An expansion card bracket mount panel including an expansion card bracket frame having an interior side, exterior side, and bracket mount component disposed on the interior side, latch component having at least one retaining latch, and retaining pressure component having an elastic pressure contact component is provided. The latch component is rotatably assembled to the exterior side of the expansion card bracket frame having an upward ready position and latched position and the retaining pressure component is rotatably assembled to the latch component having a standby position and retaining position. When the latch component is in the latched position, the latch component is latched to the expansion card bracket frame and a side of the elastic pressure contact component presses flush with the bracket mount component forming a contact force. A reaction force is formed when the elastic pressure contact component deforms when pressed flush with the bracket mount component.

A detection system including a control device detecting fraud performed in a game table by using a result of an image analysis performed by an image analyzing device is included. A substitute currency for gaming used for this detection system has a multi-layer structure in which a plurality of plastic layers having different colors are stacked, a coloring layer is included at least in the middle, and white layers or thin-color layers (may be layers having a color thinner than that of the coloring layer; not illustrated in the drawing) are stacked on both sides of the coloring layer disposed in the middle.

A detection system including a control device detecting fraud performed in a game table by using a result of an image analysis performed by an image analyzing device is included. A substitute currency for gaming used for this detection system has a multi-layer structure in which a plurality of plastic layers having different colors are stacked, a coloring layer is included at least in the middle, and white layers or thin-color layers (may be layers having a color thinner than that of the coloring layer; not illustrated in the drawing) are stacked on both sides of the coloring layer disposed in the middle.

The present embodiment relates to an electronic component assembly comprising: a housing; a heating element disposed inside the housing; a substrate disposed on the heating element; and a spacer disposed between the heating element and the substrate, wherein the substrate has a first hole coupled to the spacer, the heating element includes a first body having a second hole formed therethrough, and a connection part connected to the substrate, and the spacer includes a first protrusion coupled to the first hole, a second protrusion coupled to the second hole, and a second body disposed between the first protrusion and the second protrusion.

A handle assembly may include a base, a handle rotably coupled to the base via a hinge, the handle comprising a lock integral to the handle and mechanically coupled to a remainder of the handle via a spring having a spring force that biases the lock in a locked position relative to the handle. The base may include a mechanical retention feature for receiving and mechanically retaining an information handling resource. The base may also include one or more features configured to, as the handle is translated into a closed position relative to the base, mechanically engage with the lock to overcome the spring force that biases the lock in a locked position and allows the lock to return to the locked position in order to maintain the handle in the closed position.

A display device includes display panels; a frame supporting the display panels; a first magnetic body disposed on the frame; and a second magnetic body disposed on at least a part of the display panels, wherein the first magnetic body and the second magnetic body overlap each other in a direction parallel to a surface of the display panels and a direction perpendicular to the surface of the display panels.

Disclosed is an industrial control device including a point-to-point backplane/point module architecture providing RIUP (Removal and Insertion Under Power) functionality where data communications between modules is maintained after the removal of a point module from the backplane. According to an exemplary embodiment, a backplane includes a plurality of passive mechanical bypass switches controlled by the insertion and removal of respective point modules, whereby data communicated bypass a removed point module interface and point-to-point data communications are provided to an inserted point module after an initial routine is executed by a microcontroller associated with the inserted point module.

A computing device is secured in an enclosure by a locking mechanism. The locking mechanism includes a jaw, a transmission lever, and an arm. The jaw is configured to abut a portion of the enclosure for holding the computing device. The transmission lever includes an arm pivot at one end and an actuating pivot at the opposite end. The arm is configured to rotate open and closed about the arm pivot and be selectively decoupled from the transmission lever. When the arm is coupled to the transmission lever, opening the arm causes the transmission lever to rotate open about the actuating pivot. Rotating open the transmission lever about the actuating pivot releases the jaw from the portion of the enclosure, and allows the computing device to be removed from the enclosure.

A self-standing data center infrastructure system includes a bottom frame and a collapsible top frame that are configured to be inserted into a standard shipping container for transport to a data center location. At the data center location, the bottom frame is secured to a floor of the data center and the top frame is mounted as a pre-assembled unit on the bottom frame. The top frame is then expanded to provide infrastructure support to one or more rows of racks. Also, the racks may be secured to the bottom frame without the need for additional anchoring of the racks.

Embodiments are disclosed of a module attachable to an electronics rack. The module includes a housing attachable to a rear part of the electronics rack. One or more pairs of laterally-running mounting channels are positioned within the housing and one or more service panels are positioned within the housing. Each of the one or more service panels is movably mounted to a corresponding pair of mounting channels, and each of the one or more service panels can be coupled to at least one electronic device to be mounted in the electronics rack. Implementing the modules to racks and data centers can be realized with multiple methods.