A sensor system senses a plurality of environmental phenomena and send a data message with sensed parameters. The computer system determines an indication that the sensed parameter indicated low-quality sleep and sends an instruction to adjust the environment. A control system adjusts the environment without particular input from a user.

Apparatuses, components, devices, methods, and systems for an adjustable firmness mattress are provided. An example rectangular shaped adjustable firmness mattress extends lengthwise from a head end to a foot end, widthwise from a first side to a second side, and depth-wise from a top side to a bottom side. The example mattress may include an adjustable firmness support layer disposed between the bottom side of the mattress and the top side of the mattress. The adjustable firmness support layer may include at least one rotatable assembly having an orientation-specific firmness, a bridge assembly disposed between the at least one rotatable assembly and the top side of the mattress; and a support assembly disposed between the at least one rotatable assembly and the bottom side of the mattress.

A control system and a bed with the control system. The control system includes a signal acquisition and processing module; a control box coupled to the signal acquisition and processing module; and a controller coupled to the control box. The signal acquisition and processing module is configured to acquire user sleep data from a user of the bed, process the acquired user sleep data, and transmit the processed user sleep data to the control box. The control box is configured to receive the processed user sleep data from the signal acquisition and processing module, generate operation instructions based on the received user sleep data, and send the operation instructions to the controller. The controller is configured to perform corresponding operations based on the operation instructions received from the control box.

A distal-proximal temperature-gradient of a sleeper is determined. A bed has a mattress. Temperature sensors are in an array. Each sensor is configured to: sense surface temperature of the sleeper of the bed, transmit, to a controller, temperature readings. The system also includes a controller may include a processor and memory, the controller configured to: receive, from each of the sensors, temperature readings at a particular time, access, for each temperature reading, a corresponding weight-value, determine the distal-proximal temperature-gradient for the sleeper at the particular time using the temperature readings and the corresponding weight-values.

A three dimensional mattress system with environment control is provided which may be configured to provide three dimensional body support to a user. In some embodiments, the system may include a rigid frame that may form a frame cavity. Optionally, the system may include one or more temperature regulators. A plurality of pillows may be positioned within the frame cavity, and a user may be supported by the plurality of pillows. Optionally, one or more air moving devices may be configured to move air external to the frame through the plurality of pillows, and one or more air filters may be configured to filter air moved by the air moving devices.

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.

The present invention relates to a lounge chair. The lounge chair is configured to provide comfort to person with an enlarged abdomen when lying in a prone position and can be configured to be used as a chair. More specifically, the lounge chair has a facial opening for receiving face of the individual and a stomach opening for receiving stomach of the individual when the person lies in prone position. The chair has three pivotable sections allowing the chair to be used as beach or lounge chair. In the beach chair configuration, the user sits on a lower pivotable section using a middle section as a backrest. The chair has collapsible legs that can be folded to collapse the chair for easy carrying.

The invention relates to a method for manufacturing an orthopedic mattress and to an orthopedic mattress. In the method, strategic measuring points of a future user of the mattress are determined. The springing is determined according to the build of the person using the mattress on the basis of a method in which the build dimensions of the mattress user are determined at strategic points.

Patient transport apparatus with defined transport height comprises a support structure and a litter that are interconnected by a lift mechanism. The support structure comprises a base frame and a plurality of articulable support members or legs. The litter comprises a litter frame and a patient support surface with articulating back and leg sections. The lift mechanism may comprise one or more actuators configured to raise and lower the litter between a lowered position and one or more defined raised positions. The Patient transport apparatus may further comprise a controller coupled to one or more sensors and the lift mechanism. The controller may be configured to define a transport height for the litter based, at least in part, on a characteristic detected by the one or more sensors, and to manipulate the lift mechanism to adjust the litter to the defined transport height.

A bed according to an embodiment may include a topper, at least one firmness adjuster provided under the topper, and a bedframe configured to have an adjustable position and to support the firmness adjuster. There may be a plurality of firmness adjusters corresponding to a plurality of areas of the bed, and each firmness adjuster may include a plurality of cushions provided in a cushion case and a drive to adjust the firmness of the plurality of cushions. The drive may change a position of a first spring relative to a second spring in each of the cushions to change a perceived firmness by a user lying on top of the topper and the firmness adjusters. A dryer may be provided under the bedframe to keep the cushions and topper dry.