A protective enclosure for electrical components includes a body having front and end openings, the body further including front, rear, and two side panels. A door selectively closes the front opening. An end cap closes the end opening. A ledge surrounds the end opening, the ledge lying perpendicular to the front, rear, and side panels, and a plurality of apertures are provided along the ledge. A gasket provides a seal between the end cap and ledge. A plurality of fasteners embedded into the end cap engage with a plurality of clips assembled onto the ledge at the plurality of apertures so as to form a permanent, one-time-use closure that compresses the gasket and maintains compression thereof in response to nothing more than movement of the end cap toward the ledge in a single installation direction perpendicular to the ledge.

Provided are a latch mechanism and an electronic device case. The latch mechanism includes a base assembly, a pressing assembly and a first elastic member. The base assembly has an accommodating cavity, and a wall surface of the base assembly has a first through hole and a second through hole which are respectively communicated with the accommodating cavity. The pressing assembly includes a main body part, a button part and a bolt part, the main body part is disposed in the accommodating cavity, and the button part and the bolt part are respectively disposed on the main body part. The first elastic member is located in the accommodating cavity, one end of the first elastic member abuts against an inner wall of the accommodating cavity and the other end abuts against the main body part.

The present invention relates to a housing for a multifunctional electronic device and a method for preparing the same. The housing for a multifunctional electronic device comprises an upper cover and a lower cover fixed together to form an internal space, wherein the upper cover comprises a first layer (21, 31, 41, 51, 61) formed of a first thermoplastic material, said first layer (21, 31, 41, 51, 61) having a thickness in the range of 0.8 mm to 1.5 mm and comprising at least two functional components integrated thereon; the lower cover comprises a second layer (11, 23, 34, 44, 57, 68) formed of a second thermoplastic material, said second layer (11, 23, 34, 44, 57, 68) having a thickness in the range of 2 mm to 4 mm; and the housing for the multifunctional electronic device comprises at least 90 wt % of the thermoplastic materials, relative to the total weight of the housing. Through the thin-layer design of the upper cover and the material selection of the upper and lower covers, the housing of the present invention achieves desirable heat dissipation performance and signal transmission performance. Meanwhile, the electronic device housing of the present invention has at least two functional components integrated to the upper cover, thus making the electronic device both small and slim.

An electronic device is provided. The electronic device includes a first structure, a second structure coupled to the first structure so as to be slidable in a first direction or a second direction opposite to the first direction, a display that is at least partially disposed on the second structure and that moves relative to the first structure together with the second structure, in which a size of an area of the display exposed on a front side of the electronic device is changed in response to a sliding motion of the second structure, and a driving unit that connects part of the first structure and part of the second structure and generates an elastic force in the first direction or the second direction in response to a movement of the second structure.

An electronic device includes a front plate, a back plate that faces away from the front plate, a display, a frame, a polymer member, and an adhesive layer. The display is disposed between the front plate and the back plate and visible through the front plate. The frame surrounds an interior space between the front plate and the back plate and formed of a metallic material. The frame includes a first metal part and a second metal part. The polymer member is coupled to the frame and contains a polymer material. The adhesive layer bonds the polymer member and the frame. The frame includes an opening formed in a first part thereof. The opening is formed through the first metal part and being formed to a specified depth through the second metal part. The polymer member forms at least part of an inner surface of the opening.

A protective enclosure for an electronic device includes a first case portion that may be adapted to surround at least a portion of a top device portion and a second case portion that may be adapted to surround at least a portion of a bottom device portion. The protective enclosure may also include a first hinge member coupled to a portion of the first case portion and a portion of the second case portion, and the first hinge member may pivot about a first hinge axis that is coaxially aligned with or parallel to a device hinge axis.

An integrated frame assembly can include an inner mounting frame having first, second, third sidewall, and fourth sidewalls, a first corner proximate the first and fourth sidewalls, a second corner proximate the first and second sidewalls, a third corner proximate the second and third sidewalls, and a fourth corner proximate the third and fourth sidewalls. Corner components can be connected to the inner mounting frame and include a first corner component proximate the first corner, a second corner component proximate the second corner, a third corner component proximate the third corner, and a fourth corner component proximate the fourth corner. An outer frame can surround the first, third sidewall, and fourth sidewalls. Housing(s) can be proximate to the first, second, third, or fourth sidewall to enhance structural rigidity of the integrated frame assembly. The housing(s) can include antenna(s) and speaker(s).

An electronic device includes first and second housings rotatably coupled with each other through a hinge, thereby being in a folded state or an unfolded state. The electronic device further includes first and second printed circuit boards (PCBs) disposed in the first and second housings, respectively, and at least one wiring member electrically connecting the first and second PCBs. The electronic device further includes a window disposed over the first and second housings and the hinge, and a display disposed under the window. The display includes a display panel extending in the first housing and having a first FPCB electrically connected to a ground of the first PCB. The display includes a polymer member, a first conductive member disposed in the first housing and electrically connected to the first FPCB, and a second conductive member disposed in the second housing. The electronic device further includes a supporting member disposed between the second conductive member and the second PCB in the second housing. The second conductive member is electrically connected to the second PCB through a conductive region of the supporting member and electrically connected to the ground of the first PCB through the wiring member.

This is directed to systems and methods for coupling sections of an electronic device together. Sections of an electronic device can be coupled together via “knuckles.” The particular shape and structure of the knuckles can be based on various design considerations. For example, in some embodiments each section can function as an individual antenna. In this case, the knuckles can be designed in order to provide electrical isolation between the sections, thus allowing proper operation of the antennas. For example, the knuckles can be formed from a dielectric material, etc. As another design example, the knuckles can be designed in order to provide increased strength in areas of high strain, and/or to counteract torsional twisting in areas of high impact. As yet another design example, the knuckle can be designed in a manner that is aesthetically pleasing or which otherwise meets cosmetic requirements.

Disclosed are a display module and a television, the display module including: a back plate including a back plate body and a side wall which are integrally formed, the back plate body and the side wall together defining a mounting space, a free end of the side wall being folded so as to form a joining flange which extends in parallel with the back plate body; a display screen, an edge of an inside surface of the display screen being fixed to an outer surface of the joining flange; an optical film set mounted in the mounting space. The present technical solution can increase the ease of product assembly.