Patent application number | Description | Published |
20100079304 | LOCATION DETECTION SYSTEM FOR A PATIENT HANDLING DEVICE - A location detection system for a facility including a patient handling device for supporting a patient and being mobile for positioning at a location in the facility, a locator fixed relative to the patient handling device for transmitting a unique location identifier corresponding to the location of the patient handling device, and a processing station remote from the patient handling device and the locator for receiving the unique location identifier such that the location of the patient handling device can be determined and monitored remotely from the patient handling device. The system further includes a receiver mounted to the patient handling device for receiving the unique location identifier from the locator and a communication module with a unique ID for the patient handling device mounted to the patient handling device and in communication with the receiver and transmitting the unique ID and the unique location identifier received by the receiver from the patient handling device to the processing station such that the patient handling device acts as a communication link between the locator and the processing station, and the processing station receiving the unique location identifier and the unique ID and correlating the unique location identifier with the unique ID and further correlating the unique ID of the patient handling device with a patient supported by the patient handling device wherein the processing station can track the patient handling device and the patient supported thereby. | 04-01-2010 |
20120117730 | PATIENT SUPPORT WITH WIRELESS DATA AND/OR ENERGY TRANSFER - A patient support apparatus, such as a bed, cot, stretcher, gurney, surgical table, or the like, is disclosed that includes at least one form of wireless energy transfer and/or at least one form of wireless communication amongst its components. The wireless energy transfer may include the inductive transfer of electrical energy from the main body of the patient support apparatus to a mattress positioned thereon that uses electrical energy. Alternatively, the wireless energy transfer may include the inductive transfer or electrical energy from a stationary power station to the patient support itself. Or, the patient support apparatus may include both types of inductive energy transfer. The wireless communication may be between a controller on the main body of the patient support apparatus and a controller within, or coupled to, the mattress. | 05-17-2012 |
20120176221 | LOCATION DETECTION SYSTEM FOR A PATIENT HANDLING DEVICE - A location detection system for a facility includes a patient handling device with a communication module with a unique ID, a locator fixed relative to the handling device for transmitting a unique location identifier corresponding to the location of the handling device, and a receiver mounted to the patient device for receiving the unique location identifier. A processing station remote from the handling device and the locator receives the unique location identifier and the unique ID and further correlates the unique ID with a patient supported by the handling device wherein the processing station can track the handling device and the patient supported thereby such that the location of the patient and handling device can be determined and monitored remotely from the handling device. | 07-12-2012 |
20130076490 | LOCATION DETECTION SYSTEM FOR A DEVICE - A location detection system includes a device that is mobile for positioning at a location and has a unique device ID. The device also has circuitry for controlling one or more functions of the device and includes a network interface. A location transmitting device is provided that is spaced from the device for communicating a unique location identifier corresponding to the location of the device to the device. The circuitry is operable to send device data, the unique device ID, and the unique location identifier from the device by way of the network interface. | 03-28-2013 |
20130091631 | Patient Support Apparatus With In-Room Device Communication - A patient support system includes a patient support apparatus—which may be a bed or the like—and one or more mobile electronic tags that are positionable in the room and which communicate wirelessly with the patient support apparatus. The electronic tags are attached to one or more of a patient, a medical device, or a caregiver. After detecting the tag(s), the patient support apparatus implements one or more patient care protocols, and provides alerts if the protocols are violated. The implementation may be automatic or require caregiver confirmation. The protocols can be for fall prevention, bed sore prevention, pneumonia prevention, caregiver hand washing, dialysis, and/or other purposes. The patient support apparatus determines the protocol(s) based on one or more of the following: the type of medical device, the specific patient, the presence or absence of the caregiver, and/or information transmitted to, or input into, the patient support apparatus. | 04-18-2013 |
20130283529 | PATIENT SUPPORT APPARATUS COMMUNICATION SYSTEMS - Patient support apparatuses, such as beds, cots, stretchers, recliners, operating tables, and the like include wireless mesh network transceivers that enable them to communicate with each other, and other devices, via mesh networks and/or ad hoc networks. One or more additional wireless transceivers are included, such as WiFi transceivers, that enable direct communication with a healthcare facility network, such as an Ethernet. The mesh network communication between patient support apparatuses and other devices is used for any one or more of: extending the communication range of the existing IT infrastructure, efficiently routing data to the healthcare facility network, determining location of the patient support apparatuses and devices, transporting patient data from one patient support to the next as the patient moves, and for other aspects. | 10-31-2013 |
20140080413 | COMMUNICATION SYSTEMS FOR PATIENT SUPPORT APPARATUSES - A patient support apparatus, such as a bed, cot, stretcher, or the like, uses the ability to communicate with a device via near field communication to determine that the device is physically proximate the support apparatus. The support apparatus uses this determination to associate itself with the device. In some instances, the associated device is a mattress positioned on the support apparatus; a footboard on the support apparatus; a medical device used with a patient supported on the support device; a nearby piece of furniture; another patient support apparatus; or an ID tag worn by a caregiver or patient, or attached to a piece of equipment. After the support apparatus and device are associated, they communicate information between each other using far field communication, which supports higher data transfer rates. Flux concentrators are added in some embodiments to extend and/or shape the range of near the field communication. | 03-20-2014 |
20140265500 | MEDICAL SUPPORT APPARATUS - A medical chair includes a base and a pair of arm rests supported relative to the base for movement between a raised position and a lowered position relative to the base. The raised position of at least one of the arm rests is upward and forward of its lowered position to provide support to a patient when exiting the chair. For example, the arm rest may be mounted relative to the base to move between the raised position and the lowered position along a linear path. | 09-18-2014 |
20140265502 | MEDICAL SUPPORT APPARATUS - A medical chair comprising a base having one wheel having a brake; and a manual braking mechanism for selectively actuating the brake at the wheel; and a control system operable to control the brake in response to a signal or lack of signal at the chair. Further, the control system includes an actuator, which is coupled to the manual braking mechanism to move the manual braking mechanism to a braking or unbraking position. For example, the actuator may comprise a solenoid, the solenoid being coupled to the manual braking mechanism. | 09-18-2014 |
20140266733 | PATIENT SUPPORT APPARATUS WITH PATIENT INFORMATION SENSORS - A patient support apparatus includes multiple sensors used to monitor aspects of a patient positioned on a support surface of the patient support apparatus. The outputs from the sensors are used, alone or in combination with other signals, to perform any one or more of the following: distinguishing between new and old patients entering onto the support surface; automatically zeroing a scale system on the support apparatus; distinguishing between objects and humans positioned on the support surface; determining if a patient is sleeping or awake; monitoring and characterizing movement levels of the patient; recording for subsequent display a log of likely events regarding the support surface; proposing identifications of objects added to or removed from the support surface; automatically re-arming a patient exit alert system; recording force outputs prior to and during a patient exit from the support apparatus; and transmitting the recorded force outputs to a remote location. | 09-18-2014 |
20150082542 | PATIENT SUPPORT APPARATUS COMMUNICATION SYSTEMS - A location detection system for person support apparatuses includes multiple network wireless access points that communicate with a plurality of mobile transceivers positioned on board the person support apparatuses. Based upon signal strength data (e.g. RSSI or RCPI) of messages from the access points to the transceivers, the locations of the person support apparatuses are determined. In some embodiments, the person support apparatuses include an additional location detection system that utilizes fixed locators having short range transceivers to generate a second location determination of the person support apparatuses. In still other embodiments, the person support apparatuses utilize the second location detection system to determine the location of the wireless access points. The person support apparatuses may also broadcast their location to other devices that then utilize the received signal strengths of those messages to determine their own location. | 03-26-2015 |