The present disclosure relates generally to system and method for mounting a topper screen and mounting bracket to the frame of a gaming machine cabinet. The topper mounting bracket may include an angled mounting plate, a topper electrical connector fastened to the angled mounting plate, and at least one mounting bolt fastened to and protruding from the angled mounting plate. The cabinet frame may include an angled mounting surface, a movable cabinet electrical connector coupled to the angled mounting surface, and at least one key slot positioned on the angled mounting surface. The topper mounting bracket may be mounted to the cabinet frame by aligning and engaging the at least one mounting bolt with the at least one key slot. Once engaged, the topper mounting bracket and topper screen is secured to the gaming machine cabinet allowing an installer to establish an electrical connection between the topper screen and the gaming machine cabinet by connecting the topper electrical connector with the movable cabinet electrical connector. The display mounting system allows a single installer to assemble and mount the topper display to the gaming machine cabinet safely and without assistance.

A display lifting system for use with a gaming machine is described herein provided. The display lifting system includes a scissor-type extension assembly, a display unit lift assembly, and a display unit support assembly. The display lifting system is configured to position a display unit between a first position having the display unit adjacent a gaming cabinet, a second position having the display unit spaced a distance from the display unit housing, and a third position having the display unit positioned nearer to a ground surface to facilitate removing the display unit from the support frame assembly.

An amusement machine includes a button deck. The button deck includes a transparent support and a display together serving as a touchscreen, and a pushbutton switch. The pushbutton switch includes an operable portion attached to a first surface of the transparent support, and a detector attached to a second surface of the transparent support and facing the operable portion. The operable portion includes a button. The detector includes a reflective sensor that detects a pressed state of the button through the transparent support.

A new type of RFID tag is provided. A gaming chip that incorporates a sticker-type RFID tag comprises: an enclosing member having a predetermined shape for enclosing the RFID tag; a body member that is injection-molded to encapsulate the enclosing member with the RFID tag; and a gaming chip for amusement. The enclosing member consists of a first part and a second part, and at least the first part or the second part has a flat surface to which a sticker-type RFID tag can adhere, and the first part and the second part are combined to form an enclosing member, in which the sticker-type RFID tag is covered by the first part and the second part.

In an electronic gaming device, a linked reel strip mechanism uses one or more data structures for multiple reel strips of a reel strip group. Each of the reel strips is logically linked, in the data structure(s), with one or more other reel strips of the reel strip group. User input is received that indicates a start to a re-spin series, and the linked reel strip mechanism is initialized. As part of backend processing, in each of one or more iterations of the re-spin series, for a current reel strip selected by traversing the data structure(s), a spin result is determined for a spin that uses the current reel strip, and an outcome associated with the spin result is determined. In corresponding frontend processing, the current reel strip is displayed as spinning in a reel area on a display screen, and an indicator of the outcome is displayed.

A method for assembling an overhead display assembly includes providing a plurality of display segments, each display segment of the plurality of display segments configured to mate with at least one other display segment. The method also includes coupling each display segment to a support stanchion of a plurality of support stanchions and coupling a first display segment to a second display segment to form the display assembly. The display assembly is then raised on the plurality of support stanchions, after coupling the first display segment to the second display segment. The display assembly is also coupled in communication with an electronic gaming machine.

A method for controlling the cruising speed of a hybrid or electric propulsion vehicle includes detecting a forward travel speed of the vehicle, identifying a downhill forward travel condition of the vehicle, activating a control of the downhill cruising speed following said identification of said downhill forward travel condition, determining a reference speedy for the vehicle and calculating a charging current for the battery pack generated by the electric motor as a function of a deviation between said reference speed and the detected forward travel speed of the vehicle. The step of identifying a downhill forward travel condition of the vehicle includes calculating a parameter representative of said downhill condition as a function of the detected forward travel speed and the motor current.

Gaming machines, methods, and systems include a dynamically configurable pushbutton assembly including a video display having a first top surface and a first outer periphery defining a display screen area. At least one mechanical pushbutton is mounted to the display screen, the at least one mechanical pushbutton includes a second top surface and a second outer periphery defining a corresponding pushbutton area within. The second top surface and the pushbutton area are located to extend at least partly over a portion of the display screen area and within the first outer periphery, and the second top surface is transparent so that the portion of display screen area within the pushbutton area is visible through the second top surface.

A game token by which a plurality of RFID tags embedded in a plurality of the game tokens stacked each other can be read in a relatively stable manner is provided. A game token is provided with a security part and a receiving part that receives the security part. The security part has a shape with a diameter smaller than the diameter of the receiving part, a structure with a plurality of plastic layers laminated together, an RFID tag, and a visible print layer indicating a type or ID of the game token. The receiving part has a surface. The surface of the receiving part has a recessed portion for receiving the security part, and the depth of the recessed portion is 25% or more of the thickness of the game token.

A hinge assembly for securing a door on a gaming machine cabinet includes a first flange coupled to the door, a second flange coupled to the cabinet, a first link pair coupled to and extending from the first flange at a first pivot joint, a second link pair coupled to and extending from the first flange at a second pivot joint, a third link pair coupled to the first link pair at a third pivot joint, wherein the third link pair is further coupled to the second flange at a fourth pivot joint, and wherein the third link pair is further coupled to the second link pair at a fifth pivot joint, and a fourth link pair coupled to the second flange at a sixth pivot joint, wherein the fourth link pair is further coupled to the second link pair at a seventh pivot joint.