A method of operating a modular surgical system including a control module, a first surgical module, and a second surgical module is disclosed. The method includes detachably connecting the first surgical module to the control module by stacking the first surgical module with the control module in a stack configuration, detachably connecting the second surgical module to the first surgical module by stacking the second surgical module with the control module and the first surgical module in the stack configuration, powering up the modular surgical system, and monitoring distribution of power from a power supply of the control module to the first surgical module and the second surgical module.

The present invention relates to an assembling frame for an LED display, which has a lateral width and a vertical height, wherein the sizes of the lateral width and the vertical height are not the same, and a number of the assembling frames are assembled together to form a large LED display, and a number of the assembling frames are assembled in a lateral assembling manner or a lateral assembling manner to form the large LED display.

The present invention concerns a modular information system, comprising at least one base unit and a set of extension units, wherein each of said base unit and extension units comprises a housing with an essentially beam-like shape with a predefined height (H), a predefined depth (D) and a width (W), whereby the height and depth are in essence the same for all units, wherein the first lateral side of each unit is essentially open and the second lateral side of each unit is essentially closed with the exception of one or more slits for providing access to a neighbouring unit, wherein each unit comprises a board, said board comprising at least one inter-unit connector module which is aligned with and faces at least one of the slits, wherein the boards of two neighbouring units are connected via a board linking device stretching between said boards through said at least one of the slits, comprising a first connecting device at a first edge of the board linking device, which first connecting device is connected to the inter-unit connector module of a first of said two neighbouring units, the board linking device comprising a second connecting device at a second edge of the board linking device opposite the first edge, which second connecting device is connected to the inter-unit connector module of a second of said two neighbouring units, whereby the first connecting device and the second connecting device are electrically connected, preferably via a set of connection links on the board linking device.

The present invention concerns a modular information system, comprising at least one base unit and a set of extension units, wherein each of said base unit and extension units comprises a housing with an essentially beam-like shape with a predefined height (H), a predefined depth (D) and a width (W), whereby the height and depth are in essence the same for all units, wherein the first lateral side of each unit is essentially open and the second lateral side of each unit is essentially closed with the exception of one or more slits for providing access to a neighbouring unit, wherein each unit comprises a board, said board comprising at least one inter-unit connector module which is aligned with and faces at least one of the slits, wherein the boards of two neighbouring units are connected via a board linking device stretching between said boards through said at least one of the slits, comprising a first connecting device at a first edge of the board linking device, which first connecting device is connected to the inter-unit connector module of a first of said two neighbouring units, the board linking device comprising a second connecting device at a second edge of the board linking device opposite the first edge, which second connecting device is connected to the inter-unit connector module of a second of said two neighbouring units, whereby the first connecting device and the second connecting device are electrically connected, preferably via a set of connection links on the board linking device.

A modular surgical system for use in a surgical procedure is disclosed. The modular surgical system includes a control module including a power supply and surgical modules including a first surgical module and a second surgical module. The first surgical module is arranged in a stack configuration with the control module and the second surgical module. The power supply is configured to output power to the first surgical module and the second surgical module. A power backplane is configured to deliver the power to the first surgical module and the second surgical module through the first surgical module. A control circuit is configured to adaptively adjust power allocations to the first surgical module and the second surgical module.

A modular surgical system for use in a surgical procedure is disclosed. The modular surgical system includes a control module including a power supply and surgical modules including a first surgical module and a second surgical module. The first surgical module is arranged in a stack configuration with the control module and the second surgical module. The power supply is configured to output power to the first surgical module and the second surgical module. A power backplane is configured to deliver the power to the first surgical module and the second surgical module through the first surgical module. A control circuit is configured to adaptively adjust power allocations to the first surgical module and the second surgical module.

An intermediary support structure that includes a linear or rotational actuator to move the single display tile from a first position in a first plane along a predetermined path to a second position in the first plane. The first position is a loading position of the single display tile in the tiled display and the second position is a position in which the single display tile lies when installed in its operative position in the tiled display. When the single display tile is located in the first position, there is a distance between the loading position and the operative position, the linear or rotational actuator is configured so that the distance becomes smaller as the single display tile is moved along the predetermined path towards the second position. The linear or rotational actuator is accessible and remains accessible until an adjacent display tile is covering an access to the actuator.

An intermediary support structure that includes a linear or rotational actuator to move the single display tile from a first position in a first plane along a predetermined path to a second position in the first plane. The first position is a loading position of the single display tile in the tiled display and the second position is a position in which the single display tile lies when installed in its operative position in the tiled display. When the single display tile is located in the first position, there is a distance between the loading position and the operative position, the linear or rotational actuator is configured so that the distance becomes smaller as the single display tile is moved along the predetermined path towards the second position. The linear or rotational actuator is accessible and remains accessible until an adjacent display tile is covering an access to the actuator.

A display module includes: a display substrate, having a display side and a back side opposite the display side; and a support assembly, stacked on the back side and including a support element, a first magnetic element and a drive element, wherein the first magnetic element and the drive element are both disposed on the support element, and the first magnetic element is connected to the drive element; wherein the first magnetic element is configured to be connected to a second magnetic element in a casing, and the drive element is configured to change a position of the first magnetic element relative to the support element.

A display module includes: a display substrate, having a display side and a back side opposite the display side; and a support assembly, stacked on the back side and including a support element, a first magnetic element and a drive element, wherein the first magnetic element and the drive element are both disposed on the support element, and the first magnetic element is connected to the drive element; wherein the first magnetic element is configured to be connected to a second magnetic element in a casing, and the drive element is configured to change a position of the first magnetic element relative to the support element.