A patient support apparatus pneumatic system may include a mattress defining an interior and a pneumatic enclosure in fluid communication with the interior and comprising an inlet and an outlet. A blower may be in fluid communication with the interior and the pneumatic enclosure. A pressure sensor may be configured to detect a pressure at the outlet. A controller may be configured to monitor a speed of the blower and the pressure at the outlet for detecting at least one of an intake blockage condition and an exhaust blockage condition.

The present disclosure relates to patient support systems, such as hospital beds, and particularly to reconfigurable patient support systems movable among a number of different positions. The present disclosure further relates to control algorithms and interfaces for use in patient support systems.

A person support for supporting a person includes a first layer and a resilient second layer. The first layer has a surface topography with a first region with a curvature configured to correspond and generally conform, in an unloaded state, to the shape of a first portion of a person's body. The surface topography has a second region configured to correspond and generally conform, in an unloaded state, to the shape of a second portion of a person's body. The resilient second layer overlays the first layer and forms a person support surface.

An air inflatable mattress and mattress coverlet are provided for the prevention and treatment of decubitus ulcers (i.e., pressure sores or bedsores). The mattress incorporates a user selectable static or alternating air powered support surface for more uniformly redistributing pressure exerted on a patient's skin. The mattress coverlet encompasses a low air loss feature independent of the mattress's user selectable air powered support surface. Such low air loss feature provides a patient contact surface exhibiting a high moisture vapor transfer ratio in conjunction with a forced air flow to aid in reducing the moisture and heat near the patient's body. Both the mattress and mattress coverlet are driven by an external control system which houses the user controls, as well as the necessary pumps, regulators, and valving.

A variable width support system includes an adjustable width person support apparatus (PSA), an adjustable width person support surface (PSS), and first and second controllers. The first controller controls a function of the PSA and receives a first input corresponding to a function of the PSA via a first user interface. The second controller controls a function of the PSS and: a) receives a second input corresponding to a function of the PSS via a second user interface when the first controller is not in communication with the second controller, and b) receives a third input corresponding to a function of the PSS via the first controller when the first controller is in communication with the second controller. The second controller controls a function of the PSS in accordance with the third input when the first controller is in communication with the second controller.

According to the present disclosure, a microclimate system includes a support surface, an air box, and an immersion sensor. The support surface is configured to support a patient and conduct air along a surface of the support surface so that heat and moisture from a patient lying on the support surface are drawn away from the surface. The air box includes a blower coupled to the support surface to provide airflow to the support surface. The immersion sensor is configured to detect the immersion of the patient into the support surface.

A therapeutic support device includes a bladder having one or more independently inflatable compartments, each including a plurality of inflatable cells. When inflated, each inflatable cell forms a contact node that may support a user or another object disposed thereon. The inflatable compartments can be alternately inflated and deflated such that contact pressure can be applied to and relieved from corresponding portions of the user's body in an alternating manner.

An air inflatable mattress and mattress coverlet are provided for the prevention and treatment of decubitus ulcers (i.e., pressure sores or bedsores). The mattress incorporates a user selectable static or alternating air powered support surface for more uniformly redistributing pressure exerted on a patient's skin. The mattress coverlet encompasses a low air loss feature independent of the mattress's user selectable air powered support surface. Such low air loss feature provides a patient contact surface exhibiting a high moisture vapor transfer ratio in conjunction with a forced air flow to aid in reducing the moisture and heat near the patient's body. Both the mattress and mattress coverlet are driven by an external control system which houses the user controls, as well as the necessary pumps, regulators, and valving.

A patient support includes a cover defining an interior region, an air permeable first layer located in the interior region, and a support layer located beneath the air permeable first layer. A pressure sensing layer is located underneath the support layer. At least one air supply is coupled to the support layer. A controller is coupled to the air supply and to the pressure sensing layer. The controller controls inflation and deflation of the support layer in response to a signal from the pressure sensing layer.