There is provided a gas supply socket which can ensure sealing between an outer cylinder and an inner cylinder even when the inner cylinder, inclined with respect to the outer cylinder, is placed in the outer cylinder. The gas supply socket 10 includes an outer cylinder 11, an inner cylinder 12, a movable body 20 disposed within the outer cylinder 11, and a valve body 18 and a valve seat portion 19 provided within the inner cylinder 12. An intermediate cylinder 13 is provided between the outer cylinder 11 and the inner cylinder 12. When the inner cylinder 12, inclined with respect to the outer cylinder 11, is placed in the outer cylinder 11, the inner cylinder 12 and the intermediate cylinder 13 tilt with respect to the outer cylinder 11.

A pod including a flow management device disposed within a pod casing, and at least one fluidic coupling within the casing that is fluidically connected to the flow management device. The at least one fluidic coupling is configured to fluidically connect with a removable accessory insertable within the pod casing. The pod including the flow management device are located behind a finished surface, such as a wall of a hospital room. A pod system, an accessory insertable within the pod, and a method is also provided.

A system comprising a housing, the housing comprising an opening through which a display of an electronic device is accessible by a user, peripheral device(s) connected to the housing and controllable by the electronic device, and a hub contained within the housing. The hub comprises a first interface to couple the hub with the electronic device, a second interface for coupling the peripheral device(s), a processor, and a non-transitory memory having instructions stored thereon that, when executed by the processor cause the processor to perform operations. The operations comprising receiving first input data from the electronic device and sending first output data from the hub to the one or more peripheral devices based on the first input data. The operations further comprising receiving second input data from the peripheral device(s) and sending second output data from the hub to the electronic device based on the second input data.

A medical device assembly including a movable suspension arm, a vertically adjustable service head located at an end of the suspension arm, the vertically adjustable service head including a service head face with outlets thereon, and conduits routed by the suspension arm, into the vertically adjustable service head in a horizontal direction and vertically within the vertically adjustable service head to the outlets. The vertically adjustable service head includes a vertically adjustable column for raising and lowering the outlets.

The present disclosure relates to portable medical systems and methods for deploying a remote surgical theater. The portable medical system may include a portable medical container, a sanitization compartment, and a power supply. The portable medical container may be transitionable between a closed position and an open position. The sanitization compartment may be disposed within the portable medical container and transitionable between a closed position and an open position. The power supply may be disposed within the portable medical container, the power supply configured to selectively supply electrical power to the sanitization compartment. The power supply may be configured to receive user input and, in response to the user input, transmit the electrical power to the sanitization compartment.

A point-of-care computer system is provided, including a display positioned in a point-of-care location. The point-of-care computer includes hardware coupled to a frame of a hospital bed.

A system for providing laminar airflow over an operating platform having a top surface and a base. The system includes an airflow delivery apparatus and a return plenum. The airflow delivery apparatus is positioned above the top surface of the operating platform and includes a light assembly and a plurality of vents. The light assembly is configured to direct light toward the operating table. The plurality of vents is positioned around the light source and configured to direct airflow toward the top surface of the operating platform. The return plenum is positioned in the base of the operating platform below the top surface and is configured to receive airflow from around the operating platform in order to achieve laminar airflow around the operating platform.

A surgical room power system including at least one source of power wired to a power source for a surgical room, the at least one source of power being wired to the surgical room; at least one power receiver; and a surgical power consumer wired to the at least one power receiver, the surgical power consumer being configured to assist a surgeon during a surgical procedure on a patient. The at least one source of power wirelessly transfers power to the at least one power receiver for powering the surgical power consumer.

Method and system allowing more accurate detection and identification of unwanted arcing include novel processing of signal voltage representing recovered power-line current. In one implementation, arc-faults are detected based on numerical analysis where individual cycles of line voltage and current are observed and data collected during each cycle is processed to estimate likelihood of presence of arc-event within each individual cycle based on pre-defined number of arc-events occurring within pre-defined number of contiguous cycles. In another implementation, fast transient current spikes detection can be done by: computing difference values between consecutive line-current samples collected over a cycle, average of differences, and peak-to-peak value of line-current; comparing each difference value to average of difference; comparing each difference value to peak-to-peak value; and, based on calculation of composite of two comparisons, using thresholds to determine if arcing is present within processed cycle.