| Class / Patent application number | Description | Number of patent applications / Date published |
|---|
| 128204260 | Gas supply means responsive to breathing | 24 |
| 20080251079 | APPARATUS AND METHOD FOR PROVIDING POSITIVE AIRWAY PRESSURE - An apparatus for providing a breathing gas to a user may include: a headgear unit and a control unit. The headgear unit may include: a breathing interface, an adjustable structure to fit the headgear unit to the user's head with the breathing interface disposed in relation to the user's facial area, a blower motor assembly attached to the adjustable structure, and a plenum coupled to the breathing interface and the blower motor assembly to form a breathing gas flow path. The control unit controlling operation of the blower motor assembly based on a desired pressure for the breathing gas. Operation of the blower motor assembly provides the breathing gas to a user airway at an adjustable positive pressure via the breathing gas flow path. Additional embodiments of the apparatus and various embodiments of a related method are also provided herein. | 10-16-2008 |
| 20080276940 | Breathing-Gas Delivery System With Exhaust Gas Filter Body And Method Of Operating A Breathing-Gas Delivery System - Breathing-gas delivery systems and methods are described. In one such system there is a movable partition, a housing and a filter body. The housing is disposed about the movable partition, and thereby provides a respirator side on a first side of the partition, and a patient side on a second side of the partition. The housing also has (a) a patient inspiration orifice on the patient side, which is adaptable to supply breathing-gas to a patient, and (b) a gas exhaust orifice on the patient side. | 11-13-2008 |
| 20090078258 | Pressure regulation methods for positive pressure respiratory therapy - Methods that may provide a positive pressure therapy to a user are described. The methods include detecting the user's breathing parameters and increasing the pressure delivered to the user from a sub-therapeutic pressure to a therapeutic pressure based upon the breathing parameters. | 03-26-2009 |
| 20090133696 | VENTILATION STABILIZATION SYSTEM - There is an apparatus including a mandible positioner for positioning the mandible of a patient with respect to the maxilla of the patient and a breathing assistance apparatus. The breathing assistance apparatus has a sensor arranged to detect at least one element representative of a breathing state of the patient. A source of breathing gas includes a patient interface and has at least a first operable position and a second operable position. The source of breathing gas provides a different ratio of carbon dioxide and oxygen to the patient when in the first operable position than in the second operable position. The source of breathing gas may be moved between the first operable position and the second operable position in response to signals from the sensor. For example, the source of breathing gas may provide rebreathed air to the patient in the first position and atmospheric air in the second position. An apparatus for interfacing with a patient to allow breathing gas to be provided to the patient is also provided. | 05-28-2009 |
| 20090194110 | MECHANICAL VENTILATOR - An entrainment-based mechanical ventilator may be initially set to approximate the patient's spontaneous respiratory frequency, enabling the patient to entrain to the ventilator if the ventilator frequency matches the patient's spontaneous breathing frequency or is within a reasonable range from it. If the preset frequency of the ventilator is set too high or too low from the spontaneous frequency, the patient will fall out of phase and “fight” the ventilator. The ventilator phase relative to the patient's breathing effort indicates the difference between the ventilator frequency and spontaneous frequency. Based on the phase difference, a closed-loop control mechanism may continuously adjust the ventilator frequency to match the patient breathing frequency until the phase shift is within a preset limit. Patient-ventilator entrainment will occur when the ventilator frequency is within a certain range from the patient breathing frequency. | 08-06-2009 |
| 20090250059 | FLOW SENSOR - A bi-directional flow sensor is adapted for reducing pneumatic noise during pressure sensing with a flow passing through the flow sensor. The flow sensor comprises a hollow, tubular member having a throat section disposed between a ventilator end and a patient end. A flow restrictor is disposed in the throat section and is adapted to measure differential pressure in the flow. A baffle is mounted at the ventilator end and is adapted to minimize non-axial flow at pressure taps located on opposing ends of the flow restrictor. The patient end includes a flow obstruction configured to promote uniform velocity across the flow at the pressure taps during exhalation flow from the patient end to the ventilator end. The flow sensor minimizes pneumatic noise to less than 0.1 LPM to allow accurate patient flow measurement and triggering of inhalation and exhalation phases at flow rates of 0.2 LPM. | 10-08-2009 |
| 20100089398 | METHOD FOR THE CONSTANT AUTOMATIC MONITORING OF THE REGULARITY OF THE BREATHING OF A DIVER DURING SCUBA DIVES - Method for the constant automatic monitoring of the regularity of the breathing of a diver during scuba dives, characterized in that it involves measuring pressure variations in the air supplied by the regulator first stage which reduces the pressure of the compressed air delivered by the compressed-air bottles to the pneumatic stabilizer jacket and/or to the demand valve caused by the amplitude and frequency of the breathing acts of the diver. | 04-15-2010 |
| 20100147306 | BREATHING APPARATUS - A face mask ( | 06-17-2010 |
| 20100186745 | SYSTEM AND METHOD FOR A FLOW SENSOR - A flow sensor for a medical ventilator system is disclosed herein. The flow sensor includes a valve assembly having a valve seat, and a valve flap attached to the valve seat. The valve flap is composed of an elastomeric material configured to generate a pre-load that biases the valve flap into engagement with the valve seat such that the valve assembly remains closed in the absence of an externally applied force. The flow sensor also includes a pressure transducer configure to measure a first pressure level at an upstream position relative to the valve assembly, and a second pressure level at a downstream position relative the valve assembly. The flow sensor also includes a processor configured to estimate the flow rate of a fluid passing through a medical ventilator system based on the first and second pressure levels. | 07-29-2010 |
| 20110000490 | AIRCRAFT BREATHING SYSTEM USING OBOGS - A device for delivering a breathing gas to an on-demand breathing mask ( | 01-06-2011 |
| 20120152253 | DATA COMMUNICATION AND DISPLAYS FOR BREATHING APPARATUS FACEPIECES AND PRESSURE REGULATORS - A respiration system includes a pressure regulator including a housing, an inlet for connection to a pressurized gas comprising oxygen, and a first data communication system, and a respiration facepiece including an interface to which the pressure regulator is removably attachable, at least one seal system to form a sealing engagement with the face of a user to encompass the nose and mouth of a wearer; an inspiration port in fluid connection with the pressure regulator interface and in fluid connection with the interior of the facepiece and at least one display within a volume of sealing engagement with the face of the user that is within the field of view of the user. The pressure regulator interface includes a second data communication system to receive data from the first data communication system to control the at least one display. A sealing attachment may, for example, be formed between the pressure regulator and the interface of the facepiece. | 06-21-2012 |
| 20120160245 | FACEPIECE WITH OPEN PORT - In one aspect, a respiration system includes a regulator including an inlet for connection to a source of pressurized gas (which includes oxygen) and an outlet for delivery of the gas to the user, and a respiration facepiece for use in connection with the regulator. The facepiece includes an interface to which the regulator is removably attachable, at least one seal system to form a sealing engagement with the face of a user to encompass the nose and mouth of a wearer, an inhalation port in fluid connection with the regulator interface and in fluid connection with the interior of the facepiece, at least one inhalation check valve in fluid connection between the inhalation port and the interior of the facepiece; an exhalation port in fluid connection with the facepiece; an exhalation check valve in fluid connection with the exhalation port; and an ambient port separate from the inhalation port and from the exhalation port. The ambient port is in fluid connection with the interior of the facepiece without an intervening check valve. The ambient port is in fluid connection with the interface such that the regulator seals the ambient port from fluid connection with the outlet of the regulator upon connection of the regulator to the regulator interface. The inhalation port and the ambient port can, for example, be formed in the interface. | 06-28-2012 |
| 20120211009 | Regulator for Underwater Breathing Apparatus - Regulator for underwater breathing apparatus, comprising a box-like body in which is formed a chamber having a first tubular element for connection to a mouthpiece, a second tubular element provided with a regulating valve for supplying air to the inside of the regulator chamber, a conduit for discharging expired air and any residual water, and an aperture on which is positioned a flexible diaphragm surmounted by a cover provided with a set of holes or apertures adapted to allow water to come into contact with the outer surface of the flexible diaphragm; the flexible diaphragm interacts by suitable means with the regulating valve; the diaphragm and the cover lie on, or are parallel to, a plane (M′) facing upwards and inclined forwards relative to a generally upright position of the diver; a plurality of water inlet apertures is formed behind the cover. | 08-23-2012 |
| 20120255553 | VENTILATION INTERFACE FOR SLEEP APNEA THERAPY - The ventilation interface for sleep apnea therapy interfaces a ventilation device to the patient's airways. The ventilation interface includes a pair of nasal inserts made from flexible, resilient silicone which are oval shaped in cross-section and slightly tapered from a base proximal the ventilation supply to the distal tip end. A bead flange is disposed about the exterior of each insert at the distal end of the insert. A bleed port for release of exhaled air is defined through a conical vent projecting normally to the path of the incoming air flow, and continues through a nipple extending to the exterior of the air conduit. In one embodiment, a pair of nasal inserts are integral with a nasal cannula body, with bleed ports axially aligned with each insert. In another embodiment, each insert is independently connected to a separate, thin-walled, flexible supply line. | 10-11-2012 |
| 20120260919 | DIAPHRAGM - A diaphragm for a lung demand valve, including a chemical, biological, radiological and/or nuclear (CBRN) layer which is sufficiently resistant to the permeation of at least some CBRN agents and a resilient layer which is resiliently deformable. The CRBN layer is arranged to restrict the permeation of at least some CBRN agents through the diaphragm, and the resilient layer is arranged to allow the diaphragm to be resiliently deformed. | 10-18-2012 |
| 20120312303 | Self-contained breathing apparatus (SCBA) with safety quick disconnect for permitting safe and ready access to a replacement breathing component - A self-contained breathing apparatus (SCBA) comprising: a mouthpiece; a breathing component; and a safety quick disconnect comprising: a valve body; a valve spool comprising an L-shaped channel formed such that when the valve spool is appropriately rotated, the L-shaped channel (i) places an opening of the valve body in communication with a first port, or (ii) places the opening in communication with a second port; and a lock mechanism for (i) preventing the valve spool from rotating unless the breathing component is positioned in one of first and second mounts formed on the valve body adjacent the first and second ports, and a replacement breathing component is positioned in the other of the first and second mounts, and (ii) preventing the removal of a breathing component from a mount adjacent to a port which is in communication with the opening. | 12-13-2012 |
| 20130032150 | PNEUMATIC SINGLE-LUMEN MEDICAL GAS CONSERVER - A pneumatic single-lumen medical gas conserver combines the advantages of typical single-lumen and dual-lumen conservers. In particular, a pneumatic single-lumen conserver can provide a rapid response to patient inhalations without the need for a more expensive dual-lumen cannula hose. In addition, after delivering oxygen the conserver has a specific pneumatically-implemented delay period before being able to detect the next inhalation to inhibit “double pulse” deliveries. In addition to a conserving or pulse flow mode, the conserver can provide a user-selectable gas flow at a continuous or constant flow mode. | 02-07-2013 |
| 20130081627 | PULSE OXYGEN SYSTEM - A pulse oxygen system and methods for providing oxygen to a user are disclosed. An oxygen mask coupled to a metering valve is provided to a user. An oxygen prescription delivery amount is determined based on and as a function of a real-time operation condition. A metering valve timing is calculated based on the oxygen prescription delivery amount to obtain a pulse delivery time. A pressure and time regulated flow of the oxygen prescription delivery amount of pulsed oxygen is then dispensed to the oxygen mask for a duration of the pulse delivery time in response to detecting the user breathing through the oxygen mask. | 04-04-2013 |
| 20130255687 | METHOD FOR CONTROLLING THE END-EXPIRATORY PRESSURE IN A RESPIRATORY SYSTEM - A method for controlling the end-expiratory pressure at a patient ( | 10-03-2013 |
| 20140076321 | Valve for Controlling Gas Flow - A gas valve is arranged for controlling the flow of medical gas for oxygen therapy in case of spontaneous breathing. An embodiment of the gas valve contains a connection component to connect the gas valve to an external supply such as for example an external supply network for medical gases at a pressure lower than 50 bars. The gas valve may contain a regulating system configured to select and supply a pulsating or continuous flow of medical gas in which the regulating system contains a flow rate regulator to controllable set the flow rate of the continuous flow. | 03-20-2014 |
| 20160001105 | Automatic Switchable Exhale Cartridge - An exhale valve assembly includes a housing, a valve carrier body, a primary valve assembly, a plunger, a lock assembly, and an air pressure activated actuator assembly. The valve carrier body is disposed the housing and has a passageway. The primary valve assembly is mounted to the valve carrier body. A first air flow path passes through the passageway and a second air flow path passes through the primary valve assembly. The plunger is configured to permit a flow through the first air flow path when the plunger is in a first position and to direct a flow through the second air flow path when the plunger is in a second position. The lock assembly is configured to secure the plunger in the first position. The air pressure activated actuator assembly is configured to release the lock responsive to a pressure change within the cavity of the housing. | 01-07-2016 |
| 20180021532 | Device for Detecting Air Flow | 01-25-2018 |
| 128204280 | Bag or bellows included in control mechanism | 2 |
| 20080216836 | Portable Breathing Apparatus for Divers - A portable semi-closed breathing apparatus for divers, having a circuit comprising a breathing bellows ( | 09-11-2008 |
| 20110197889 | ARRANGEMENT AND METHOD FOR SUPPLYING BREATHING GAS FOR RESPIRATION - An apparatus and method for supplying a breathing gas for a respiration. The apparatus includes a reciprocating unit configured to receive an inspiration gas flow and adapted to control respiratory movements. The apparatus also includes a gas mixer for supplying a fresh gas flow. The apparatus also includes a breathing circuit configured to conduct an expiration gas flow to the reciprocating unit and to conduct the fresh gas flow from the gas mixer for the respiration and to conduct the gas flow from the reciprocating unit for an inspiration, the breathing circuit comprising a CO2 remover configured to remove carbon dioxide from the gas. The apparatus also includes a first bypass passage configured to permit bypassing the reciprocating unit and connecting the breathing circuit to the inspiration gas flow upstream from the reciprocating unit. | 08-18-2011 |
