Patent application number | Description | Published |
20080286092 | Air convection warmer with noise reduction filter - To reduce the noise level of air convective warmer, the air filter of the warmer is fitted with an air intercept mechanism to disrupt the flow of air that traverses inside the interior cavity of the air filter. By thus disrupting the air flow, the noise that otherwise would have been generated due to a non-interrupted air stream flow is lowered. The air intercept mechanism may be in the form of at least one partition positioned inside the interior cavity of the air filter. Alternatively, double-ended open tubes may be used, so long as the interior cavity of the filter is sealed, with only the tubes providing the passages for air to output from the air filter. Yet a third embodiment of the air reduction filter has an air impermeable material covering at least one portion of the surface area of the filtering material to prevent the inflow air from directly entering into the interior cavity of the air filter through the covered surface area. | 11-20-2008 |
20080288034 | Convective blanket with discontinuous air flow guides and air flow patterns - A convective blanket has multiple sets of discontinuous bonding strips that bond or attach its upper layer to its lower layer to form a number of air flow guides within the blanket. There is at least one set of substantially parallel discontinuous strips proximate to the air input port of the blanket and another set of substantially parallel discontinuous strips remote from the air input port. For each set of in parallel discontinuous bond strips, the respective distal and proximal ends of each successive strips are aligned with the distal and proximal ends of a corresponding substantially in parallel strip to effect a cross channel so that air flowing along the air flow guide may escape to different sections of the blanket. To output the heated air from the blanket, respective single rows of successively spaced air holes are formed adjacent to and substantially along the length of the discontinuous bond strips that are located proximate to the air input port. For those sets of discontinuous bond strips that are remote from the air input port, there is provided adjacent to and substantially along the length of each of those strips multiple rows of successively spaced holes. | 11-20-2008 |
20090248120 | Underbody convective blanket and method for manufacturing thereof - A convective underbody blanket has a head portion and a body portion. Provided at the head portion is a non-inflatable head area surrounded by a channel that has arranged thereat at least one row of air apertures that are oriented toward the non-inflatable head area when the channel is inflated. At the body portion there is provided a non-inflatable body area. Along each longitudinal side of the body area there is at least one longitudinal channel. Each of the longitudinal channels is in fluid communication with the channel that surrounds the non-inflatable head area. The longitudinal channels that sandwich the non-inflatable body area extend substantially along the length of the non-inflatable body area and are in fluid communication with each other by way of a cross channel formed at the foot end of the blanket. The configuration of the blanket allows air input to the blanket to be circulated through the various channels, so that the heated air output from the different rows of apertures formed at the various channels has substantially the same temperature. The different rows of apertures may be provided at different areas along the blanket. | 10-01-2009 |
20100198320 | Lateral access blanket - A convective warming blanket is configured to have an upper body portion and two leg portions that extend from a distal end of the upper body portion. The leg portions are separated by a space sufficient to expose a lateral side of a patient covered by the blanket. A flap separable from the leg portion that extends from the mid-section of the upper body portion may be used to securely wrap around the extended arms of the patient, who is lying on his side. Adhesive tapes are provided on the outside edges of the leg portions to secure the blanket to the surface onto which the patient lies. Apertures are appropriately formed at the sheet that comes into contact with the patient at the upper body portion and along the respective inner side edges of the leg portions so that both the upper body and the exposed lower body of the patient are warmed by heated air. The blanket is designed to have mirror image versions usable for exposing the lateral left side or the lateral right side of the patient. | 08-05-2010 |
20100211138 | Full body split access blanket - A full body blanket has a central bonded strip that extends from a distal end of an upper portion of the blanket to the foot end of the blanket to divide the main body of the blanket into two longitudinal portions. A discontinuous slit or tearable line is provided along the length of the strip to enable the longitudinal portions to be separable from each other by a user applying a force along the tearable strip. The strip may be torn anywhere along its entire length so that the longitudinal portion to be removed from the patient may be folded back anywhere along the length of the strip to selectively expose particular body parts of the patient. The blanket is inflated by heated air, and the heated air is circulated by channels that extend longitudinally along each of the longitudinal portions. Rows of apertures provided along the channels at the layer of the blanket that makes contact with the patient output the heated air to warm the patient. | 08-19-2010 |
20100211139 | Combination underbody and overbody blanket - A combination underbody and overbody blanket has first and second portions sandwiching a middle portion. The first portion may be shorter than the second portion. An opening is provided at the middle portion, or at a location that overlaps the middle and first portions. The opening has a dimension sufficiently large to enable the head of a patient to pass through. At least one air inlet is provided at the middle portion to allow air to be input into the blanket. The blanket is configured in the shape of a poncho, with the first portion covering the front torso of the patient and the second portion covering the back of the patient. A tearable seal is provided at the first portion that allows the first portion to be separated into two halves to expose the front upper torso of the patient and/or to facilitate the placement of the middle portion about the neck and onto the shoulders of the patient. | 08-19-2010 |
20100211141 | Multi-access blanket - A convective warming blanket has a head portion and a plurality of peripheral sections extending orthogonally from each side of a central section that extends uninterrupted from a proximal end below the head portion to a distal foot end of the blanket. Each peripheral section is separable from its adjacent peripheral section by a frangible or tearable common seal. At least one through passage connects each peripheral section to the central section, so that the peripheral sections are inflated when heated air is input to the blanket. The multiple peripheral sections each are movable relative to the central section, so that different body parts of the patient may be selectively accessed. The head portion of the blanket is formed by two tubular sections that extend from the proximal portion of the blanket to encircle the head of the patient, when the blanket is placed over the patient. | 08-19-2010 |
20120253435 | Combination Underbody and Overbody Blanket - A combination underbody and overbody blanket has first and second portions sandwiching a middle portion. The first portion may be shorter than the second portion. At least one air inlet is provided at the middle portion to allow air to be input into the blanket. The blanket is configured in the shape of a poncho, with the first portion covering the front torso of the patient and the second portion covering the back of the patient. A tearable seal is provided at the first portion that allows the first portion to be separated into two halves to expose the front upper torso of the patient and/or to facilitate the placement of the middle portion about the neck and onto the shoulders of the patient. | 10-04-2012 |
Patent application number | Description | Published |
20100108243 | Hose retainer for thermal blanket - An inflatable convective thermal blanket is designed to have at least one section on its top surface that has securely mounted thereon at least one fluid absorbent mechanism for absorbing fluids from a subject that is placed onto the blanket, or from fluids fallen onto the blanket from other sources. The one section is configured onto the blanket in such a way that it forms a well for collecting the fluids. The fluid absorbent mechanism, which may be in the form of a pad, would absorb the collected fluid to thereby minimize evaporative and cooling effects on the subject. Instead of mounting it on top of the blanket, the fluid absorbent pad may be mounted to the underside of the blanket, with appropriate holes and/or openings provided at the fluid collecting section, so that the collected fluids are drained onto the fluid absorbent pad. To enhance the input flow of air to the blanket, as well as to enable the blanket to be flatly folded for storage or shipping, a collapsible retainer mechanism is provided at the input port(s) of the blanket. The retainer mechanism opens up to a shape that facilitates the mating of an air hose to the input port. When folded to its collapsed position, the retainer mechanism, and the input port, would lie substantially coplanarly with the blanket. When configured to the position for accepting the air hose, the retainer mechanism is positioned substantially orthogonal to the blanket. | 05-06-2010 |
20110152984 | Pediatric underbody blanket - An underbody convective warming blanket that may be used by a pediatric or neonate patient includes a head portion configured with multiple substantially U-shaped channels each having a plurality of adjacent rows of apertures that circumscribe the head of the patient positioned on the blanket. The adjacent rows of apertures are configured on the upper layer of the blanket so as to be positioned at an orientation or angle relative to the base plane of the blanket or the head of the patient such that those apertures would substantially face the head of the patient when the blanket is inflated, so that the heated air output from the apertures is directed substantially towards the head of the patient to thereby effect an invisible dome of heated air that envelopes the head of the patient. | 06-23-2011 |
20130042970 | Underbody Convective Blanket and Method for Manufacturing Thereof - A convective underbody blanket has a head portion and a body portion. Provided at the head portion is a non-inflatable head area surrounded by a channel that has arranged thereat at least one row of air apertures that are oriented toward the non-inflatable head area when the channel is inflated. At the body portion there is provided a non-inflatable body area. Along each longitudinal side of the body area there is at least one longitudinal channel. Each of the longitudinal channels is in fluid communication with the channel that surrounds the non-inflatable head area. The longitudinal channels that sandwich the non-inflatable body area extend substantially along the length of the non-inflatable body area and are in fluid communication with each other by way of a cross channel formed at the foot end of the blanket. | 02-21-2013 |
20140207218 | AIR CONVECTIVE WARMER WITH NOISE REDUCTION FILTER - To reduce the noise level of an air convective warmer, the air filter of the warmer is fitted with an air intercept mechanism to disrupt the flow of air that traverses inside the interior cavity of the air filter. By thus disrupting the air flow, the noise that otherwise would have been generated due to a non-interrupted air stream flow is lowered. The air intercept mechanism may be in the form of at least one partition positioned inside the interior cavity of the air filter. Alternatively, double-ended open tubes may be used, so long as the interior cavity of the filter is sealed, with only the tubes providing the passages for air to output from the air filter. Yet a third embodiment of the air reduction filter has an air impermeable material covering at least one portion of the surface area of the filtering material to prevent the inflow air from directly entering into the interior cavity of the air filter through the covered surface area. | 07-24-2014 |