To create a housing cover for fixing to a housing, wherein the housing cover is provided with a plurality of fastening means through openings and with a sealing bead that comprises an elastomeric material, and wherein the sealing bead is arranged on a seal support face of the housing cover, in which housing cover the course of the sealing bead can be more freely designed and, in particular, laid closer to the fastening means through-openings of the housing cover and which, in particular, is producible from a sheet-shaped starting material, it is proposed that the housing cover comprises at least one deformation limiting element, which projects over the seal support face in the same direction as the sealing bead and limits a deformation of the sealing bead in the assembled state of the housing cover, wherein the deformation limiting element comprises at least one fastening means through-opening portion that extends along a circumferential direction of one of the fastening means through-openings over a circumferential angle around the respective fastening means through-opening, and wherein the fastening means through-opening portion of the deformation limiting element comprises a plurality of partial element that are spaced at a distance from one another along the circumferential direction of the fastening means through-opening.

To create a housing cover for fixing to a housing, wherein the housing cover is provided with a plurality of fastening means through openings and with a sealing bead that comprises an elastomeric material, and wherein the sealing bead is arranged on a seal support face of the housing cover, in which housing cover the course of the sealing bead can be more freely designed and, in particular, laid closer to the fastening means through-openings of the housing cover and which, in particular, is producible from a sheet-shaped starting material, it is proposed that the housing cover comprises at least one deformation limiting element, which projects over the seal support face in the same direction as the sealing bead and limits a deformation of the sealing bead in the assembled state of the housing cover, wherein the deformation limiting element comprises at least one fastening means through-opening portion that extends along a circumferential direction of one of the fastening means through-openings over a circumferential angle around the respective fastening means through-opening, and wherein the fastening means through-opening portion of the deformation limiting element comprises a plurality of partial element that are spaced at a distance from one another along the circumferential direction of the fastening means through-opening.

In accordance with an example embodiment, there is disclosed herein, an apparatus, comprising a bezel, a cover, and a thermally conductive, electrically isolating material. The cover comprises top and side surfaces, a cavity for receiving an optical device, a first opening for the optical device to obtain an image, and a second opening for allowing an electrical conductor to be coupled with the optical device. The thermally conductive, electrically isolating, material, is shaped in accordance with the shape of the optical device. The bezel and the cover protect the optical device from discharge currents. The thermally conductive, electrically isolating, material provides electrical isolation of the optical device from the cover and conducts heat from the optical device to the top and side surfaces of the cover.

A remote garage door opener module for after-market assembly into a vehicle for transmitting signals to a garage door opener includes a bezel positionable against a headliner of the vehicle along an interior surface thereof in a position over a hole in the headliner. The module further includes a housing enclosing a power source and electronic circuitry for transmitting the signals. The housing extends away from a first side of the bezel and is positionable at least partially through the hole in the headliner. The module further includes a button exposed at a second side of the bezel and coupled to the electronic circuitry and a mounting element selectively engageable with the headliner adjacent the hole and coupled with one of the housing or the bezel for coupling the module with the headliner.

A housing of a computer includes a cover, a body, and a locking mechanism. The locking mechanism is mounted on the cover. The locking mechanism includes a handle and a sliding plate. The handle is configured to rotate between a first position and a second position relative to the cover. The handle is configured to push the sliding plate. When the handle is in the first position, the sliding plate is engaged with the cover and the body to fix the cover to the body. When the handle is in the second position, the sliding plate is away from the body and the cover is unlocked from the body.

The present invention relates to the field of display technology, and particularly relates to a bendable flexible display device. The display device comprises a display screen, a back plate arranged on the back of the display screen, and a support, the back plate being arranged on the support, wherein the back plate is a spliced back plate, and the display screen is a flexible display screen; and the back plate allows the display screen to be converted between a curved display state and a flat display state. The display device can be converted between a curved display state and a flat display state, to implement various viewing modes and meet different demands of all kinds of people.

A memory card system may include a flexible integrated circuit device package, an upper flexible case, a lower flexible case, a wiring structure, an anisotropic conductive film, etc. The flexible integrated circuit device package may include a material capable of being bent or folded and a flexible integrated circuit device having a connection pad for an electrical connection. The upper flexible case may include a material capable of being bent or folded and may cover the integrated circuit device package. The lower flexible case may include a material capable of being bent or folded and the flexible integrated circuit device package may be fixed to the lower flexible case. The wiring structure may include a material capable of being bent or folded, and also may include a connection wiring disposed on an inner surface of the upper flexible case for electrically connecting the flexible integrated circuit device package with an external device, a connection pin disposed on an outer surface of the upper flexible case, and a via wiring passing through the upper flexible case. The anisotropic conductive film may be disposed between the flexible integrated circuit device package and the upper flexible case for electrically connecting the connection pad with the connection wiring.

A server enclosure having a plurality of panels abutted to one another and constrained by a connector having a channel and at least one aperture. Each respective panel has at least one perpendicular portion being perpendicular to a face of the respective panel and adjoining a perimeter of the respective panel. Connectivity media coincident to the aperture can affix at least two panels and a connector to one another.

A sealed electrical enclosure for housing an electrical component is provided. In one exemplary embodiment, the sealed electrical enclosure includes a housing, a first and second electrical connector, an actuator, and a terminal. The housing has a sealed interior when a top portion is coupled to a bottom portion. The first electrical connector extends from the sealed interior through the bottom of the housing and is electrically coupled to the electrical component. The actuator extends from the sealed interior through the housing and is configured to manipulate the electrical component. The terminal is electrically coupled to the second electrical connector. The second electrical connector is configured to mate with the first electrical connector. The first and second electrical connectors are configured to be connected and disconnected to attach and remove the housing to and from the terminal.

A system, topology, and methods including apparatus for releasably secure attachment to an electronic device. The apparatus or a component of the apparatus may include an electrical energy storage element. The apparatus or a compound of apparatus may be slidably coupled to an electronic device. The apparatus or a component of apparatus may be slidably coupled to an electronic device via a side, top, or base and rear of the electronic device. Other embodiments may be described and claimed.