The pillow of the present disclosure comprises: a first unit body and a second unit body which are arranged side by side in the left and right directions and are connected to each other with a variable gap therebetween; a third unit body which is coupled to the first unit body so as to move relative thereto in the forward and backward directions; a fourth unit body which is coupled to the second unit body so as to move relative thereto in the forward and backward directions, disposed in parallel to the third unit body in the left and right directions and coupled thereto with a variable gap therebetween; a first gap adjusting unit for allowing the third unit body and the fourth unit body to get further apart from or closer to each other in the forward and backward directions with respect to the first unit body and the second unit body; and a second gap adjusting unit for allowing the first unit body and the third unit body to get further apart from or closer to each other in the left and right directions with respect to the second unit body and the fourth unit body.

A dynamic headset system is provided. The dynamic headset system includes a head cradle configured to receive a head of a subject and having a bottom surface configured to face a platform on which the dynamic headset apparatus is placed. The dynamic headset system further includes a device including an instrument adjacent to the head of the subject when the head of the subject is in the head cradle.

A method of promoting comfort when sleeping or resting by placing a pillow adjusting device (D) underneath a subjects conventional pillow (3). The device (D) creates multi-level head support to assist rest or sleep and reduce next strain when sleeping or resting. The device (D) preferably comprises two pads (1) at a higher level, connected by a central section (2) of a lower level. The user's pillow (3) is placed on top of the device, thus raising the sides of the pillow (3) to a higher level which is more suitable to the user when the user is lying on their side. The central portion (2) is at a more suitable height for when the user is lying on their back. The central portion (2) may contain an additional section (4) to provide neck support when lying on ones back.

In general, example embodiments are drawn to a pillow having a body with a neck support and at least one arm extending from a first end of the neck support to a second end of the neck support, the at least one arm having forming a center void. In example embodiments, a cover may be provided over or around the body.

A bolster pillow which provides adequate support, without deforming or collapsing, to a user while being lightweight and commercially viable. The bolster pillow includes an internal rigid tube, a cushioned sleeve, an internal cover, and an external cover. The internal rigid tube acts as the structural support element to ensure the overall shape of the bolster pillow and does not change regardless of the number of uses. The internal sleeve envelops the internal rigid tube and extends from a first end to a second end of the internal rigid tube. The cushioned sleeve adds padding to the bolster pillow for increased comfort. The cushioned sleeve is concentrically positioned with the internal rigid tube and is positioned about the internal cover, opposite the internal rigid tube. The external cover tensionably envelops the internal rigid tube, the internal cover, and the cushioned sleeve.

A pillow for supporting a user's head having comprising framing portions made of a soft material that conforms to applied pressure while providing support when a user's head leans against the framing portions. A connecting portion extends between the framing portions to form a pillow body with the framing portions. The pillow body is configured to surround a user's head and to position the framing portions in front of and on opposing sides of the user's head. A pair of shells are attached to corresponding framing portions. The pair of shells are made of a strong flexible material. At least one strap extends from at least one of the pair of shells. The at least one strap is configured to connect one of the framing portions to the other framing portion thereby stabilizing the user's head within the pillow.

A neck support is provided. The neck support includes a frame, a notch in a lower portion the frame, a strap connected to the frame, and at least one support material on a part of the strap and frame. The at least one support material and strap supporting a user's vertebrae and head. A method for aligning the spine is also provided.

A pillow lifting structure includes a bottom plate. The bottom plate is provided with a power unit. The power unit is connected to a linking unit. The top of the linking unit is covered with a cover. The power unit actuates to deform the linking unit for adjusting the height of the cover in time so as to adjust the height of the top surface of the pillow. The X-shaped linking unit of the pillow lifting structure is lifted by a driven arcuate gear with a push arm. This action is a direct push, and there is no power consumption. Only a small motor is required for actuation. Space and energy consumption are optimized by the direct push.

An anti-SIDS infant crib, comprising: a crib (10); a processor (20); one or more SIDS-related sensors (38), installed at the crib's side, and being in communication with the processor (20); an elastic and adjustable belt (30) surrounding an infant in the crib, for preventing the infant from turning upside-down while allowing a limited ability to the infant to turn over; wherein the belt hosting one or more sensors that come in contact with an infant body or leotard; wherein the processor being adapted to identify an SIDS alerting state by a combination and threshold of the sensors (38); a remote control (50), in wireless communication (60) with the processor (20), the remote control being adapted for monitoring an operation of the processor (20), and alerting a user upon identifying an alerting state by the processor; thereby providing to a parent SIDS-control and alerts of an infant lying in the crib.

A body-supporting component may have a main body. A 3D lattice structure of the main body may have deflection properties portions of the main body. The main body may be formed by a flexible material according to the 3D lattice structure combined with the deflection properties portions.