A pierce pin for an inflator for piercing the frangible seal of a gas cartridge including in combination a shaft having a axial bore forming a tubular member having a tip with a rim and a pair of slots formed across the rim into the tip into the tubular member to an appreciable depth to form a tab, the tab being bent inwardly into the axial bore after formation of the slots.

A liquid-ingress control device, comprising a casing having an interior and an exterior, and optionally, a liquid-activated trigger positioned in the casing interior, the casing comprising an exterior liquid entry control surface defined by a perimeter in sealing relationship with an edge of a cap, the cap having an interior cap surface formed to define a cap space between the interior cap surface and the liquid entry control surface; the liquid entry control surface comprising a liquid entry port comprising a tube extending between the exterior and interior of the casing through an aperture formed in the entry control surface, the tube optionally comprising a flange positioned exterior to the casing; the cap comprising at least two flow apertures positioned such that liquid contained within the cap space is capable of egress under gravity from the cap space, independently of the orientation of the device.

A liquid-ingress control device, comprising a casing having an interior and an exterior, and optionally, a liquid-activated trigger positioned in the casing interior, the casing comprising an exterior liquid entry control surface defined by a perimeter in sealing relationship with an edge of a cap, the cap having an interior cap surface formed to define a cap space between the interior cap surface and the liquid entry control surface; the liquid entry control surface comprising a liquid entry port comprising a tube extending between the exterior and interior of the casing through an aperture formed in the entry control surface, the tube optionally comprising a flange positioned exterior to the casing; the cap comprising at least two flow apertures positioned such that liquid contained within the cap space is capable of egress under gravity from the cap space, independently of the orientation of the device.

The smart inflatable swimwear gets involved in the swimwear technology area. The smart inflatable swimwear is composed of the body, gasbags, air tubes, gas cylinder, gas needle, prober, bandages, power cord and caution light. The gasbags are mounted on both sides of the front side of the body of the described swimwear which also has gasbags on the middle of the back side. The gas cylinder is mounted on the body of the swimwear on the back side under the described gasbags. The described gas cylinder is connected to the gasbags on the back side through the air tube. The described gasbags on the back side are connected to the ones on the front side through the air tube.

The smart inflatable swimwear gets involved in the swimwear technology area. The smart inflatable swimwear is composed of the body, gasbags, air tubes, gas cylinder, gas needle, prober, bandages, power cord and caution light. The gasbags are mounted on both sides of the front side of the body of the described swimwear which also has gasbags on the middle of the back side. The gas cylinder is mounted on the body of the swimwear on the back side under the described gasbags. The described gas cylinder is connected to the gasbags on the back side through the air tube. The described gasbags on the back side are connected to the ones on the front side through the air tube.

An inflator including in combination, an inflator body having at one end an input for receiving the neck of a gas cartridge, a manifold assembly intended to be fluidly connected to an inflatable, a combination automatic and manual actuator assembly including a spring-loaded actuator including a pierce pin for fracturing a frangible seal of the gas cartridge, a bobbin with a dissolvable pill that retains the spring-loaded actuator in a cocked position by an annular ring seat that engages the bobbin and a hood connected onto the end of the inflator body, the hood including an inwardly-extending tab that engages the actuator to securely retain the hood onto the end of the inflator body by means of the inwardly-extending tab being grasped by the forked end of the actuator.

An inflator including in combination, an inflator body having at one end an input for receiving the neck of a gas cartridge, a manifold assembly intended to be fluidly connected to an inflatable, a combination automatic and manual actuator assembly including a spring-loaded actuator including a pierce pin for fracturing a frangible seal of the gas cartridge, a bobbin with a dissolvable pill that retains the spring-loaded actuator in a cocked position by an annular ring seat that engages the bobbin and a hood connected onto the end of the inflator body, the hood including an inwardly-extending tab that engages the actuator to securely retain the hood onto the end of the inflator body by means of the inwardly-extending tab being grasped by the forked end of the actuator.

A connection device is for connecting a compressed gas cylinder to an inflatable device. The connection device includes a releaser with an activation mechanism for controlled puncture of the compressed gas cylinder. The connection device further includes: an outer sleeve for being fastened into the releaser by turning in a first direction; and an inner sleeve for being fastened into the outer sleeve by turning of the inner sleeve in a second direction and for the compressed gas cylinder to be fastened into said inner sleeve by rotation of the compressed gas cylinder in the first direction. The connection device is configured such that turning of the compressed gas cylinder in the second direction will result in axial displacement and puncture of the compressed gas cylinder.

A liquid-ingress control device, comprising a casing having an interior and an exterior, and optionally a liquid-activated trigger positioned in the casing interior; the casing comprising an exterior liquid entry control surface defined by a perimeter in sealing relationship with an edge of a cap, the cap having an interior cap surface formed to define a cap space between the interior cap surface and the liquid entry control surface; the liquid entry control surface comprising a liquid entry port comprising a tube extending between the exterior and interior of the casing through an aperture formed in the entry control surface, the tube optionally comprising a flange positioned exterior to the casing; the cap comprising at least two flow apertures positioned such that liquid contained within the cap space is capable of egress under gravity from the cap space, independently of the orientation of the device.

A liquid-ingress control device, comprising a casing having an interior and an exterior, and optionally a liquid-activated trigger positioned in the casing interior; the casing comprising an exterior liquid entry control surface defined by a perimeter in sealing relationship with an edge of a cap, the cap having an interior cap surface formed to define a cap space between the interior cap surface and the liquid entry control surface; the liquid entry control surface comprising a liquid entry port comprising a tube extending between the exterior and interior of the casing through an aperture formed in the entry control surface, the tube optionally comprising a flange positioned exterior to the casing; the cap comprising at least two flow apertures positioned such that liquid contained within the cap space is capable of egress under gravity from the cap space, independently of the orientation of the device.