The disclosure relates to a smart furniture controller with voice recognition, including a controller body and a control circuit. The control circuit is disposed in the controller body. The control circuit comprises a main control unit, a voice recognition module, an operation panel, a control output interface and a power module. The voice recognition module is connected to the main control unit; a microphone and a loudspeaker are connected to the voice recognition module; the operation panel is connected to the main control unit, and the control output interface is connected to the main control unit. The disclosed embodiments integrate a voice recognition module in the controller. Voice commands can be recognized through the voice recognition module, allowing to control the smart furniture via voice, and making the operation simpler and more convenient.

A bed has a mattress. A first wireless charging array is positioned on a top side of the mattress nearer a head of the mattress. A pillow is configured to be positioned atop the first wireless charging array. The pillow includes a second wireless charging array located on an underside of a pillow. The second wireless charging array is configured to receive energy from the first wireless charging array. A companion device is configured to use the energy. An energy storage device is within the pillow. The energy storage device is configured to store charge received by the first wireless charging array. The energy storage device is configured to supply power to the companion device.

A support platform supports a mattress. The support platform includes legs. Force sensors are coupled to the legs or to the support platform. The force sensors are configured to sense a force applied to each leg or support platform. A controller is configured to receive at least one force stream from at least one of the force sensors. The at least one force stream represents a force sensed by the force sensor. The controller is configured to, in responses to receiving the at least one force stream, determine a sleep parameter from the following group of sleep parameters: bed presence, weight, heart rate, respiration rate, and motions. The controller is configured to output at least one or more of those parameters to an end user.

A mattress system can include a foam layer positioned proximate a mattress top and having a head end, a foot end, and opposite lateral ends, a mattress core positioned under the foam layer, and a sensor strip. The sensor strip can include a carrier strip and a plurality of sensors attached to the carrier strip and spaced apart from each other in a longitudinal direction of the carrier strip. The carrier strip can be configured to be releasably attached to the foam layer. The carrier strip can also extend between the opposite lateral ends of the foam layer.

A device for wireless charging of portable electronic devices is provided. The device is capable of being fixed to a piece of furniture and includes a charger configured to transmit electricity via induction; a horizontal arm of an angular shelf beneath which the charger is mounted; and an angular bracket configured to mount the device to the piece of furniture by adjusting a spacing between a vertical arm of the angular bracket and a vertical arm of the angular shelf to approximately a width of the piece of furniture, wherein the charger is mounted between the angular bracket and the angular shelf, and wherein the angular bracket is slidably mounted in relation to the vertical arm of the angular shelf.

A cushion member that is secured to a massage table or massage chair and contains a video or virtual reality headset within a substantially central opening or cutout of the cushion member to allow an individual to view video, virtual reality scenes, or other text, graphics or indicia while receiving a massage. A retaining shelf can also be secured to the cushion member to provide support for the video or virtual reality headset. Speakers can also be embedded in the cushion member or a headphone jack or port can be provided with the headset to also allow the individual to listen to any audio associated with the displayed material on the headset.

A bed includes environmental control components, which may be temperature control components and pressure adjustment components in some embodiments. The environmental control components may be configured to provide different sleep environments based on identity of sleepers using or expected to use the bed. A controller may determine a number of sleepers for the bed, identify the sleepers, and determine if there is an expectation of later arrival of sleeper in determining a configuration for the environmental control components in providing a sleep environment for the bed.

A modular stackable bunk (1) having an elongate base (3), an elongate roof (10), a pair of ends (4, 5) spaced apart by a pair of sides (6, 7), at least partially connecting said base to said roof to form a living space (11). At least one raised portion (12) extends along said base and/or roof and adapted to elevate said base and/or roof away from a floor surface and/or another bunk. Attachment means (13) connect two said bunks together. A digital services package provides digital services to a user of said bunk.

A massaging cushion system for vibrating a personal cushion includes a personal electronic device that has vibration capabilities such that the personal electronic device is actuatable to vibrate. A cushion is provided and the cushion has a pocket integrated therein. The pocket insertably receives the personal electronic device. The cushion is comprised of a resiliently compressible material thereby facilitating vibration from the personal electronic device to be communicated through the cushion. In this way the cushion enhances comfort for the user by exposing the user to the vibration.

The present invention discloses a joyride mechanism for a furniture such as a bed, chair, sofa, crib, and the like, having attachments designed to impart a movement to the furniture for enjoyment purposes. The present invention provides an apparatus for applying vertical and horizontal motion to the furniture. The apparatus includes a mechanical frame with linear actuators (such as electrical linear actuators, hydraulic actuators or pneumatic linear actuators, or any combination thereof) that are controlled by a computer. The apparatus can optionally control illumination and speeds of multiple fans to provide a joyride experience to users of the furniture. The present invention also discloses a furniture with built-in sensors to determine the safety of users or people in proximity of the furniture. The present invention also discloses a mattress for a bed with a built-in computer. The present invention also discloses cushions for furniture with a built-in computer.