Patent application number | Description | Published |
20100212920 | INERT GAS FLOODING FIRE SUPPRESSION WITH WATER AUGMENTATION - A method and system are provided for suppressing a fire inside a defined volume within a structure. To suppress a fire, the defined volume is flooded with a flow of inert gas into which a limited amount of water is introduced into the flow of inert gas; the flow of inert gas and the limited amount of water introduced therein being sufficient to establish a fire extinguishing atmosphere within the defined volume having a volumetric oxygen concentration of at least about 14%. A cartridge for storing a limited amount of water has a water outlet in flow communication with a spray nozzle that is in flow communication with a supply of pressurized inert gas. The water storage cartridge has a gas inlet in flow communication with a supply of pressurized inert gas for pressurizing the water storage cartridge to cause water to flow therefrom to the spray nozzle. | 08-26-2010 |
20100218961 | FIRE SUPPRESSION SYSTEM WITH FREEZE PROTECTION - A water and inert gas fire suppression system ( | 09-02-2010 |
20100236796 | FIRE SUPPRESSION SYSTEM AND METHOD - A fire suppression system includes a high pressure inert gas source that is configured to provide a first inert gas output and a low pressure inert gas source that is configured to provide a second inert gas output. A distribution network is connected with the high and low pressure inert gas sources to distribute the first and second inert gas outputs. A controller is operatively connected with at least the distribution network to control how the respective first and second inert gas outputs are distributed. | 09-23-2010 |
20100294518 | HYBRID INERT GAS FIRE SUPPRESSION SYSTEM - A hybrid fire suppression system includes a supply of pressurized inert gas, a pipe network connected in inert gas flow communication to the inert gas supply, a first inert gas nozzle, a second inert gas nozzle, and a water storage cartridge having an interior volume defining a water reservoir storing a limited amount of water. The water reservoir communicates with the second inert gas spray nozzle. The first inert gas nozzle connects with the first terminus for introducing a flooding flow of inert gas only into a first protected space. The second inert gas nozzle connects with the second terminus for introducing a flooding flow of inert gas and the limited amount of water from the water reservoir into the second protected space. | 11-25-2010 |
20110048747 | FIRE SUPPRESSION SYSTEM WITH PRESSURE REGULATION - A fire suppression system includes a container for supplying a fire suppression agent into a compartment to be protected. The container communicates with a flow line leading to the compartment. A control controls the fire suppression system, and a valve on the flow line delivers a variable pressure to the flow line from the container. Further, a system is disclosed and claimed wherein a single gas supply communicates through a manifold to each of a plurality of compartments. In addition, a system is disclosed and claimed wherein a primary gas supply container switches to secondary gas supply containers once a pressure within the primary gas supply container drops below a predetermined amount. | 03-03-2011 |
20110083864 | FIRE SUPPRESSION SYSTEM - A fire detection system includes a detection tube and a sensing device. The detection tube contains a sensing fluid having a first physical condition and a second physical condition. The sensing fluid is in the first physical condition below a temperature threshold, and is in the second physical condition above the temperature threshold. The sensing fluid is at least partially liquid in the first physical condition. The sensing device is movable to open in response to a transition of a portion of the sensing fluid from the first physical condition to the second physical condition. | 04-14-2011 |
20110186312 | INERT GAS SUPPRESSION SYSTEM FOR TEMPERATURE CONTROL - A fire suppression system is disclosed that includes a suppressant source system configured to hold fire suppressant. In one example, the fire suppressant is an inert gas. A temperature sensor is arranged in a suppression area and is configured to detect an undesired temperature or temperature increase in the suppression area. A suppression system is in communication with the temperature sensor and in fluid communication with the suppressant source system. The suppression system is configured to selectively release the fire suppressant to the suppression area at initial and subsequent rates. The initial rate is greater than the subsequent rate. The subsequent rate is configured to displace a volume from the suppression area through the leakage system in response to the undesired temperature. | 08-04-2011 |
20110308823 | PROGRAMMABLE CONTROLLER FOR A FIRE PREVENTION SYSTEM - A programmable controller for a fire suppression system includes a rewritable memory module and a processor module as well as multiple sensor inputs and control signal outputs. | 12-22-2011 |
20120145416 | COMBINED FIRE EXTINGUISHING SYSTEM - A fire suppression system includes a divert valve downstream of a fire suppressant source. The divert valve is selectively movable between an initial first position which communicates extinguishing agent into a first distribution network and a second position which communicates extinguishing agent into a second distribution network. | 06-14-2012 |
20120279732 | MANUAL RELEASE FOR A PYROTECHNICAL ACTUATOR FIRED BY A PIEZOELECTRIC GENERATOR OR IGNITER - A fire extinguishing apparatus has a structure defining a first chamber containing an electrically operable explosive device, a piezoelectric cell capable of producing an electrical output in response to a mechanical force upon the piezoelectric cell electrically connected to the electrically operable explosive device, a container of fire suppressant in contact with the structure, and a mechanical mechanism adjacent the piezoelectric cell for producing the mechanical force on the piezoelectric cell. The mechanical force produced by the mechanical mechanism is applied to the piezoelectric cell to produce the electrical output that actuates the electrically operable explosive device. | 11-08-2012 |
20130098636 | AUTOMATIC FIRE EXTINGUISHING SYSTEM WITH INTERNAL DIP TUBE - An automatic fire extinguishing system includes a canister having a central axis, an outlet port disposed on the canister, a dip tube having dip tube side holes and inlet openings, and disposed in the canister about the central axis and in partial fluid communication with the canister and coupled to the outlet port, a propellant gas mixture disposed within the canister and a gaseous fire suppression agent disposed in the canister. | 04-25-2013 |
20130098637 | AUTOMATIC FIRE EXTINGUISHING SYSTEM HAVING OUTLET DIMENSIONS SIZED RELATIVE TO PROPELLANT GAS PRESSURE - An automatic fire extinguishing system includes a canister having a central axis, an outlet port disposed on the canister, a dip tube disposed in the canister about the central axis and in partial fluid communication with the canister and coupled to the outlet port, a propellant gas mixture disposed within the canister; and a gaseous fire suppression agent disposed in the canister, wherein a diameter of the outlet port is sized relative to a pressure of the propellant gas mixture. | 04-25-2013 |
20130098638 | N2/CO2 FIRE EXTINGUISHING SYSTEM PROPELLANT GAS MIXTURE - An automatic fire extinguishing system includes a canister having a central axis, an outlet port disposed on the canister, a dip tube disposed in the canister about the central axis and in partial fluid communication with the canister and coupled to the outlet port, a propellant gas mixture of CO | 04-25-2013 |
20130098639 | AUTOMATIC FIRE EXTINGUISHING SYSTEM WITH GASEOUS AND DRY POWDER FIRE SUPPRESSION AGENTS - An automatic fire extinguishing system includes a canister having a central axis, an outlet port disposed on the canister, a dip tube disposed in the canister about the central axis and in partial fluid communication with the canister and coupled to the outlet port, a propellant gas mixture disposed within the canister, a gaseous fire suppression agent disposed in the canister and a dry powder fire suppression agent disposed in the canister. | 04-25-2013 |
20130118765 | SELF POWERED AUTOMATIC FIRE EXTINGUISHER BASED UPON A MECHANICAL HEAT DETECTION MECHANISM AND A PYROTECHNICAL ACTUATOR FIRED BY A PIEZOELECTRIC DEVICE - A fire extinguishing apparatus includes a structure defining a first chamber containing an electrically operable explosive device. The apparatus also has a piezoelectric cell capable of producing an electrical output in response to the impact upon the piezoelectric cell. The apparatus also has a container of nonflammable pressurized fluid in contact with the structure, and a mechanical detection mechanism with a thermal sensor for producing a mechanical force at an established temperature. The mechanical force produced by the mechanical detection mechanism is applied to the piezoelectric cell to produce the electrical output that actuates the electrically operable explosive device. | 05-16-2013 |
20140177675 | HEAT DETECTOR WITH SHAPE METAL ALLOY ELEMENT - A temperature sensing system comprises a conductive tube, a shape memory alloy (SMA) element, and a detector. The SMA element is disposed to create an electrical contact with the electrical tube when subjected to at least a critical temperature, and the detector is configured to identify an alarm condition when the conductive tube and the SMA element form a closed electrical circuit. | 06-26-2014 |
20140261748 | VALVE MECHANISM WITH FRANGIBLE PLUG - A valve mechanism is herein described that utilises a frangible plug. The valve mechanism comprises a valve body having an inlet port and an outlet port and a passageway extending therebetween. The valve mechanism comprises a frangible plug that is held within the valve body to block the passageway when the plug is intact. The plug comprises a predefined fracture plane and is configured to fracture across the predefined fracture plane upon application of an impact force. | 09-18-2014 |
20140367126 | INERT GAS SUPPRESSION SYSTEM FOR TEMPERATURE CONTROL - A method of suppressing a fire includes the steps of dispensing a first inert gas in a suppression area at an initial rate, detecting an undesired temperature in the suppression area, dispensing a second inert gas at a subsequent rate in the suppression area in response to the undesired temperature and displacing a volume from the suppression area with the inert gas to achieve a temperature below the undesired temperature. | 12-18-2014 |