A vent valve for a buoyancy control device (“BCD”) suitable for divers, where the valve may be opened by any combination of over-pressure, manual pressure relief or a powered means, where a force to a valve plug is applied by means of a spring that is constrained to prevent entirely lateral and angular movement but in which movement of the plug in the axis of the seat is unconstrained. An automatic buoyancy control device suitable for free-swimming divers, providing the functions that may include a controlled ascent rate, controlled descent rates, the imposition of a maximum depth limit, the facility to hold a set depth and to follow a dive profile or decompression profile. The device, control process and subsystems provide a high safe failure fraction.

A command and control assembly for inflating and deflating a hydrostatic balancing jacket includes a primary supply duct connected to an end of an air chamber of the jacket and provided, at the opposite end, with a hand piece having a mouthpiece device. A connection socket is provided on the hand piece, which is in fluid communication with a secondary supply duct connected to a compressed air tank, and a pneumatic actuation duct actuates a discharge valve of the jacket, which is in fluid communication with the secondary supply duct. Control systems of the delivery from the secondary duct, of the delivery to the pneumatic actuation duct, and of the delivery from the mouthpiece are arranged on the hand piece.

A command and control assembly for inflating and deflating a hydrostatic balancing jacket includes a primary supply duct connected to an end of an air chamber of the jacket and provided, at the opposite end, with a hand piece having a mouthpiece device. A connection socket is provided on the hand piece, which is in fluid communication with a secondary supply duct connected to a compressed air tank, and a pneumatic actuation duct actuates a discharge valve of the jacket, which is in fluid communication with the secondary supply duct. Control systems of the delivery from the secondary duct, of the delivery to the pneumatic actuation duct, and of the delivery from the mouthpiece are arranged on the hand piece.

A buoyancy compensator bladder includes an air cell, a connector, a low-pressure inflator (LPI), and at least one over pressure valve. The LPI which inflates and deflates the air cell is positioned on an outer surface of the air cell. As a result, when the fully assembled buoyancy compensator is equipped by a diver, the LPI runs from behind the diver's torso and under their armpit. This results in the inflator head which is part of the LPI to be disposed on the front of the diver's chest during back mount or side mount diving. This structure allows the bladder to be easily used for either back mount or side mount diving. The bladder may further be equipped with auxiliary/non-essential devices such as wight pockets/pouches.

A buoyancy compensator bladder includes an air cell, a connector, a low-pressure inflator (LPI), and at least one over pressure valve. The LPI which inflates and deflates the air cell is positioned on an outer surface of the air cell. As a result, when the fully assembled buoyancy compensator is equipped by a diver, the LPI runs from behind the diver's torso and under their armpit. This results in the inflator head which is part of the LPI to be disposed on the front of the diver's chest during back mount or side mount diving. This structure allows the bladder to be easily used for either back mount or side mount diving. The bladder may further be equipped with auxiliary/non-essential devices such as wight pockets/pouches.

A buoyancy control device for scuba diving comprising at least two shoulder straps, each shoulder strap having an upper portion and a lower portion joined by a closing buckle comprising a male buckle element and a female buckle element, which has a first connection means for connecting to the upper portion of the shoulder strap and a second connection means for connecting to the male buckle element, wherein the female buckle element comprises a first part that has the first connection means, a second part that has the second connection means, and an articulated connection pin for connecting the first part to the second part.

A wearable safety system for either diving, harsh or anoxic environments, or for individuals at high risk for respiratory and/or cardiac failure is disclosed. The wearable safety system includes biometric monitoring and provides cardiac and/or respiratory support in the event that the wearer experiences cardiac and/or respiratory failure. There are different configurations of the wearable safety system designed to work with different use cases, and to provide different levels of protection. In the case of diving, the wearable safety system additionally utilizes data collected by the dive computer to advise a rescue diver as to the best course of action in managing an unconscious diver's ascent and can also inflate the diver's buoyancy control device (BCD) or onboard personal flotation device.

A wearable safety system for either diving, harsh or anoxic environments, or for individuals at high risk for respiratory and/or cardiac failure is disclosed. The wearable safety system includes biometric monitoring and provides cardiac and/or respiratory support in the event that the wearer experiences cardiac and/or respiratory failure. There are different configurations of the wearable safety system designed to work with different use cases, and to provide different levels of protection. In the case of diving, the wearable safety system additionally utilizes data collected by the dive computer to advise a rescue diver as to the best course of action in managing an unconscious diver's ascent and can also inflate the diver's buoyancy control device (BCD) or onboard personal flotation device.

A buoyancy control jacket (1) for scuba diving that includes at least one air chamber (2) with a variable volume delimited by an outer wall (2a) and an inner wall (2b), an abdominal closing strap, and a removable association device between the inner wall (2b) and the abdominal strap, the removable association device including first and second connectors respectively attached to the inner wall (2b) and to the strap, a retainer that retains the second connector relative to the first connector along an axis that is substantially orthogonal to the strap, and a means of rotation about said axis of the second connector relative to the first connector.

A buoyancy control jacket (1) for scuba diving that includes at least one air chamber (2) with a variable volume delimited by an outer wall (2a) and an inner wall (2b), an abdominal closing strap, and a removable association device between the inner wall (2b) and the abdominal strap, the removable association device including first and second connectors respectively attached to the inner wall (2b) and to the strap, a retainer that retains the second connector relative to the first connector along an axis that is substantially orthogonal to the strap, and a means of rotation about said axis of the second connector relative to the first connector.