RU2567830C1 - Method for implementing hydromassage scanner for carrying out hydrotherapeutic procedures - Google Patents

Abstract

FIELD: medicine.SUBSTANCE: method for implementing a hydromassage scanner for carrying out hydrotherapeutic procedures using a horizontal motion of a tube actuated by an electromechanical drive with a reversible motor; the above tube is arranged transverse to a patient's body and has a plugged end, whereas its other end is connected to a water source of a water-inlet pipe with a water spray formation elements directed to the patient; the water-inlet pipe is configured rotatable about its axis, locked in a pre-set position and mounted on a carriage configured reciprocating on parallel guides at a pre-set height and in a pre-set area along the patient's position direction. The parallel guides are mounted on a panel by means of collars and/or support arms; the panel is secured in turn, depending on the location either on a bathroom wall, or on support members resting directly on the floor, or connected to a bed assembly respectively. The first guide bears arm supports attached by means of mounting collars, rigidly connected to the mounting collars and used to bear the reversible motor and two tooth wheels mounted in bearing parts; the tooth wheels are configured so that a tooth belt or a loop chain is movable along it; an axis of one of them is an output shaft of the reversible motor or connected thereto through a gear assembly; the reversible motor enables reciprocation of the first guide rigidly connected to the toothed belt or loop chain and having rollers movable in grooves. The carriage is connected by means of the collar with the water-inlet pipe, which is L-shaped and detachable to enable changing a type of the water spray formation elements used or repositioning the water-inlet pipe from horizontally into vertically along the panel with the mounted equipment. The second guide to used to carry the roller movable thereon and connected to the collar also mounted on the water-inlet pipe; a collar axis has a support arm bearing firing actuators of treated area dimension sensors movable on the support arms provided with position regulators along either first, or dedicated guide. A flexible hose connected to the water source and attachable from the other side to a threaded element of a connection of the water-inlet pipe at least when the scanner is positioned in the bathroom is movable along two mounting stands attached to the panel at different levels on the periphery of a bath tub or a bed.EFFECT: enhancing, reducing mass and dimensions, facilitating the use of the scanner, as well as ensuring effectiveness and quality of hydrotherapeutic procedures.11 cl, 5 dwg

Description

The invention relates to methods for implementing devices for conducting both recreational and therapeutic water procedures and is intended for use, respectively, both in domestic bathtubs of residential buildings and in the hydrotherapy departments of hospitals, sanatoriums, as well as in SPA salons and fitness centers, for hydromassage procedures in the presence of a water acupuncture effect in various parts of the human body in a horizontal position.

A known method of implementing a hydromassage shower, including horizontal placement of a water-carrying pipe located above a sunbed for a patient, in the bottom wall of which numerous small outlet openings are made [1].

The disadvantage of this method is its relatively low efficiency, since during the corresponding water procedure, water jets directed downward hit the same points of the human body, exerting a monotonous effect on the patient and thereby worsening the effect of the massage produced.

Closest to the claimed technical essence and the achieved result, the known solution, selected as a prototype, is a method for implementing a hydromassage scanner for carrying out water procedures, including horizontal placement of a water supply pipe located across the deck with the outlet openings directed towards the deck, the possibility of rotation around its axis and fixation in a predetermined position mounted on a telescopic suspension, mounted on a carriage with electromechanical with a reversible electric motor, which is made with the possibility of reciprocating movement along the lounger and regulating the blasting zone and mounted on parallel guides located above the lounger and mounted on supports, while one end of the working pipe is plugged and the other with a flexible hose through solenoid valve connected to a water source. Moreover, the outlet in the wall of the working pipe can be formed in the form of a narrow longitudinal slot [2].

The disadvantages of the known method, selected as a prototype, are its relatively limited functionality that does not allow or makes it difficult (given the design features of the device that implements it, in particular the height and location of the guides above the supports), in particular:

- Placing a hydromassage scanner directly in the bathrooms of residential buildings, taking into account the need to place movable leads of the electric cable to the electric motor and water to the working pipe;

- placing the patient on a sunbed before and leaving him a sunbed after hydromassage procedures;

- adaptation of the number of outlet openings of the working pipe to various flow characteristics of the pressure system used to provide the desired water acupuncture effect, and on the other hand, a change over a wide range of the jet treatment zone while maintaining its predetermined intensity inside the treatment zone, due to the presence of only two types of holes in the working pipe of this device.

Other disadvantages of the known method, selected as a prototype, are significant weight and size characteristics of the hydromassage equipment manufactured by this method.

In addition, the use of holes or a narrow gap in the pipe does not allow the required hydrodynamic pressure of the jets due to the practical lack of the possibility of realizing holes with the most perfect (hydraulically) conoidal profile [3].

Finally, another drawback of this method is the need to move both the reversible electric motor itself, together with the carriage mounted on the telescopic suspension, and the electric cable connected to it, when performing reciprocating movements of the carriage, which increases the corresponding energy costs.

A new technical result consists in expanding functional capabilities, reducing weight and size characteristics, increasing the usability of a horizontal scanner, as well as the efficiency and quality of the hydromassage procedures carried out both in the domestic bath and on sunbeds located in the hydrotherapy departments of hospitals, sanatoriums, as well as in SPA salons and fitness centers, in the presence of an acupuncture therapeutic effect on various parts of the human body in a horizontal position.

This is achieved by the fact that in the method of implementing a hydromassage scanner for carrying out water procedures using horizontal, using an electromechanical drive with a reversible electric motor, moving located across the direction of patient placement, muffled on one side and connected to the water source with a water supply pipe directed to side of the patient by elements of formation of water jets made with the possibility of rotation around its axis, fixing in a predetermined position and reinforced oh on the carriage, which is implemented with the possibility of reciprocating movement on parallel rails at a predetermined height and in a predetermined, along the direction of patient placement, blasting area, according to the invention, the parallel rails, using clamps and / or brackets, are mounted on a panel that in turn, depending on the location, they are fixed, respectively, either directly on the bathroom wall or on vertical supports resting directly on the floor or connected to the design of the lounger, while on the first of the rails, using mounting clamps, placed brackets rigidly connected to them, used to install a reversible electric motor and two gears fixed in the bearings to move the toothed belt or an endless chain along them, the axis of one is or through a gearbox connected to the output shaft of a reversible electric motor, providing reciprocating movements rigidly connected to the toothed belt or an endless chain and equipped with a role kami moving in the grooves of the first guide, the carriage connected by a clamp to the water supply pipe, made L-shaped and detachable, to enable the rapid replacement of the type of used elements of the formation of water jets or to change the position of the water supply pipe - from transverse to horizontal, along the panel with installed equipment, and the second of the two guides is used to move the roller along it, connected to a clamp, also mounted on a water supply pipe, the axis of which is equipped with a bracket with installed activators for triggering sensors of the size of the treatment zone, which can be moved on brackets equipped with position clamps either along the first or specially designed guide, and a flexible hose connected to the water source connected on the other hand to the threaded element of the connecting element of the water supply pipe at least when placing the scanner in the bathroom, move along two lodges secured to the panel for laying them, which are installed at different levels on the panel the edge of the long side of the bath or lounger, with the shape shown in FIG. 1, 2, 3.

Moreover, the connection of the connecting element connected to the flexible hose with a water supply pipe, at least when placing the scanner in the bathroom, is performed using a design consisting of two 90 ° angles and two pipe sections of the corresponding diameter and made in the form shown in FIG. 12.

In this case, the lodgements for laying a flexible hose are performed with holes located in their lower part for draining water drops or with an inclination of 1-2 ° to the side of the bathtub or floor and at least two through grooves located in their upper part, through which they are mounted lodges to the panel and the necessary adjustment of their position in the horizontal and / or vertical planes.

And the flexible hose is connected to the water source through a section of the pipeline, permanently fixed on the panel, made of polymer components and materials, and fixed using clips mounted on the panel.

And as the first guide, use either a solid or composite (with a threaded joint of the extreme sections), thick-walled stainless steel pipe.

Permanent magnets are used as activators for triggering sensors of the size of the processing zone, and Hall sensors are used as sensors for the size of the processing zone.

At the same time, the reversible electric motor and the electromechanical drive, as well as the guide for moving along it the sensors of the treatment zone size located on the brackets equipped with clamps, are respectively equipped with splash shields and / or screens connected to the brackets fixed to the panel.

Moreover, as elements of the formation of water jets, they are used, which are connected to the horizontal part of the L-shaped water supply pipe that are equipped with a detachable sleeve, jet forming panels with the corresponding number of nozzle openings, individual nozzles with a conoidal profile of the holes installed in the threaded holes obtained by milling or injection of the horizontal pipe section , or directly shower head.

At the same time, a panel for placing hydromassage equipment is performed with at least two horizontal through slots located in its upper part through which it is fastened to the bathroom wall or to the construction of vertical supports.

And as a reversible electric motor, a stepping DC motor for a voltage of 12 or 24 V with a programmable control unit is used.

Moreover, the spray-shield connected to the brackets fixed to the panel to cover the electromechanical drive, including gears to move the toothed belt or an endless chain along them, is L-shaped, with a through hole for draining water drops located in its horizontal part.

Comparative analysis with the prototype shows that the inventive method is characterized by enhanced functionality, reduced weight and size characteristics, a more convenient horizontal scanner in operation, as well as higher efficiency and quality of the hydromassage procedures carried out both in the domestic bath and on sun loungers located in departments hydrotherapy of hospitals, sanatoriums, as well as in SPA salons and fitness centers, in the presence of an acupuncture therapeutic effect in various areas of la person in a horizontal position.

Thus, the claimed method meets the criteria of the invention of "novelty."

Comparison of the proposed solution not only with the prototype, but also with other technical solutions in this technical field showed that there is a known method for the implementation of a hydromassage shower (Vichy Soul), which includes horizontal placement of a water-carrying pipe located above the sunbed for a patient with five adjustable stationary nozzles (watering cans) [four].

The disadvantage of this method is its relatively low efficiency, because, during the corresponding water procedure, downward water jets hit the same points of the human body, exerting a monotonous effect on the patient and thereby worsening the effect of the massage .

In addition, another disadvantage of this method is the lack of technical equipment in its equipment that provides the ability to control the blasting zone.

This allows us to conclude that the claimed technical solution meets the criterion of "significant differences".

In FIG. 1 shows an embodiment of a hydromassage scanner for carrying out water procedures in a home bathtub, a view from the side of the bathtub with local cutouts, without installing a splash guard and screens.

In FIG. 2 shows an embodiment of a hydromassage scanner for carrying out water procedures in a home bathtub, a view from the end side of the bathtub with local cutouts, with splash guard and screens installed.

In FIG. 3 shows an embodiment of a hydromassage scanner for carrying out water procedures in a home bathtub, a view from the side of the bathtub with local cutouts, with splash guard and screens installed.

In FIG. Figure 4 shows an embodiment of a hydromassage scanner for carrying out water procedures in a hospital’s hydrotherapy unit or spa, a view from the front side of the hydromassage scanner with local cutouts, with splash guards and screens installed and jet forming panels located at an angle to each other with the corresponding number of nozzle openings connected to the water supply pipe.

In FIG. Figure 5 shows an embodiment of a hydromassage scanner for carrying out water procedures in a hospital’s hydrotherapy unit or spa, a view from the end of the hydromassage scanner with local cutouts, with splash guard and screens installed and a horizontal section of the L-shaped water supply pipe of the shower head connected to the detachable sleeve.

The composition of the proposed hydromassage scanner for carrying out water procedures includes either a bathroom mounted on the wall (see Fig. 1-3) or on vertical supports (see Fig. 4, 5), based directly on the floor of the hydrotherapy unit (next to the structure lounger, in this case), panel 1, on which, using clamps and / or brackets (not shown in Figs. 1, 3), parallel guides are installed, while on the first of the guides 2, using installation clamps 3, 4 , place brackets 5, 6 rigidly connected to them, use e for installation of a reversible electric motor 7 and two fixed in bearings (not shown in FIGS. 2, 4, 5), gears 8, 9 for moving a gear belt 10 along them, and gear 8, through (in this case ) a gearbox (made in the form of two gear wheels 11 and 12 connected to each other, one of which is rigidly connected to the axis of the gear wheel 8 and the other to the output shaft of the electric motor 7), is connected to the output shaft of the reversible electric motor 7, which provides reciprocating moving rigidly connected with a timing belt 10 and equipped with rollers (in FIG. 2, 4, 5 are not indicated), moving in the grooves 13 of the first guide 2, the carriage 14, connected by a clamp 15 with a water supply pipe 16, made L-shaped and equipped with a detachable sleeve 17, to enable rapid replacement of the type of used elements of the formation of water jets or to change the position of the water supply pipe 16 - from transverse to horizontal, along panel 1 with installed equipment, and a detachable sleeve 18 - to rotate around its axis and fix in a predetermined position closed from one end of the horizontal section 19 of the L-shaped water supply pipe 16, equipped either with a jet-forming panel 20 with the corresponding number of nozzle openings, or jet-forming panels 20 located at an angle to each other with the corresponding number of nozzle openings, or connected to the sleeve 18 of the water-supply L-shaped pipe 16 with a shower head 21 , and the second of the two rails - 22, detachably (in this case) connected to the corresponding brackets (in FIG. 2, 4, 5 are not indicated), they use a roller 23 to move along it, connected to a clamp 24, also mounted on a water supply pipe 16, the axis of which (not shown in FIGS. 2, 4, 5) is equipped with a bracket 25 with mounted on it activators (not shown in FIGS. 2, 4, 5) triggered by sensors 26, 27 of the size of the treatment zone, moved by brackets 28 equipped with position fixers either along the first or along the guide 29 specially allocated for them (see Fig. 2, 4, 5), and the flexible hose 30 connected to the water source, connected on the other hand, with by the power of a nut 31, with a threaded element of the connecting element 32 of the water supply pipe 16, at least when the scanner is placed in the bathroom, it is moved along two tool holders 33, 34 fixed to the panel for its installation, which are installed at different levels on the panel 1 along the edge the long side of the bath or sunbed (not shown in FIGS. 1-5) with the shape shown in FIG. 1, 2, 3.

In this case, the lodgements 33 and 34 for laying the flexible hose 30 are made with holes located in their lower part (not shown in FIGS. 1-5) to drain water droplets (in this case) and at least two placed in their the upper part, through horizontal (in this case) grooves (not shown in Figs. 1, 3) through which the lodgements 33 and 34 are fastened to panel 1 and the necessary adjustment of their position in the horizontal (in this case) plane.

And the connection of the flexible hose 30 to the water source is made through a section of the pipeline 35 permanently attached to the panel, made of polymer components and materials, and fixed using clips 36 installed on the panel 1.

And as the first guide 2 use either a solid or composite (with a threaded joint of the extreme sections), a thick-walled stainless steel pipe.

Permanent magnets are used as activators for triggering sensors 26, 27 of the size of the treatment zone, and Hall sensors are used as sensors 26, 27 themselves.

In this embodiment, the reversible electric motor 7 with the gear wheel 11 is closed with a splash guard 37, and the mechanical drive including the guide 2 and gears 8, 9 for moving the gear belt 10 over it is covered with splash shields 38 and 39, which are detachably connected to fixed on panels 1 with brackets 40 and 41, respectively. At the same time, the splash shield 38 is made L-shaped, with a through groove for draining water drops placed in its horizontal part (not indicated in FIGS. 2, 4, 5).

And the splash guard, for shelter from splashing water onto the guide 29 and moved along it and located on the brackets 28 equipped with clamps (not shown in Figs. 2, 4, 5), sensors 26, 27 of the size of the processing zone (in this embodiment), They are made in the form of two spherical and closed from the end faces of the surfaces 42 and 43, one of which - 42 is installed stationary and connected to the panel 1, and the other -43, through axes fixed in the bearings, located in the end sides of the surfaces 42 and 43 (in FIG. . 1, 2, 3 are not indicated), it is possible s angular displacement (rotation in this case) relative to the stationary fixed surface 42 to create a closed volume and, consequently, of protection inside the equipment and facilities from water splashes.

The installation procedure for the whirlpool scanner may be as follows.

Before attaching the panel 1 to the bathroom wall or to vertical supports resting directly on the floor and / or connected to the sunbed structure (not shown in FIGS. 4, 5), they successively produce:

- installation on the panel of brackets 40, 41;

- placement on the first guide 2 of the mounting collar 4 with the bracket 6 rigidly connected to it and fixed in bearings (not shown in FIGS. 2, 4, 5), a gear 9 mounted on an axis located in the slots of the bracket 6 (in FIG. 1, 2, 4, 5 are not indicated) and, according to the grooves 13, used to damp possible lateral and end vibrations moving with the help of rollers (not shown in FIGS. 2, 4, 5) of the carriage 14, equipped with a mounting element rigidly connected to it (not shown in FIGS. 2, 4, 5) for a threaded (in this case) connection with utom 15;

- placement on the first guide 2 of the installation clamp 3 with a bracket 5 rigidly connected to it and a reversible electric motor 7 mounted thereon with a gear wheel 11 and fixed in bearings (not shown in FIGS. 2, 4, 5) with a gear wheel 8 connected to the gear a wheel 12, which is articulated with a gear wheel 11 of the electric motor 7;

- installation on the gears 8 and 9 of the toothed belt 10 moved along them, with through holes formed therein (shown in Fig. 1 conventionally) to place fixing screws through them (not shown in Fig. 1), providing a rigid connection, through the connecting a plate (not indicated in FIG. 1) with a carriage 14;

- the implementation of the rigid connection of the toothed belt 10 with the carriage 14;

- fixing the clamps 3, 4 with the equipment installed on them on the first guide 2;

- fastening, using clamps and / or brackets (not shown in FIGS. 1, 3), the first, with the equipment installed on it, the guide 2, made integral or composite (with a threaded joint of the extreme sections, as shown in Fig. 1 ) directly to panel 1;

- fastening the splash shields 38 and 39 to the brackets 40, 41, respectively;

- fastening the guide 22 to the bracket 40;

- installation of two brackets 28 with position locks (not shown in FIGS. 2, 4, 5) and processing zone size sensors 26, 27 that can move vertically along grooves (not shown in FIGS. 2, 4, 5) -shaped mounting plate (not shown in FIGS. 2, 4, 5) and fixing in a predetermined position with the help of nuts (not shown in FIGS. 2, 4, 5) into a guide 29 specially allocated for them (see FIG. 2, 4, 5);

- fastening the guide 29 with brackets 28 and sensors 26, 27 of the size of the processing zone to the brackets (not shown in FIGS. 1, 2, 4, 5) installed in the upper part of the panel 1;

- fastening lodges 33 and 34 to the panel 1;

- fastening the clips 36 to the panel 1 and installing in them a section of the pipeline 35, made of polymer components and materials. Further, also sequentially, produce:

- fixing the panel 1 to the bathroom wall through horizontal through holes (not shown in FIGS. 1, 3) or to vertical supports resting directly on the floor (not shown in FIGS. 4, 5);

- threaded connection of the mounting element (not shown in FIGS. 2, 4, 5) of the carriage 14 with the clamp 15;

- fixing the water supply pipe 16 in the clamp 15;

- fastening on the water supply pipe 16 of the clamp 24 connected through an axis with a roller 23 moving along the second guide 22, the axis of which (not shown in FIGS. 2, 4, 5) is equipped with a bracket 25 with activators installed on it (in FIGS. 2, 4, 5 are not indicated) triggering of sensors 26, 27 of the size of the processing zone;

- installation of a splash guard in the form of two spherical and closed from the end faces of surfaces 42 and 43, one of which - 42 is installed stationary and connected to the panel 1 (see Fig. 1), and the other - 43, through axes fixed in bearings, placed in the end sides of surfaces 42 and 43 (not shown in FIGS. 1, 2, 3), has the possibility of angular movement (rotation, in this case) relative to the stationary surface 42, to create a closed volume;

- the connection of the nut of the flexible hose 30 with the outlet threaded element (not shown in FIGS. 1, 3) of a pipeline fixed from the panel section 35 made of polymer components and materials and connected directly or through an additional pipeline to the water source (mixer tap outlet bathroom);

- laying the flexible hose 30 in the lodgement 33 and the connection of its nut 31 with the threaded element of the connecting element 32 of the water supply pipe 16;

- installation, by replacing the detachable part of the coupling 18, one-piece connected to the horizontal section 19 of the L-shaped water supply pipe 16, of the corresponding number and / or type of jet forming panels used or of the jet forming panel 20 with the corresponding number of nozzle openings (see Fig. 1, 2, 3), or jet-forming panels 20 located at an angle to each other with the corresponding number of nozzle openings (see Fig. 2, 4), or a shower head 21 (see Fig. 5).

On this, the implementation of the hydromassage scanner for carrying out water procedures, in particular in a home bath (see Fig. 3), the view from the side of the bath with local cutouts and installed splash guard and screens is complete.

The operation of the hydromassage scanner can be described as follows.

In the initial state, the horizontal section 19 of the L-shaped water supply pipe 16 equipped with one (in this case) jet-forming panel 20 is in a horizontal position relative to the bath along the panel 1 with the equipment installed (shown by a dotted line in Figs. 1, 3) .

Bringing the horizontal section 19 of the L-shaped water supply pipe 16 to the working state (shown by the solid line in Figs. 1, 3) is carried out by successive disassembly and fixing of the nut of the detachable sleeve 17.

Then, sequentially, the following operations are performed:

- the task, using successive mechanical disconnection and fixing of the nut of the detachable sleeve 18 of the required angle of attack (usually of the order of 15 ° -30 ° from the vertical) formed by the jet forming panel 20 (in this case) of a “packet” of parallel jets with diameters of the submillimeter range (0 6-0.8 mm);

- adjustment (if necessary) using the clamps 15 and 24 of the vertical position of the jet forming panel 20 and the roller 23.

Further, with the open spherical surface 43, it is set, by moving along the guide 29 of the brackets 28 (with the latches pressed), with the sensors 26, 27 installed on their brackets, the required zone of jet-dynamic processing, and then angular movement is performed (rotation, in this case) of a spherical surface 43 relative to a stationary surface 42 (the essence of closing) to create a closed volume and, as a result, protect the equipment and technical equipment inside from water splashes (see Fig. 2, 3).

Also, using the automatic control unit (not shown in Fig. 1-5), the speed and / or the number of reciprocating horizontal movements of the water supply pipe 16 can be set.

Then, water is supplied with the temperature necessary for carrying out the procedure (as a rule, not higher than 38-40 ° C) to the pipe section 35 connected, for example, to the outlet for the shower hose of the mixer tap (not shown in Figs. 1-5), as well as regulation of the water flow rate according to the hydrodynamic pressure of the water jets formed at the same time at the outlet of the jet forming panel 20, which is in the far right, shown by the dotted line in FIG. 1, 3, position (in this case).

After placing the patient in the bath (Figs. 1-3) or on a lounger (Figs. 4, 5) and closing the curtain-screen (to prevent water splashes outside the volume of the domestic bath), the device is prepared for hydromassage procedures.

By the “Start” signal from the corresponding output of the automatic control unit or the remote control (not shown in FIGS. 1-5), the process of horizontal hydromassage is carried out directly when a person is in a horizontal position either in the bath (see Fig. 1-3), or sunbed (see Fig. 4, 5).

In this case, the output shaft of the reversible electric motor 7 with gear 11 starts sequentially, according to signals from the automatic control unit (BAU), to rotate the gear 12 connected to it in both directions, rigidly connected to the axis of the gear 8 fixed in the bearing and connected to it, through the toothed belt 10 and also toothed wheel 9, which is also fixed in the bearing, which, in turn, makes the connecting element rigidly connected to the toothed belt 10 to reciprocate, and firmly connected to the latter, the carriage 14, moving in the grooves 13 of the first guide 2, used to damp possible lateral and end vibrations, and therefore connected to the clamp 15 with a water supply pipe 16 and connected to the latter through, equipped with an arm 25 with mounted on it activators (not shown in FIGS. 2, 4, 5) triggered sensors 26, 27 of the size of the treatment zone, the axis of the clamp 24, the roller 23, moving along the guide 22.

Thus, throughout the entire time or a predetermined number of reciprocating movements of the jet forming panel 20 (in this case) relative to the human body, the supply (depending on the type of the jet forming element and / or the available water flow in a particular bath 1) of the corresponding packet of parallel and thin (0.6-0.8 mm in diameter) jets of water, a significant length, a multiple of, for example, 200 mm, and high kinetic energy supplied to the selected for processing (in this case, using sensors 26, 27) to the human body.

If the actual specific water flow rate, with the temperature necessary for the procedure in a particular bathroom, is sufficient to accommodate a ∧-shaped structure (for example, at a specific water flow rate - q _Ud ≥ 0.2 l / s or, if necessary increasing the width of the blasting zone), it is possible to use the design shown in FIG. 2, 4, the angle between the jet forming panels 20 in which can be set corresponding to that shown in FIG. 2, 4, the location and connection (for example, welding) of the cross and the corresponding sections of the pipe (not shown in Fig. 2, 4).

If the value of the actual specific water flow rate, with the temperature necessary for the procedure in the particular bathroom, is insufficient for the use of jet-forming panels 20 or, if necessary, processing, for example, the spine, it is possible to connect a horizontal section connected to a threaded element (not shown in Fig. 5) 19 of the pipe 16, shower head 21 with holes of the conoidal profile and output diameters of the submillimeter range in the spray grid.

A reciprocating movement in the horizontal plane of the mounting element (not shown in FIGS. 2, 4, 5) connecting the carriage 14 with the clamp 15 mounted on the water supply pipe 16 is made through a through groove (not indicated in FIGS. 1-5) formed by splash shields 38, 39.

After the end of the processing time and reaching the extreme right, shown by the dotted line in FIG. 1, 3, the position of the water supply pipe 16 or working out the entire specified number of reciprocating (in this case) horizontal movements of the jet forming panel 20, or a ∧ -shaped structure (see Fig. 2, 4) or shower head 21 is made from the remote control remote control or automatic (from the corresponding outputs of the BAU), turning off the reversing electric motor 7 and stopping the horizontal movement of the water supply pipe 16 with the selected jet forming device.

In this case, the equipment is protected from water splashes generated during the hydromassage process using the spray guard 37, the splash shields 38, 39 and the movable surface 43 of the spray guard.

In addition, after the completion of hydromassage procedures, it is possible to carry out the process of removing moist air from the room, which can be carried out either by a stationary fan of the room or connected to it through a corrugated sleeve, a bell located directly above the jet-dynamic processing zone, connected for example, with the design of the water supply pipe 16.

Thus, the proposed method for implementing a hydromassage scanner for carrying out water procedures with cantilever placement of a water supply pipe, in comparison with the known one selected as a prototype, is characterized by enhanced functionality, reduced weight and size characteristics, increased ease of use of a horizontal scanner, as well as the efficiency and quality of the hydromassage procedures implemented both in a domestic bath and on sun loungers placed in the hospital’s hydrotherapy departments, sanatoriums, as well as in SPA salons and fitness centers, in the presence of an acupuncture therapeutic effect on various parts of a person’s body in a horizontal position.

The implementation of the proposed method does not meet fundamental difficulties.

So, for example, jet forming panels or shower nets in a shower head can be manufactured according to RF patent No. 2046685 with a nozzle hole structure formed in accordance with RF patent No. 2296672 using appropriate thermoplastic material, molds and equipment, for example, an ARBURG-A injection molding machine 270-21-500.

And as a thermoplastic material for hydromassage panels, you can use polystyrene, ABC plastic, polypropylene or fluoroplastic, followed by hardening.

The water supply pipe can be made from standard components made of polypropylene: split couplings, angle 90, combined angle 90 °, tee, as well as pipes supplied by AQUART.

As the electric motor of the reciprocating movement mechanism, taking into account the relatively small mass of the transported load (about 2-3 kg), AD-200 or FL86STH series DC stepping motors with a supply voltage of 24 and 12 V, respectively, with programmable control units can be used Type SMSD-4.2.

As sensors for the size of the processing zone, both contactless Hall sensors SM8-31010NA with activators of their operation in the form of permanent magnets of the CSN-25 type and contact sensors based on microswitches controlled by activators of their operation made in the form of plates of the corresponding profile can be used.

Moreover, taking into account the estimated dimensions (diameter and length) of the electric motor used in the implementation of the scanner, the diameter of the carriage, as well as the diameter of the water supply pipe and the length of the connecting element between the carriage and the clamp mounted on the water supply pipe, the width of the equipment installed on the panel can be determined within 100-120 mm, which is quite acceptable when placed in a standard bath, not to mention a significant (at times) reduction in weight and size characteristics compared to the prototype.

A comparison of the technical characteristics and functionality of the proposed method for implementing a hydromassage scanner for carrying out water procedures with other domestic and foreign devices of a similar purpose, as well as data from experimental studies, indicate the guaranteed achievement of a new technical result both in bathrooms with different quantitative parameters of pressure systems and requirements for the intensity and type of hydromassage procedures being implemented, as well as in aquarius departments cheniya hospitals, health centers, as well as a spa and fitness center.

In addition, the proposed scanner can be interesting when used as equipment for cleaning various materials from contaminants, including without the use of chemicals, which was verified by washing clothes in the bath.

INFORMATION SOURCES

1. Olefirenko V.T. Hydrotherapy. - M.: Medicine, 1986, p. 83.

2. RF patent No. 2317808, M. Cl. A61H 33/06, A61H 9/00, 2006 - prototype.

3. Kozlov Yu.S. and others. Cleaning products in mechanical engineering. - M.: Mechanical Engineering, 1982, p. 102.

4. Promotional materials of LLC Physiotechnika, St. Petersburg, pp. 6, 7, 24.

Claims (11)

1. A method of implementing a hydromassage scanner for carrying out water procedures using horizontal, using an electromechanical drive with a reversible electric motor, moving located transverse to the patient’s placement direction, muffled on one side and connected on the other hand to the water source of the water supply pipe with forming elements directed towards the patient jets of water, made with the possibility of rotation around its axis, fixing in a predetermined position and mounted on a carriage, which It is lined with the possibility of reciprocating movement on parallel guides at a given height and in a predetermined, along the direction of patient placement, blasting zone, characterized in that the parallel guides, using clamps and / or brackets, are installed on the panel, which, in turn, , depending on the location, are fixed, respectively, either directly on the bathroom wall, or on vertical supports, resting directly on the floor or connected to the design of the sunbed, with volume on the first of the rails, using the mounting clamps, place the brackets rigidly connected to them, used to install a reversible electric motor and two gear wheels fixed in the bearings to move the gear belt or an endless chain along them, the axis of one is connected to output shaft of a reversible electric motor, providing reciprocating movements rigidly connected to the toothed belt or endless chain and equipped with rollers moving in the first guide rail, the carriage, connected by a clamp with a water supply pipe, made L-shaped and detachable, to enable the rapid replacement of the type of used elements of the formation of water jets or to change the position of the water supply pipe - from transverse to horizontal, along the panel with installed equipment, and the second of two guides is used to move a roller along it, connected to a clamp also mounted on a water supply pipe, the axis of which is equipped with a bracket mounted on we use activators for triggering sensors of the size of the treatment zone that can be moved on brackets equipped with position clamps either along the first or specially designed guide, and a flexible hose connected to the water source, connected on the other hand to the threaded element of the connecting element of the water supply pipe, at least when placing the scanner in the bathroom, move along two lodges fixed to the panel for laying them, which are installed at different levels on the panel along the edge of the long side of the van Us or a sunbed. 2. The method according to p. 1, characterized in that the articulation of the connecting element connected to the flexible hose with a water supply pipe, at least when placing the scanner in the bathroom, is performed using a design consisting of two 90 ° angles and two pipe sections of the corresponding diameter. 3. The method according to p. 1, characterized in that the lodgements for laying a flexible hose are performed with openings located in their lower part for draining water drops or with an inclination of 1-2 ° to the side of the bathtub or floor and at least two placed in their upper part through grooves, through which the lodgements are fastened to the panel and the necessary adjustment of their position in horizontal and / or vertical planes. 4. The method according to p. 1, characterized in that the flexible hose is connected to the water source through a section of the pipeline, permanently attached to the panel, made of polymer components and materials, and fixed using clips mounted on the panel. 5. The method according to p. 1, characterized in that the first guide is used either solid or integral, with a threaded joint of the extreme sections, a thick-walled stainless steel pipe. 6. The method according to claim 1, characterized in that permanent magnets are used as activators for activating sensors of the size of the processing zone, and Hall sensors are used as sensors for the size of the processing zone. 7. The method according to claim 1, characterized in that the reversible electric motor and the electromechanical drive, as well as the guide for moving along it the sensors of the treatment zone size located on the brackets equipped with clamps, are respectively equipped with splash shields and / or screens connected to the brackets fixed to the panel. 8. The method according to p. 1, characterized in that the jet forming elements with the corresponding number of nozzle openings, separate nozzles with a conoidal profile of the holes that are installed in the threaded holes are used as elements for forming water jets using a horizontal part of the L-shaped water supply pipe that is equipped with a detachable sleeve obtained by milling or injection of a horizontal pipe section, or directly to a shower head. 9. The method according to p. 1, characterized in that the panel for accommodating hydromassage equipment is performed with at least two horizontal through grooves located in its upper part, through which it is fastened to the bathroom wall or to the construction of vertical supports. 10. The method according to p. 1, characterized in that as a reversible electric motor use a stepper DC motor for voltage of 12 or 24 V with a programmable control unit. 11. The method according to p. 7, characterized in that the splash shield connected to the brackets fixed to the panel for sheltering the electromechanical drive, including gears for moving the toothed belt or an endless chain along them, is L-shaped, with a through hole located in its horizontal part a groove for draining drops of water.

Images