RU2121373C1 - Respiratory apparatus for physiotherapeutic procedures (variants) - Google Patents

Abstract

FIELD: medicine. SUBSTANCE: apparatus has hollow sectional body with gravitational reed valve mounted in it for axial displacement. Valve is provided with guide tubular channel. Reed valve of outlet holes is made in form of flexible circular membrane with central hole. It is positioned on delivery channel nipple with overlapping of outlet holes and is pressed to body by flexible circular member set on nipple. Membrane protrudes above body with its circular edge and may be bent out to form slotted clearance between it and body for emergency discharge of respiratory medium. In other variant of apparatus by-pass sector slots are made between reed valve and internal surface of body on side of delivery channel. Sector slots communicate with outlet holes through hollow and are separated from one another by radial projections arranged uniformly. These projections are made integral with reed valve. EFFECT: enhanced reliability and efficiency. 3 cl, 5 dwg

Description

 The invention relates to medicine, more specifically to medical equipment, and can be used in devices for influencing the respiratory system, for example in breathing apparatus for physiotherapeutic procedures, and for improving the valve system.

 A device for breathing training, comprising a hollow body with channels and an elastic flap valve located inside the body, made with limiters in the form of rods for independent regulation of the position of the flap valve (USSR Author's Certificate N 1442218, A 61 M 16/06, 1988). The disadvantages of the device include the unreliability of blocking the channel with an elastic flap valve due to its bilateral deflection relative to the corresponding rod and the formation of side gaps that contribute to the leakage of the respiratory medium.

 Known breathing apparatus for physiotherapeutic procedures, comprising a hollow detachable body with supply and discharge channels, an elastic membrane with a convex hollow wedge-shaped closing valve with a through slot at the end in its central part directed into the discharge channel communicated by its membrane cavity through the outlet openings in the housing with an atmosphere in which a nozzle is installed in the wedge-shaped valve of the elastic membrane, mounted on the side of the supply channel, provided with a support flange ( Single RF N 94024116/14, IPC A 61 M 16/00, publ. 1996).

 The breathing apparatus requires precise adjustment of the valve system and does not exclude the cone-shaped valve from slamming through the nozzle towards the supply channel, which is unsafe due to the ingress of the used respiratory medium. In addition, the manufacture of an elastic membrane with a cone-shaped valve is complex, accurate, expensive equipment is needed.

 The closest analogue selected as a prototype is a breathing apparatus for physiotherapeutic procedures, containing a hollow detachable body with supply and discharge channels and exhaust openings, housed in the body with the possibility of axial movement in it relative to the discharge channel, a gravity plate valve with a guide channel located in it and, respectively, flap valves installed at the outlets of the supply and guide channels and the outlet openings (Copyright childhood of the USSR N 186100, IPC A 61 M 16/20, 1966).

 The disadvantages of the prototype include sticking of the gravitational plate valve during exhalation of the respiratory medium, the lack of concentration of the flow of the respiratory medium in the guide channel of the gravitational valve, the increased resistance of the guide channel, made in the form of a simple hole in the plate valve, the inability to provide air pressure in case of breath holding, emergency discharge of the respiratory environment.

 The main objective of the development is the creation of a breathing apparatus for physiotherapeutic procedures, which would allow filling the patient’s lungs with the respiratory medium to a level favorable for the exchange of the respiratory medium, emergency removal of the respiratory medium if necessary.

 The technical result, a positive physiotherapeutic indication when using the invention, is to increase its reliability and efficiency when used in the apparatus, ease of use of the apparatus and speed of its use.

 The main task is solved and the technical result is achieved by changing the design of the breathing apparatus, its valve system.

 For this purpose, in a breathing apparatus for physiotherapeutic procedures, containing a hollow detachable body with supply and discharge channels and exhaust openings, placed in the body with the possibility of axial movement in it relative to the discharge channel, a gravity plate valve with a guide channel located in it and, respectively, installed at the outputs of the supply, guide channels and outlet openings flap valves, the guide channel of the gravity plate valve is made tr cushioned, and the flap valve of the outlet openings is made in the form of a flexible annular membrane with a central hole installed by it on the nipple of the discharge channel with the outlet openings pressed against the housing by an elastic ring element worn on the nipple, the annular edge protruding above the housing with the possibility of bending it and forming between it and the gap gap housing for emergency venting. The flexible annular membrane is made convex in shape, supported on the housing surface from the side of its niche.

 In another embodiment of a breathing apparatus for physiotherapeutic procedures, comprising a hollow detachable body with a supply and discharge channels and outlet openings, a plate valve located in the body with a guide channel located therein, respectively, flap valves installed at the outlet of the supply channel and outlet openings, a guide channel of the plate valve made tubular, between the plate valve and the inner surface of the housing from the discharge channel sectorial slots communicated by the cavity with the outlet openings, separated by evenly spaced radial protrusions made in one piece with the plate valve, and the flap valve of the outlet openings is made in the form of a flexible annular membrane with a central opening mounted on the nipple of the discharge channel with the discharge outlet overlapping holes pressed to the housing by an elastic ring element worn on the nipple, an annular edge protruding above the housing with the possibility of bending and the formation of the bottom and the gap gap housing for emergency venting.

Distinctive features of the breathing apparatus for physiotherapeutic procedures of the first embodiment are the signs:
- the implementation of the guide channel of the gravitational plate valve tubular,
- the execution of the flap valve of the outlet in the form of a flexible annular membrane with a Central hole,
- placement of a flexible annular membrane with a Central hole on the nipple of the discharge channel,
- overlapping the outlet openings with a flexible annular membrane,
- pressing the flexible annular membrane to the housing with an elastic annular element worn on the nipple,
- protrusion of the flexible annular membrane annular edge above the housing,
- the possibility of bending the annular edge of the flexible annular membrane and the formation between it and the housing gap gap for emergency discharge of the respiratory environment,
- the implementation of a flexible annular membrane of convex shape, supported on the housing surface from the side of the niche.

Distinctive features of the breathing apparatus for physiotherapeutic procedures of another embodiment are the signs:
- the implementation of the guide channel of the plate valve tubular,
- the implementation of the bypass sector slots between the plate valve and the inner surface of the housing from the discharge channel,
- communication of the cavity of the discharge channel with the outlet through sector slots,
- separation of sector slots with radial protrusions made in one piece with a plate valve,
- execution of the flap valve outlet in the form of a flexible annular membrane with a Central hole,
- installation of a flexible annular membrane with a Central hole on the nipple of the discharge channel,
- overlapping a flexible annular membrane of the outlet openings,
- pressing the flexible annular membrane to the housing with an elastic annular element worn on the nipple,
- protrusion of the flexible annular membrane annular edge above the housing,
- the possibility of bending the annular edge of the flexible annular membrane and the formation between it and the housing gap gap for emergency discharge of the respiratory environment.

 These distinctive features are significant, each of them individually and jointly aimed at solving the problem and achieving a new positive effect. The exclusion of any of them does not allow to solve the task. For example, the failure of the flap valve on the outlet openings in the form of a flexible annular membrane mounted on the nipple of the injection channel with the outlet openings overlapping and the protrusion of its annular edge above the body does not preclude air leakage when the breathing medium is fed into the discharge channel, and does not provide an emergency discharge of the respiratory medium in case of the appearance of unwanted symptoms, coughing, or cramping in a patient. Failure to guide the channel of the gravitational valve to the tubular does not ensure the concentration of the flow of the respiratory medium and its flow into the discharge channel. A flexible annular membrane provides breathing air retention during breath holding, accelerates the implementation of the respiratory process, and reduces temporary losses. The convex shape of the annular membrane provides a snug fit to the housing, which gives another advantage in eliminating air leakage when the respiratory medium is fed into the discharge channel. The flexibility of the annular membrane along its entire contour ensures free opening upon exhalation of the respiratory medium. The distinguishing features of another variant of the breathing apparatus for physiotherapeutic procedures are partially similar to the previous one, the remaining distinguishing features characterizing the performance of slotted gaps between the plate valve and the body are necessary for the respiratory medium to pass into the outlet when it is discharged, since in this version the position of the plate valve is fixed. This eliminates the delay in exhalation and speeds up the breathing process.

 A comparative analysis of the proposed technical solutions with the prior art, analogues and prototype shows that these distinctive essential features are new and, together with the general essential features of the prototype, characterize the proposed technical solutions according to the criterion of "novelty." A single set of new essential features with common known essential features allows the proposed technical solutions to solve the problem and achieve a new physiotherapeutic result, which characterizes the proposed technical solutions with significant differences from the prior art, analogues and prototype. The proposed technical solutions are the result of experimental work and creative contribution, obtained without the use of well-known design solutions or any recommendations in the field of medical technology, are original and meet the criterion of "inventive step".

 The invention is illustrated by drawings.

 In FIG. 1 and FIG. 2 shows general views of breathing apparatus for physiotherapeutic procedures (options), FIG. 3 and FIG. 4 - diagrams of the operation of breathing apparatus, in FIG. 5 - convex membrane. The breathing apparatus for physiotherapeutic procedures (Fig. 1) contains a hollow detachable body 1 with a supply and discharge channels 2, 3 and exhaust openings 4, located in the body 1 with the possibility of axial movement in it relative to the discharge channel 3, a gravity plate valve 5 with located in it guide channel 6 and, respectively, installed on the outputs of the feed, guide channels 3, 6 and exhaust openings 4 flap valves 7, 8, 9. The guide channel 6 of the gravity plate valve 5 made tubular, and the flap valve 9 of the outlet openings 4 is made in the form of a flexible annular membrane with a central hole 10, installed by it on the nipple 11 of the injection channel 3 with the overlapping of the outlet openings 4, pressed to the housing 1 by an elastic ring element 12, worn on the nipple 11, the ring the edge 13 protruding above the housing 1, with the possibility of bending it and the formation between it and the housing 1 of the gap gap 14 for emergency discharge of the respiratory environment. A flexible annular membrane 9 can be made in addition to a flat and convex shape (Fig. 5) supported by the surface 1 of the surface 15 from the side of its niche 16.

 In another embodiment, the breathing apparatus for physiotherapeutic procedures (Fig. 2) comprises a hollow detachable housing 17 with supply and discharge channels 18, 19 and outlet openings 20, a plate valve 21 located in the housing 17 with a guide channel 22 located therein, respectively mounted at the outlet the feed channel 18 and the outlet openings 20 flap valves 23, 24. The guide channel 22 of the plate valve 21 is made tubular, between the plate valve 21 and the inner surface 25 of the housing 17 from the discharge side of the channel 19, cross-sectional slots 26 are made, communicated by the cavity 27 with the outlet openings 20, separated by evenly spaced radial protrusions 28, made in one piece with the plate valve 21, and the flap valve 24 is made in the form of a flexible annular membrane with a central hole 29, installed on the nipple 30 of the discharge channel 19 with the overlapping of the outlet openings 20, pressed against the housing 17 by an elastic ring element 31, worn on the nipple 30, the annular edge 32 protruding above the housing 17 with zhnosti limb and its formation between it and the body 17 slit gap 33 for emergency relief of respiratory protection.

 Cases 1, 17 (Fig. 1, Fig. 2) of breathing apparatus for physiotherapeutic procedures, gravity plate valve 5, plate valve 21 and flexible annular membranes 9, 24 are made of polyethylene, flap valves 7, 8 and 23 are made of elastic rubber or polyurethane.

 The functioning of breathing apparatus is as follows. Breathing apparatuses (Fig. 1, Fig. 2) are installed in the oral cavity with the delivery channels 3, 19 giving them an appropriate position, the respiratory medium is supplied through the channels 2, 18, under the pressure of which the flap valves 7, 23 open and the respiratory medium enters the guides channels 6, 22, made tubular for concentration of the stream, from where to the discharge channels 3, 19. Air does not suck in breathing apparatus through exhaust openings 4, 20, since these openings are blocked by annular membranes 9, 24 with a tight fit we take them to the buildings 1, 17. After filling with the respiratory medium and the corresponding gas exchange, the respiratory medium is discharged by the reverse flow with closed flap valves 7, 23 into the outlet openings 4, 20. With the reverse flow of the respiratory medium in the apparatus (Fig. 1), the gravity plate valve 5 rises with its closed flap valve 8 and the closed flap valve 7 of the apparatus, the respiratory medium enters the outlet 4, squeezes the flexible annular membrane 9 and enters the atmosphere. In the apparatus (Fig. 2), the reverse flow of the respiratory medium enters the outlet openings 20 through the slit gaps 26 with the same extraction of the flexible annular membrane 24, while the flap valve 23 is closed. To accelerate the filling of the apparatus, the flexible annular membranes 9, 24 can additionally be pressed against the housings 1, 17. With an emergency pressure and respiratory environment, the flexible annular membranes 9, 24 are bent from the housings 1, 17 beyond their annular edges 13, 32 with the formation of corresponding gap gaps 14, 33 to exit the respiratory environment.

 Tests of breathing apparatus manufactured using new technical solutions showed positive results and confirmed the feasibility of their industrial production. Thus, the new technical solutions described above, in terms of the design of the proposed options, are effective in comparison with the prior art, and also meet the criterion of "industrial applicability", i.e. level of inventions.

 The scope of the proposed inventions should be understood more broadly than the specific implementation given in the description, formula and drawings. It should be borne in mind that the form of the invention is only possible, preferred embodiments of the invention in relation to the shape, size and location of the individual elements, if all this does not fall outside the scope of the invention set forth in the claims.

 In addition, the present invention does not limit its use in breathing apparatus for physiotherapeutic procedures and can be used in devices for supplying a respiratory environment.

Claims (3)

 1. A breathing apparatus for physiotherapeutic procedures, comprising a hollow detachable body with supply and discharge channels and exhaust openings, placed in the body with the possibility of axial movement in it relative to the discharge channel, a gravity plate valve with a guide channel located in it and, respectively, installed at the outputs of the supply and guide channels in the outlet openings flap valves, characterized in that the guide channel of the gravitational plate valve made tubular, and the flap valve of the outlet openings is made in the form of a flexible annular membrane with a central hole mounted on the nipple of the discharge channel with the outlet openings pressed against the housing by an elastic ring element worn on the nipple, the annular edge protruding above the housing with the possibility of bending it and education between it and the housing gap gap for emergency discharge of the respiratory environment.  2. The apparatus according to claim 1, characterized in that the flexible annular membrane is made convex in shape, supported on the housing surface from the side of its niche.  3. A breathing apparatus for physiotherapeutic procedures, comprising a hollow detachable body with supply and discharge channels and exhaust openings, a plate valve located in the housing with a guide channel located therein, respectively, flap valves installed at the outlets of the supply channel and exhaust openings, characterized in that the guide the channel of the plate valve is made tubular, between the plate valve and the inner surface of the housing from the discharge channel, starting sector slots communicated by the cavity with the outlet openings, separated by evenly spaced radial protrusions made in one piece with a plate valve, and the flap valve of the outlet openings is made in the form of a flexible annular membrane with a central opening mounted on the nipple of the discharge channel with the outlet outlet overlapping holes pressed to the housing by an elastic ring element worn on the nipple, an annular edge protruding above the housing with the possibility of bending it and form between it and the housing gap gap for emergency collection of the respiratory environment.

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