A lifesaving device and a lifesaving control method are provided. Wherein, the lifesaving device includes: at least one first detection module (200) configured for detecting human body biological characteristic information, a lifesaving device body (100) capable of being worn on a body of a user, and at least one first gasbag module (300) arranged on the lifesaving device body (100); after the first gasbag module (300) is activated, a lifesaving gasbag (1) can be popped up; the first detection module (200) is in signal connection with the first gasbag module (300) and is configured for activating the first gasbag module (300) when the biological characteristic information detected meets a first preset condition.

Embodiments provide systems and methods for an actuating system for inflating an inflatable structure in which a pressurized fluid piston is coupled directly to the valve an inflatable structure. The coupling of actuator to valve is such that the pairing will remain rigid and secure until the deliberate act of operating the actuator. When the actuator is operated, the actuator displaces a translating chock. This activation simultaneously (a) decouples the valve from actuator, allowing the inflatable to deploy without impedance and (b) activates the inflation of the structure via the valve.

An aspirator assembly for an inflatable device may have an inner housing disposed about an axis with an outlet formed through the inner housing. An outer housing may also be disposed about the axis with a surface of the outer housing covering the outlet. The outer housing may be translatable relative to the inner housing to expose the outlet in response to a gas pressure within the aspirator assembly being above a threshold.

A safety, rescue, and recovery device that compressively secures to a limb of a user when inflated. The device can be easily adjusted to be negatively buoyant, neutrally buoyant, or positively buoyant before inflation depending on whether the application is safety, rescue, or recovery. The device may also be integrated into an article of clothing for certain applications. An elongated handle is attached to the device to provide a sliding attachment point for a rescue rope that automatically reduces torque applied to the limb of the user. Consequently, a rescue force applied to the rescue rope can act at a variety of angles along an arc relative to the device.

A safety, rescue, and recovery device that compressively secures to a limb of a user when inflated. The device can be easily adjusted to be negatively buoyant, neutrally buoyant, or positively buoyant before inflation depending on whether the application is safety, rescue, or recovery. The device may also be integrated into an article of clothing for certain applications. An elongated handle is attached to the device to provide a sliding attachment point for a rescue rope that automatically reduces torque applied to the limb of the user. Consequently, a rescue force applied to the rescue rope can act at a variety of angles along an arc relative to the device.

A safety, rescue, and recovery device that compressively secures to a limb of a user when inflated. The device can be easily adjusted to be negatively buoyant, neutrally buoyant, or positively buoyant before inflation depending on whether the application is safety, rescue, or recovery. The device may also be integrated into an article of clothing for certain applications. An elongated handle is attached to the device to provide a sliding attachment point for a rescue rope that automatically reduces torque applied to the limb of the user. Consequently, a rescue force applied to the rescue rope can act at a variety of angles along an arc relative to the device.

An oral inflation tube with a pressure relief function is revealed. The oral inflation tube includes an elongated tube with a first opening end at one end and a second opening end at the other end. The first opening end is mounted with an out-to-in one-way valve to form an inflation port. The second opening end is connected to a 90-degree turn and used for connection to an inflatable article. The oral inflation tube features on an opening integrally formed on a tube wall of the elongated tube. The opening includes an inner tube wall extended a certain length inward so that a pressure relief valve is sealingly mounted in the opening and communicated with an inner channel of the elongated tube.

Embodiments of the present disclosure relate generally to inflation systems. Specific embodiments relate to inflation systems that use a mixed flow compressor to deliver a diagonal airflow for inflation. The inflation systems disclosed do not require the use of compressed gas, but can use a battery-powered or otherwise electric motor for generating airflow from ambient air. Particular embodiments may find use in connection with inflating evacuation slides or life rafts on board a passenger transportation vehicle, such as an aircraft or marine vessel. Other embodiments may be used for inflating shelters, life vests, or any other safety device that requires a rapid inflation.

The present invention relates to a portable airbag system for people, comprising a support intended to be worn by a user, and an airbag device comprising at least one inflatable bag having at least one central part (2a) designed to be disposed behind the head of a user after triggering. The airbag device is assembled in a cover or bag part forming a unit configured to be disposed entirely on the back of a user before deploying, the airbag device being fixed by means of a fixing device such as to be removable and separable from the support.