RU73201U1 - MECHANICAL DEVICE FOR ARTIFICIAL LUNG VENTILATION - Google Patents

Abstract

The utility model relates to medicine and can be used to perform artificial respiration when it stops or is ineffective both at the prehospital and hospital stages of providing assistance to victims and patients. The device contains a breathing bag connected through a reversing valve to a corrugated tube and a fitting with a mask, and two lockable hinge rods, one of which is connected to a reversing valve and the other to a fitting, while the breathing bag is equipped with an additional non-reversing valve. The rods are interconnected by a hinge that allows you to create an angle between the axis of the bag and the breathing mask in the range from 45 to 180 degrees. 1 n.p. and 1 z.p. f-ly, 2 ill.

Description

The utility model relates to the field of medicine - resuscitation, ambulance, first aid and can be used to perform artificial respiration when it stops or is ineffective both at the prehospital and hospital stages of providing assistance to victims and patients.

Stopping breathing or its inefficiency is an extremely dangerous condition that quickly leads to the death of the patient and the victim. (I.I.Deryabin, O.S. Nasonkin - Traumatic disease. - L .: Medicine, 1987). Respiratory arrest can be a complication of a number of injuries, diseases and conditions, such as mechanical trauma, electric shock, drowning, asphyxia, general hypothermia, myocardial infarction, cardiac arrhythmias, sudden cardiac arrest, pulmonary edema, and many others. (A.N. Afonin - Complications of a severe combined injury. - M., 2005; L.I. Gerasimova, S.V. Smirnov - Actual issues of medical care for group and mass thermal injury M., - 2000 .; V .A. Mikhailovich, VVRuksin - Recommendations for the provision of emergency medical care at the prehospital stage. Sudden death. - S.P.b - 2000 .; G.N. Tsybulyak - Traumatic shock, - M. - 1992.) .In case of respiratory failure or respiratory arrest, it is necessary to start artificial respiration immediately. (Mason Andrew M. First Aid for Injuries and Accidents. - M., 1998.).

The principles of mouth-to-mouth or mouth-to-nose resuscitation are developed, tested and widely implemented. (V.A.Negovsky Actual problems of resuscitation. - M., - 1971; Safar Peter Beecher Nicholas J. Cardiopulmonary and cerebral resuscitation. - M., - 1997; R. Safar Mouth-to-mouth airway. - 1957. However, this type of artificial respiration has a number of significant drawbacks: firstly, there is a risk of mutual infection of the patient and the resuscitator. Secondly, the patient or victim may have vomiting, bleeding from the mouth or bad breath,

which can cause the resuscitator to feel irresistible disgust and not allow him to carry out artificial respiration. Thirdly, conducting mouth-to-mouth resuscitation is a significant physical exertion, which does not allow for a long time. Therefore, all over the world and in Russia, special manual devices are used for artificial respiration. This bag type AMBU, manual breathing apparatus (ADR) and other similar devices - Kassil V.L., Leskin. T.S., Vyzhigina M.A. Respiratory Support:

guidance on artificial and assisted ventilation in anesthesiology and intensive care. M .: Medicine. - 1997; Kostyuchenko A.L. Life-threatening conditions in a doctor’s practice of first contact. - St. Petersburg, 1999; Malyshev V.D. Intensive care, resuscitation, first aid. - M .:

Medicine, 2000.

However, these devices have disadvantages that limit their use. The first drawback is the rigid, unchanging fixation of the mask in relation to the axis of the respiratory sac (90 °). As a result of this, when the patient is in an uncomfortable position, in a limited space, if the patient has injuries that do not allow him to be placed on his back, and other situations that limit the spatial arrangement of the resuscitator and the patient relative to each other, difficulties arise when performing artificial respiration. These difficulties could be reduced if it is possible to create the necessary angle between the mask and the breathing bag, but currently available devices do not allow this. Another disadvantage is the complexity of the manufacturing technology of the breathing bag and, therefore, the high cost of the finished product. Also, for the manufacture of a breathing bag in the mixture, latex is used, which is a highly allergenic substance, which is dangerous both at the manufacturing stage and during use. The high cost of the final product leads to a significant limitation of its prevalence and, consequently, to a decrease in availability if artificial respiration is required. This reduces the frequency and effectiveness of

artificial respiration, which leads to an increase in mortality from injuries and emergency conditions.

Thus, the claimed utility model is aimed at achieving a technical result related to the ability to simulate the angle between the mask and the air bag, simplifying artificial respiration, increasing its effectiveness and increasing its accessibility for potential users, which will improve the care for patients and victims of acute respiratory failure. In addition, with the introduction of the claimed device, budget expenditures for equipping with first-aid paving equipment for ambulance crews, automobiles and traffic police posts, emergency rescue teams, etc. will be reduced.

To achieve the technical result, the device contains a breathing bag connected through a reversing valve to a corrugated tube and a fitting with a mask, and two fixed hinged rods, one of which is connected to a reversing valve and the other to a fitting, while this bag is equipped with a non-reversing valve. In addition, the hinge of the rods is configured to change the angle between them in the range from 45 to 180 degrees.

The utility model is illustrated by the following illustrations - Fig. 1 is an isometric view of the utility model and Fig. 2 is a front view of the claimed utility model.

The mechanical device for artificial ventilation of the lungs consists of a mask 1 connected by means of two rods 7 and a corrugated tube 4 with a breathing bag 2 having a reversible 5 and non-reversible 6 valves.

The breathing bag 2 is connected to the corrugated tube 4 using a reversing valve 5, and the connection of the tube 4 to the mask 1 is carried out using the fitting 3.

One of the rods 7 is fixed on the reversing valve 5, and the other on the fitting 3.

The rods are interconnected by a hinge 8, which allows you to fix the required angle between the axis of the bag and the breathing mask in the range from 45 to 180 degrees.

The device is used as follows. During artificial respiration, mask 1 is hermetically pressed to the patient's face, bag 2 is compressed by hand. When this air from the bag through the fitting 3, the corrugated tube 4, the reversing valve 5 and the mask 1 enters the upper respiratory tract of the patient. After the pressure on the bag ceases to be self-expanding, and air through the non-reversing valve 6 fills the bag. In this case, the patient exhales, and air leaves his lungs through the reversing valve 5.

The presence of two rods 7 with a hinge 8 allows you to choose and fix any angle convenient for conducting artificial respiration between the mask and the axis of the bag in the range from 45 to 180 degrees.

The device is made of materials resistant to physical and chemical influences and lends itself to all methods of cold sterilization.

Claims (2)

1. A mechanical device for artificial ventilation of the lungs, characterized in that it contains a breathing bag connected through a reversing valve to a corrugated tube, and a fitting with a mask, and two fixed hinged rods, one of which is connected to the reversing valve, and the other to the fitting, this specified bag is equipped with a non-reversible valve. 2. The mechanical device for artificial lung ventilation according to claim 1, characterized in that the hinge of the rods is configured to change the angle between them in the range from 45 to 180 degrees.