The Fire Sprinkler Automatic Extinguisher designed and created for a quick response to the dangers of fire. My invention design & creation of the Cap Head T-Knob Handle & Nozzle Fitting allows the connection of a Fire Sprinkler Pendant, that it can automatically discharge on its own without the use of an operator. It also replaces ceiling water fire sprinkler suppression systems without the need for Pipes, Plumbing, Electrical and Water.

When the temperature of a fire reaches 155 degrees (F.), the thin glass bulb in the Fire Sprinkler Pendant head containing an alcohol liquid, boils, expands it breaks the thin glass bulb. This action releases a copper plug from Pendant and the 195-psi nitrogen gas pushes out a dry chemical agent from inside the fire extinguisher cylinder body.

A Fire Sprinkler Automatic Extinguisher can also operate manually by simply using the Hammer pin attached to Extinguisher for snapping the thin bulb glass in the Sprinkler Pendant Head. The manual operation called the PASS code method “Pin, Aim, Snap & Sweep,” at the base of the fire.

The Fire Sprinkler Automatic Extinguisher designed and created for a quick response to the dangers of fire. My invention design & creation of the Cap Head T-Knob Handle & Nozzle Fitting allows the connection of a Fire Sprinkler Pendant, that it can automatically discharge on its own without the use of an operator. It also replaces ceiling water fire sprinkler suppression systems without the need for Pipes, Plumbing, Electrical and Water.

When the temperature of a fire reaches 155 degrees (F.), the thin glass bulb in the Fire Sprinkler Pendant head containing an alcohol liquid, boils, expands it breaks the thin glass bulb. This action releases a copper plug from Pendant and the 195-psi nitrogen gas pushes out a dry chemical agent from inside the fire extinguisher cylinder body.

A Fire Sprinkler Automatic Extinguisher can also operate manually by simply using the Hammer pin attached to Extinguisher for snapping the thin bulb glass in the Sprinkler Pendant Head. The manual operation called the PASS code method “Pin, Aim, Snap & Sweep,” at the base of the fire.

A fire extinguisher includes a liquid fire extinguishing media, and first and second gases inside of a storage vessel at an operating pressure, and a discharge tube extending between a control valve and the fire extinguishing media. At least a portion of the first gas is dissolved in the fire extinguishing media. The control valve can be operated to control discharge of the fire extinguishing media via the discharge tube whereupon at least a portion of the second gas enters a flow of the fire extinguishing media via one or more holes in the discharge tube forming bubbles of the second gas in the flow of the fire extinguishing media. The fire extinguishing media exiting the control valve can pass through a nozzle which can causing first and second portions of the fire extinguishing media to collide forming a plume mist of the fire extinguishing media.

A fire extinguisher includes a liquid fire extinguishing media, and first and second gases inside of a storage vessel at an operating pressure, and a discharge tube extending between a control valve and the fire extinguishing media. At least a portion of the first gas is dissolved in the fire extinguishing media. The control valve can be operated to control discharge of the fire extinguishing media via the discharge tube whereupon at least a portion of the second gas enters a flow of the fire extinguishing media via one or more holes in the discharge tube forming bubbles of the second gas in the flow of the fire extinguishing media. The fire extinguishing media exiting the control valve can pass through a nozzle which can causing first and second portions of the fire extinguishing media to collide forming a plume mist of the fire extinguishing media.

A fire suppressant storage device (20) comprises: a tank (22) having a first port (40), a second port (70), and an interior (32) for storing fire suppressant. A discharge assembly (46) is mounted to the first port and comprises: a discharge valve (48); and a discharge conduit (50). The discharge conduit is at least partially within the interior and has an interior and an exterior. A liquid level measurement assembly is mounted to the second port and comprises: a tube (100) at least partially within the interior and having: an exterior and an interior sealed relative to the surrounding tank interior. A float (120) surrounds the tube and has one or more magnets (130) and having a range of motion. A plurality of magnetic field sensors (152, 154) are along a carrier (150) within the tube interior. The carrier extends from a proximal end to a distal end. The plurality of magnetic field sensors (152, 154) comprise: a first plurality of one dimensional sensors (152); and at least two three-dimensional sensors distally of the first plurality (154)

A fire suppressant storage device (20) comprises: a tank (22) having a first port (40), a second port (70), and an interior (32) for storing fire suppressant. A discharge assembly (46) is mounted to the first port and comprises: a discharge valve (48); and a discharge conduit (50). The discharge conduit is at least partially within the interior and has an interior and an exterior. A liquid level measurement assembly is mounted to the second port and comprises: a tube (100) at least partially within the interior and having: an exterior and an interior sealed relative to the surrounding tank interior. A float (120) surrounds the tube and has one or more magnets (130) and having a range of motion. A plurality of magnetic field sensors (152, 154) are along a carrier (150) within the tube interior. The carrier extends from a proximal end to a distal end. The plurality of magnetic field sensors (152, 154) comprise: a first plurality of one dimensional sensors (152); and at least two three-dimensional sensors distally of the first plurality (154)

A fire suppression apparatus includes a valve assembly connected to a container holding a fire suppressant. The valve assembly includes a valve body and a first disc. The valve body defines a passageway that extends between a first valve body end and a second valve body end. The first disc is disposed within the passageway. The first disc has a first disc body defining a perforation that extends completely through the first disc body.

A small fire extinguisher equipped with a rotary knob includes: a body part storing loaded stream; a nozzle part that is attached to the top of the body part and includes a valve at the inner center where compressed the loaded stream is sprayed, and a key insertion part where an L-shaped lock key is inserted or removed; a button part that is inserted and attached to the top of the nozzle part to open and close the valve with the button vertically entering in and coming out of the nozzle part; a plate rotary knob that is attached to one side of the nozzle part, covers up one end of the nozzle part, contacts the top of the button part, and is attached with a lock key; and a lock key which is attached to the plate rotary knob and stops or rotates the plate rotary knob.

A small fire extinguisher equipped with a rotary knob includes: a body part storing loaded stream; a nozzle part that is attached to the top of the body part and includes a valve at the inner center where compressed the loaded stream is sprayed, and a key insertion part where an L-shaped lock key is inserted or removed; a button part that is inserted and attached to the top of the nozzle part to open and close the valve with the button vertically entering in and coming out of the nozzle part; a plate rotary knob that is attached to one side of the nozzle part, covers up one end of the nozzle part, contacts the top of the button part, and is attached with a lock key; and a lock key which is attached to the plate rotary knob and stops or rotates the plate rotary knob.

A fire extinguisher is shown and described. The fire extinguisher may include a housing, a vessel positioned within the housing, the vessel retaining a fire suppression agent therein, and a discharge port positioned in the housing and operatively coupled with the vessel, where the fire suppression agent is capable of being expelled from the discharge port. The fire extinguisher may include an electrical connector positioned on the housing, the electrical connector capable of operatively securing to an electrical outlet, where the electrical connector is rotatable relative to the housing.