A fire extinguisher includes a main dome partially surrounding an internal space housing agent. A secondary dome is mounted to the main dome and is inverted with respect to the main dome. The secondary dome can have a radius of curvature that is equal to, greater than, or less than that of the main dome. The discharge outlet can include a discharge outlet configured to discharge laterally relative to an axis of symmetry of the main dome and the secondary dome.

A fire extinguisher includes a main dome partially surrounding an internal space housing agent. A secondary dome is mounted to the main dome and is inverted with respect to the main dome. The secondary dome can have a radius of curvature that is equal to, greater than, or less than that of the main dome. The discharge outlet can include a discharge outlet configured to discharge laterally relative to an axis of symmetry of the main dome and the secondary dome.

A fire extinguisher includes a cylinder for storing a fire extinguishing agent; a valve assembly disposed on the cylinder, the valve assembly comprising a closed position and an open position, the valve assembly configured to deliver the fire extinguishing agent from within the cylinder when in the open position; and an actuation assembly operably connected to the valve assembly, the actuation assembly comprising a button and a control device, the control device configured to actuate the valve assembly from the closed position to the open position when the button is contacted.

An agitator for disposition within a cavity of a vessel body containing a particulate includes a weighted portion and a stirring portion. The agitator is positioned and disposed relative to the vessel body to move the stirring portion through the particulate in response to movement of the weighted portion in response to gravitational and/or inertial forces acting on the weighted portion due to movement of the vessel body. Particulate storage vessel arrangements and methods of particulate mixing are also described.

Improvements to a portable fire extinguisher are disclosed. The improvements allow for frequent and simplified inspection and maintenance of a fire extinguisher with minimal training and without need for custom equipment. The improvements include an anti-bridging mechanism that can be articulated from the exterior of the chamber to fluff, mix or stir the powder within the chamber to keep it in a liquefied state. Additional improvements include a larger opening to more quickly fill and inspect the powder within the chamber. Another improvement includes the use of a CO.sub.2 cartridge located external to the chamber to allow easier servicing or replacement of just the CO.sub.2 cartridge as well as the ability to maintain the chamber in an un-pressurized condition, allows for non-HASMAT shipping. These features will extend the service intervals while maintaining the fire extinguisher in a ready condition.

A fire extinguishing appliance adjustable in foam expansion ratio includes a main body, a spray-head seat connected with the main body, and a guide unit. The main body is provided with an agent chamber received therein with a non-toxic agent, while the guide unit is formed with an inlet, an outlet and an inner wall having a damping piece mounted thereon. Thus, when the non-toxic agent is actuated to pass through the inlet and get into the guide unit, the non-toxic agent will collide with the damping piece and rotate to carry out foaming, able to enhance the foam expansion ratio, the mixing efficiency and the fire extinguishing efficiency of the non-toxic agent.

A method of manufacturing a self-expanding fire-fighting foam solution is disclosed. Here, the method can include purging air from a container, wherein the purging is performed via flowing an inert gas into the container, such that substantially inert environment is created within the container. In addition, the method can further include dispensing or filling a pre-determined amount of foam concentrate into a container, dispensing or filling a pre-determined amount of water into the container, and mixing the foam concentrate and water within the container, wherein the mixed foam and water within the inert container provide the self-expanding fire-fighting foam solution and having a pH ranging from about 6.8 to 7.8 moles per liter.

The invention relates to a fire extinguisher with a checking function comprises a fire extinguisher body; a through hole is formed in an upper part of a side surface of the fire extinguisher body; a fixing seat is mounted at the through hole; a checking component is arranged inside the fixing seat; a cavity is machined inside the fixing seat; a groove is formed at a front end of the cavity; a rubber ring for fixing the checking component is mounted inside the groove; a cambered surface mated with the checking component is machined inside the fixing seat; and the checking component is a transparent glass bead. The fire extinguisher has the benefits that the fixing seat is mounted on the fire extinguisher body, a fixing sleeve is mounted on the fixing seat, the glass bead is mounted at the internal cavity of the fixing seat and the fixing sleeve, the through hole is formed in the fire extinguisher body and the fixing seat is fixedly welded on the through hole; thus the fire extinguisher has many advantages that the structure is simple, fire extinguishing agents inside the fire extinguisher can be checked or liquid level and liquid weight can be inspected remotely (transmission of photos and of the latest identification code over a network), an warning about insufficient liquid amount is sent out using a travel controller, and it is convenient and efficient to use the fire extinguisher.

A dry chemical closed recovery system for servicing fire extinguishers including first and second tanks, ball valves, and a pressure relief valve. The dry chemical closed recovery system accepts the high-pressure discharge from a dry chemical fire extinguisher and refills the fire extinguisher with dry chemical using low pressure. By manipulating the ball valves, the fire extinguisher can be refilled incrementally or all at once.

The present compact powder fire-extinguishing device comprises a container containing a fire-extinguishing powder, said container being in the form of a single-use cartridge (1) containing a fire-extinguishing powder (3), said cartridge being separable from the fire-fighting device by means of a reusable fast-action firing device (4), wherein the fire-extinguishing powder (3) is disposed inside of a casing (2) of the cartridge (1) in a polymer tube (5), one end (6) of which is fastened at an outlet of the casing (2) of the cartridge (1), about the periphery of said casing, and the second end of the tube (5) abuts a sleeve (7) and is configured as a piston (8) having an aperture (9). Within the casing (2) of the cartridge (1) are provided means that generate a propulsive charge and are configured as a striker-type igniter-percussion cap (15) and a pyrotechnic gas generator (16) disposed one after the other, said gas generator being connected to the cavity of the sleeve (7), and the other end of the cartridge (1) is provided with a contoured surface (18) and is connected to the firing device (4) that comprises a mechanism for fastening and discharging the cartridge. Furthermore, the firing device (4) is provided with a striker trigger mechanism that comprises a head (30), a flat striking spring (32) having a striker (33), a hammer (38) connected to a trigger (41), and a safety catch (46).