Aspects of the invention include devices, systems, and methods for enhancing a user's sleep. A flexible frame supports a flow manifold which can be used in unison with adjoined or adjacently integrated supportive members utilized to create soft objects of various designs and materials. These types of objects can be in the form of a pillow, mattress topper, even a child's stuff animal and other various stationary and portable soft sided padded embodiments as disclosed in this application. These various designs and embodiments house an integrated flow delivery system which is delivers concentrated, pressurized, and or altered gaseous flowing elements in a controlled and fluidic manner as to help address certain types of sleeping and breathing issues during their resting and sleep states.

Aspects of the invention include devices, systems, and methods for enhancing a user's sleep. A flexible frame supports a flow manifold which can be used in unison with adjoined or adjacently integrated supportive members utilized to create soft objects of various designs and materials. These types of objects can be in the form of a pillow, mattress topper, even a child's stuff animal and other various stationary and portable soft sided padded embodiments as disclosed in this application. These various designs and embodiments house an integrated flow delivery system which is delivers concentrated, pressurized, and or altered gaseous flowing elements in a controlled and fluidic manner as to help address certain types of sleeping and breathing issues during their resting and sleep states.

A hybrid pillow includes a cushion material defining a recess. A coil panel is positioned within the recess of the cushion material with the coil panel formed of a plurality of coil springs, an upper fabric layer, and a lower fabric layer. The upper fabric layer and the lower fabric layer are joined between the plurality of coil springs and along peripheral edges of the first coil panel. A gel layer is also positioned within the recess of the cushion material and over the coil panel. A method of manufacturing the pillow includes dispensing a liquid gel in a mold, positioning a coil panel in the mold and on top of the liquid gel, dispensing a foam precursor in the mold, and foaming the foam precursor to form a cushion material that is secured to the coil panel.

A hybrid pillow includes a cushion material defining a recess. A coil panel is positioned within the recess of the cushion material with the coil panel formed of a plurality of coil springs, an upper fabric layer, and a lower fabric layer. The upper fabric layer and the lower fabric layer are joined between the plurality of coil springs and along peripheral edges of the first coil panel. A gel layer is also positioned within the recess of the cushion material and over the coil panel. A method of manufacturing the pillow includes dispensing a liquid gel in a mold, positioning a coil panel in the mold and on top of the liquid gel, dispensing a foam precursor in the mold, and foaming the foam precursor to form a cushion material that is secured to the coil panel.

The present disclosure is applicable to the technical field of massage apparatuses, and provides a Bluetooth music face pillow. The Bluetooth music face pillow includes face pillow sponge, a speaker, an audio wire, a Bluetooth battery compartment, a circuit board, a rechargeable battery and an audio terminal; at least two speakers are configured inside the face pillow sponge; when the user plays an audio file with the mobile phone, the circuit board acquires an audio signal of the mobile phone of the user through Bluetooth and amplifies the audio signal of the mobile phone; the amplified audio electric signal is supplied to the speakers through the audio terminal and the audio wire; and the audio is played back through the audio speakers.

A hybrid pillow includes a first coil panel and a second coil panel which are joined along peripheral edges to form an inner shell defining a gap therebetween. The first coil panel is formed of a plurality of coil springs, an upper fabric layer, and a lower fabric layer, with the upper fabric layer and the lower fabric layer joined between the plurality of coil springs and along peripheral edges of the first coil panel. The second coil panel is formed of a second plurality of coil springs, a second upper fabric layer, and a second lower fabric layer, with the second upper fabric layer and the second lower fabric layer joined between the plurality of coil springs and along peripheral edges of the second coil panel. A support material disposed in the gap of the inner shell, and one or more additional layers disposed about the inner shell.

A hybrid pillow includes a first coil panel and a second coil panel which are joined along peripheral edges to form an inner shell defining a gap therebetween. The first coil panel is formed of a plurality of coil springs, an upper fabric layer, and a lower fabric layer, with the upper fabric layer and the lower fabric layer joined between the plurality of coil springs and along peripheral edges of the first coil panel. The second coil panel is formed of a second plurality of coil springs, a second upper fabric layer, and a second lower fabric layer, with the second upper fabric layer and the second lower fabric layer joined between the plurality of coil springs and along peripheral edges of the second coil panel. A support material disposed in the gap of the inner shell, and one or more additional layers disposed about the inner shell.

Methods and combinations of mattress support surfaces comprising one or more flexible polyurethane foam layers containing highly thermally-conductive solids, such as diamond or silicon carbide, and said layer combination is capable of transferring heat from a warm surface, such as a person sleeping on a bed, to a cooler region at a faster rate throughout the mattress than the thermal dissipation rate obtained from flexible polyurethane foam without highly thermally-conductive solids.

Methods and combinations of mattress support surfaces comprising one or more flexible polyurethane foam layers containing highly thermally-conductive solids, such as diamond or silicon carbide, and said layer combination is capable of transferring heat from a warm surface, such as a person sleeping on a bed, to a cooler region at a faster rate throughout the mattress than the thermal dissipation rate obtained from flexible polyurethane foam without highly thermally-conductive solids.

The present invention relates to a method of operating a smart mattress system for preventing snoring which can stop snoring of a user, wherein an air mattress and an air pillow interlock with a user terminal so that a user can easily control the air mattress and the air pillow.