Patent application number | Description | Published |
20080249440 | Method of Making Compression Sleeve with Structural Support Features - In a method of forming a compression sleeve, flexible bladder layers are secured together to define first and second adjacent flexible sleeve sections. A rigid structural component, such as a tube for delivering air to a bladder of the sleeve or another structure, is secured between the first and second flexible sleeve sections to prevent buckling a movement of the sleeve sections downward when the sleeve is wrapped around a leg the wearer. An inner layer and an outer cover are secured to the bladder layers at a plurality of discrete weld spots to provide further structural support to the sleeve. | 10-09-2008 |
20080249441 | COMPRESSION DEVICE WITH STRATEGIC WELD CONSTRUCTION - A compression sleeve includes an inner layer, an outer cover and first and second bladder layers. The layers define adjacent, generally flexible sleeve sections, where each section includes an inflatable bladder. The inner layer, outer cover and first and second bladder layers are joined together at a plurality of discrete spot welds within an outer perimeter of the inflatable bladder to provide further structural integrity to the sleeve. | 10-09-2008 |
20080249442 | Breathable Compression Device - A compression device for applying compression treatment to a part of a wearer's body includes bladder material defining at least one inflatable bladder and a breathable wicking layer connected to the bladder. A plurality of openings extend through the bladder material to the wicking layer. A breathable outer cover overlies the bladder. In use, the wicking layer wicks moisture from the wearer's skin and heat and the moisture is allowed to dissipate through the device through the wicking layer, the openings and the breathable outer cover. A garment includes a sheet of mesh material formed with loops for use in a hook and loop fastener. | 10-09-2008 |
20080249443 | Compression Device Having Weld Seam Moisture Transfer - A compression sleeve includes a wicking layer secured to bladder material defining an inflatable bladder along a seamline. Fibers of the wicking layer extend through the seamline to allow fluid wicked by the wicking layer from the wearer's skin to evaporate to the atmosphere. | 10-09-2008 |
20080249444 | Compression Device with Structural Support Features - A compression sleeve includes an inner layer, an outer cover and first and second bladder layers. The layers define adjacent, generally flexible sleeve sections, where each section includes an inflatable bladder. A rigid structural component is secured to the sleeve and extends between the flexible sleeve sections to prevent the sleeve from buckling and moving downward on the wearer's limb. The inner layer, outer cover and first and second bladder layers are joined together at a plurality of discrete spot welds within an outer perimeter of the inflatable bladder to provide further structural integrity to the sleeve. | 10-09-2008 |
20080249447 | Compression Device Having Cooling Capability - A compression device has improved cooling capability. The device includes a wicking layer adapted to move moisture. A portion of the wicking layer is exposed from under bladder material defining a bladder. In use, the wicking layer wicks moisture from the patient's limb and the wicked moisture is able to evaporate through the device at the portion of the wicking layer that is exposed. | 10-09-2008 |
20080249449 | Methods of Making Compression Device with Improved Evaporation - In a method of forming a compression sleeve, a wicking layer is provided that is strategically exposed to promote wicking and cooling of the body part acted upon by the sleeve. The wicking layer has a perimeter and a surface area. A bladder segment that defines a bladder has a surface area less than the surface area of the wicking layer. The surface area of the bladder segment is defined by the perimeter of the bladder material, less any openings formed through the bladder material. The wicking layer is secured to the bladder material so that portions of the wicking layer are not overlaid by the bladder material. The bladder segment is welded to the wicking layer along a seamline so that fibers of the wicking layer extend through the seamline and allow fluid wicked by the wicking layer to move through the seamline. | 10-09-2008 |
20080249455 | Compression Device with Improved Moisture Evaporation - A circumferential compression sleeve has bladder openings extending through a bladder, making the sleeve generally breathable and comfortable for the wearer. The openings include at least about 4% of a total surface area of the bladder. The device also has a static evaporation rate through the device of at least about 20 mg/minute. In one example, the device includes a wicking layer for contacting the wearer's skin. The wicking layer wicks moisture from the wearer's skin and generally moves the moisture to portions of the layer in registration with the openings where the moisture is allowed to evaporate therethrough. | 10-09-2008 |
20080249559 | COMPRESSION DEVICE WITH IMPROVED MOISTURE EVAPORATION - A circumferential compression sleeve has bladder openings extending through a bladder, making the sleeve generally breathable and comfortable for the wearer. The device has a static evaporation rate through the device of at least about 20 mg/minute. The device has a convective evaporation resistance of less than about 75. In one example, the device includes a wicking layer for contacting the wearer's skin. The wicking layer wicks moisture from the wearer's skin and generally moves the moisture to portions of the layer in registration with the openings where the moisture is allowed to evaporate therethrough. | 10-09-2008 |
20100081975 | Compression Device with Removable Portion - A device for applying compression treatment to a part of a wearer's body comprises first and second inflatable bladders spaced apart from one another along an axis of the device. A line of weakness in a connecting section between the first and second bladders extends generally transverse to the axis of the device for selectively separating the inflatable bladders from one another. The device includes an overlying layer in generally opposing relationship to one of the first and second bladder layers. The overlying layer is discontinuous generally adjacent to the line of weakness to define terminal edge margins of the overlying layer extending generally along the line of weakness. Each of the terminal edge margins are connected to at least one of the first and second bladder layers on an opposite side of the line of weakness from the other terminal edge margin. | 04-01-2010 |