The present invention provides an in-vehicle electronic control device which further improves heat dissipation by forming a protrusion extending toward an electronic component on an inner surface of a cover portion formed of a highly thermally conductive resin in consideration of orientation of a filling material contained in the highly thermally conductive resin. An in-vehicle electronic control device of the present invention includes: a circuit board on which an electronic component is mounted; a base portion in which the circuit board is installed; and a cover portion with which the circuit board is covered together with the base portion, which is formed of a resin containing a filling material, and which has a protrusion protruding toward the electronic component, in which the protrusion is formed of a resin containing a filling material and a width of the protrusion is smaller than a width of the electronic component.

An electronic device with storage functionality is provided. The electronic device includes a first housing member, a first circuit board, a second housing member and a second circuit board. The first circuit board is connected to the first housing member. The second circuit board is coupled to the first circuit board and is parallel to the first circuit board. The first housing member includes two hooks, and the hooks are wedged against the first edge of the second circuit board.

An electronic assembly 52 includes a plurality of circuit boards 70, 74, 78 each comprising engagement grooves 84 spaced around an outer wall. The assembly includes a plurality of spacers 72, 76 with alignment elements. The alignment elements comprise a first tab 92 and a first tab receiver 93 extending in a first axial direction. The alignment elements further comprising a second tab 90 extending in a second axial direction opposite the first and a second tab receiver 91 extending in the second axial direction. A first spacer 72 is disposed between a first circuit board 70 and a second circuit board 74. The first tab 92 of the first spacer 72 is disposed within a first engagement groove of the first circuit board 70. The second circuit board 74 is disposed between the first spacer 72 and a second spacer 76. A second tab 90 of the first spacer 72 is received in a second engagement groove 84 of the second circuit board 74 and a first tab receiver 93 of the second spacer 76.

An enclosure for a power supply circuit board includes a plurality of sheet metal members combined to accommodate a power supply circuit board. The plurality of sheet metal members includes a first sheet metal member. The first sheet metal member includes a main plate having a flat plate shape, and an inner extension connected to the main plate through a bent portion located at an end of the main plate. The inner extension includes a circuit board support for supporting the power supply circuit board. The circuit board support faces the main plate and is separated from the main plate in a direction perpendicular to the main plate. The circuit board support is located within an inner space surrounded by the plurality of sheet metal members.

A wall box may provide adjustable support for a control device, such as a keypad, to allow for level alignment of the control device when mounted to the wall box. The wall box may have an adjustable support frame to which the control device may be mounted. When the control device is mounted to the support frame of the wall box, the support frame may be rotated to adjust the alignment of the control device. In addition, the wall box may comprise one or more projections configured to be received in respective detents in notched surfaces of the control device to allow for adjustment of the alignment of the control device. Further, the wall box may have a modular assembly and may be constructed from a central portion and two side portions at the time of installation of the wall box.

An example electronic device is disclosed that includes a housing including a first external cover and a second external cover opposite the first external cover. In addition, the electronic device includes an electronic component disposed within the housing, between an inner surface of the first external cover and an inner surface of the second external cover. The electronic component is mounted to the first external cover with a mounting screw assembly, and the mounting screw assembly is engaged with the inner surface of the second external cover.

A protective structure for input and output ports at least comprises a shell having a top, a first side wall and a second side wall, inside the first side wall is provided with two first side convex ribs, a first limiting groove and a first fixing hole, the second side wall is provided with two second side convex ribs, a second limiting groove and a second fixing hole; and an outer cover with a side formed with a first side guide plate assembled in the first limiting groove and provided with a first side assembling hole communicating with the first fixing hole, another side of the outer cover is formed with a second side guide plate assembled in the second limiting groove and provided with a second side assembling hole communicating with the second fixing hole. Two locking fixtures are used to lock the shell with the outer cover.

Electronic equipment allowed to endure repetitive severe environmental change in a sterilizing treatment using an autoclave is provided. A tablet terminal (electronic equipment) 106 includes: an enclosure 10; a substrate 30 arranged in an internal space of the enclosure 10; an electronic circuit component 40 mounted on the substrate 30; a (first) heat insulating layer 50 formed along the enclosure 10; and a (first) heat release mechanism 70 allowed to discharge heat from an internal space of the heat insulating layer 50 to outside of the enclosure 10.

The disclosure generally relates to an exemplary hinge of an enclosure that can house an electrical network protection element and provide protection to the electrical network protection element against damage in various environments such as when the enclosure is placed in an underground vault that may be flooded during rain, or when a liquid (e.g., oil) comes into contact with the enclosure. The hinge may include two portions, one portion attached to one or more doors of the enclosure and one portion attached to a housing of the enclosure. The hinge may be configured such that it may be adjusted in multiple directions (for example, beyond one plane of rotation that typical hinges may offer), and thus allow for greater adjustability of the one or more doors of the enclosure relative to the housing of the enclosure.

A container that has a mechanical tolerance compensatory element includes a housing, an electronic assembly, a cover, and an attachment member. The housing defines an electronic assembly recess. The electronic assembly is disposed within the electronic assembly recess and contacts the housing. The cover is attached to the housing, has a center, and defines an attachment member portion, a slot, and a first projection. The slot is disposed between the attachment member portion and the center of the cover. The first projection extends into the electronic assembly recess and contacts the electronic assembly such that the electronic assembly is retained between the housing and the cover. The attachment member is disposed at the attachment member portion defined by the cover and attaches the cover to the housing.