The present invention relates to a cable lead-out system, configured to route at least one cable from inside of a device to outside of the device, wherein the cable lead-out system comprises: a first pressing piece having at least one through hole for leading out the cable; a second pressing piece having at least one through hole for leading out the cable; and a seal having a base sandwiched between the first pressing piece and the second pressing piece with two opposite sides thereof, and being deformable when being pressed by the first pressing piece and the second pressing piece, having the base comprising at least one through hole for leading out the cable, and at least one protrusion that protrudes from at least one of the two sides of the base, and each of the at least one protrusion being disposed around a through hole of the base, whereby the through hole of the base passes throughout the protrusion, wherein each of the at least one protrusion completely passes through a corresponding through hole of the first pressing piece or a corresponding through hole of the second pressing piece. The cable lead-out system can protect the cable sheaths from being scratched by metal parts.

A method for sealing a plug pin in a housing. The housing has at least one cutout for sealing a region between plug pin and the housing. The method includes: providing the housing having the plug pin, the plug pin contacting the housing in two edge regions of the plug pin situated opposite one another and running along a direction of insertion, and forming in the edge regions a positive-fit connection with the housing; introducing casting compound into the at least one cutout in such a way that the casting compound reaches two oppositely situated sides of the plug pin, and the casting compound seals the region between the plug pin and the housing in fluid-tight fashion, and the casting compound does not come into contact with the two ends of the plug pin situated opposite one another along the direction of insertion; and curing of the casting compound.

A printed circuit board (PCB) having an improved waterproof structure for preventing corrosion of a substrate is disclosed. A plurality of screen-printed protrusions is provided at the PCB surface. the plurality of protrusions allow water to be formed in waterdrops so that the waterdrops can flow to the outside of the PCB. The PCB is arranged to have a tilted structure for facilitating discharge of the water. The tilted structure discharges waterdrops to a lower side of the PCB. The PCB and a PCB assembly having the same are applicable to electronic appliances such as a washing machine.

An electronic device is provided. The electronic device includes a housing including a first surface facing in a first direction, a second surface facing in a second direction opposite to the first direction, and a side surface surrounding at least a part of a space between the first surface and the second surface, an opening formed on at least one of the first surface, the second surface, or the side surface, a first channel extended from the opening, a second channel connected to at least a part of the first channel and extended to an inner space of the housing, an audio mounted inside the housing and connected to the opening through the first channel, a first member inserted into the first channel, and a second member inserted into the second channel, for allowing and restricting introduction and discharge of air into and from the inner space of the housing.

A waterproof structure includes a housing and a waterproof button. The housing has a first surface, a first side surface, and a second surface. The first side surface is recessed in the first surface to define a first opening, the first side surface is connected between the first surface and the second surface, and the second surface is exposed from the first opening. The waterproof button is disposed in the first opening and includes at least one first water blocking structure, and the first water blocking structure is pressed and deformed to abut against the first side surface.

An electronic device may have transparent housing structures such as walls formed of glass or sapphire. Housing structures such as transparent housing structures may have a colored coating. The colored coating may include an absorptive layer and a metal layer. The coating may exhibit a color that can be adjusted by adjusting the thickness of the thin absorptive layer. A colored layer such as a layer of colored polymer may be incorporated into the colored coating to further adjust the color of the coating. The colored coating may be formed on an inner or outer housing structure surface. The surface may have a texture to provide the coating with a matte appearance. When formed on an outer surface, a diamond-like carbon layer may protect the colored coating. When formed on an inner surface, a passivation layer may be used to prevent oxidation of the metal layer.

A waterproof electronic equipment unit attached and fixed to a mounted surface having a flat mounting portion and depressed portion is reduced in size by effectively utilizing the depressed portion. A circuit substrate on which is mounted a connector housing is hermetically housed in a frame configured of a base and cover, the base includes a multiple of mounting legs fixed by screwing to a flat mounting portion, a base depressed portion disposed in a mounting surface depressed portion, and an inlet of a water-repellent filter opposing the flat mounting portion across a gap D1, and the connector housing and a high component are disposed in the base depressed portion.

The invention relates to a front plate for a housing of a control installation, having a feedthrough for a plug connector. The front plate has at least one compensation element for compensating a tolerance-related offset (V.sub.A, V.sub.R) between the plug connector and the feedthrough (10) is disposed in the feedthrough and/or adjacent to the feedthrough.

Provided is a power conversion device that has improved assembling workability and that realizes downsizing thereof. The power conversion device includes: an electrical component; a casing enclosing the electrical component and terminals connected to the electrical component and an outside, the casing having a plurality of opening portions in which the terminals are disposed; and a casing lid covering the opening portions. A shaft seal provided so as to be in contact with a side surface contiguous with a rim of an opening portion among the opening portions, and a surface seal provided so as to be in contact with a surface contiguous with a rim of an opening portion among the opening portions, are disposed so as to be in contact with the casing lid.

Exemplary embodiments provide a hybrid buffer pool for a database that includes a plurality of data pages contained in storage. The hybrid buffer pool comprises: a shared buffer pool of page frames containing dirty data pages that are modified after reading that will be written back to storage; an immutable buffer pool that temporarily contains read-only data pages from the storage; and a page multiplexer that identifies which ones of the data pages from storage to store in the immutable buffer pool based at least in part on information from a query processor.