A microclimate management system including a person support surface including one or more sensors, a fluid supply device coupled to an inlet of the person support surface and configured to supply fluid to an outlet the person support surface, and a controller configured to detect an inlet condition value at the inlet of the person support surface, detect an outlet condition value at the outlet of the person support surface, determine a difference between the inlet condition value and the outlet condition value, and transmit a first alert in response to determining that a rate of change of the difference between the inlet condition value and the outlet condition value is below a lower condition threshold.

Described herein are devices, systems, and methods relating to making individuals comfortable when in contact with surfaces (e.g., seats and beds) including preventing pressure injuries on subjects. In embodiments, disclosed herein are pressure injury prevention systems comprising actuator assemblies that can simultaneously provide immersion and offloading of pressure while allowing a subject to retain balance. In other embodiments, moisture control devices and/or sensing networks can be used in conjunction with said actuator assemblies to prevent pressure injuries in a subject in need thereof. In embodiments, also described herein are computing devices and applications that alert a manual intervention or trigger an automated intervention between the individual and the intervention surface based on a risk determination. Such interventions can send instructions to the system to relieve pressure and/or moisture at one or more interface locations on the interface surface between the system and a subject according to a set of rules based on a predetermined profile, data collected continuously in real time, or both.

Introduced are methods and systems for an adjustable bed device configured to: gather biological signals associated with multiple users, such as heart rate, breathing rate, or temperature; analyze the gathered human biological signals; and heat or cool a bed based on the analysis.

The present disclosure provides a system for regulating a temperature of a portion of an article of furniture, and methods of use thereof. The system may comprise at least one sensor configured to detect a biological signal of a user of the article of furniture. The system may comprise a temperature control device configured to change the temperature of the portion of the article of furniture. The system may comprise a processor configured to (i) designate, while the user is asleep on the article of furniture, a time for the article of furniture to wake up the user based on the biological signal of the user that is detected by the at least one sensor while the user is using the article of furniture, and (ii) change the temperature of the portion of the article of furniture by the temperature control device prior to the time.

Described herein is a bed system having a foundation with first and second foundation sides and a support surface that can support a mattress on the first foundation side and defining a foundation aperture extending between the first and second foundation sides, an air controller having an outlet to cause air to flow out of the air controller through the outlet, and a controller retainer fixed to the foundation proximate to the foundation aperture. The controller retainer can include a toolless connection interface exposed at the second foundation side and can detachably couple with the air controller at the second foundation side. The controller retainer can, based on the air controller being coupled to the controller retainer, align the outlet of the air controller with the foundation aperture to direct air from the air controller through the foundation aperture to the mattress positioned on the support surface of the foundation.

Disclosed herein is an air duct system that can be easily, quickly, and securely installed and removed from modular air controllers at bed systems. The bed can include a mattress, foundation, air duct hose, hose retainer, and attachment plate. The foundation can support the mattress on a first foundation side and can define a foundation aperture extending between the first foundation side and a second foundation side. The air duct hose can at least partially extend through the mattress and have a first end exposed outside the mattress. The hose retainer can attach to the first end of the air duct hose. The attachment plate can mount at the first foundation side of the foundation and define a plate opening aligned with the foundation aperture. The hose retainer at the first end of the air duct hose can be removably coupled to the attachment plate at the first foundation side.

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.

An air-conditioned mattress includes a mat device, a cover device, and an air-conditioning device. The mat device includes a first mat configured as a three-dimensional structure made from a plurality of elastic thermoplastic filaments that are randomly tangled with each other. The thermoplastic filaments are fixedly connected at contact portions of the thermoplastic filaments in a way that through holes are formed at non-contact portions of the thermoplastic filaments. The cover device covers the mat device and contacts the top surface of the first mat, and the first mat is more air-permeable than the cover device. The air-conditioning device is disposed inside or outside the mat device and provides heated air flow or cooled air flow into the first mat.

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 assembly for removing liquid from bedding, including a liquid impermeable layer portion, a padding portion disposed adjacent the liquid impermeable layer portion, and a suction conduit array portion operationally connected to the liquid impermeable pad portion and disposed between the liquid impermeable layer portion and the padding portion. A vacuum source is operationally connected to the suction conduit array portion. A liquid trap portion is operationally connected between suction conduit array portion and the vacuum source portion. A urine sensor and an electronic controller may be operationally connected between the suction conduit array and the vacuum source.