RU2026058C1 - Device for curing respiratory deficiency - Google Patents

Abstract

FIELD: medical equipment. SUBSTANCE: device has resistance to breath regulator, rotatable insertion which has spherical external surface and disk with rigidly fixed valve and through holes; all units are mounted in align in the case. Regulator is made in form of hollow cylinder and conjugated with insertion along conical landing surface formed by conical working part and response saddle-shaped surface of the insertion. Regulator is fixed inside cavity of the insertion by means of threaded connection. Landing jack for spherical surface of the insertion is made in case. Insertion itself is mounted in case for rotation about axis being perpendicular to longitudinal axis of the case. Disk is attached to the end of the cylinder at its working part. EFFECT: improved efficiency. 2 dwg

Description

 The invention relates to medical equipment, it can be used for the treatment and prevention of respiratory failure.

 A device for the treatment and prevention of respiratory failure, comprising a body, an element for connecting to a patient, a channel and an inspiration valve, a channel and an adjustable pneumatic resistance of the exhalation, the exhalation channel is separated from the inspiration channel and directly connected to the connection element to the patient, containing an additional cavity connecting channels of inhalation and exhalation, and the adjustable pneumatic resistance of the exhalation consists of segmental flats made on the body, and a split ring with a rectangular slot installed on the housing above the flattened rotatably.

 A disadvantage of the known device is the inability to create resistance to breathing on inspiration, which limits the scope of its use.

 A device for treating diseases of the respiratory system, comprising a mouthpiece, a housing, a pressure meter, a breathing valve, a breathing resistance regulator made in the form of a set of rings with coaxially arranged holes, one of the rings has calibrated holes of various diameters and is rotatably mounted in the housing, and the breathing valve is located in a rotary insert mounted rotatably around an axis perpendicular to the longitudinal axis of the housing, the rotary insert has an outer surface st spherical shape, is connected with the carrier, and is installed in the cavity resistance to breathing regulator, the regulator in the movable ring formed channel groove for the guide, but in the case - notch.

 However, the presence of a strict set of calibrated holes in the ring of the breathing resistance regulator, mounted in the housing with the possibility of rotation, limits the smooth regulation of respiratory loads in a wide range, which reduces functional efficiency. In addition, the device has a complex structure due to the presence of a set of rings placed in the housing.

 The aim of the invention is to smoothly control the magnitude of the resistance to inspiration and expiration, as well as simplifying the design.

 This goal is achieved by the fact that in a device for the treatment of respiratory failure containing a mouthpiece, a housing with a coaxially mounted breathing resistance regulator, a hollow rotary insert with a spherical outer surface with a rigidly attached lead and a cylindrical disk with through holes and a rigidly fixed valve, this rotary insert is mounted to rotate around an axis perpendicular to the longitudinal axis of the housing, the controller is made in the form of a hollow cylinder with a working conical m section on its outer surface and with through holes on the working section, fixed in the cavity of the rotary insert by means of a threaded connection with the possibility of contacting the surface of the working section with a mating saddle surface additionally made on the inner surface of the insert, while a seat for a spherical surface is made in the cavity of the housing insert, and the disk is mounted on the end of the cylinder from the side of the working area, or is made as one piece with the cylinder.

 Comparative analysis with the prototype allows us to conclude that the proposed device for the treatment of respiratory failure is characterized in that the respiratory resistance regulator is made in the form of a hollow cylinder with a working conical section on its outer surface and with through holes on the working section fixed in the cavity of the rotary insert by means of a threaded connection with the possibility of contact of the surface of the working area with the additional saddle turn, additionally made on the inner surface of the insert by the way, while in the cavity of the housing, a seat is made for the spherical surface of the insert, and the disk is mounted on the end of the cylinder from the side of the working section, or is made integrally with the cylinder.

 Thus, the proposed device meets the criterion of "novelty."

 An analysis of the known technical solutions in the studied area and related areas allows us to conclude that they do not have signs similar to the essential distinguishing features in the proposed device for the treatment of respiratory failure, and recognize it as corresponding to the criterion of "significant differences".

 In FIG. 1 shows the proposed device for the treatment of respiratory failure, a longitudinal section; in FIG. 2 is a section AA in FIG. 1.

 A device for treating respiratory failure contains a mouthpiece (not shown in the drawings), a housing 1 with a breathing tube 2 and a fitting 3 for attaching a respiratory pressure meter (not shown). The housing 1 is made of two halves connected by a thread 4 and has a seat socket 5 under the spherical surface of the insert 6 mounted in the housing with the possibility of rotation around an axis perpendicular to the longitudinal axis of the housing, a lead 7 located in the channel 8, made coaxially in the rotary insert 6 and housing 1. In the cavity of the rotary insert 6 by means of a threaded connection 9, a hollow cylinder 10 is fixed with a working conical section 11 on its outer surface with the possibility of contact with avki 6 with a mating saddle surface 12. On the lateral surface of the working conical section 11, through holes 13 are made connecting the cavity 14 of the cylinder 10 with the atmosphere, and in the end of the cylinder 10 from the side of the working section 11, through holes 15 are made, overlapped by a valve 16 fixed along the axis of symmetry . In addition, a protrusion 17 is made in the cylinder 10 to move it in the rotary insert 6. At the end of the housing 1, a scale is applied (not shown in the drawings) to control the amount of resistance to breathing, which is counted by the mark (not shown in the drawings), applied at the end cylinder.

 The device operates as follows.

 Before starting exhalation muscle training, turn insert 6 by turning leash 7 to a position where valve 16 provides during inhalation the patient’s respiratory tract through breathing tube 2, body cavity 1, openings 15, cavity 14 of cylinder 10 with the atmosphere. Rotating the cylinder 10 with the protrusion 17, set on the scale the required pneumatic resistance to expiration. This creates a channel for the passage of air flow between the outer surface of the working conical section 11 of the cylinder 10 and the mating saddle surface 12. The respiratory tract of the patient is connected via a mouthpiece to the breathing tube 2 and he breathes for a predetermined time.

 When inhaling, the valve 16 opens and air enters the lungs of the patient. When exhaling, the valve 16 closes and air passes through the breathing tube 2, the cavity of the housing 1, through the channel formed between the outer surface of the working conical section 11 of the cylinder 10 and the mating saddle surface 12 of the insert 6 and enters through the openings 13 into the cavity 14 of the cylinder 10 and is removed into the atmosphere. At the same time, overpressure occurs in the body cavity and breathing tube 2, which is registered through the fitting 3 by a respiratory pressure meter and, thus, the expiratory pressure is monitored.

 Before starting training the muscles of inspiration, moving the cylinder 10 with the protrusion 17, set the required value of the pneumatic resistance to inspiration on a scale. In this case, a channel is formed for the air flow between the saddle surface 12 of the insert 6 and the mating locking surface of the working conical section 11 of the cylinder 10. The insert 6 is installed by a leash 7 in such a position that the valve 16 in the exhalation phase ensures the connection of the patient's respiratory tract through the breathing tube 2, body cavity 1, cavity 14 of cylinder 10, openings 15 with atmosphere. The respiratory tract of the patient is connected to the breathing tube 2 and he breathes for a predetermined time.

 When exhaling, valve 16 opens and air from the lungs is removed into the atmosphere, and when inhaling, it closes and air from the atmosphere enters the patient’s lungs through the created channel, openings 13, cavity 14 of cylinder 10, body cavity 1 and breathing tube 2. At the same time, the inspiratory pressure is recorded through the nozzle 3 by a respiratory pressure meter and, thus, the amount of respiratory pressure that occurs when overcoming inhalation resistance is monitored.

 Thus, the proposed device is simple in design, allows you to smoothly create the amount of resistance to breathing during inhalation and exhalation. At the same time, non-ventilated alveoli are involved in gas exchange, the ventilation-perfusion ratio is normalized, bronchial patency and sputum separation are improved, as well as gas exchange, shortness of breath is reduced. The use of this device for patients with chronic non-specific lung diseases contributes to a significant reduction in medications, up to their cancellation, and in combination with physical exercise leads to persistent remission.

Claims (1)

 A device for the treatment of respiratory insufficiency, comprising a mouthpiece, a housing with a breathing resistance regulator coaxially mounted in its cavity, a hollow rotary insert with a spherical outer surface with a rigidly attached lead, and a cylindrical disk with through holes and a rigidly fixed valve, while the rotary insert is installed with the possibility rotation around an axis perpendicular to the longitudinal axis of the body, characterized in that, in order to smoothly control the magnitude of the resistance to inspiration and exhalation and to simplify the design, the regulator is made in the form of a hollow cylinder with a working conical section on its outer surface and with a through hole on the working section fixed in the cavity of the rotary insert by means of a threaded connection with the possibility of contacting the surface of the working section with a mating saddle additionally made on the inner surface of the insert surface, while in the cavity of the housing, a seat is made under the spherical surface of the insert, and the disk is mounted on the end of the cylinder from the side of ochego portion.

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