RU2175563C1 - Hypoxicator - Google Patents

Abstract

FIELD: devices for creation of dosed hypoxia in the human or animal organism with prophylactic, therapeutic or rehabilitation purposes. SUBSTANCE: the essence is in hermetic sealing of separated inhalation and exhalation canals, their placement and connection in the body of the means for concentration of carbon dioxide and use of a dustproof seal as a holder of the isolated inhalation canal. EFFECT: reduced dust loading of inhaled mixture, compactness of the device, reduced resistance to breathing at inhalation. 2 cl, 1 dwg

Description

 The invention relates to a device for creating a dosed hypoxia in the human or animal body with prophylactic, therapeutic or rehabilitation purposes.

 A device is known - Strelkov hypoxicator according to the patent of the Russian Federation N 2040280 for 1992, containing a mask, means for changing the concentration of carbon dioxide in the inhaled mixture, a breathing bag, an intake of atmospheric air, an inspiratory-expiration channel in the form of a single duct formed by series-connected mask, means for changes in carbon dioxide concentration and respiratory bag.

 The disadvantage of this breathing apparatus is the increased dust content of the inhaled mixture by the particles of the chemical absorber of carbon dioxide, due to the presence of a single duct, inspiration and expiration channels and the properties of the absorber, which has an unlimited resource.

 Partially, the task of reducing the dustiness of the inhaled mixture could be solved by separating a single duct of the inspiration and expiration channels, known from the design of the apparatus for hypoxic therapy (hypoxicator Professor R. B. Strelkov) according to the USSR patent N 1826918, A 61 M 16/00 for 1991, containing a mask, means having an inlet and an outlet in the housing for changing the concentration of carbon dioxide using an absorber equipped with filters, an intake of atmospheric air, an exhalation channel in the form of an air duct formed by a mask connected in series, Titel and a breathing bag, an inhalation valve channel insulated from the absorber comprising a mask, inspiratory hose and a breathing bag.

 However, without additional measures to protect from dust the output of the agent for changing the concentration of carbon dioxide connected to the breathing bag, this design is indispensable. In addition, the device is bulky and is not suitable for individual use.

 The objective of the present invention is to further reduce the dustiness of the inhaled mixture while maintaining the compactness of the device, reducing respiratory resistance on inspiration.

 This problem is solved in that in a known hypoxicator containing a mask, means for changing the concentration of carbon dioxide using an absorber equipped with filters, having an inlet and outlet in the housing, an intake of atmospheric air, an exhalation channel in the form of an air duct formed in series with a mask, an absorber and a breathing bag, the inhalation channel with a valve isolated from the absorber, including a mask, an inhalation hose and a breathing bag according to the invention, the inhalation hose is placed in the absorber and the seal is connected with the exhalation channel in the body of the means for changing the concentration of carbon dioxide using dust seals, while at the entrance to the means for changing the concentration of carbon dioxide between the body and the dust seal, a cavity is formed to accommodate the inspiration valve.

 It is convenient if the inspiration channel is placed on the longitudinal axis of the absorber.

 It is reliable if a collar is made on the periphery of the dust seal on the side of the end face of the carbon dioxide concentration means, and on the longitudinal axis the nozzle facing the absorber and the hypoxicator is equipped with two dust seals installed with 180 degrees rotation to one another.

 The invention is illustrated in the drawing, which shows a General view of the hypoxicator with a cut of its element, which has undergone structural changes compared with the known hypoxicator.

 Hypoxicator is arranged as follows. A mask 1 is attached to the patient's face (not shown in the drawing). A tool 3 is attached to the mask using a pipe 2, which is a detachable tubular connection, to change the concentration of carbon dioxide using an absorber 4 placed in a housing 5 having an inlet (pipe 2) and a similar pipe on the opposite side of the housing - output made on the cover 6 of the housing. The latter, after assembly, is welded to the end of the housing. On the cover there is a intake 7 of atmospheric air in the form of an opening. A breathing bag 8 is attached to the nozzle of the lid. An air duct formed by a mask, a carbon dioxide absorber and a breathing bag connected in series forms an exhalation channel. An inspiratory hose 9 is installed in the absorber (along the device axis), one end of which is connected to the exhalation channel through the inspiratory flap valve 10, and the other end is freely connected to the same channel. The inspiratory hose is hermetically fixed on two identical nozzles 11, made on two identical dust seals 12. The dust seals are installed with 180 degrees rotation relative to one another. Thus, the nozzles 11 are facing the absorber. The dust seal in the middle part has a grill 13 holding the filter 14. Filters in the amount of two pieces are installed at both ends of the absorber and their properties largely determine the solution to the problem. Their density should be such that the dispersed particles of the absorber cannot overcome the entire thickness. A shoulder 15 is made at the end of the upper dust seal on the periphery, resting on the body and forming a cavity 16 under the inspiratory valve, and a shoulder 15 of the lower dust seal rests on the housing cover (its flat end). At the other end of each dust seal, its “skirt” shape is formed by truncated cones 17 coaxially placed and resting on a common larger base 17. The inspiration channel 18 is isolated from the absorber and, like the exhalation channel, includes a mask and a breathing bag. Dust seals are fitted in an interference fit housing. The seats under them are made with great care, which increases the efficiency of compaction.

 It is also effective to create an interference fit with the “skirt” of the dust seal, capable of deforming the plastic case to their tight contact.

 Hypoxicator works as follows. When exhaling, the gas mixture from the patient’s lungs with a low oxygen content and a high content of carbon dioxide moves along the exhalation channel through the absorber means to reduce the concentration of carbon dioxide in the breathing bag. When inhaling due to the pressure created by the patient’s lungs, the gas mixture from the breathing bag through the inspiration channel, raising the inspiration valve petal, enters under the mask, while it is dosed enriched with oxygen through the intake of atmospheric air. In this case, the absorber is reliably isolated, its particles are not moved by the oncoming flow and are not carried by it to the patient. Achieved complete dust protection, and the device remains compact. There is no need to disconnect the nodes of the hypoxicator, which negatively affects the connection. The device has become suitable for individual use. The device is made of medical supplies.

 It should be noted one more feature of the proposed device. As mentioned above, certain requirements are imposed on the properties of the filter with which the absorber is equipped, but this affects the ease of breathing, especially people with asthma note this. In the proposed hypoxicator, ease of breathing is significantly increased in the inspiratory phase. Its use is approved by the Ministry of Health of the Russian Federation.

Claims (2)

 1. A hypoxicator containing a mask, a means for changing the concentration of carbon dioxide using an absorber equipped with filters, having an inlet and outlet in the housing, an intake of atmospheric air, an exhalation channel in the form of an air duct formed by series-connected masks, an absorber and a breathing bag, an inspiration channel with a valve, isolated from the absorber, including a mask, an inhalation hose and a breathing bag, characterized in that the inhalation hose is placed in the absorber and is tightly connected to the exhalation channel in the body of the means for Changes in carbon dioxide concentration using Dust seals, the inlet means for changing the concentration of carbon dioxide between the case and the anti-dust gasket is formed a cavity for receiving the inhalation valve.  2. The hypoxicator according to claim 1, characterized in that the cavity between the body of the means for changing the concentration of carbon dioxide and the dust seal for accommodating the inspiratory valve is formed by a collar of the dust seal made on its periphery from the side of the body of the means for changing the concentration of carbon dioxide, and the hose connection inhalation with the exhalation channel is made using the pipe on the dust seal facing the absorber.