Zhi-Yong
Zhi-Yong Cao, Shenzhen CN
Patent application number | Description | Published |
---|---|---|
20140146496 | CONNECTING MECHANISM AND ELECTRONIC DEVICE WITH SAME - A connecting mechanism which is adjustable in respect of length and which retains its proper fastening function in various orientations connects a first body with a second body and includes a connecting piece, a bolt, and a nut. The connecting piece includes a circular bowl-shaped receiving groove which is open at a lower opening. The connecting flange is fastened to the first body via a threaded screw. The bolt has a spheroidal connecting head and a threaded connecting pole extending from the connecting head and protruding from the lower opening of the receiving groove to connect to and fasten the second body. | 05-29-2014 |
Zhi-Yong Fan, Shenzhen CN
Patent application number | Description | Published |
---|---|---|
20130248372 | METHOD FOR ANODIZING AND DYEING METALLIC ARTICLE - A method for anodizing and dyeing a metallic article including a decorated surface to be dyed, includes steps as follows: anodizing the metallic article to form an anodization layer on the decorated surface by an anodizing treatment, in which the anodization layer is porous with a number of holes; sealing the anodization layer of the metallic article anodized by a first sealing treatment in a first sealing solution, in which a contacting time of the anodization layer and the first sealing solution changes gradually along a predetermined direction, and thereby a depth of the holes of the anodization layer after sealing changes gradually along the predetermined direction; and coloring the metallic article sealed in a dyeing treatment. | 09-26-2013 |
20130248373 | METHOD FOR ANODIZING AND DYEING METALLIC ARTICLE - A method for anodizing and dyeing a metallic article including a first dipped end, a second dipped end opposite to the first dipped end, and a decorated surface located between the first dipped end and the second dipped end, includes steps as follows: anodizing the metallic article to form an anodization layer on the decorated surface by an anodizing treatment, in which the anodization layer is porous with a number of holes, an immersion time of the decorated surface immersed in the electrolyte solution changes gradually from the first dipped end toward the second dipped end, and a depth of the plurality of holes of the anodization layer after the anodizing step thereby changes gradually from the first dipped end toward the second dipped end; and coloring the metallic article sealed in a dyeing treatment. | 09-26-2013 |
Zhi-Yong Gao, Wuhan City CN
Patent application number | Description | Published |
---|---|---|
20130155743 | POWER SUPPLY SWITCH APPARATUS - A power supply switch apparatus includes a voltage decreasing circuit, a rectification circuit, a comparison circuit, and a control circuit. The voltage decreasing circuit receives a first alternating voltage output from a power supply and converts the first alternating voltage to a second alternating voltage. The rectification circuit receives the second alternating voltage and converts the second alternating voltage to a first direct voltage. The voltage regulating circuit receives the first direct voltage and converts the first direct voltage to a second direct voltage. The comparison circuit receives the second direct voltage, compares the second direct voltage with a reference voltage, and outputs a control signal. The control circuit receives the control circuit and connects the power supply to different circuits according to the control circuit. | 06-20-2013 |
20130156068 | TEMPERATURE TEST SYSTEM - A temperature test system for detecting temperatures in a test chamber includes a switch module, a detecting module, a control module, a decoding module and a display module. The switch module inputs test instructions to select a test position in the test chamber. The detecting module detects a temperature signal of the test position according to the test instructions. The control module receives the temperature signal, and converts the temperature signal to a temperature value. The decoding module decodes the temperature value to digital signals. The display module receives the digital signals to display. | 06-20-2013 |
20130162975 | FAN ROTATION SPEED DETECTION SYSTEM - A fan rotation speed detection system includes a sampling and modulating unit, a lighting unit, a light sensing unit, a demodulating unit, and a control chip. The sampling and modulating unit generates a sampling frequency signal. The sampling frequency signal is a square wave signal. The lighting unit emits light on fan blades of a fan when the square wave signal is at a high level. The light sensing unit senses light reflected from the fan blades and generate a detection signal. The demodulating unit demodulates the detection signal to generate a demodulated signal when the square wave signal is at a high level. The control chip accounts a rotation speed of the fan according to the demodulated signal. | 06-27-2013 |
20130163296 | POWER CIRCUIT - A power circuit includes an input terminal receiving alternating current, a first AC filtering circuit connected to the input terminal, a bridge rectifier circuit, a DC filtering circuit, a DPDT switch, and an output terminal. Two input ends of the bridge rectifier circuit are connected to the first AC filtering circuit. The DPDT switch includes a first pair of pins, a second pair of pins, and a pair of output pins. The first pair of pins is connected to the DC filtering circuit. The second pair of pins is connected to the input terminal. The DC filtering circuit is connected to the pair of output pins of the DPDT switch. The first pair of pins is switched on to enable the output terminal to output direct current, and the second pair of pins is switched on to enable the output terminal to output alternating current. | 06-27-2013 |
20130200920 | POWER SUPPLY TEST SYSTEM - A power supply test system for testing reliability of a power supply includes a voltage input circuit, a voltage storage circuit, a voltage output circuit, and a discharge circuit. The voltage input circuit receives a first AC voltage, and converts the first AC voltage to a first DC voltage to charge the voltage storage circuit. The voltage storage circuit receives the first DC voltage, and discharges to the power supply via the voltage output circuit when the voltage storage circuit is fully charged. The voltage storage circuit discharges remaining voltages via the discharge circuit when the test is complete. | 08-08-2013 |
20130222007 | POWER SUPPLY TEST SYSTEM - A power supply test system for testing the reliability of a power supply includes a controlling input module, a signal collecting module, a signal input module, an alarm module, and a display module. The controlling input module inputs a time signal and a test signal in the signal collecting module. The signal collecting module turns on the power supply according to the test signal. When the power supply is turned on, the power supply outputs a power on signal, the signal collecting module records the time the test starts. When the power supply breaks off, the power supply outputs a power off signal, the signal collecting module records the time the power supply breaks off and outputs an alarm signal. The alarm module receives alarm signal and alarms to indicate the test is over. The display module displays the time the test starts and the power supply breaks off. | 08-29-2013 |
20130241312 | POWER SUPPLY SYSTEM - A time-limited power supply system for providing power to an electronic device includes a first input module, a controlling module, a switch module, a display module, and an alarm module. The first input module inputs a power on time signal in the controlling module. The controlling module receives the power on time signal and outputs a power on control signal accordingly. The switch module receives the power on control signal and provides an AC voltage to the electronic device for a set time. The display module displays the time for which the power on state will continue. The controlling module outputs an alarm signal when a remaining power on time is less than a certain period of time. The alarm module issues an audible warning to remind the user that the power on time of the electronic device may need to be extended. | 09-19-2013 |
20130293257 | TESTING SYSTEM FOR POWER SUPPLY UNIT - A testing system for testing a power supply unit, includes a testing board, an electronic load board, and a capacitor choice circuit. The testing board is connected to a power supply unit to receive a DC voltage from the power supply unit. The testing board includes an output port. The electronic load board is connected to the output port of the testing board. The output port outputs the DC voltage to the electronic load board. The capacitor choice circuit is connected to the output port. The capacitor choice circuit includes a plurality of capacitor assemblies. Each capacitor assembly includes a switch and a capacitor. The capacitor is connected to the output port via the switch. Switches of the plurality of capacitor assemblies are turned on or off in different combinations to obtain different capacitances in the capacitor choice circuit for testing the power supply unit. | 11-07-2013 |
Zhi-Yong Gao US
Patent application number | Description | Published |
---|---|---|
20130222007 | POWER SUPPLY TEST SYSTEM - A power supply test system for testing the reliability of a power supply includes a controlling input module, a signal collecting module, a signal input module, an alarm module, and a display module. The controlling input module inputs a time signal and a test signal in the signal collecting module. The signal collecting module turns on the power supply according to the test signal. When the power supply is turned on, the power supply outputs a power on signal, the signal collecting module records the time the test starts. When the power supply breaks off, the power supply outputs a power off signal, the signal collecting module records the time the power supply breaks off and outputs an alarm signal. The alarm module receives alarm signal and alarms to indicate the test is over. The display module displays the time the test starts and the power supply breaks off. | 08-29-2013 |
Zhi-Yong Li, Shenzhen City CN
Patent application number | Description | Published |
---|---|---|
20110297644 | METHOD FOR MANUFACTURING PRINTED CIRCUIT BOARD WITH CAVITY - A method for manufacturing printed circuit board includes steps below. An inner substrate including a first electrically conductive layer is provided. A first electrically conductive pattern is formed in the first electrically conductive layer. The first electrically conductive pattern includes an exposed region and an attaching region. A protective layer is formed on the entire exposed region. A first adhesive layer and a second electrically conductive layer are laminated on a surface of the first electrically conductive pattern in the attaching region and a surface of the protective layer. A slit along a boundary of the exposed region passing through the second electrically conductive pattern and the first adhesive layer is defined. The second electrically conductive layer corresponding to the exposed region, the first adhesive layer corresponding to the exposed region and the protective layer is removed. | 12-08-2011 |
20110302775 | METHOD FOR MANUFACTURING PRINTED CIRCUIT BOARD - A method for manufacturing a printed circuit board with cavity includes following steps. First, a first substrate is provided. The first substrate includes a first electrically conductive layer defining an exposed portion and a laminating portion. Second, a second substrate is provided. The second substrate includes an unwanted portion corresponding to the exposed portion and a preserving portion. Third, a first annular bump surrounding the exposed portion is formed. Fourth, a second annular bump surrounding the unwanted portion is formed. Fifth, a first adhesive layer defining an opening is provided. Sixth, the first and second substrates are laminated to the first adhesive layer, the exposed portion and the unwanted portion are exposed in the opening, and the second annular bump is in contact with the first annular bump. Seventh, the unwanted portion is removed and a cavity is defined, the exposed portion is exposed in the cavity. | 12-15-2011 |
Zhi-Yong Shen, Haidian District, Beijing CN
Patent application number | Description | Published |
---|---|---|
20150098333 | An Iterative Optimization Method for Site Selection in Global Load Balance - Systems, devices, and methods, including executable instructions and/or logic thereon, are provided for server site selection. A system includes a load balancing master configured to have a domain name server (DNS) capability with extensions to support iterative control and a manager capability to select among server sites to probe. The system includes a load balancing slave, communicatively coupled to the master, configured to have a DNS reflection capability to measure a round trip time (RTT) between the load balancing slave and a client local DNS server and an actor capability to respond to commands from the manager and to report a measured RTT to the load balancing master. | 04-09-2015 |
Zhi-Yong Shen, Beijing CN
Patent application number | Description | Published |
---|---|---|
20150095494 | Server Selection | 04-02-2015 |
Zhi-Yong Wang, Stanford, CA US
Patent application number | Description | Published |
---|---|---|
20100043097 | Brassinosteroid Regulated Kinases (BRKs) That Mediate Brassinosteroid Signal Transduction and Uses Thereof - The present invention identifies a novel family of kinases regulated by brassinosteroids, referred to as BRKs (brassinosteroid regulated kinases) or BSKs (brassinosteroid signaling kinases). The present invention provides methods for modulating the response of a plant cell to a brassinosteroid using BRKs. | 02-18-2010 |
Zhi-Yong Zhou, Kunshan CN
Patent application number | Description | Published |
---|---|---|
20150068803 | PLUG CONNECTOR WITH IMPROVED INSULATIVE HOUSING FOR RETAINING TERMINALS - An electrical connector includes an insulative housing defining a chamber, a number of terminals mounted in the insulative housing, and an insulative block mounted to the insulative housing. Each terminal includes a mounting section mounted in the insulative housing, a contacting section protruding forwards from the mounting portion, and a soldering section protruding backwards from the mounting portion. The contacting sections are exposed to the chamber. The insulative block has a number of guiding ribs and a number of stopping ribs located behind the guiding ribs respectively. Two adjacent guiding ribs define a receiving slot for receiving the soldering section. The stopping rib has a top blocking section preventing the soldering sections from moving upwards. | 03-12-2015 |