	US 11,771,927 B2
	Rebreathing apparatus having inhaled oxygen mixing and exhaled carbon dioxide removal functions by electronic control
Hyang Mok Baek, Pohang-si (KR); Sang Yup Kwon, Ulsan (KR); Jun Ho Lee, Seoul (KR); and Jung Han Baek, Ulsan (KR)
Assigned to Daniel Co., Ltd.
Filed by Farosystem Co., Ltd, Gyeongju-si (KR)
Filed on Nov. 27, 2019, as Appl. No. 16/697,848.
Claims priority of application No. 10-2019-0136411 (KR), filed on Oct. 30, 2019.
Prior Publication US 2021/0128850 A1, May 6, 2021
Int. Cl. A62B 7/02 (2006.01); A62B 9/00 (2006.01); A62B 7/10 (2006.01)

CPC A62B 9/006 (2013.01) [A62B 7/02 (2013.01); A62B 7/10 (2013.01)]

5 Claims

1. A rebreathing apparatus comprising:

a mask having one side to which an inhalation hose is connected and the other side to which an exhalation hose is connected, the mask being configured to correspond to a user's face;

an exhaled breath storing container in which exhaled breath discharged from the exhalation hose is stored;

a filter configured to remove carbon dioxide discharged from the exhaled breath storing container and to form a filtered air;

an inhaled breath storing container configured to store the filtered air having passed through the filter, the inhaled breath storing container being connected to the inhalation hose of the mask;

an oxygen storing container configured to supply oxygen through an oxygen supplying hose to the inhaled breath storing container;

a decompressor installed at an inlet of the oxygen storing container, the decompressor being configured to block the oxygen of high pressure from being discharged;

an oxygen mixing module configured to mix the oxygen discharged through the oxygen supplying hose with the filtered air and form a mixture, and to supply the mixture to the inhaled breath storing container;

a controller configured to control operations of the exhaled breath storing container, the inhaled breath storing container, the oxygen storing container, the filter, and the oxygen mixing module;

a pressure sensor installed at the decompressor, and configured to detect a pressure of oxygen discharged from the oxygen storing container;

an oxygen content sensor installed at the oxygen storing container, and configured to detect a remaining amount of oxygen;

an oxygen concentration sensor installed at the inhaled breath storing container, and configured to detect a concentration of breathing oxygen; and

a CO₂concentration sensor installed at the inhaled breath storing container, and configured to detect a concentration of breathing CO₂,

wherein the controller comprises a power module configured to supply power by means of a battery or a charging device, and further comprises a communication module configured to transmit state information of the pressure sensor, the oxygen content sensor, the oxygen concentration sensor, the CO₂concentration sensor, and the power module to an external display device;

wherein the controller is configured to operate the power module when a valve of the oxygen storing container is opened and a pressure of oxygen is sensed by the pressure sensor;

wherein the controller is configured to:

inspect the remaining amount of oxygen by the oxygen content sensor installed at the oxygen storing container;

check an operation state of the communication module;

inspect the concentration of breathing oxygen by the oxygen concentration sensor installed at the inhaled breath storing container;

inspect the concentration of breathing CO₂by the CO₂concentration sensor installed at the inhaled breath storing container; and

inspect remaining power of the battery of the power module.