The technology discloses an orthopedic support pillow tailored to a user's anatomy. The method involves capturing multiple images of a user's head and neck from different angles using a camera system. A three-dimensional (3D) digital twin of the user's head and neck is then generated using computer-aided design (CAD). The manufacturing process includes providing a wedge of pillow material, which is then molded based on the generated 3D digital twin and results in a depression on the wedge's surface. The dimensions of the wedge correspond to that of the 3D digital twin.

The present invention discloses a therapeutic mattress. The mattress comprises a mattress body comprising a head of bed section and a foot of bed section, one or more apertures configured at the mattress body and a support frame having a support surface disposed within each aperture. The support frame comprises an air passage area therethrough. The mattress further comprises a first pillow removably disposed above the support surface and within the aperture. The first pillow has a C-shaped configuration. The first pillow is configured to expose a user's head to the air passage area while lying on the mattress facing downwards and enables the user to comfortably rest.

A pillow is provided that includes a first panel having an edge defining a perimeter. A second panel has an edge defining a perimeter. A gusset joins the first and second panels. The gusset has a first porosity. The gusset includes a plurality of ports. The ports each have a second porosity that is greater than the first porosity.

The device presents a cooling pillow designed to improve sleep comfort by delivering a controlled cooling effect. It features an ergonomically contoured top section for supporting the user's head, neck, and upper body. The pillow integrates a conduit system with two electric blowers, generating a forced air flow for cooling. Adjustable louvers and a front vent regulate and direct this air flow. The cooling mechanism operates on a rechargeable power system, encompassing a battery, charge controller, and a variable-speed power switch. A main controller and wireless transceiver facilitate remote operation adjustments. Constructed from memory foam and enclosed in a satin cover, the pillow also includes an internal compartment for easy maintenance. This cooling pillow offers enhanced sleep comfort, particularly beneficial for individuals experiencing increased body temperature at night.

A travel pillow that is transported in a flat or closed position. The travel pillow has a pillow body that is configured to support an occipital region of a user's head and upper neck in an opened position. The pillow body has two wings attached to a back side of the travel pillow. Each wing each has a first end attached to the pillow body. Each wing extends inward along the pillow body from the attachment to the pillow body. The inner end of each wing is free from the pillow body. The first end each wing is bent outward away from the pillow body, causing the pillow body to flex and bend into a u-shape. The u-shape cups a user's head and neck with the wings providing a base or support to the travel pillow.

The present invention is directed to a wye connector for use in fluidly coupling two or more thermally regulated articles to a fluid source. The wye connector includes quick disconnect elements attachable to a corresponding quick disconnect element attached to the fluid source and/or to the two or more thermally regulated articles, and a plurality of tubes connecting each quick disconnect element. The tubes connecting each quick disconnect element are attached to at least one thermoelectric module capable of heating and/or cooling fluid moving through the tubes.

A pillow assembly for supporting objects on a user's arm without impeding blood circulation through the arm includes a main body comprising a resiliently compressible material. Rigid blocks are coupled to a top side of the main body, and inserts are mounted atop the rigid blocks. The main body is bent to surround the arm with the inserts. Loads may be exerted on the pillow assembly through the main body, rigid blocks, and inserts while the pillow assembly is worn by the arm to support the loads on the arm without limiting blood flow.

A buoyancy-type pillow with a combined action of gas and liquid media is provided. The pillow includes a first pillow body, a second pillow body stacked on a top of the first pillow body, and an interlayer support pad located in an inner cavity of the second bladder. The first pillow body includes a first bladder having a flat shape, the inner cavity of the first bladder is filled with gas medium, and the first bladder is provided with a gas volume adjustment interface. The second pillow body includes a second bladder having a flat shape, the inner cavity of the second bladder is filled with liquid medium, and the second bladder is provided with a liquid volume adjustment interface. The interlayer support pad has a porous structure that allows the liquid medium to flow through. The disclosure achieves an all-around buoyancy support effect.

The present invention relates to a pillow and belongs to the technical field of bedding. The pillow comprises an outer pillow cover and a pillow core, wherein the pillow core is detachably filled in the outer pillow cover. The outer pillow cover comprises a first fabric layer and a second fabric layer, and a first phase-change material layer is arranged on an inner surface of the first fabric layer. The pillow core comprises an elastic material layer and a second phase-change material layer arranged on an outer surface of the elastic material layer. When the second phase-change material layer is close to the first phase-change material layer, the pillow can provide an extremely strong cooling effect. When the second phase-change material layer is far away from the first phase-change material layer, the pillow can provide a moderate cooling effect.

A pillow uses a fan assembly in the pillow to cool the sleeping surface of the pillow. The fan assembly uses two fans to move ambient air through a middle layer of reticulated foam and then through air passages extending through at least one layer of foam. A bottom piece of foam is either semi-permeable or impermeable to airflow so that most, if not all, of the air moved by the fans exits the top of the pillow to cool the pillow. A chargeable power source powers the fans via a circuit board which may have an LED light to indicate the status of the power source.