A virtual reality haptic feedback system to simulate a virtual reality experience for a user, the virtual reality haptic feedback system including a chamber to receive the user therein, a wearable haptic feedback device to be worn by the user to provide a haptic experience to at least a portion of a body of the user, and a movement system having a first portion connected to at least a portion of the chamber and removably connected to the wearable haptic feedback device at a second portion to move the wearable haptic feedback device in response to the simulation.

The present invention provides materials and methods for forming an interface between an appliance and living tissue using a foamed elastomeric material which contacts the tissue or similar surfaces. The elastomeric material is in the form of a durable and washable material that when applied to living tissue or similar surfaces displaces and flows in to non-conforming areas creating an air and/or water tight seal that substantially returns to an original shape when removed from the contact surface. The appliance may also include structural elements designed to optimize comfort, compliance and seal achieved through minimizing the pressure variation along the contact surface of the therapy device.

The present invention provides materials and methods for forming an interface between an appliance and living tissue using a foamed elastomeric material which contacts the tissue or similar surfaces. The elastomeric material is in the form of a durable and washable material that when applied to living tissue or similar surfaces displaces and flows in to non-conforming areas creating an air and/or water tight seal that substantially returns to an original shape when removed from the contact surface. The appliance may also include structural elements designed to optimize comfort, compliance and seal achieved through minimizing the pressure variation along the contact surface of the therapy device.

The disclosure relates to a diving mask, including: a mask having a breath cavity corresponding to a mouth and a nose of a user; a vent tube connected to the mask and provided with an inlet passage, the inlet passage communicating the breath cavity with external air; and an exhaust device communicating the breath cavity, the exhaust device including an exhaust fan configured to discharge air in the breath cavity into an external environment, thereby enabling the external air to flow into the breath cavity through the inlet passage.

The diving mask includes a rigid frame, one or two lenses, and a face mask made of soft and elastically yielding material, the face mask having a front hollow projection for housing the nose of the diver and a rear perimeter profile applicable in an airtight way to the face of the diver so as to delimit an internal space between the mask and the face of the diver, the internal surface of said face mask being equipped with obstructing means obstructing a direct flow towards lenses of the air released from the diver nose.

The diving mask includes a rigid frame, one or two lenses, and a face mask made of soft and elastically yielding material, the face mask having a front hollow projection for housing the nose of the diver and a rear perimeter profile applicable in an airtight way to the face of the diver so as to delimit an internal space between the mask and the face of the diver, the internal surface of said face mask being equipped with obstructing means obstructing a direct flow towards lenses of the air released from the diver nose.

A breathing-air tank pressure tracking system includes a housing having lights mounted therein. The lights are spaced-apart from one another and disposed along a line. A pressure sensor is coupled to a tank containing pressurized breathing air. The pressure sensor detects a pressure of the pressurized breathing air and produces a signal indicative thereof. The housing is configured to be coupled to an exterior portion of a dive helmet wherein the lights are positioned in a field-of-view of a user wearing the dive helmet. A controller, mounted in the housing, is coupled to the pressure sensor and the lights. The controller activates selected ones of the lights based on the signal received from the pressure sensor.

A breathing-air tank pressure tracking system includes a housing having lights mounted therein. The lights are spaced-apart from one another and disposed along a line. A pressure sensor is coupled to a tank containing pressurized breathing air. The pressure sensor detects a pressure of the pressurized breathing air and produces a signal indicative thereof. The housing is configured to be coupled to an exterior portion of a dive helmet wherein the lights are positioned in a field-of-view of a user wearing the dive helmet. A controller, mounted in the housing, is coupled to the pressure sensor and the lights. The controller activates selected ones of the lights based on the signal received from the pressure sensor.

A mounting system allows one or more accessories to be removably attached to a SCUBA demand regulator system. A clamp encircles a portion of an air hose subsystem, the clamp having a threaded screw extending therefrom. An accessory is threadably attached to this screw. An extender arm can be sandwiched between this attached accessory and the clamp such that the extender arm has a second threaded screw that threadably receives a second accessory thereonto. One accessory may be a buckle mount that has a mounting surface on one side and a threaded receiver that threadably attaches to one of the screws and is rotated thereonto via a lock down wheel rotatably disposed within the buckle mount. A buoyancy assist subsystem creates either neutral or positive buoyancy to the invention when accessories are mounted.

A mounting system allows one or more accessories to be removably attached to a SCUBA demand regulator system. A clamp encircles a portion of an air hose subsystem, the clamp having a threaded screw extending therefrom. An accessory is threadably attached to this screw. An extender arm can be sandwiched between this attached accessory and the clamp such that the extender arm has a second threaded screw that threadably receives a second accessory thereonto. One accessory may be a buckle mount that has a mounting surface on one side and a threaded receiver that threadably attaches to one of the screws and is rotated thereonto via a lock down wheel rotatably disposed within the buckle mount. A buoyancy assist subsystem creates either neutral or positive buoyancy to the invention when accessories are mounted.