Patent application number | Description | Published |
20100029119 | CABLE CONNECTOR - A cable connector including a housing with an inserting hole adapted to receive a flat cable including terminals mounted on the housing that has contact parts to be electrically connected to lead wires of the flat cable. The connector includes an actuator having a main body moveable between a first position to enable insertion of the flat cable and a second position, parallel to the direction of insertion-and-extraction of the flat cable, to connect the lead wires of the flat cable to the contact parts. The actuator includes locked portions on opposite sides of the main body and the housing includes locking portions on opposite sides of the housing which are engaged with the locked portions when the actuator is in the second position. The locked portions include tip edges extending parallel to the direction of insertion-and-extraction of the flat cable when the actuator is in the second position and the locking portions include facing tip edges inclined to the direction of the insertion-and-extraction of the flat cable with the distance between facing tip edges of the locked portions being narrower at the inlet side of the inserting hole. The actuator is mounted to permit rearward shifting movement when the flat cable is not received within the inserting hole which displaces the relative alignment between locked portions and locking portions thereby permitting easier opening of the actuator for insertion of the cable while also providing a secure lock when connection is made with the flat cable. | 02-04-2010 |
20100068919 | CABLE CONNECTOR - A cable connector for connecting a flat cable having lead wires to a circuit board including a housing carrying terminals and an actuator moveable between a first position to enable insertion of the flat cable and a second position to connect the lead wires to the terminals. The actuator has a main body and further includes first shafts extending from opposite sides of the main body as well as second shafts carried in positions for engaging at least part of the terminals. The first shafts are supported by first bearing parts on auxiliary connector securing members carried on opposite sides of the housing while the second shafts are supported by second bearing parts of the terminals engaging the second shafts. When the actuator is in the first position, moment forces are generated on the first shafts and second shafts respectively by the first bearing parts and the second bearing parts which oppose movement of the actuator from the first position to the second position. The housing also includes concave and convex side portions which interact with the first shafts to further assist in the retention of the actuator in the first position. | 03-18-2010 |
20100130044 | Cable Connector - A cable connector ( | 05-27-2010 |
20110201220 | FPC Connector - To provide a connector that increases the amount of elastic deformation of a beam and can improve the contact stability between a flat electrical wire and a terminal while restraining an increase in the difference between the position of a cam in the anteroposterior direction and the position of a pressing portion formed on the cam, a pressing portion that pushes flat electrical wire is formed on the lower surface of center beam of rear connecting terminal. Cam of actuator is positioned between upper beam and center beam of rear connecting terminal. Inclined surface that extends at an angle upward and backward is formed on the upper surface of center beam. Cam pushes inclined surface down. | 08-18-2011 |
20130269920 | COOLING DEVICE - A heat-transferring member is mounted on one side of a circuit board. A heat sink is arranged farther away from the circuit board than the heat-transferring member in the thickness direction of the circuit board. The heat sink has a plurality of fins each extending in the direction of the circuit board and separated from each other by a space. Also, the heat sink includes a support portion extending in the direction of the plurality of fins and supporting the plurality of fins. A plurality of heat pipes is connected to the heat-transferring member and separated from each other by a space, each extending in the thickness direction of the circuit board and connecting to the support portion. | 10-17-2013 |
20150017257 | Acidic Electrolyzed Water, Manufacturing Method Therefor, and Cleanser And Disinfectant Containing Acidic Electrolyzed Water - To provide acidic electrolyzed water, a method for manufacturing acidic electrolyzed water, and a cleanser and a disinfectant containing acidic electrolyzed water which has disinfecting power for a long period of time, and which reduces the burden on living tissue. The acidic electrolyzed water has an effective chlorine concentration of 15 ppm or more, osmotic pressure from 235 mOsm to 435 mOsm, and a chlorine-based electrolyte content of 0.1 mass % or less in terms of sodium chloride. | 01-15-2015 |
20150189889 | ACIDIC ELECTROLYZED WATER, AND MANUFACTURING METHOD FOR SAME - To provide acidic electrolyzed water having disinfecting power for a long period of time (for example, six months or more), and a production method for this acidic electrolyzed water. The acidic electrolyzed water has an effective chlorine concentration equal to or greater than 15 ppm, and contains an acid salt of an inorganic acid. | 07-09-2015 |
20160081225 | STACKABLE ROTATED HEAT SINK - A cooling assembly is provided which has a heat-transferring member, a heat sink assembly, and a plurality of heat-transferring columns. The heat-transferring member has first and second sides and the first side of the heat-transferring member is configured for attachment to a heat-generating body. The heat sink assembly includes first and second heat sinks provided in a stacked configuration. The first heat sink is between the second side and the second heat sink. Each of the first and second heat sinks has first and second support portions. Each of the first and second support portions has fins extending therefrom. The second heat sink is provided at an offset angle relative to the first heat sink. Each heat-transferring column extends from the second side of the heat-transferring member. Each heat-transferring column is configured to engage the heat sink assembly and to support the heat sink assembly relative to the heat-transferring member. | 03-17-2016 |