고압산소 챔버는 대기압보다 높은 압력 상태의 밀폐된 공간에서 환자를 치료하는 의료기기이다. 국내에서 현재 운용중인 고압산소 챔버의 대부분은 수동 방식인데, 최근 들어 챔버 운영 효율과 안전성을 높이기 위해 자동화에 대한 요구가 크게 증가하고 있다. 본 연구의 목적은 고압산소 챔버 자동화 설계 기술 확보이다. 이를 위해, 먼저 잠수 치료표를 검토하여 자동화 기능을 선정한 다음, 각종 제어 기술 검토를 거쳐 적정 제어 위치를 선정하여, 이를 수동 방식과 동시 이용이 가능하도록 설계하였다. 본 연구의 결과는 이미 제품 생산에 일부 반영되고 있으며, 현재 수요자의 요구에 따라 수동제어 모델, 원격제어 모델, 자동화 시스템 제작이 가능하다.
고압산소 챔버는 대기압보다 높은 압력 상태의 밀폐된 공간에서 환자를 치료하는 의료기기이다. 국내에서 현재 운용중인 고압산소 챔버의 대부분은 수동 방식인데, 최근 들어 챔버 운영 효율과 안전성을 높이기 위해 자동화에 대한 요구가 크게 증가하고 있다. 본 연구의 목적은 고압산소 챔버 자동화 설계 기술 확보이다. 이를 위해, 먼저 잠수 치료표를 검토하여 자동화 기능을 선정한 다음, 각종 제어 기술 검토를 거쳐 적정 제어 위치를 선정하여, 이를 수동 방식과 동시 이용이 가능하도록 설계하였다. 본 연구의 결과는 이미 제품 생산에 일부 반영되고 있으며, 현재 수요자의 요구에 따라 수동제어 모델, 원격제어 모델, 자동화 시스템 제작이 가능하다.
The hyperbaric chamber is a medical device that treats patients in a closed space with elevated pressure higher than atmospheric pressure. While most of the domestic hyperbaric chambers are currently operated manually, the demand for automation is recently increasing greatly to improve the efficienc...
The hyperbaric chamber is a medical device that treats patients in a closed space with elevated pressure higher than atmospheric pressure. While most of the domestic hyperbaric chambers are currently operated manually, the demand for automation is recently increasing greatly to improve the efficiency and safety feature of the chamber operation. This study aims to develop the design capability of an automated hyperbaric chamber system. To achieve this goal, the recompression treatment tables are first examined, and automation functions are selected. With the investigation of various control technologies, appropriate control positions are decided, and the automated functions are synchronized with the manual operation. The outcomes of this study have already been partially implemented in chamber design. The manual control model, remote control model, and automation systems can now be made according to the buyer's request.
The hyperbaric chamber is a medical device that treats patients in a closed space with elevated pressure higher than atmospheric pressure. While most of the domestic hyperbaric chambers are currently operated manually, the demand for automation is recently increasing greatly to improve the efficiency and safety feature of the chamber operation. This study aims to develop the design capability of an automated hyperbaric chamber system. To achieve this goal, the recompression treatment tables are first examined, and automation functions are selected. With the investigation of various control technologies, appropriate control positions are decided, and the automated functions are synchronized with the manual operation. The outcomes of this study have already been partially implemented in chamber design. The manual control model, remote control model, and automation systems can now be made according to the buyer's request.
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