RU2033137C1 - Device for curing respiratory insufficiency - Google Patents

Abstract

FIELD: medicine. SUBSTANCE: device comprises inhalation and exhalation chambers, inhalation resistance is controllable in the form of segments installed diametrically opposite each other in casing 1, and split bushing installed revolvingly in segments. Elastic membrane covering inhalation chamber is installed on end surface of bushing and a similar membrane is disposed between exhalation chamber and casing. Additional cavity envelops the inhalation chamber. The latter also has pipe union for connection of air metering device, while exhalation chamber has pipe union for connection to metering device control mechanism. Additional cavity has saliva trap. EFFECT: improved design. 3 cl, 5 dwg

Description

 The invention relates to medicine and can be used for the treatment and prevention of respiratory failure.

 A device for the treatment of respiratory failure, comprising a housing with an internal cavity and a membrane check valve, an adjustment rod for changing resistance during exhalation and a mouthpiece.

 The disadvantage of this device is that during exhalation, air moves through the internal cavity, and since the exhaled air has a large percentage of humidity, moisture condenses on the internal surfaces of the device, saliva partially enters, which creates inconvenience in treatment, since it is necessary to remove moisture and saliva from the device. The disadvantages are the large dimensions of the device, it is inconvenient to carry in your pocket, which is important for people who use the device to prevent respiratory failure when walking.

 A device for treating respiratory failure is also known, comprising a body, an attachment element to the patient in the form of a mouthpiece, a channel and an inhalation valve, a channel and adjustable pneumatic resistance to expiration, while an additional cavity is made in the mouthpiece connecting the inspiration and expiration channels. This device allows you to use it for the treatment and prevention of respiratory failure.

 The disadvantage of this device is that it is impossible to use it with large physical exertion, due to which the minute volume of breathing increases, i.e. during training of the respiratory center of athletes during physical exertion, as well as the lack of the ability to regulate inhalation resistance.

 The aim of the invention is to expand the functionality of the device.

 To achieve this goal in a device for the treatment of respiratory failure, containing a detachable body, a patient connection element made in the form of a mouthpiece, a camera and resistance to inhalation, a camera and adjustable resistance to exhalation, the resistance of the inspiration chamber is made in the form of segments installed diametrically opposite in the case and a split sleeve mounted to rotate inside the segments, while on the end surface of the sleeve a membrane is installed that overlaps the chamber to ha, and between the exhalation chamber and the casing an elastic membrane is also installed, and in the casing from the side of the inspiration chamber an additional cavity covering the inspiration chamber is additionally made. In addition, to control the depth of breathing, the inspiration chamber is equipped with a fitting for connecting, for example, to an air dispenser, and the exhalation chamber with a fitting for connecting to the dispenser control mechanism, and also a salivary pocket is made in an additional cavity.

 Due to the proposed combination of features, the claimed solution extends the functionality of the device by performing inspiratory resistance adjustable in a wide range due to separate regulation of inspiratory and expiratory resistance, as well as by the possibility of controlling the depth of breathing when the device is connected to an air dispenser. An additional cavity covering the inspiration chamber is part of the exhalation chamber. The presence of elastic membranes and the implementation of adjustable inspiratory resistance in the form of segments installed diametrically opposite in the housing, and a split sleeve minimizes the reverse air flow, which allows to increase the accuracy of dosing of inspiration during regulation of respiration.

 This device can also be used to determine respiration parameters in combination with a volumetric dispenser, since it has a very low resistance to inspiration and expiration.

 To collect condensate and saliva in the exhalation chamber, a salivary pocket was made, while condensate and saliva did not reach the exhalation valve.

 The specified new combination of all the features allows to achieve the goal of expanding functionality.

 In FIG. 1 shows a General view of the device, section; in FIG. 2, section AA in FIG. 1; in FIG. 3 section BB in FIG. 1; in FIG. 4 diagram of the movement of air flow in the device during inspiration; in FIG. 5 diagram of the movement of air flow in the device during expiration.

 The proposed device for the treatment of respiratory failure contains a detachable body 1, a patient connection element made in the form of a mouthpiece 2, an inhalation chamber 3 and an exhalation chamber 4, the chamber 3 comprising an adjustable inhalation resistance 5 made in the form of segments 6 installed diametrically opposite in the housing 1, and a split sleeve 7 mounted rotatably inside the segments 6. By turning the sleeve, the size of the slot 8 is changed, thereby changing the resistance to inspiration, while on the end surface 9 of the sleeve 7 of the mouth ovlena elastic membrane 10 overlying the chamber 3 inhalation. Additional cavity 11 covers the chamber 3 of the breath. The exhalation chamber 4 contains an adjustable exhalation resistance 12, which contains a ring 13 with a slot 14 made along the generatrix of the ring 13, overlapped by the adjusting ring 15. An elastic membrane 16 is installed between the exhalation chamber and the housing 1.

 The inhalation chamber 3 is also provided with a fitting 17 for connecting, for example, to an air meter (not shown in the drawing), and an exhalation chamber 4 with a fitting 18 for connecting to a metering control mechanism (not shown).

 The additional cavity 11 contains a salivary pocket 19.

 The device operates as follows. When inhaling (see Fig. 4), air from the atmosphere or from the metering chamber enters the inspiration chamber 3 through an adjustable resistance 5 to inspiration. Turning the split sleeve 7 inside the segments 6, change the resistance to inspiration and set the value required for treatment, training or determination of respiration parameters. The air flow through the slot 8 in an adjustable resistance to inspiration bends the elastic membrane 10, enters through the housing 1, the mouthpiece 2 into the patient’s mouth. In this case, the elastic membrane 16 is pressed against the adjusting ring 15 and seals the expiratory chamber 4.

 When exhaling (see Fig. 5), the air flow from the oral cavity enters the mouthpiece 2, through the slot 14 in the ring 13 into the exhalation chamber 4, bends the elastic membrane 16 and enters the atmosphere. By turning the adjusting ring 14, we change the passage section of the slot 13 of the ring 12, thereby changing the exhalation resistance.

 When connecting the device to the air dispenser and the dispenser control mechanism, that part of the air that enters the housing 1 and the additional cavity 10 acts through the nozzle 18 on the dispenser control mechanism, and the air inlet to the dispensing chamber opens.

 During exhalation, saliva and condensate pass unhindered through the body and accumulate in the saliva collector. After finishing work with the device, it is easily disassembled and washed in a disinfectant solution.

 The proposed device allows you to separate the chambers of inhalation and exhalation, and thus provide control and correction of the depth of breathing, which leads to the correct respiratory stereotype. In combination with a dispenser, the device allows you to diagnose the depth of breathing in the presence of "hyperventilation syndrome."

Claims (3)

 1. DEVICE FOR TREATMENT OF RESPIRATORY INSUFFICIENCY, comprising a detachable body, a patient connecting member made in the form of a mouthpiece, the body is divided into an inhalation chamber with inhalation resistance and an exhalation chamber with adjustable exhalation resistance, characterized in that, in order to ensure the use at high physical loads, the inhalation resistance is made adjustable in the form of segments installed diametrically opposite in the housing, and a split sleeve installed with the possibility of rotation in inside the segments, the first elastic membrane is installed on the end surface of the sleeve, overlapping the inspiration chamber, and the second elastic membrane is installed between the expiration chamber and the body, and a cavity covering the inspiration chamber is made in the housing from the side of the inspiration chamber.  2. The device according to claim 1, characterized in that the inspiration chamber is equipped with a fitting for connecting, for example, to the air meter, and the exhalation chamber is equipped with a fitting for connecting to the dispenser control mechanism.  3. The device according to claim 1, characterized in that a salivary pocket is made in the additional cavity.

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