"Our in-bed-monitor informs a caregiver and calls for a check, in case a patient leaves the bed at night. In combination with floor-level beds such as the practico alu, the new technique represents an ideal solution compared to siderails and other restricting measures", underlines Klaus Bock, managing director of the Hermann Bock GmbH: "Smart Care Control provides more freedom and at the same time, more safety for the patients and care personnel." The system was developed in cooperation with a leading international communication technology supplier and suitable for integration into all Bock care beds.
Intelligent bed control even for home-care application
Even for the care giving at home Bock considers the wireless bed control by Smart Care ControlTM as essentially advantageous. "A graphic user interface and the possibility to store preferred lying positions increase the comfort“, adds Co-managing director Dr. Stefan Kettelhoit: „Important positions such as the Trendelenburg- or Anti-Trendelenburg position are pre-programmed, in order to allow quick use of these for care personnel, if needed.“ In addition, the built-in maintenance interface allows to establish a safe IT tunnel connection between the bed user and the manufacturer. Thereby, the bed can be remotely monitored and checked – without the need for an onsite visit.
Monitoring systems for institutional/residential care
Sensor accessories offered by Hermann Bock GmbH represent one piece of the Smart Care ControlTM system. Besides the in-bed-monitor presented at the Medica, a decubitus monitor and a moisture monitor for care beds are also part of it. The measured data signals are wireless transferred to the available care software systems, which collect and process the data.
In the long term the connection of sensors and a control unit will enable completely new ways of support in care. "It is the aim that our smart care beds will be able to react to the signals of nearly all sensors", explains the Co-managing director Dr. Stefan Kettelhoit. "The bed shall learn to interpret correctly the movements of its user and to support, for example, the patient actively by intelligent control of the bed motors“.