RU2121375C1 - Respiratory apparatus for physiotherapeutic procedures - Google Patents

Abstract

FIELD: medical engineering. SUBSTANCE: respiratory apparatus has sectional hollow body, reed valve positioned at delivery channel outlet and hygienic napkin made of polymeric film and secured on body. Flexible circular membrane is positioned on delivery channel nipple and pressed to body. Membrane overlaps outlet holes, its circular edge protrudes above body, and it may be bent out to form slotted clearance for emergency discharge of respiratory medium. EFFECT: enhanced reliability and efficiency. 3 cl, 3 dwg

Description

 The invention relates to medicine, more specifically to medical equipment, and can be used in devices [for affecting the respiratory system, for example in breathing apparatus, for conducting 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 during inhalation and exhalation (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 physiotherapy procedures, comprising a hollow detachable body with a supply and discharge channels, an elastic membrane with a discharge hollow closing valve with a through slot at the end and its central part directed into the discharge channel, communicated by its membrane cavity through an outlet in the housing with atmosphere in which a nozzle mounted on the side of the supply channel is inserted into the wedge-shaped valve of the elastic membrane, provided with a support flange (RF application 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 valve slamming the elastic membrane into the nozzle in the direction of the supply channel, which is unsafe due to the ingress of the used respiratory medium.

 The closest analogue, selected as a prototype, is a breathing apparatus for physiotherapeutic procedures, containing a hollow detachable body with a supply and heating channels and exhaust openings, a flap valve installed at the outlet of the supply channel and a sanitary napkin made of polymer film fixed to the body (US Pat. No. 5,358,877 Cl. 128-203.11, 1994).

 The disadvantages of the prototype include the impossibility of providing air pressure to hold the breath or emergency release 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 exchange with the body’s gas products, and urgent discharge of the medium if necessary, for example, during spasm of the respiratory canals.

 The technical result, a positive physiotherapeutic effect when using the invention, implemented in a breathing apparatus, is to increase its reliability and efficiency of use, simplicity 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, outlet openings, a flap valve installed at the outlet of the supply channel and a sanitary napkin made of polymer film attached to the body, the body of the device is equipped with a discharge channel installed on the nipple, pressed to the body of the elastic ring element worn on the nipple, a flexible annular membrane with a Central hole for the nipple, overlapping the outlet, an annular edge protruding above the body, with the possibility of bending it and the formation between it and the housing gap gap for emergency discharge of the respiratory environment. The flexible annular membrane is made convex in shape, supported on the housing surface from the side of its niche. The casing of the apparatus is equipped with a mouthpiece made in the form of a flexible annular plate with a central hole, worn by it on the nipple of the discharge channel, forming a gap with a flexible annular membrane.

The distinctive features of the respiratory apparatus for physiotherapeutic procedures are the following symptoms:
- supplying the apparatus body with 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,
- preloading the flexible annular membrane to the housing by an elastic annular element,
- overlapping the outlet openings with a flexible annular membrane,
- the protrusion of the annular edge of the flexible annular membrane 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 its niche
- supplying the housing with a mouthpiece in the form of a flexible annular plate with a central hole put on the nipple of the discharge channel with the formation of an annular gap with a flexible annular membrane.

 These distinctive features are significant, since each of them individually and jointly aims to solve the problem and achieve a new positive effect. The exclusion of any of them does not allow us to solve the problem, for example, the absence of a flexible annular membrane on the discharge ring nipple that overlaps the outlet openings and protrudes above the body, does not preclude air intake when the breathing medium enters the discharge channel through the outlet openings, and does not provide emergency discharge respiratory environment in case of undesirable symptoms in the patient caused by coughing or cramping of the respiratory tract. A flexible annular membrane reliably closes the outlet openings with tight contact with the housing when applying a respiratory medium. The convex shape of the flexible annular membrane increases the reliability of the overlapping of the outlet openings. In the event of an emergency discharge of the respiratory medium, the annular edge of the flexible annular membrane easily bends to form the necessary gap with the body. In addition, the apparatus is equipped with a mouthpiece mounted on the nipple of the injection channel, made in the form of a flexible annular plate forming an annular gap with a flexible annular membrane, which ensures the reliability of the installation of the breathing apparatus and accelerates the recovery of the respiratory process.

 A comparative analysis of the proposed technical solution with the prior art, analogues and prototype, that these distinctive essential features are new and together with the general essential features of the prototype characterize the proposed technical solution according to the criterion of "novelty."

 A single set of new essential features with common known essential features allows us to solve the problem and achieve a new physiotherapeutic result, which characterizes the proposed technical solution by significant differences from the prior art, analogues and prototype. The proposed technical solution is 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, is original and meets the criterion of "inventive step".

 The invention is illustrated by drawings.

 In FIG. 1 shows a general view of a breathing apparatus for physiotherapeutic procedures with a flexible annular membrane on a discharge channel nipple, FIG. 2 - the location of the membrane with the mouthpiece, in FIG. 3 - diagram of the apparatus.

 The breathing apparatus for physiotherapeutic procedures includes a hollow body 1 with a supply and discharge channels 2, 3 and exhaust openings 4, a flap valve 5 installed at the outlet of the supply channel 2 and a sanitary towel 6 made of a polymer film fixed to the body 1. The housing 1 of the apparatus is equipped with an injection ring 3 mounted on the nipple 7, pressed against the housing 1 by an elastic ring element 8, worn on the nipple 7, with a flexible annular membrane 9 with a central hole 10 for the nipple 7, overlapping the outlet openings 4, an annular edge 11 protruding above the housing 1 with the possibility of bending it and the formation between it and the housing 1 of the slotted gap 12 for emergency discharge of the respiratory environment. The flexible annular membrane 9 can be made round (Fig. 2), supported on the housing 1 by a surface 13 from the side of its niche 14. The housing 1 is equipped with a mouthpiece 15, made in the form of a flexible annular plate with a central hole 16, worn on the nipple 7 of the injection channel 3 with the formation with a flexible annular membrane 9 of the annular gap 17.

 The housing 1 of the breathing apparatus for physiotherapeutic procedures, the flexible annular membrane 9 are made of polyethylene, the flap valve 5 is made of elastic rubber or polyurethane, the mouthpiece 15 is made of polyethylene, and the sanitary napkin 6 is made of plastic film.

 The functioning of the respiratory apparatus is as follows. The breathing apparatus is installed by the injection channel 3 into the oral cavity with giving it an appropriate position with or without the mouthpiece 15, a respiratory medium is supplied through the channel 2, under the pressure of which the flap valve 5 is opened and the respiratory medium enters the discharge channel 3. When the exhausted respiratory medium is exhaled the flap valve 5 is closed, a flexible annular membrane 9 is opened, a slotted gap 12 is formed and the respiratory medium is discharged. During an emergency discharge of the respiratory medium, the annular edge 11 of the flexible annular membrane 9 is squeezed from the housing 1 with the formation of a slit gap 12, in volume communication with the outlet openings 4. To increase the pressure and hold the breath, the flexible annular membrane 9 can be additionally pressed against the housing 1 to increase the compaction with him. A sanitary napkin 6 made of plastic film protects against infection.

 Tests of a breathing apparatus manufactured using a new technical solution showed positive results and confirmed the feasibility of its industrial production.

 Thus, the new technical solution described above, in terms of design according to the proposed technical solution, is effective in comparison with the prior art, meets the criterion of "industrial applicability" and is characterized as an invention.

 The scope of the invention should be understood broader 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 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 a breathing apparatus for physiotherapeutic procedures and can be used in devices for supplying a respiratory medium.

Claims (3)

 1. A breathing apparatus for physiotherapeutic procedures, comprising a hollow detachable body with supply and discharge channels and exhaust openings, a flap valve installed at the outlet of the supply channel and a sanitary napkin made of polymer film fixed on the body, characterized in that the body of the device is equipped with a discharge channel nipple pressed to the body by an elastic ring element worn on the nipple, a flexible annular membrane with a central hole above the nipple that overlaps the outlet holes, an annular edge projecting over the body, with its bending and formation between it and the housing gap clearance for emergency relief of respiratory protection.  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. The apparatus according to claims 1 and 2, characterized in that the housing is provided with a mouthpiece made in the form of a flexible annular plate with a central hole, worn by it on the nipple of the injection channel, forming an annular gap with a flexible annular membrane.

Images