid. The use of ultrasound and temporary storage tanks made it possible to implement the concept of storing the supply of medicinal fluid and the concept of individual reuse of a portion of the medicinal fluid (the possibility of targeted use) while controlling the absence of harmful microflora in it and preserving organoleptic characteristics, since ultrasound not only disinfects the used medical pasteurization liquid, but also prevents its decay in temporary storage tanks (RF Patent No. 2381184, publ. 02/10/2010). The resulting therapeutic fluid has a higher thermal oxidative stability. There is no evidence that the organoleptic characteristics of the medicinal fluid used as a means for taking baths can be improved by using ultrasound when it is received.

Each of the solutions identified from the prior art that have a feature that matches the hallmark of the claimed invention (use of ultrasound) does not confirm the known influence of this hallmark on the technical result indicated by the applicant.

The claimed device for physiotherapy procedures is illustrated by the following graphic image.

The Figure shows a General diagram of a device for conducting physiotherapy procedures.

A device for carrying out physiotherapeutic procedures includes, in particular, a reservoir 1 for the preparation of therapeutic fluid, equipped in the upper part with a perforated or mesh stainless steel cup (not shown conventionally) and a reservoir 2 for pasteurization of the used therapeutic fluid. The volume of the glass is 1 / 20-1 / 30 of the volume of the tank 1, which is enough to accommodate a portion of the raw material, and ensures complete immersion of the raw material in the liquid. The glass is detachably or permanently connected to the lid or wall of the tank 1. Each tank is equipped with heating means 3, which, in particular, can be placed inside the tank and made, for example, in the form of a tubular electric heater (GOST 13268-88), which is shown in the Figure, in the form of a submersible coil heat exchanger (Pahlen Hi-flow, made in Sweden), can be attached to the outer surface of each tank and is made, for example, in the form of an annular heating element (GOST 13268-88), in the form of an electric burner (GOST 14163-88) or can be posted from in air gap to the outer surface of each tank and is made, for example, in the form of an induction heater "Edison" produced by CJSC "Plant of the Siberian Technological Engineering", Novosibirsk). Each reservoir is equipped with an ultrasound emitter (not shown conditionally), for example, UZTA-1/22-OM of the Volna-M series manufactured by Center for Ultrasonic Technologies LLC, equipped with a drain pipe 4 for dispensing the treatment fluid to the user. Each of the pipes 4 is connected to the first pipe 5, equipped with a filter 6, a pump 7 and a cooler 8 (for example, a plate apparatus according to TU 3612-001-72323163-2006 or, for example, a tube-in-pipe heat exchanger according to TU 3612-014- 00220302-99). The cooler 8 at each inlet is equipped with means for controlling the temperature 9 and at each outlet it is equipped with means for controlling 9 and regulating the temperature 10. The first pipe 5 is connected to at least one bath 11. Each bath 11 is in communication with a second pipe 12 equipped with a filter 13 and a pump 14 and connected to each tank. Each tank is equipped with a temperature controller (not shown conventionally), connected to a cold water supply pipe 15, connected to a hot water source through a third pipe 16 and a filter 17. The first pipe 5 is configured to connect to at least one temporary storage tank 18 therapeutic fluid, which is located in a cool room and is equipped with a tool that carries information about a specific user (for example, a nameplate with initials). Each tank 18 is in communication with each tank through a third pipe 16 provided with a filter 19 and a pump 20. Each bath 11 and each tank 18 is connected to a source of hot water through a filter 21, configured to drain the treatment fluid into the sewer. The device uses, for example, the so-called mud filters with a mesh size of 500 microns or oblique mesh filters manufactured by ITAP (Italy). The structural elements of the device are equipped with cranes 22 for technological maintenance.

The proposed device for physiotherapy procedures works as follows.

Open taps 22 for supplying cold water to the tank 1 from the pipeline 15 to the required level. A portion of biological raw materials is placed in a stainless steel glass, for example, frozen antlers, sawn into 4-7 mm thick circles, or mummy pieces, or ginseng root pieces in the amount prescribed by the technology for preparing the extract using a certain amount of water in the tank in accordance with the existing the need for a specific concentration of biologically active substances in the treatment fluid. They include heating elements, for example, a heating element 3. Water is heated to a temperature of 55-65 ° C, depending on the raw material. An ultrasound transducer is placed at the top of the tank so that its surface touches the water. The process of obtaining the treatment fluid is carried out for 20-30 minutes at a frequency of 20-24 kHz and a radiation intensity of 10-12 W / cm ² . Temperature control and regulation, pouring water into 1 tank is carried out through a control panel with digital control elements.

After receiving the treatment fluid in the tank 1, open the valve 22, the treatment fluid through the filter 6 through the pump 7 enters the cooler 8, where it is cooled to a temperature of 37-38 ° C. After the cooler 8, the treatment fluid enters the temporary storage tank of the treatment fluid 18 in order to create a reserve or in the bathroom, where one of the baths 11 is filled and the procedure is dispensed to the user. After the procedure, open the faucet 22 on the bath, and the used extract through the filter 13 by the pump 14 enters the second pipe 12 and then into the tank 2 for pasteurization at a temperature of 55-65 ° C for 20-30 minutes when applying ultrasound with a frequency of 20-24 kHz and an intensity of 10-12 W / cm ^2. After pasteurization through the drain valve 22 of the reservoir 2, the treatment fluid through the filter 6 through the pump 7 enters the cooler 8, and then either into the temporary storage tank of the treatment fluid 18 until the next user’s next procedure, or into the bath 11 for the next user to leave the procedure. The suitability of using the same portion of the treatment fluid is determined using a photoelectrocalorimeter (FEK) in comparison with the transparency and color of the reference sample.

The treatment fluid obtained using the inventive device is transparent (a white sheet of paper immersed in it is visible), in contrast to the muddy “broth” obtained with the prototype device (a white sheet of paper immersed in a liquid is not visible at all). Obtained using the inventive device, the treatment fluid has an odor corresponding to the smell of the treatment fluid obtained using the prototype device with a 30-fold dilution of the last distilled water. Odor was assessed by an individual user survey.

After tempering the procedures, each bath 11 is disinfected and rinsed with hot water.

Tanks 1 and 2, free of treatment fluid, are rinsed with hot water. To do this, close the taps 22 of the drain of the treatment fluid for dispensing to the consumer, open the taps 22 of the drain to the sewer, the taps 22 of the third pipeline 16, the tap 22 of the hot water source, turn on the pump 20. Hot flush water passing through the filters 17 and 19, pump 20, pipe 16 , tanks 1 and 2, shutoff valves, drains into the sewerage.

All possible actions of maintenance personnel to maintain in good sanitary condition the device for physiotherapy procedures are illustrated by the diagram shown in the Figure and understandable to any specialist in this field of technology. Equipping the structural elements of the proposed device with shutoff valves allows washing various technological units together or separately, depending on the existing need.

The inventive device for conducting physiotherapeutic procedures was experimentally tested in tests on various raw materials, the results of which showed its practical feasibility.

Claims (14)

1. A device for conducting physiotherapeutic procedures, comprising two or more reservoirs with therapeutic fluid, at least one of which is arranged to accommodate a portion of a raw material sample, each reservoir is equipped with heating means, a drain pipe for dispensing treatment fluid to the user, each said drain pipes are connected to a first pipe equipped with a cooler and connected to at least one means of receiving physiotherapeutic procedures in the form of a bath, each bath is in communication with a second pipeline equipped with a pump and connected to each tank, equipped with a temperature controller, connected to the cold water supply pipe and configured to drain, if necessary, the treatment fluid into the sewers, characterized in that each tank is equipped with an ultrasonic emitter with a frequency of 20-24 kHz and an intensity of 10-12 W / cm ^2, a cooler fitted to each inlet temperature control means, and for each output - control means and temperature regulating means, a first conduit abzhen filter and a pump arranged in front of the cooler, wherein the heating means located inside each container or attached to the outer surface or taken with an air gap to the outer surface. 2. The device according to p. 1, characterized in that each tank is connected to a source of hot flushing water. 3. The device according to p. 1, characterized in that the heating means is made in the form of a tubular electric heater, or in the form of a submersible coil heat exchanger, or in the form of at least one electric burner, or in the form of an induction heater. 4. The device according to p. 1, characterized in that the means of temperature control and regulation, the device for pouring water into each tank are connected to a control panel equipped with digital control elements. 5. The device according to p. 1, characterized in that the cooler is made in the form of a heat exchanger plate apparatus or in the form of a single-flow or multi-threaded heat exchanger of the "pipe in pipe" type. 6. The device according to claim 1, characterized in that the means for monitoring the temperature at the inlet and outlet of the cooler are sensors or bimetallic thermometers. 7. The device according to p. 1, characterized in that the means for controlling the temperature at the outlet of the cooler are two-way linear valves with a servo-drive or control valves with a manual drive. 8. The device according to p. 1, characterized in that it is equipped with at least one capacity for temporary storage of therapeutic fluid. 9. The device according to p. 1, characterized in that each container for temporary storage of therapeutic fluid is connected to the first pipeline. 10. The device according to p. 1, characterized in that each container for temporary storage of medicinal fluid is in communication with each reservoir through a third pipeline equipped with a filter and a pump. 11. The device according to p. 1, characterized in that each bath and the temporary storage capacity of the treatment fluid is connected to a source of hot flushing water. 12. The device according to p. 1, characterized in that each bath and the temporary storage capacity of the treatment fluid is made with the possibility of draining the treatment fluid into the sewer. 13. The device according to p. 1, characterized in that each capacity for temporary storage of therapeutic fluid is made with the possibility of equipping a tool that carries information about a particular user. 14. The device according to p. 1, characterized in that at least one tank in the upper part is equipped with a removable metal perforated or mesh glass.