Patent application number | Description | Published |
20090106906 | SELF-CONTAINED GATCHING, ROTATING AND ADJUSTABLE FOOT SECTION MATTRESS - A self-contained gatching mattress having a gatching mattress sleep deck, a first air bladder cushion, a second cushion material, a control box having an air pump system and a manifold, a conduit distribution unit, a sliding bridge, and a cushion material positioned above the sliding bridge and the control box. The sliding bridge forms a gap area for conduits to extend from the control box to the conduit distribution unit which decreases the chances of the conduits being kinked or altering the cushion's tissue interface pressure to patient's positioned on the cushion when the sleep deck is gatched and/or portions are retracted or extended. | 04-30-2009 |
20090112298 | HIGH EFFICIENCY THERMAL ENERGY TRANSFER PAD - A thermal energy transfer pad is disclosed. The thermal energy transfer pad has a first flexible, thermal energy transfer sheet and a second flexible, thermal energy transfer sheet. The first flexible, thermal energy transfer sheet (a) is made of a first fluid impervious material, (b) has a perimeter measurement of A prior to manufacturing and (c) has a first thermal energy transfer thickness. The first flexible, thermal energy transfer sheet is molded to form fluid path troughs defined by interior protuberances and the first sheet's perimeter edge. That molding alters the first flexible, thermal energy transfer sheet's perimeter measurement to B, which is less than A. The second thermal energy transfer sheet (a) is made of a second fluid impervious material, (b) has a perimeter measurement of B and (c) has a second thermal energy transfer thickness. The second thermal energy transfer sheet is sealed to the first thermal energy transfer sheet along the first sheet's perimeter and at the first sheet's interior protuberances. That sealing creates a tortuous fluid path in the fluid path troughs The resulting pad has a significantly (1) decreased chance of the fluid being occluded in the fluid path and (2) increased thermal energy transfer rate to the patient. | 04-30-2009 |
20090246449 | GELASTIC MATERIAL HAVING VARIABLE OR SAME HARDNESS AND BALANCED, INDEPENDENT BUCKLING IN A MATTRESS SYSTEM - A cushioning element has a first gelastic cushion element made from a flexible, resilient, gel cushioning media having shape memory. The first gelastic cushion element has a first hub section, and a first spoke and a second spoke. Each spoke has a proximal end that extends from the first hub section. Each distal end and the spoke area between the distal end and the proximal end does not interconnect to the other spoke, and/or a second gelastic cushion element having a second hub section and corresponding spokes. Each distal end is positioned near and/or contacts the second gelastic cushion element. At least one of the first hub section, the first spoke and the second spoke is capable of buckling beneath a protuberance that is located on the object. | 10-01-2009 |
20100199437 | MULTI-WALLED GELASTIC MATERIAL - The present invention is directed to a gelastic cushion. The gelastic cushion is made from a conventional gelastic composition. The gelastic cushion has a structure having a first wall that defines an opening area and buckles when a force is applied to the first wall. When the first wall buckles a predetermined amount, a second wall, interconnected to the first wall, also buckles. The second wall decreases the chance that the first wall bottoms out. Bottoming out increases the pressure on the patient (a.k.a., the force) overlying the gelastic cushion. That increased pressure is undesirable. | 08-12-2010 |
20100207294 | MULTI-WALLED GELASTIC MATERIAL - The present invention is directed to a gelastic cushion. The gelastic cushion is made from a conventional gelastic composition. The gelastic cushion has a structure having a first wall that defines an opening area and buckles when a force is applied to the first wall. When the first wall buckles a predetermined amount, a second wall, interconnected to the first wall, also buckles. The second wall decreases the chance that the first wall bottoms out. Bottoming out increases the pressure on the patient (a.k.a., the force) overlying the gelastic cushion. That increased pressure is undesirable. | 08-19-2010 |
20100218317 | MULTI-WALLED GELASTIC MATERIAL - The present invention is directed to a gelastic cushion. The gelastic cushion is made from a conventional gelastic composition. The gelastic cushion has a structure having a first wall that defines an opening area and buckles when a force is applied to the first wall. When the first wall buckles a predetermined amount, a second wall, interconnected to the first wall, also buckles. The second wall decreases the chance that the first wall bottoms out. Bottoming out increases the pressure on the patient (a.k.a., the force) overlying the gelastic cushion. That increased pressure is undesirable. | 09-02-2010 |
20110010865 | MULTI-WALLED GELASTIC MATTRESS SYSTEM - The present invention is directed to a gelastic cushion. The gelastic cushion is made from a conventional gelastic composition. The gelastic cushion has a structure having a first wall that defines an opening area and buckles when a force is applied to the first wall. When the first wall buckles a predetermined amount, a second wall, interconnected to the first wall, also buckles. The second wall decreases the chance that the first wall bottoms out. Bottoming out increases the pressure on the patient (a.k.a., the force) overlying the gelastic cushion. That increased pressure is undesirable. | 01-20-2011 |
20130067662 | PATIENT/INVALID SUPPORT - A patient support includes a gel-based cushioning layer and an air distribution manifold located beneath the cushioning layer. The cushioning layer includes a plurality of transverse passageways extending therethrough to allow airflow through the cushioning layer and to the patient interface with the cushioning layer. | 03-21-2013 |