The present invention relates to a feedback device and a method of providing thermal feedback using the same. A method for calibration of an intensity of a thermal feedback of a feedback device may comprise: outputting the thermal feedback in order from a weak intensity to a strong intensity among a plurality of intensities of the thermal feedback; obtaining a first user input; setting an intensity of the thermal feedback outputted at the time of the obtaining the first user input to a lowest intensity of the thermal feedback; obtaining a second user input; setting an intensity of the thermal feedback outputted at the time of the obtaining the second user input to a highest intensity of the thermal feedback; setting at least one intermediate intensity; and outputting the thermal feedback by using the lowest intensity, the highest intensity and the at least one intermediate intensity.

A flat-packing machine for producing a package of compressed innerspring units comprises a press device having a first pressing tool and a second pressing tool. The press device is configured to compress an innerspring unit between the first pressing tool and the second pressing tool while one of the first pressing tool and the second pressing tool holds one or more further previously compressed innerspring units in a compressed state.

The present invention provides systems, methods, and articles for stress reduction and sleep promotion. A stress reduction and sleep promotion system includes at least one remote device, at least one body sensor, and at least one remote server. In other embodiments, the stress reduction and sleep promotion system includes machine learning.

Apparatuses, systems, and methods for integrating remote controls into beds include a support for a remote control and an optional cradle. The support may be secured to the bed at a location where it is readily accessible to an individual as he or she lies on the bed. The support may receive the cradle or the remote control. The cradle, if any, may receive the remote control. The cradle may include a secondary remote system that may enable an individual to control certain functions of the bed, accessories thereto, and/or the environment in which the bed is located. Methods for securing and controlling a bed, any accessories, and the environment in which the bed is located are also disclosed.

Convertible chairs that can be converted to and from an open chair configuration to a box or table configuration for storage and protection of the interior portions is provided. The convertible chairs can have include one or more of a sunshade, adjustable foot rest, legs, wheels, and can in some embodiments be a reclining chair. In some aspects, a cover portion can be used to cover a portion of the interior portions of the chair when the convertible chair is in a box configuration, and be folded and retracted into a pocket of the convertible chair when in an open chair configuration.

A device for reducing contact between a wall of a structure and a headboard of a bed frame. The device may include an elongated body comprising a cushioning material, and an attachment system for releasably securing the elongated body to the wall of the structure in an elevated position relative to a floor of the structure and between the wall and the headboard of the bed frame. In this arrangement. the elongated body may function as a physical barrier between the wall and the headboard.

A device for reducing contact between a wall of a structure and a headboard of a bed frame. The device may include an elongated body comprising a cushioning material, and an attachment system for releasably securing the elongated body to the wall of the structure in an elevated position relative to a floor of the structure and between the wall and the headboard of the bed frame. In this arrangement. the elongated body may function as a physical barrier between the wall and the headboard.

A resilient unit comprises a number of wire coil springs 12, each of which is located within its own discrete pocket 14 formed by first, upper and second, lower layers 14a and 14b of material, preferably of non-woven material. The two layers 14a and 14b have been thermally, or ultrasonically, welded together at points 16 between the adjacent springs to create the pockets. The upper layer of material 14a differs from the lower layer of material 14b in respect of at least one characteristic.

A resilient unit comprises a number of wire coil springs 12, each of which is located within its own discrete pocket 14 formed by first, upper and second, lower layers 14a and 14b of material, preferably of non-woven material. The two layers 14a and 14b have been thermally, or ultrasonically, welded together at points 16 between the adjacent springs to create the pockets. The upper layer of material 14a differs from the lower layer of material 14b in respect of at least one characteristic.

This is a bedside gun mount for a holstered gun (12). It is used to hold a holstered gun (12) safely while you are in bed. It is used to access a handgun easily, quickly, and safely. The horizontal base (6) of the bedside gun mount slides between the bed mattress (22) and the bed box springs (20). The gun holster belt loop (16) on the gun holster (14) slides down over the notched tab (10) on the vertical riser (8) holding the holstered gun (12) against the bed mattress (22).