A pocketed spring assembly comprises a plurality of parallel strings of springs, each string joined to an adjacent string. Each string comprises a plurality of pockets formed along a length of the string by transverse seams joining first and second plies of fabric on opposed sides of springs. At least one spring is positioned in each pocket. Each spring has two end portions and a middle portion. The convolutions of the middle portion are greater in diameter and pitch than the convolutions of the end portions. Each interior transverse seam is cut or otherwise treated to create at least one divide enabling at least one end portion of the spring to compress without substantially compressing the middle portion of the spring.

A pocketed spring assembly comprises a plurality of parallel strings of individually pocketed springs of different heights. Each string is joined to an adjacent string. Each string has first and second opposed plies of fabric and a plurality of pockets formed along a length of the string by transverse seams joining the plies. An upper end of each transverse seam is below the upper surface of the string so as to partially separate adjacent pockets within a string of springs when the spring is relaxed. The strings of springs have ventilation openings to increase airflow.

A body support cushion, e.g., mattress, has multiple foam layers, including a viscoelastic foam layer and a reticulated foam layer, and an outer cover. At least one of the foam layers and the outer cover each includes phase change material having latent heat properties that provide two intervals of dermal cooling.

A bed comprises a mattress and a topper resting atop the mattress and extending in longitudinal and lateral directions. The topper has a fluid flowpath having an inlet and an outlet. The flowpath exhibits a nonuniform resistance to fluid flow in at least one of the longitudinal and lateral directions. The bed also includes a blower connected to the inlet for supplying air to the flowpath. The resistance may be a monotonically varying resistance to fluid flow in at least one of the longitudinal and lateral directions and configured to preferentially drive fluid flow through the topper so that a larger proportion of the fluid flowing through the topper flows under a target region and a relatively smaller portion bypasses the target region.

A cooling pillow has a cooler module, a heatsink module. The heatsink module is formed in the cooler module. The peltier cooler has a bottom side and a top side. The peltier cooler transfers heat from the bottom side of the peltier cooler to the heatsink module. The water tube absorbs heat from the heatsink module. The fiberglass bottom stabilizes the heatsink module. The fiberglass bottom also insulates the heat within the cooler module. The pressure sensor is formed in the cooler module. The pressure sensor measures pressure from the user. The pillow antenna is formed within the cooler module.

Active comfort controlled bedding systems and processes include an air blower assembly for variable climate control. The air blower assembly generally includes a unidirectional air blower configured to flow air to and from a mattress surface overlaying the bucket assembly.

A bed covering or blanket apparatus for accepting and distributing a pressurized flow of conditioned air into a zone around the body of a bed occupant. The apparatus includes an upper layer and lower layer of differing air permeability, joined to form a flow cavity between them for the pressurized air. A plurality of joining methods between the upper and lower layer is provided within the flow area to prevent the blanket from ballooning under the pressurized airflow. The bed covering or blanket apparatus contains means to cover an entire bed while directing pressurized conditioned air to specific zones of the bed. There is connection of two independent supplies of conditioned air into a single top layer of bedding under which multiple bed occupants sleep, to evenly distribute such independent supplies into specific dual zone areas. The apparatus achieves its function by utilizing materials that are ordinarily used in existing bed linens and comforters.

A bedding system is provided that includes a fan box layer having a plurality of ducts, each of the ducts being in communication with a fan configured to move air out of the duct and into an area surrounding the bedding system. A capacitor layer is positioned above the fan box layer. The capacitor layer includes a plurality of outlet ports, each of the outlet ports being in communication with one of the ducts. A mattress layer is positioned above the capacitor layer. The mattress layer includes a bottom portion having a plurality of first holes that are each in communication with at least one of the outlet ports and a top portion having a plurality of second holes that are each in communication with one of the first holes. The top portion defines a sleep surface.

This present disclosure may relate to a pillow configured to receive a person in a face down position, the pillow including a receiving portion and one or more pathways. The receiving portion and pathways may be configured to deliver air to a user and to receive exhaled air from a user. The pillow may also include a chamber which may connect the receiving portion and pathways and one or more valves which may facilitate air exchange between the chamber and the pathways.

A thermal system includes a thermal control unit adapted to supply temperature controlled fluid to one or more thermal pads. The thermal pads may include an interior chamber for fluid circulation, an inlet and an outlet, and first and second temperature sensors positioned adjacent the inlet and outlet, respectively. Some pads include a valve adapted to control an amount of fluid flowing through one or more channels within the pad. The thermal control unit may include a controller that controls the fluid temperature based upon temperature readings from first and second temperature sensors positioned remotely from the thermal control unit. The thermal control unit may also include a valve that selectively controls the amount of fluid exiting the thermal control from one or more outlets based upon one or more temperature readings. The system may include one or more thermocouples with conductors placed on or in the thermal pads.