Patent application number | Description | Published |
20100088070 | FILE-CONVERTING METHOD AND APPLICATION THEREOF - A file-converting method is disclosed. The file-converting method includes the following steps. Obtain an architecture file from Mechanical Computer-aided Design (MCAD) software. Analyze the architecture file to obtain at least an architecture element, which is not compatible with Electrical Computer-aided Design (ECAD) software, according to a converting database. Replace the architecture element in the architecture file with a symbol element, which is compatible with the ECAD software, to generate a layout file. | 04-08-2010 |
20130163217 | ELECTRONIC SYSTEM AND GUIDE PIN DEVICE THEREOF - An electronic system includes a first circuit board having a first connection interface, and a second circuit board having a second connection interface and a guide pin device. The guide pin device includes a convex connector and a concave connector. The convex connector includes a guide member and a connection portion. The connection portion connects the guide member to the first circuit board and has two first inclined surfaces formed on two opposite sides of the guide member. The concave connector is secured on the second circuit board and includes a guide sliding slot and two second inclined surfaces formed on two opposite sides of the guide sliding slot. When the guide member is aligned with and is inserted into the guide sliding slot, the two first inclined surfaces mat with the two second inclined surfaces, and the first connection interface is engaged with the second connection interface. | 06-27-2013 |
20130326461 | METHOD FOR DETECTING INTERFERENCE IN SPATIAL STRUCTURE - A method for detecting interference in spatial structure is provided. The method includes the following steps. A circuit board is obtained, wherein the circuit board has set a first height limit, and parts of the coordinate areas have set a plurality of second height limits respectively. The second height limits are lower than the first height limit. A Keep-out area is established according to the second height limits of the coordinate areas and the first height limit. The corresponding height of each coordinate area in a substrate-boarded space is compared according to the keep-out area to simulate and determine whether the circuit board is interfered in the substrate-boarded space. Thus, users can immediately check whether interference or clashed in space occurs between the circuit board and the substrate-boarded space. | 12-05-2013 |
20140119905 | FAN STRUCTURE - A fan structure includes a casing, a fan, and two elastic members. The casing has an accommodation space. The fan is located in the accommodation space. The fan has a first side and a second side opposite to each other. One of the two elastic members is sandwiched between the casing and the first side of the fan. The other one of the two elastic members is sandwiched between the casing and the second side of the fan. The two elastic members normally keep the fan away from the casing, so as to make the fan contact the casing through the two elastic members, thereby achieving a damping effect. | 05-01-2014 |
20140140816 | FAN MODULE - A fan module includes a casing, a fan, and two vibration absorption assemblies. The casing has an accommodating space. The fan is located in the accommodating space and keeps a distance from the casing. Each of the two vibration absorption assemblies includes two first vibration absorption components and a second vibration absorption component. The two first vibration absorption components are respectively in contact with the fan and separated from the casing, respectively. The second vibration absorption component is connected with two first vibration absorption components and the casing, respectively. The first vibration absorption components and the second vibration absorption components are adapted for absorbing the vibration waves having different frequency ranges. | 05-22-2014 |
20150099137 | BASE FRAME - A base frame includes a base plate, a first side plate, and a second side plate. The base plate has a first edge and a second edge. The base plate includes a plurality of V-shaped reinforcing ribs. Each V-shaped reinforcing rib has a first end and a second end. The first and second ends are located at the first and second edges, respectively. The first side plate is connected to the first edge and has a plurality of first through holes. Each first through hole is locationally configured next to the first edge and faces to the corresponding first end. The second side plate is connected to the second edge and has a plurality of second through holes. Each second through hole is locationally configured next to the second edge and faces to the corresponding second end. | 04-09-2015 |
20150101389 | METAL PLATE REINFORCEMENT METHOD - A metal plate reinforcement method includes: (a) providing a metal plate, in which the metal plate has a first surface and a second surface opposite to each other; (b) stamping the metal plate to form a plurality of first protruding portions protruding from the first surface; (c) respectively stamping the first protruding portions so as to respectively form a plurality of second protruding portions protruding at the second surface; and (d) flattening the second protruding portions to restore the metal plate. | 04-16-2015 |
20150151504 | PLASTIC BEZEL - A plastic bezel is disclosed. The plastic bezel includes a plate body and a plurality of bosses connected to the plate body. The plate body has a plate thickness. Each of the bosses has an opening and an accommodating hole inwardly formed from the opening. The accommodating hole is configured to engage an insert nut of which the type is #6-32. Each of the bosses has a wall thickness. The wall thickness is equal to or larger than 1.5 mm, and the plate thickness is 1.6-2 times of the wall thickness. | 06-04-2015 |