SU1183101A1 - Pressure chamber - Google Patents

Abstract

A BARO CAMERA, comprising a housing, a pneumatic compression and decompression system, a breathing mixture circulation system, an expiration bag located inside the housing and a device for removing the gas mixture containing a check valve, which, in order to increase safety and reliability, removing the gas mixture contains a perforated casing divided by a membrane into two cavities, one of which is connected with the volume inside the pressure chamber housing, and the other with the volume of the exhalation bag, while the membrane is connected a shutoff valve by a lever. (L CX) 00 fg / city /

Description

The invention relates to medical technology, namely to pressure chambers used for hyperbaric oxygenation and therapeutic recompression. The purpose of the invention is to increase operational safety and reliability. FIG. 1 shows the general scheme of the pressure chamber; in fig. 2 is a schematic of an apparatus for removing an exhaled gas mixture to the atmosphere. The pressure chamber (Fig. 1) comprises a housing I, a pipeline 2 with a shut-off valve 3 of compression, a pipeline 4 with a shut-off valve 5 decompression., A pressure gauge 6, a breathing mixture circulation system consisting of a patient mask 7 with valves 8 and 9 inhalation of exhalation, respectively gas pipelines 10 and exhalation inhalation, respectively, pipeline 12 for supplying breathing mix with shut-off valve 13 and lung machine 14, exhalation tank 15. The exhalation bag 15 is provided with a device 16 for removing the exhaled gas mixture to the atmosphere, a safety valve 17 and connecting the exhalation bays 15 to the atmosphere pipe 18 with a shut-off valve 19. The device for removing the exhaled gas mixture to the atmosphere (Fig. 2) is designed as a shut-off valve 20, which closes the pipe 18, and through the lever 21 is connected to the rigid center 22 of the membrane 23. The shut-off valve 20, the lever 21 and the membrane 23 are assembled in the housing 24 with a hole 25 which is located inside the exhalation bag 15. The membrane 23 outside the exhalation bag 15 is closed by a casing 26 having openings 27. At the same time, the shut-off valve 20 is pressed against the inlet of the pipeline 18 by a spring 28. "The pressure chamber is operated as follows: The pressure chamber is placed inside the housing 1 and the pressure chamber is sealed. Pipeline 2 into the pressure chamber serves the air through the gate valve 3 compression. After reaching a predetermined pressure controlled by the pressure gauge 6, the shut-off valve 3 is closed. The respiratory mixture through conduit 12 is delivered to the patient through the stop valve 13. The patient breathes through the mask 7 with the inhalation and exhalation valves 8 and 9, respectively. When a vacuum is created in the submask space, the pulmonary automaton 14 is activated and the breathing mixture is inhaled through the gas pipeline to the inspiratory hose 10. The exhaled gas mixture flows through the gas line to the exhalation hose 11 and enters the expiratory bag 15. When an exhalation pressure is created in the bag 15, the pressure exceeds the pressure inside the pressure chamber, the membrane 23 bends and through the rigid center 22 acts on the lever 21, which overcomes the force of the spring 28, opens the shut-off valve 20 and the gas mixture from the exhalation bag 15 through line 18 is removed to the atmosphere. This occurs until the pressure in the exhalation bag 15 is equal to the pressure inside the pressure chamber. In this case, the membrane 23 returns to its original position, and the shut-off valve 20 under the action of the spring 28 blocks the exit of the gas mixture from the bag 15 of the exhalation. Resistance to breathing at the outlet when the device 16 is operated to remove the exhaled gas mixture into the atmosphere does not exceed 100-150 Pa, which is achieved due to the difference between the effective areas of the membrane 23 and the shut-off valve 20, the ratio of the arms of the lever 21 and the selection of the spring 28. With an increase in bag 15 exhalation pressure is higher than the allowable (for example, in emergency mode decompression) safety valve 17 is opened and the gas mixture is released from the exhalation bag 15 into the pressure chamber. A stop valve 19 closes the pipeline 18 outside the pressure chamber in the event of a failure of the device 16 to remove the exhaled gas mixture to the atmosphere, or if it is not necessary to use it. At the end of the treatment session, the pressure in the pressure chamber is discharged through the pipeline and through the decompression valve 5.

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Claims (1)

BARCAMERA, comprising a housing, a pneumatic compression and decompression system, a respiratory mixture circulation system, an exhalation bag located inside the housing and a gas mixture removal device containing a shut-off valve, characterized in that, in order to increase the safety of operation and reliability, a removal device the gas mixture contains a perforated casing, divided by a membrane into two cavities, one of which is connected with the volume inside the chamber and the other with the volume of the exhalation bag, while the membrane is connected to valve by means of a lever. SU „1183101 11 15 (Riga. 1>