Patent application number | Description | Published |
20090222184 | ALGORITHM FOR POWER DRIVE SPEED CONTROL - A control system for a self-propelled patient-support apparatus includes a controller that utilizes a power drive speed control algorithm to control the power output to a motor of a drive mechanism for driving the patient-support apparatus across a floor. The control algorithm normalizes a force input by a user on a user input device, the force indicative of a desired drive speed. The algorithm varies the responsiveness of the output to the drive mechanism based on the current operating conditions of the drive mechanism. | 09-03-2009 |
20110083270 | POWERED TRANSPORT SYSTEM AND CONTROL METHODS - A powered transport device for a person support apparatus includes a floor contacting driver, a prime mover, a power source and a controller. The prime mover is coupled to the driver and an output of the prime mover provides input to the driver. The power source provides power to the prime mover. The controller senses a performance characteristic of the powered transport device and varies the operation of the powered transport device based solely on the performance characteristic. | 04-14-2011 |
20110083271 | HEAD OF BED ANGLE MOUNTING, CALIBRATION, AND MONITORING SYSTEM - A bed includes a frame, a head section coupled to the frame and movable relative to the frame between first and second angular positions, and a sensor operable to determine an angular position of the head section. The sensor is mounted to the head section of the bed at a specified angle. A bed control unit receives signals from the sensor, calibrates the sensor, and monitors the angular position of the head section of the bed relative to gravity. | 04-14-2011 |
20110231075 | PATIENT SUPPORT APPARATUS WITH DRIVE WHEEL SPEED CONTROL - A control system for a self-propelled patient-support apparatus includes a controller that utilizes a power drive speed control algorithm to control the power output to a motor of a drive mechanism for driving the patient-support apparatus across a floor. The control algorithm normalizes a force input by a user on a user input device, the force indicative of a desired drive speed. The algorithm varies the responsiveness of the output to the drive mechanism based on the current operating conditions of the drive mechanism. | 09-22-2011 |
20120025990 | BED EXIT ALERT SILENCE WITH AUTOMATIC RE-ENABLE - A hospital bed has a bed exit alarm system including an audible alarm that sounds when an alert condition is detected, such as when a patient exits the bed or moves toward exiting the bed. The bed exit alarm system includes at least one user input that is used to enable the bed exit alarm system and a bed exit alarm silence input that stops the audible alarm from sounding. The bed exit alarm system is configured such that after the bed exit alarm silence input is used, the bed exit alarm system is re-enabled automatically without any action by a caregiver in response to one or more sensors sensing that the patient is, once again, supported on the bed. | 02-02-2012 |
20120025992 | BED EXIT ALERT SILENCE WITH AUTOMATIC RE-ENABLE - A hospital bed has a bed exit alarm system including an audible alarm that sounds when an alert condition is detected, such as when a patient exits the bed or moves toward exiting the bed. The bed exit alarm system includes at least one user input that is used to enable the bed exit alarm system and a bed exit alarm silence input that stops the audible alarm from sounding or that prevents the alarm from sounding. The bed exit alarm system is configured such that after the bed exit alarm silence input is used, the bed exit alarm system is re-enabled automatically without any action by a caregiver in response to one or more sensors sensing that the patient is, once again, supported on the bed. | 02-02-2012 |
20120124744 | CONTROL OF HOSPITAL BED CHAIR EGRESS CONFIGURATION BASED ON PATIENT PHYSIOLOGY - A patient support apparatus includes a frame having a patient support deck that is movable between a horizontal position to support a patient in a lying position and a chair egress position to support the patient in a sitting position. Depending upon a height of the patient, a lift system is operated to support the patient support deck relative to an underlying floor at different heights when the patient support deck is moved to the chair egress position. Depending upon a weight of the patient, at least one bladder of a mattress is either deflated or further inflated when the patient support deck is moved to the chair egress position and the patient is in the process of egressing from the patient support apparatus. | 05-24-2012 |
20120174322 | CONTROL FOR PRESSURIZED BLADDER IN A PATIENT SUPPORT APPARATUS - An apparatus for supporting a patient, such as a hospital bed, is provided. The apparatus includes a patient support surface and at least one fluid containing bladder. A pressure control assembly is operably coupled with the bladder. When the fluid pressure within the bladder falls outside of an acceptable range of pressure values, the active adjustment of the pressure within the bladder is initiated by the pressure control assembly if the pressure does not return to the acceptable range of pressure values within a time period, e.g., a time delay, that has a variable length. | 07-12-2012 |
20130145552 | VARIABLE-SHAPE SEATING SURFACE - A patient support apparatus includes a deck, a support structure supported on the deck, and a control system. The deck includes a head deck section and a seat deck section. The head deck section is movable between a lowered position and a raised position. The support structure is supported on the deck and includes a variable-shape cushion that is selectively configurable to a plurality of shapes. The control system coordinates configuration of the variable-shape cushion with movement of the head deck section such that movement of the head deck section upwardly causes the variable-shape cushion to be configured to resist shifting of a patient's buttocks | 06-13-2013 |
20130145558 | OPTIMIZATION OF THE OPERATION OF A PATIENT-SUPPORT APPARATUS BASED ON PATIENT RESPONSE - A patient-support apparatus according the present disclosure includes a source of pressurized air, a plurality of bladders, a plurality of pressure sensors, and a controller. The controller is configured to execute instructions to adjust pressures in the bladders based on information from the plurality of pressure sensors. | 06-13-2013 |
20130219622 | CONTROL OF HOSPITAL BED CHAIR EGRESS CONFIGURATION BASED ON PATIENT PHYSIOLOGY - A patient support apparatus includes a frame having a patient support deck that is movable between a horizontal position to support a patient in a lying position and a chair egress position to support the patient in a sitting position. Depending upon a height of the patient, a lift system is operated to support the patient support deck relative to an underlying floor at different heights when the patient support deck is moved to the chair egress position. Depending upon a weight of the patient, at least one bladder of a mattress is either deflated or further inflated when the patient support deck is moved to the chair egress position and the patient is in the process of egressing from the patient support apparatus. | 08-29-2013 |
20130340168 | PATIENT SUPPORT SYSTEMS AND METHODS OF USE - A patient support system includes a patient support apparatus and a support surface mounted on the patient support apparatus. The patient support apparatus is reconfigurable among a plurality of different configurations for supporting a patient on the support surface in a plurality of positions. The support surface is mounted on the patient support apparatus to move in response to reconfiguration of the patient support apparatus. | 12-26-2013 |
20140123390 | PATIENT SUPPORT SYSTEMS AND METHODS OF USE - A patient support system includes a patient support apparatus and a support surface mounted on the patient support apparatus. The patient support apparatus is reconfigurable among a plurality of different configurations for supporting a patient on the support surface in a plurality of positions. The support surface is mounted on the patient support apparatus to move in response to reconfiguration of the patient support apparatus. | 05-08-2014 |
20140124273 | Automatic Weight Offset Calculation for Bed Scale Systems - A patient support apparatus includes load cells and a controller operable to automatically update a weight offset for use in determining a true patient weight. The controller is configured to receive signals produced by the load cells, determine whether a patient is being supported by a patient support surface of the patient support apparatus, detect movement on the patient support surface, determine a weight of the patient being supported on the patient support surface, determine whether a patient is no longer being supported by the patient support surface, and update a weight offset. | 05-08-2014 |