In various implementations, an enclosure may be utilized to secure component(s) for a variety of applications, such as creating a communications network. For example, an enclosure may be utilized to secure electronic component(s). The enclosure may include shell(s) and a frame coupled to create a seal that inhibits the components in the enclosure from being exposed to fluids and/or particles. The shell(s) or portions thereof may not cause substantial signal loss.

A housing device having a pull-type locking and release structure includes a housing (110) and a locking and release member (150). The housing (110) includes two lateral walls (130), a breach (132) formed on each of the lateral walls (130), and an elongated groove (134) formed along each of the lateral walls (130), a pivot hole (136) formed on each of the lateral walls (130). The locking and release member (150) includes two arms (152) disposed in the two elongated grooves (134), a rod (156) connected to the two arms (152), a resilient element (160) disposed at each of the arms (152), a connection element (170) connected to each of the arms (152), a fastening element (180) connected to each of the connection elements (170), and a pivot (182) protruding from each of the fastening elements (180). The pivot (182) is pivotally connected to the pivot hole (136).

An electronic device packaging box includes a first base, a second base and a connecting unit. The first base includes two side walls spaced apart from each other in a first direction and each having a first side receiving space, and a connecting wall interconnecting the side walls to define a receiving space. The second base is received in the receiving space, and includes spaced-apart top and bottom walls, and a separating wall interconnecting the top and bottom walls to define two second side receiving spaces. The connecting unit includes two first connecting subunits, each of which is mounted to a respective one of the side walls, and two second connecting subunits, which are mounted to the bottom wall.

An embodiment of the present invention provides a foldable display device comprising a foldable housing and a flexible display screen, the flexible display screen having a first end and a second end disposed opposite to each other in a first direction, wherein the first end of the flexible display screen is secured to the foldable housing, the second end of the flexible display screen is removable relative to the foldable housing; and when the foldable display device is in a folded state, the flexible display screen is located on a side of the foldable opposite to the folded surface of the foldable housing. The present invention can solve the problem that the radius of curvature of the folded portion of the flexible display screen is too small when the display device is folded, so that the flexible display screen can be prevented from being damaged.

Apparatus and methods for assembling an electronic device and components thereof are provided. The electronic device may include a housing and a cover inserted into an opening in the housing. The electronic device may also include a first assembly that may be inserted into the housing through a first end, and a second assembly that may be inserted into the housing through a second end. The electronic device may also include end cap assemblies. In some embodiments, the electronic device may include an input mechanism coupled to the housing and a plate coupled to the housing. In some embodiments, a connector of the electronic device may be mounted on a circuit board by inserting a fixture into the connector, mounting the connector to a portion of the circuit board, removing the fixture from the connector, and separating the portion of the circuit board from another portion of the circuit board.

A media device enclosure includes a housing with an interior sized and configured to receive a media device therein, a front opening, and a back opening. The media device enclosure further includes a front cover coupled to the housing and configured to cover the front opening and a back cover coupled to the housing and configured to cover the back opening. The media device enclosure further includes a vent plug configured to allow the ingress and egress of air and resistant to liquid ingress, and a check valve configured to allow egress of air. The housing, the front cover, and the back cover form a substantially sealed structure that is resistant to the ingress of liquid or air into the interior.

A remote control device includes a rotary control member that can be selectively moved between first and second configurations, a transmission system suitable for mechanically linking the rotary member to a control lever of an electrical device. The movement of the rotary control member drives the control lever to move respectively between first and second positions. The rotary control member is to be mounted on a side walls of a housing, the transmission system includes a first pinion, secured in rotation with the rotary control member about a first axis, a second pinion, meshed with the first pinion and rotationally mobile about a second fixed axis at right angles to the first fixed axis and intended to be coupled mechanically with the control lever to move this lever when the second pinion is moved in rotation.

The present invention relates to a part of a housing producible by means of a mold and having at least one positioning element, which is arranged on one of the inner sides of the part of the housing. The positioning element is produced from the same mold half of the mold of the part of the housing used to produce one of the external sides of the part of the housing. The positioning element is also a component of this part of the housing, wherein the positioning element forms at least one reference surface. The positioning element is thereby produced from the same mold half used to produce that part of the housing to which another part of the housing, or a part to be arranged on and/or inside the housing, is to be added or attached by means of the positioning element. The tolerance during assembly is thus primarily determined by the positioning element. The positioning element and the reference surfaces assigned or belonging thereto define the position of the other part of the housing or of the part to be arranged on and/or inside the housing in its position to said part of the housing. Thus the accuracy of the position is determined only by one half of a mold and no longer by the other mold half. This results in the desired arrangement with more exact fit.

This is directed to a hook and receiving element combination for securing components forming the shell of an electronic device. The receiving element can include a beam connected to the outer shell component and operative to deflect as the hook element approaches the receiving element. To limit deflections of the outer shell component, the beam can be restrained at opposing ends in directions perpendicular to the beam length, but free to slide along the beam axis. In some embodiments, the receiving element can include a lip for guiding the deflection of the beam as the beam contacts the hook element. In particular, the lip can ensure that the beam deflects at an angle relative to the hook element motion such that a smaller hook element motion is required to engage the beam.

A vehicular electronic device has a semiconductor package and a multilayer wiring board. An electrode pad of the multilayer wiring board, to which a signal terminal of the semiconductor package is soldered, has a wiring pattern in an inner layer of the multilayer wiring board. A solder resist is applied and spaced from a periphery of the electrode pad to the exterior. The signal terminal is soldered to the electrode pad to cover an upper surface and an upper end of a side surface of the electrode pad. As a result, a crack is less likely to occur in solder connected to the signal terminal. Therefore, the signal terminal can be electrically connected with high reliability even when the signal terminal is provided in the semiconductor package with a small number.