| Class / Patent application number | Description | Number of patent applications / Date published |
|---|
| 002200110 | Astronauts body cover | 6 |
| 20100212057 | BUOYANT IMPACT-RESISTANT SUIT - The present invention provides an impact-resistant suit having a base layer of material dimensioned to fit over a body of a wearer, and at least one impact-resistant panel attached to the base layer, the impact-resistant panel being sized and positioned with respect to the base layer to protect a specific part of the body of the wearer from localized impacts. In some embodiments, the impact-resistant suit comprises a super buoyant wetsuit having an upper body portion that substantially resists crush-down at extreme pressures. | 08-26-2010 |
| 20110067157 | Method and apparatus for Variable G force experience and creating immersive VR sensations - The present invention relates to variable low/zero gravity simulation systems. variable low/zero gravity condition is achieved by substantial immersion in a fluid environment (“buoyancy means”) and using power assist means/robotic displacement devices such as exoskeleton to help user's movement/gravity compensation and/or relief or change loads on the subject's torso and limbs that caused by the weight and shape of the “Buoyancy means”, so that user can experience the effect of the (variable) gravity environment being simulated, such as Zero gravity in which situation user could move effortlessly in a weightless environment. When combine with VR related technology, this can create vivid immersive simulations for extraterrestrial scenes and can be widely used for entertainment, game, training, healing and etc. | 03-24-2011 |
| 20120260386 | CONFORMAL HARNESS SUIT INTERFACE - A suit includes a hard upper torso having a visor and providing an entry opening and shoulder apertures. An interface includes a harness supporting a load plate. The harness is configured to be secured to a subject. A primary life support system is mounted to the hard upper torso. The interface is arranged at the entry opening and is secured between the hard upper torso and the primary life support system in a donned condition. A method of donning the suit is provided, which includes donning a harness that supports a load plate. A hard upper torso includes an entry opening through which the suit is entered. The load plate is positioned relative to the hard upper torso. A primary life support system is closed over the load plate to secure the primary life support system relative to the hard upper torso. | 10-18-2012 |
| 20120260387 | ADJUSTABLE SHOULDER DEVICE FOR HARD UPPER TORSO SUIT - A suit includes a hard upper torso providing shoulder apertures. A repositionable scye bearing is arranged at a shoulder aperture. An adjustable shoulder device interconnects the scye bearing and the hard upper torso. The adjustable shoulder device is configured to move the scye bearing between first and second shoulder width positions relative to the hard upper torso. A method of donning a suit includes the steps of adjusting a scye bearing relative to a hard upper torso to a desired shoulder width position. The scye bearing can be subsequently repositioned for desired crewmember fit and use while the desired shoulder width position is maintained. | 10-18-2012 |
| 20120260388 | HARD UPPER TORSO FOR REAR ENTRY SUIT - A suit includes a hard upper torso having an entry opening and shoulder apertures. The hard upper torso extends along a subject axis configured to coincide with an axis of a subject having donned the suit. The entry opening lies in a plane at an angle 7°+/−5° relative to the subject axis. The hard upper torso also includes non-circular shoulder apertures in one embodiment. In one example, the hard upper torso includes a waist bearing lying is at an angle of 63°+/−5° relative to the entry opening plane. | 10-18-2012 |
| 20140325726 | BODY-LOADING SUIT FOR THERAPEUTIC USES - An elastic skin suit simulates gravitational loading. By selecting material(s) of appropriate dimensions and appropriate moduli of elasticity, and optionally integrating inelastic portions to maintain a desired surface distribution, the suit can be adapted to impose a loading regime that simulates the loading of terrestrial gravity in a more continuous, shoulder-to-ankle manner than current loading suits. | 11-06-2014 |
| 20100212057 | BUOYANT IMPACT-RESISTANT SUIT - The present invention provides an impact-resistant suit having a base layer of material dimensioned to fit over a body of a wearer, and at least one impact-resistant panel attached to the base layer, the impact-resistant panel being sized and positioned with respect to the base layer to protect a specific part of the body of the wearer from localized impacts. In some embodiments, the impact-resistant suit comprises a super buoyant wetsuit having an upper body portion that substantially resists crush-down at extreme pressures. | 08-26-2010 |
| 20110067157 | Method and apparatus for Variable G force experience and creating immersive VR sensations - The present invention relates to variable low/zero gravity simulation systems. variable low/zero gravity condition is achieved by substantial immersion in a fluid environment (“buoyancy means”) and using power assist means/robotic displacement devices such as exoskeleton to help user's movement/gravity compensation and/or relief or change loads on the subject's torso and limbs that caused by the weight and shape of the “Buoyancy means”, so that user can experience the effect of the (variable) gravity environment being simulated, such as Zero gravity in which situation user could move effortlessly in a weightless environment. When combine with VR related technology, this can create vivid immersive simulations for extraterrestrial scenes and can be widely used for entertainment, game, training, healing and etc. | 03-24-2011 |
| 20120260386 | CONFORMAL HARNESS SUIT INTERFACE - A suit includes a hard upper torso having a visor and providing an entry opening and shoulder apertures. An interface includes a harness supporting a load plate. The harness is configured to be secured to a subject. A primary life support system is mounted to the hard upper torso. The interface is arranged at the entry opening and is secured between the hard upper torso and the primary life support system in a donned condition. A method of donning the suit is provided, which includes donning a harness that supports a load plate. A hard upper torso includes an entry opening through which the suit is entered. The load plate is positioned relative to the hard upper torso. A primary life support system is closed over the load plate to secure the primary life support system relative to the hard upper torso. | 10-18-2012 |
| 20120260387 | ADJUSTABLE SHOULDER DEVICE FOR HARD UPPER TORSO SUIT - A suit includes a hard upper torso providing shoulder apertures. A repositionable scye bearing is arranged at a shoulder aperture. An adjustable shoulder device interconnects the scye bearing and the hard upper torso. The adjustable shoulder device is configured to move the scye bearing between first and second shoulder width positions relative to the hard upper torso. A method of donning a suit includes the steps of adjusting a scye bearing relative to a hard upper torso to a desired shoulder width position. The scye bearing can be subsequently repositioned for desired crewmember fit and use while the desired shoulder width position is maintained. | 10-18-2012 |
| 20120260388 | HARD UPPER TORSO FOR REAR ENTRY SUIT - A suit includes a hard upper torso having an entry opening and shoulder apertures. The hard upper torso extends along a subject axis configured to coincide with an axis of a subject having donned the suit. The entry opening lies in a plane at an angle 7°+/−5° relative to the subject axis. The hard upper torso also includes non-circular shoulder apertures in one embodiment. In one example, the hard upper torso includes a waist bearing lying is at an angle of 63°+/−5° relative to the entry opening plane. | 10-18-2012 |
| 20140325726 | BODY-LOADING SUIT FOR THERAPEUTIC USES - An elastic skin suit simulates gravitational loading. By selecting material(s) of appropriate dimensions and appropriate moduli of elasticity, and optionally integrating inelastic portions to maintain a desired surface distribution, the suit can be adapted to impose a loading regime that simulates the loading of terrestrial gravity in a more continuous, shoulder-to-ankle manner than current loading suits. | 11-06-2014 |
