Patent application number | Description | Published |
20080318746 | MACHINE TOOL - An exemplary machine tool ( | 12-25-2008 |
20090003945 | MACHINE TOOL - An exemplary machine tool ( | 01-01-2009 |
20090003954 | MACHINE TOOL - An exemplary machine tool includes a base and a drill for machining a specimen mounted on the base. The drill includes a main rotator and a bit holder mounted to the main rotator. The bit holder has a first rotator and a second rotator rotatably mounted to the bit holder. A rotate speed of the first rotator is different from that of the second rotator. The machine tool has high precision and efficiency. | 01-01-2009 |
20090003955 | MACHINE TOOL - An exemplary machine tool includes a base and a drill for machining a specimen mounted on the base. The drill includes a main rotator and a bit holder mounted to the main rotator. The bit holder has a first rotator and a second rotator rotatably mounted to the bit holder. A first bit is mounted on the first rotator. A second bit is mounted on the second rotator. The machine tool has high precision and efficiency. | 01-01-2009 |
20090007449 | CONTOUR MEASURING PROBE - An exemplary contour measuring probe includes a guide ( | 01-08-2009 |
20090007450 | CONTOUR MEASURING PROBE - An exemplary contour measuring probe ( | 01-08-2009 |
20090025241 | MEASURING DEVICE AND METHOD FOR USING THE SAME - An exemplary measuring device includes a standard element, a first contour measuring probe, and a controller. The standard element has a first standard plane opposite to a measured object. The first contour measuring probe has a tip extension. The controller is electrically connected to the first contour measuring probe. The tip extension contacts the first standard plane during a measuring process. In addition, a method for using the measuring device is also provided. | 01-29-2009 |
20090025242 | BASE AND CONTOUR MEASURING SYSTEM USING THE SAME - An exemplary base includes a first elastic element, a second elastic, two first adjustable spacers and two second adjustable spacers. The first elastic element includes two first spaced plates and a first connecting element for connecting the two first spaced plates. The second elastic element includes two second spaced plates and a second connecting element for connecting the two second spaced plates. The first connecting element and the second connecting element are not in a plane. Two first adjustable spacers connect the two first spaced plates and adjust a distance between the two first spaced plates. Two second adjustable spacers connect the two second spaced plates and adjust a distance between the two second spaced plates. | 01-29-2009 |
20090030650 | CONTOUR MEASURING METHOD FOR MEASURING ASPECTS OF OBJECTS - An exemplary contour measuring method for measuring aspects of objects includes: (1) providing a contour measuring probe ( | 01-29-2009 |
20090037140 | CONTOUR MEASURING METHOD FOR MEASURING ASPECTS OF OBJECTS - An exemplary contour measuring method for measuring aspects of objects includes: (1) providing a measuring device including two contour measuring probes and a processor, the contour measuring probe having a tip extension and a displacement sensor used to sense a displacement of the tip extension, the processor being electrically connected to the displacement sensors; (2) driving two tip extensions to contact two opposite surfaces of an object respectively; (3) driving the two tip extensions to move and contacting the two opposite surfaces of the object respectively, while the displacement sensors sending the displacement information on the tip extensions to the processor; (4) computing a cross-section of the object by the processor according to the displacement information on the tip extensions; (5) repeating the step (3) and (4), the processor computing a plurality of cross-sections of the object, the cross-sections compiled to obtain aspects of object. | 02-05-2009 |
20090037141 | MEASURING DEVICE FOR MEASURING ASPECTS OF OBJECTS - An exemplary measuring device ( | 02-05-2009 |
20090044669 | MACHINING METHOD EMPLOYING OBLIQUE WORKPIECE SPINDLE - An exemplary machining method used to machine a predetermined curved surface on a workpiece ( | 02-19-2009 |
20090047086 | MACHINING APPARATUS WITH OBLIQUE WORKPIECE SPINDLE - An exemplary machining apparatus ( | 02-19-2009 |
20090094849 | CONTOUR MEASURING PROBE FOR MEASURING ASPECTS OF OBJECTS - An exemplary contour measuring probe ( | 04-16-2009 |
20120176750 | WIRELESS TERMINAL DEVICE - A wireless terminal device includes: a conduction and connection module, and a first Printed Circuit Board, PCB, connected to the conduction and connection module, and the wireless terminal device further includes a first conductor, where one of the conduction and connection module and the first PCB is connected to one end of the first conductor through a first capacitance coupling module, and the other one of the conduction and connection module and the first PCB is connected to the other end of the first conductor. Through the foregoing processing, capacitance coupling and grounding between the conduction and connection module and the PCB can be implemented through the first capacitance coupling module. | 07-12-2012 |
20120306342 | End piece for a retrofit fluorescent lamp and retrofit fluorescent lamp - An end piece for a retrofit fluorescent lamp may include a housing section open on a first end face and a cover that can close off the first end face, wherein the housing section and the cover can be non-detachably interlocked. | 12-06-2012 |
20140252725 | CLAMPING APPARATUS FOR CUTTING TOOL - A clamping apparatus includes a clamping member, a cylinder assembly and a transmission assembly. The cylinder assembly includes a cylinder, a sealing head and a limiting member. The sealing head defines a gas channel connected to the inner of the cylinder. The limiting member includes a limiting portion fixed to the cylinder, which includes an inner surface having a frustoconical shape. The clamping member is received in the limiting member, and includes a frustoconical shape clamping portion. The transmission assembly includes a piston shaft, a piston and an elastic member. The piston and the elastic member are both received in the cylinder. The elastic member is resisted between the piston and the limiting member. One end of the piston shaft away from the piston is connected to the clamping portion. The clamping member defines a clamp hole in middle. | 09-11-2014 |
20150016307 | Charging Method and System for MTC, and Message Processing Entity - Disclosed are a charging method and system for Machine-Type Communication (MTC), and a message processing entity. After receiving an MTC service request message or an MTC service requesting Short Message (SM), a message processing entity generates a charging request including MTC service type information, and sends the charging request to an online charging subsystem/offline charging subsystem; and after receiving the charging request, the online charging subsystem/offline charging subsystem performs a charging operation using a charging method corresponding to the MTC service type information, and returns a charging response to the message processing entity. With the disclosure, charging for different MTC services can be implemented, such that charging is performed more accurately. | 01-15-2015 |
20150042520 | WIRELESS TERMINAL - A wireless terminal is disclosed. The wireless terminal includes a first antenna, a second antenna, a printed circuit board, a bracket, and a resonator, where the first antenna is located at one side of the printed circuit board, the second antenna is located at another side of the printed circuit board, the printed circuit board functions as a metal ground of the first antenna and the second antenna, the resonator is located on the bracket, a ground point of the resonator is located on the printed circuit board, and a clearance exists between the resonator and the printed circuit board. Not only does the wireless terminal improve isolation between multiple antennas, but also the resonator can better radiate energy of the antennas because a clearance exists between the resonator and the PCB. | 02-12-2015 |