Various embodiments concern locking release mechanisms that allow an articulated support arm to be moved between various vertical orientations. A locking release mechanism may include a handle release mechanism positioned within the handle of the articulated support arm, and a gas spring release mechanism positioned within the body of the articulated support arm. The articulated support arm can include a gas spring that remains locked until the handle release mechanism is activated, e.g. by applying pressure to a grip actuator. Other embodiments concern cable management techniques for articulated support arms. Oftentimes, an articulated support arm will include cables routed through the arm that are configured to support an attachment. For example, the cable(s) may be adapted for audio signals, video signals, power, etc. The cable(s) can be readily cleaned and/or serviced when routed through an articulated support arm composed of one or more removable pieces.

Various embodiments concern locking release mechanisms that allow an articulated support arm to be moved between various vertical orientations. A locking release mechanism may include a handle release mechanism positioned within the handle of the articulated support arm, and a gas spring release mechanism positioned within the body of the articulated support arm. The articulated support arm can include a gas spring that remains locked until the handle release mechanism is activated, e.g. by applying pressure to a grip actuator. Other embodiments concern cable management techniques for articulated support arms. Oftentimes, an articulated support arm will include cables routed through the arm that are configured to support an attachment. For example, the cable(s) may be adapted for audio signals, video signals, power, etc. The cable(s) can be readily cleaned and/or serviced when routed through an articulated support arm composed of one or more removable pieces.

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.

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.

A collision prevention system for a surgical suite includes a supply unit adjustable along a movement path from an initial position to a subsequent position within the surgical suite. A sensor is operably coupled to the supply unit. The sensor is configured to sense an object proximate to the supply unit. A controller is communicatively coupled with the sensor. The controller monitors the object sensed by the sensor. An alert device is communicatively coupled with the controller. The alert device provides a notification when the object is sensed within the movement path and provides a prevention indicator corresponding to an alternate path.

The invention relates to a suspension system, or pendant unit, intended for attachment to an upper structure at a selectable height for suspending a load wherein the load may comprise a carrier for the one or more medical devices or one or more devices, such as for instance a (target) lighting, monitor, camera or a medical device. The problem of the known suspension system is that during the entire repositioning the user has to react on the behavior of the system due to a variety of internal and external forces. It is an object of the invention to provide an alternative suspension system for the known suspension system wherein this problem is addressed.

A modular insert for a patient room, the modular insert having a headwall with supply connections for electricity and medical grade vacuum, air and oxygen, and a lightbridge with medical examination lighting, the lightbridge coupled to the headwall. Further a lifting frame for transporting the modular insert to a patient room and facilitating installation thereof in the patient room, the lifting frame having a floor member for removably attaching to the headwall and a wall member for removably attaching to the lightbridge, the wall member pivotally attached to the floor member. Still further, a method for transporting the modular insert to a patient room and installing the modular insert in the patient room using the lifting frame.

A medical suspension bridge includes a cross beam, a suspension pipe and a moving module. The cross beam is connected with the suspension pipe. The moving module is movably connected with the cross beam. The cross beam includes a load-bearing beam. The moving module includes a cable carrier moving plate extending to the upper portion of the load-bearing beam. The medical suspension bridge further includes a cable carrier. One end of the cable carrier is connected to the load-bearing beam, and the other end is connected to the cable carrier moving plate. Since cables such as electric wires and air pipes within a box body which needs to be moved are collectively mounted within the cable carrier, not only the routing is more tidy, but also the cables can be well protected.

A medical-gas panel connector system includes a frame assembly. The frame assembly includes a horizontal frame member, a vertical frame member connected to the horizontal frame member, and a ceiling integration assembly. The medical-gas panel connector system also includes a medical-gas outlet removably secured to at least one of the horizontal frame member and the vertical frame member via a bracket. In addition, a manifold is removably secured to the ceiling integration assembly, the manifold being at least partially disposed inside the medical-gas panel connector system, and a flexible gas line connects the manifold to the medical-gas outlet. The medical-gas panel connector can be reconfigured and rearranged within a modular wall system.

A stand apparatus, which can be built and assembled/disassembled in a modular manner, is shown and described. In particular embodiments, a bushing for a stand apparatus for arrangement in an operation theater, comprising a coupling part, by means of which the bushing can be mounted on a connecting component of the stand apparatus about a rotational axis and/or along the rotational axis in a height-adjustable mannerin particular, on a spindleand a section on which the bushing can be connected to a support arm of the stand apparatus, wherein the section is a mounting section, by means of which the bushing can be mounted on the support arm in a reversible mannerin particular, by means of one or more fastening means. Further embodiments comprise a support arm for fastening to a bushing, as well as a support system, consisting of at least one such bushing and one such support arm.