Ventilation system with removable primary display
원문보기
IPC분류정보
국가/구분
United States(US) Patent
등록
국제특허분류(IPC7판)
F16K-031/00
A62B-007/00
G09G-005/00
G06F-003/00
출원번호
US-0775779
(2010-05-07)
등록번호
US-8418692
(2013-04-16)
발명자
/ 주소
Sanchez, Gabriel
출원인 / 주소
Covidien LP
인용정보
피인용 횟수 :
9인용 특허 :
220
초록▼
The disclosure describes a novel approach for displaying information on a ventilator system. The disclosure describes a novel respiratory system including a removable primary display and system status display. Further, the disclosure describes a novel method for displaying ventilator information and
The disclosure describes a novel approach for displaying information on a ventilator system. The disclosure describes a novel respiratory system including a removable primary display and system status display. Further, the disclosure describes a novel method for displaying ventilator information and a novel method for controlling a ventilator system.
대표청구항▼
1. A ventilation system comprising: a main housing;a gas delivery system in the main housing;a ventilation control system in the main housing that controls the gas delivery system and monitors one or more of a patient physiological parameter, operational parameters of the ventilation system and user
1. A ventilation system comprising: a main housing;a gas delivery system in the main housing;a ventilation control system in the main housing that controls the gas delivery system and monitors one or more of a patient physiological parameter, operational parameters of the ventilation system and user-settable parameters;a primary display controller that generates a graphical user interface and that receives user inputs through the graphical user interface and delivers commands to the ventilation control system based on the inputs;a primary display housing removably attached to the main housing;a primary display in the primary display housing that presents the graphical user interface; anda system status display incorporated into the main housing that receives status data directly from the ventilation control system and displays the status data, andwherein when the ventilation system is ventilating a patient, the ventilation control system causes the system status display to display a first set of status data when the primary display housing is attached and a second set of status data different from the first set of status data when the primary display housing is removed. 2. The ventilation system of claim 1, wherein: the primary display controller is in the primary display housing. 3. The ventilation system of claim 1, wherein: the primary display controller is in the main housing and is placed in a low-power mode when the primary display housing is removed. 4. The ventilation system of claim 3, wherein: the primary display controller is turned off when the primary display housing is removed. 5. The ventilation system of claim 1 further comprising; one or more batteries; andwherein, when the ventilation system is ventilating a patient, the primary display controller and primary display are placed in a low-power mode when the ventilation system is powered from the one or more batteries. 6. The ventilation system of claim 5 further comprising; wherein, when the ventilation system is ventilating a patient, the primary display controller and primary display are turned off when the ventilation system is powered from the one or more batteries. 7. The ventilation system of claim 1, further comprising: one or more batteries; andwherein, when the ventilation system is ventilating a patient, the ventilation control system causes the system status display to display a third set of status data when the ventilation system is powered from an external source and a fourth set of status data different from the third set of status data when the ventilation system is powered from the one or more batteries. 8. The ventilation system of claim 1, wherein: at least one command may be transmitted to the ventilation control system via the system status display when the primary display housing is removed or turned off. 9. The ventilation system of claim 1, wherein: status data is selected from ventilator status, primary display status, available gas sources, utilized gas source or sources, available power sources, utilized power source, pressure trace of inspiratory pressure, low pressure level (Peep), peak inspiratory pressure (PPEAK), battery system status, batteries in use, battery charge level, and a battery status. 10. The ventilation system of claim 1, wherein: the ventilation control system causes the system status display to display a fifth set of status data when the ventilation system is powered from an external source and the primary display is turned off. 11. The ventilation system of claim 1, wherein: the system status display when in operation uses less than 10% of the power used by the primary display when in operation. 12. The ventilation system of claim 1, further comprising: a switch that turns the system status display on and off. 13. A ventilation system comprising: a main housing;a gas delivery system in the main housing;a ventilation control system in the main housing that controls the gas delivery system and monitors one or more of a patient physiological parameter, operational parameters of the ventilation system and user-settable parameters;a primary display controller that generates a graphical user interface and that receives user inputs through the graphical user interface and delivers commands to the ventilation control system based on the inputs;a primary display housing removably attached to the main housing;a primary display in the primary display housing that presents the graphical user interface; anda system status display incorporated into the main housing that receives status data directly from the ventilation control system and displays the status data,wherein the primary display controller is in the main housing and is placed in a low-power mode when the primary display housing is removed. 14. A ventilation system comprising: a main housing;a gas delivery system in the main housing;a ventilation control system in the main housing that controls the gas delivery system and monitors one or more of a patient physiological parameter, operational parameters of the ventilation system and user-settable parameters;a primary display controller that generates a graphical user interface and that receives user inputs through the graphical user interface and delivers commands to the ventilation control system based on the inputs;a primary display housing removably attached to the main housing;a primary display in the primary display housing that presents the graphical user interface; anda system status display incorporated into the main housing that receives status data directly from the ventilation control system and displays the status data,wherein the primary display controller is turned off when the primary display housing is removed. 15. A ventilation system comprising: a main housing;a gas delivery system in the main housing;a ventilation control system in the main housing that controls the gas delivery system and monitors one or more of a patient physiological parameter, operational parameters of the ventilation system and user-settable parameters;a primary display controller that generates a graphical user interface and that receives user inputs through the graphical user interface and delivers commands to the ventilation control system based on the inputs;a primary display housing removably attached to the main housing;a primary display in the primary display housing that presents the graphical user interface; anda system status display incorporated into the main housing that receives status data directly from the ventilation control system and the system status display displays first system status data when the ventilation system is ventilating a patient and receiving power from an external power source and the primary display is attached to the main housing and is displaying the graphical user interface;second system status data when the ventilation system is ventilating a patient and receiving power from the external power source and the primary display is not attached to the main housing or is not displaying the graphical user interface;third system status data when the ventilation system is ventilating a patient and receiving power from an internal power source and the primary display is not attached to the main housing or is not displaying the graphical user interface;fourth system status data when the ventilation system is not ventilating a patient and is receiving power from the external power source and the primary display is not attached to the main housing or is not displaying the graphical user interface; andfifth system status data when the ventilation system is not ventilating a patient and is receiving power from the internal power source, wherein the fifth system status data are only displayed in response to a user command input via an interface element on the main housing, andwherein the first, second, third, fourth, and fifth system status data are different. 16. The ventilation system of claim 15, wherein the first system status data comprises utilized power source, primary display status, and at least one of: ventilator status,available gas sources,utilized gas source or sources,available power sources,pressure trace of inspiratory pressure,Positive End Expiratory Pressure (PEEP),peak inspiratory pressure (PPeak),battery system status,batteries in use,battery charge level, anda battery status. 17. The ventilation system of claim 15, wherein the second system status data comprises utilized power source, primary display status, and at least one of: ventilator status,available gas sources,utilized gas source or sources,available power sources,pressure trace of inspiratory pressure,Positive End Expiratory Pressure (PEEP),peak inspiratory pressure (PPeak),battery system status,batteries in use,battery charge level, anda battery status. 18. The ventilation system of claim 15, wherein the third system status data comprises utilized power source, primary display status, and at least one of: ventilator status,available gas sources,utilized gas source or sources,available power sources,pressure trace of inspiratory pressure,Positive End Expiratory Pressure (PEEP),peak inspiratory pressure (PPeak),battery system status,batteries in use,battery charge level, anda battery status. 19. The ventilation system of claim 15, wherein the fourth system status data comprises utilized power source, primary display status, ventilation status, and at least one of: available gas sources, available power sources, utilized power source, battery system status, batteries in use, battery charge level, and a battery status. 20. The ventilation system of claim 15, wherein the fifth system status data comprises utilized power source, primary display status, ventilation status, and at least one of: available gas sources,available power sources,battery system status,batteries in use,battery charge level, anda battery status.
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이 특허에 인용된 특허 (220)
Borrello, Michael, Adaptive inverse control of pressure based ventilation.
Choncholas, Gary J.; Gosenheimer, Barbara M.; Michell, Paul, Apparatus and method for determining and displaying functional residual capacity data and related parameters of ventilated patients.
Delache, Alain J.; Souquet, Jacques; Emerson, Paul F.; Campbell, James L., Apparatus and method for providing a breathing gas employing a bi-level flow generator with an AC synchronous motor.
Teixeira Filho Fabio L. (Rua Honorato Faustino ; 164 Sao Paulo - SP BRX 05462-060 ) Andreoni Marcio D. L. (Rua TomeRaposo 70 Sao Paulo - SP BRX 02022-060 ), Automatic control stove.
Ringdahl Lynn O. (Alexandria MN) Stoen Jeffrey J. (Glenwood MN) Welte James B. (Sunberg MN) Gruber Gary G. (Alexandria MN) Jenum Timothy W. (Glenwood MN), Collapsible, powered platform for lifting wheelchair.
Deighan Joseph (Gardner KS) Phillips Steven L. (Olathe KS) Wanbaugh Linn D. (Olathe KS) Metzler Philip M. (St. Charles MO), Compliance meter for respiratory therapy.
Clough Stuart (11 Hillside Close Ellington ; Huntingdon ; Cambs. PE18 OAR GB2), Computer-controlling life support system and method for mixed-gas diving.
Knorpp Ernst (Leutkirch DEX) Gantner Manfred (Leutkirch DEX), Control arrangement for dental furnaces, especially microprocessor-controlled preheating furnaces.
Qu,YuZhi; Qu,ZhiPeng; Chao,Jason; Li,YuFu; Chen,Peng; Yan,JunHua; Yang,Hong Yuan; Wei,Qi Feng, Devices using a medium having a high heat transfer rate.
Anderson Ralph (Carlsbad CA) Yehushua Nurit (San Diego CA) Smargiassi Paul (San Diego CA) Thompson Paul (Santee CA) Moore Fred (Newbury Park CA), Human lung ventilator system.
Anderson Ralph (Carlsbad CA) Yehushua Nurit (San Diego CA) Smargiassi Paul (San Diego CA) Thompson Paul (Santee CA) Moore Fred (Newbury Park CA), Human lung ventilator system.
Gruenke Roger A. (Overland Park KS) Trimble Russell L. (Overland Park KS), Inspiratory airway pressure system using constant pressure and measuring flow signals to determine airway patency.
Yarnall Stephen T. ; Winter David P. ; Van Wagner Bruce, Magnetic exhalation valve with compensation for temperature and patient airway pressure induced changes to the magnetic.
Birkett,Kevin R.; Carnes,Tony C.; Coons, III,Samuel W.; Drummond,Willa H., Managing critical care physiologic data using data synthesis technology (DST).
Woodring, Paul L.; Kimm, Gardner J.; Stephenson, Robert L.; Rogers, David R.; Novkov, Donald J.; Mabry, Rebecca A.; Harrington, Steve, Medical ventilator.
Michael Joseph Banner ; Paul Bradford Blanch ; Johannes H. van Oostrom ; Richard Joel Melker, Method and apparatus for controlling a medical ventilator.
Halpern Arieh S. (Tarzana CA) Aldrich Anthony J. (Philadelphia PA), Patient monitoring system with chassis mounted or remotely operable modules and portable computer.
Blair, Mark S.; Braatz, Robert E.; Mashak, James N.; Rick, Norman A.; Tham, Robert Q.; Tobia, Ronald L., Remote control and tactile feedback system for medical apparatus.
Hood, David Darby; Sherrill, David; Kneale, Todd Douglas; Toth, Louis Stephen; Stanley, David Michael; Moore, Gene Bruce; Berry, Mark Lane; Garcia, Robert Michael; Sobko, William Richard; Hanks, Dona, Self contained transportable life support system.
Stephane Caplet FR; Marie-Therese Delaye FR, Structure equipped with electric contacts formed through said structure substrate and method for obtaining said structure.
Isaza, Fernando J.; Wong, Stanley; Verona, Itzhak; Doyle, Peter, System and method for adjustable disconnection sensitivity for disconnection and occlusion detection in a patient ventilator.
Isaza,Fernando J.; Wong,Stanley Y.; Doyle,Peter, System and method for adjustable disconnection sensitivity for disconnection and occlusion detection in a patient ventilator.
Isaza Fernando J. ; Wong Stanley Y., System and method for closed loop airway pressure control during the inspiratory cycle of a breath in a patient ventilat.
Charles L. Wallace ; Warren G. Sanborn ; David Arnett ; Howard L. Ferguson ; Jay Butterbrodt, System and method for controlling the start up of a patient ventilator.
Wallace Charles L. ; Sanborn Warren G. ; Arnett David ; Ferguson Howard L. ; Butterbrodt Jay, System and method for controlling the start up of a patient ventilator.
McGuire,Christopher J.; Swanson,Scott R.; Arnquist,Michael J.; Wallace,Donna M., System and method for customizing the visual layout of screen display areas.
Kimm Gardner J. (Carlsbad CA) Gee Glen N. (Encinitas CA) Fennema Paul J. (Fallbrook CA) Sanborn Warren G. (Escondido CA), System and method for flow triggering of breath supported ventilation.
Kimm Gardner J. (Carlsbad CA) Gee Glen N. (Encinitas CA) Fennema Paul J. (Fallbrook CA) Sanborn Warren G. (Escondido CA), System and method for flow triggering of pressure supported ventilation.
Kimm Gardner J. (Carlsbad CA) Gee Glen N. (Encinitas CA) Fennema Paul J. (Fallbrook CA) Sanborn Warren G. (Escondido CA), System and method for flow triggering of pressure supported ventilation by comparison of inhalation and exhalation flow.
Wallace Charles L. ; Sanborn Warren G. ; Arnett David ; Butterbrodt Jay ; Ferguson Howard L. ; Teel H. Clay, System and method for setting and displaying ventilator alarms.
Wallace Charles L. ; Sanborn Warren G. ; Arnett David ; Butterbrodt Jay ; Ferguson Howard L. ; Teel H. Clay, System and method for setting and displaying ventilator alarms.
Perine, Philippe; Gentner, Julien; Desfossez, Benjamin; Nicolazzi, Pascal; Gaudard, Yves; Nadjafizadeh, Hossein, Systems and methods for managing pressure in a breathing assistance system.
Figueiredo, David Luis; Davis, Michael K.; Seetharaman, Mahesh K.; Upham, Gail Frances, Three-dimensional waveform display for a breathing assistance system.
Predina, Joe Paul; Broberg, Harold L., Tuned open-loop switched to closed-loop method for rapid point-to-point movement of a periodic motion control system.
Isaza Fernando J. (San Marcos CA) Wong Stanley Y. (Oceanside CA), Ventilator control system that generates, measures, compares, and corrects flow rates.
Folken, Keith R.; Bettenhausen, Jeffrey A.; Schweizer, Alan W.; Wilson, Christi M., Display screen or a portion thereof with a graphical user interface.
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