A multi-function device for an adjustable bed system is disclosed which has a housing having a top section and a side section, the side section having a button having a light and a port, operation of the button for sending a signal, a cord connected to the housing, the cord having a wire connected to the button, and a connector connected to the wire.

In one example, this disclosure describes an adjustable bed system that includes first and second adjustable foundations, at least one first motor to adjust the first adjustable foundation, at least one second motor to adjust the second adjustable foundation, a configurable device having a first state and a second state, and a central controller in communication with the device, the controller configured to receive an input representing one of the first state and the second state, the controller including a processor configured to control the at least one first motor and the at least one second motor based on the received input.

A vehicle seating assembly includes a seat base that has a first heating element. A seat back has a second heating element. A sensor is coupled to the seat base and is configured to obtain a weight data. A user-interface assembly is operably coupled to the first and second heating elements. A controller is in communication with the sensor to receive the weight data. The controller is configured to control the first and second heating elements in response to the weight data.

A system for adjusting the incline of a bed is provided. The bed inclining system includes a base frame mountable to an end of an existing bed or bed frame, wherein the base frame can support a mid-section of the bed in an inclined configuration to prevent a non-planar sleeping surface. A lifting assembly extends from the base frame and can raise and lower a bed support, such that the bed is moveable between a level configuration and a raised configuration. In the level configuration, the bed is in a horizontal position and in the raised configuration, the end of the bed is raised from a floor surface, whereas an opposite end of the bed remains on the floor surface. The bed support extends from the base frame and can support the end of the bed in both the level configuration and the inclined configuration.

Bed tools, systems, and methods are provided to control a microclimate (e.g., temperature, humidity, etc.) at a bed top to provide desired comfort and quality sleep experience. A bed system can include a bed microclimate control subsystem configured to obtain microclimate humidity and to set or adjust operating characteristics (e.g., temperature setpoint) based at least in part on the obtained humidity.

A furniture console having a base and at least one of a lighting device selectively mounted to the base, a first charging device supported by the base, a thermal energy transfer assembly configured to heat or cool a first container selectively mounted to the base, and an electricity storage assembly mounted within the base, the electricity storage assembly being configured to power the furniture console. A control assembly configured to control operation of the at least one of the lighting device, the first charging device, and the thermal energy transfer assembly.

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.

An adjustable chair comprising a seat part, a seat back disposed along one side of the seat part, the seat back being configured for supporting at least a person's back or shoulders, a chair base configured for being placed on a floor, at least one adjustable chair feature including a motor capable of being selectively controlled and driven so as to adjust at least one of: the rotation or tilt of the seat part, a vertical distance between the seat back and the one side of the seat part, an angle position between the seat back and the seat part, and a distance between the chair base and the seat part.

An audio-enhanced furniture system comprises: a furniture assembly; an upholstery fabric at least partially covering the furniture assembly; and a speaker system positioned within the furniture assembly, the speaker system including a speaker covered by the upholstery fabric. The speaker is configured to be tuned to compensate for sound being emitted from the speaker through the upholstery fabric. A method of tuning a speaker to compensate for sound being emitted through upholstery fabric comprises: selecting a baseline equalization, configuring the speaker to emit sound at an actual equalization approximate to the baseline equalization; covering the speaker with an upholstery fabric; measuring a resultant equalization as the speaker emits sound through the upholstery fabric; calculating a differential equalization; and reconfiguring the audio system to emit sound from the speaker through the upholstery fabric according to the baseline equalization by adjusting the actual equalization by the differential equalization.

The present invention discloses a multifunctional motion simulation bed which has multiple segments and simulates preprogrammed motions. The segments are articulately connected to form a motion platform. In one embodiment, the segments are disposed above a base. Actuators are mounted on the base and pivotally coupled with the base and the segments. A microprocessor drives the actuators individually and causes the motion platform to simulate motions. In another embodiment, the segments are disposed above a frame which is arranged above a base. One segment is fixed on the frame. Some actuators are pivotally coupled with the frame and some of the segments. Other actuators are pivotally coupled with the frame and the base. A microprocessor drives the actuators individually and causes the frame and motion platform to simulate motions.