Patent application number | Description | Published |
20110056468 | Paint ball feeding buffer device - A paint ball feeding buffer device, especially used for a paint-ball gun, is a magazine which loads a plurality of paint balls and provides for firing continuously. The magazine includes a roll-up device which restricts a stroke of an elastic advancing device, and the roll-up device is provided with a damping device which allows an initial stroke of the advancing device to be buffered, so as to prevent the paint balls from being squeezed, deformed, and ejected, by pressure which is released instantly. | 03-10-2011 |
20110253119 | Paint Ball Arraying Device - A paint ball arraying device, especially used in a paint-ball gun to feed in spherical paint balls, keeps the paint balls intact and feeds the paint balls in a bore successfully. The arraying device utilizes a flexible loop-shape advancing belt, which is formed with an upright advancing side perpendicular to the bore after being assembled, and is spaced equally with multiple toggle rods, with a receiving slot being defined between every two toggle rods. By the upright advancing side, a space for feeding the external paint balls can be extended to load the paint balls in a large quantity. Furthermore, using the receiving slot, the paint ball contained can be maintained intact independently; the advancing side is upright and perpendicular to the bore that advancing force will not be divided into a component of force explicitly, thus, the paint balls can be successfully fed into the bore. | 10-20-2011 |
20120002343 | Multi-function electroshock gun - A multi-function electroshock gun includes a gun body that includes a barrel and a grip extending from the barrel, and a firing mechanism mounted in the gun body and operable to propel a projectile that is fired through the barrel. The multi-function electroshock gun further includes an electroshock unit that includes a battery mounted in the gun body, a set of exposed electrodes fixedly mounted to the gun body, and a discharge module. The discharge module is coupled electrically to the battery and the exposed electrodes and is capable of being activated to generate an electrical output signal at the exposed electrodes for administering electric shock by contact. The multi-function electroshock gun also includes a trigger mechanism mounted on the gun body and operable to activate the discharge module. | 01-05-2012 |
20120160226 | AIR GUN FIRING OPERATING SYSTEM - The present invention provides an air gun firing operating system that uses compressed air to eject bullets by purely mechanical means, and enabling single firing or high-speed continuous firing. During the firing operation, the system uses a sliding shuttle tube that is able to slide back and forth in a linear line between a bullet chamber and a cylinder. The sliding shuttle tube is provided with a sliding column, and relative linear motion between the sliding column and the end opening of the cylinder determines critical opening and closing to obtain air pressure blasts, thereby achieving high-speed back and forth motion and continuous firing of bullets. The relevant driving position of a trigger device is provided with a sliding retainer, which is able to effect transient retaining of the sliding shuttle tube, thereby restricting the system for single firing, or opening the sliding retainer to enable a continuous firing operation. | 06-28-2012 |
20130319389 | AIR GUN FIRING OPERATING SYSTEM - The present invention provides an air gun firing operating system that uses compressed air to eject bullets by purely mechanical means, and enables single firing or high-speed continuous firing. During the firing operation, the system uses a sliding shuttle tube that is able to slide back and forth in a linear displacement on a central axis between a bullet chamber and a cylinder. The sliding shuttle tube uses differential pressure variation in a pressure buffer chamber to achieve a stroke state that can be continuously changed, thereby achieving high-speed back and forth motion and continuous firing of bullets. The relevant driving position of a trigger device is provided with a sliding retainer, which is able to effect transient retaining of the sliding shuttle tube, thereby restricting the system for single firing, or discontinuing the retention to enable the system to be in a continuous firing operation state. | 12-05-2013 |
20150308784 | AIR GUN FIRING CONTROL DEVICE - The present invention uses pressurized air from an air pressure bottle to create the firing motive force for game firearms. After accumulating sufficient pressure, the pressurized air is channeled to the gun chamber to achieve a firing objective. | 10-29-2015 |
Patent application number | Description | Published |
20110013775 | System and method of mobile content sharing and delivery in an integrated network environment - A system and method of mobile content sharing and delivery in an integrated network environment, comprising; a first mobile terminal serving as information provider, a home server, and a second mobile terminal serving as information receiver. The information of said first mobile terminal is transmitted to said second mobile terminal through said home server, and that information can be stored in said home server for direct downloading of file by said second mobile terminal in an asynchronous transmission manner; when said first mobile terminal moves and switches to another network environment, said second mobile terminal still can request and download said information through said home server. A double key protection scheme is further provided in safeguarding secure transaction of information. | 01-20-2011 |
20110045843 | System and method for mobile group positioning - The present invention provides a system and a method for mobile group positioning, which are applied to a plurality of mobile devices of a group. The system comprises a central control unit, a plurality of mobile tracking units, and a plurality of mobile message units. The mobile tracking units and the mobile message units are disposed in the mobile devices. The mobile message units correspond to the mobile tracking units, respectively. The mobile message units add a user message to the corresponding positioning messages, respectively, and transmit to the central control unit. The central control unit transmits the positioning messages including the user message to the mobile message unit of one of the mobile devices in the group. Thereby, the mobile device need not consume extra network resources or power in transmitting the user messages, and hence achieving power-saving effect and saving network resources. | 02-24-2011 |
Patent application number | Description | Published |
20080279001 | OPERATING METHOD OF NON-VOLATILE MEMORY - A non-volatile memory having a plurality of memory units each including a select unit and a memory unit is provided. The select unit is disposed on the substrate. The memory cell is disposed on one sidewall of the select unit and the substrate. The select unit includes a gate disposed on the substrate and a first gate dielectric layer disposed between the gate and the substrate. The memory cell includes a pair of floating gate disposed on the substrate, a control gate disposed on the upper surface of the floating gates, an inter-gate dielectric layer disposed between the floating gate and the control gate, a tunneling dielectric layer disposed between the floating gate and the substrate and a second gate dielectric layer disposed between the bottom of the control gate and the substrate. | 11-13-2008 |
20080316791 | OPERATING METHOD OF ONE-TIME PROGRAMMABLE READ ONLY MEMORY - The present invention provides a method of operating a one-time programmable read only memory (OTPROM). The OTPROM includes at least a select transistor, an electrode and a dielectric layer disposed on a substrate, wherein the electrode is set up on the source region of the select transistor and the dielectric layer is set up between the electrode and the source region. The method of operating the one-time programmable read only memory includes performing a programming operation to write a digital data value of ‘1’ into the memory and performing a programming operation to write a digital data value of ‘0’ into the memory. | 12-25-2008 |
20090021986 | OPERATING METHOD OF NON-VOLATILE MEMORY DEVICE - An operating method for a non-volatile memory device is applicable on a non-volatile memory device in which a substrate is disposed. The substrate includes a trench, a first conductive type first well region disposed in the substrate, and a second conductive type second well region disposed above the first conductive type first well region. The operating method includes applying a first voltage to a control gate, a second voltage to a drain region, and a third voltage to a source region. Besides, a channel F-N tunneling effect is employed to program a memory cell. | 01-22-2009 |
20090042350 | MANUFACTURING METHOD OF NONVOLATILE MEMORY - A manufacturing method for a non-volatile memory includes first providing a substrate with a gate structure formed thereon. The gate structure includes a first gate and a gate dielectric layer located between the first gate and the substrate. A first doping and a second doping region are formed on the substrate at two sides of the gate, respectively. A first insulating layer is formed on the substrate, and a portion of the first insulating layer and a portion of the substrate are removed to form a trench, which divides the second doping region into a third doping region and a fourth doping region. Finally, a tunneling dielectric layer, a charge-trapping layer and a top dielectric layer are formed inside the trench, and a second gate which fills the trench is formed on the substrate. | 02-12-2009 |
20090142910 | MANUFACTURING METHOD OF MULTI-LEVEL NON-VOLATILE MEMORY - A manufacturing method of a multi-level non-volatile memory includes following steps. First, a tunneling dielectric layer and a charge storage layer are sequentially formed on the substrate. At least two stacked layers are formed on the charge storage layer. Every two stacked layers include an inter-gate dielectric layer, a control gate, and a cap layer in sequence. Next, the charge storage layer between the two stacked layers is removed to form a first trench. After spacers are formed at the sidewalls of the two stacked layers and of the first trench, the charge storage layer outside the two stacked layers is removed. Thereafter, a dielectric layer is formed on the substrate. An assist gate is formed between the two stacked layers and a select gate is respectively formed on the sidewalls outside the two stacked layers. A doped region is then formed in the substrate outside the two stacked layers. | 06-04-2009 |
Patent application number | Description | Published |
20100328586 | DISPLAY PANEL - A display panel having a display region and a non-display region is provided. The display panel includes a first substrate, a second substrate and a display medium between the first substrate and the second substrate. The substrate has a pixel array, a plurality of lead lines, an organic layer and a conductive pattern thereon. The pixel array is disposed within the display region. The lead lines are disposed within the non-display region and electrically connected to the pixel array. The organic layer covers the pixel array and the lead lines. The conductive pattern is disposed on the organic layer in the lead lines. The second substrate has an electrode layer thereon, and the electrode layer is disposed within the display region and the non-display region. In particular, the electrode layer and the conductive pattern are electrically connected to a common voltage. | 12-30-2010 |
20110128280 | DISPLAY PANEL - A display panel including a first substrate, scan lines, data lines, sub-pixel units, a light-shielding layer, a second substrate, and a display medium is provided. Each of the sub-pixel units includes a main display unit and a sub-display unit. The main display unit includes a first switch and a first pixel electrode, wherein the first pixel electrode and the data lines adjacent thereto are separated from each other with a gap (G | 06-02-2011 |
20110141423 | PIXEL STRUCTURE - A pixel structure including a substrate, a scan line, a first data line and a first pixel unit is provided. The scan line and the first data line are disposed on the substrate. The first pixel unit includes a first active device and a first pixel electrode. The first active device is electrically connected to the scan line and the first data line. The first pixel electrode electrically connected to the first active device has a first stripe pattern and a plurality of first branches. One side of the first stripe pattern is connected to the first branches extended toward the scan line, and the other side of the first stripe pattern is overlapped with the scan line. The overlapped width of the first stripe pattern with the scan line is substantially equal to 40% to 90% of the width of the first stripe pattern. | 06-16-2011 |
20110149183 | LIQUID CRYSTAL DISPLAY - A liquid crystal display including an active device array substrate, an opposite substrate disposed above the active device array substrate, a liquid crystal layer disposed between the active device array substrate and the opposite substrate, and spacers is provided. The active device array substrate includes a substrate, pixels, a first dielectric layer and color filter patterns. Each pixel includes a first active device, a first pixel electrode and a capacitor electrode. The capacitor electrode and the first pixel electrode constitute a storage capacitor. The first dielectric layer covers the first active device. The color filter patterns are disposed on the first dielectric layer. Each of the color filter patterns has a first opening disposed above the capacitor electrode to expose the first dielectric layer above the capacitor electrode. Each first pixel electrode is respectively disposed on one of the color filters and within the corresponding first opening. | 06-23-2011 |
20110149223 | PIXEL STRUCTURE AND DISPLAY PANEL - A pixel structure including a substrate, a scan line, a data line, an active device, a capacitor electrode line, an upper electrode pattern and a pixel electrode is described. The scan line and the data line are disposed on the substrate. The active device is electrically connected to the scan line and the data line. The capacitor electrode is disposed on the substrate. The upper electrode pattern is disposed above the capacitor electrode line, and the upper electrode pattern has a first opening therein to expose the capacitor electrode pattern. The pixel electrode is electrically connected with the active device and covers the capacitor electrode line and the upper electrode pattern, wherein the pixel electrode has a middle portion and a plurality of branches connecting to the middle portion, and the middle portion has a second opening therein to expose the first opening. | 06-23-2011 |
Patent application number | Description | Published |
20090187699 | NON-VOLATILE MEMORY STORAGE SYSTEM AND METHOD FOR READING AN EXPANSION READ ONLY MEMORY IMAGE THEREOF - A non-volatile memory storage system including a connecting interface, a non-volatile memory, a buffer memory, a microcontroller, and a virtual host module is provided. The connecting interface is used for connecting to a host. The non-volatile memory is used for storing user data, wherein the non-volatile memory further stores an expansion read only memory (ROM) image to be read by the host. The buffer memory is used for temporarily storing the expansion ROM image. The microcontroller controls the operation between the connecting interface, the buffer memory, and the non-volatile memory. The virtual host module provides an activation code in the expansion ROM image to the host through the microcontroller. Thereby, both the size and the fabrication cost of the non-volatile memory storage system can be effectively reduced. | 07-23-2009 |
20100095044 | MOTHERBOARD SYSTEM, STORAGE DEVICE FOR BOOTING UP THEREOF AND CONNECTOR - A motherboard system is provided. The motherboard system includes a central processing unit (CPU), a control unit and an interface connector. The control unit is electrically connected to the CPU. The interface connector is electrically connected to the control unit and has a boot loader interface unit and a peripheral storage device interface unit, wherein the boot loader interface unit is electrically connected to the control unit and is configured for electrically connecting a system read only memory. When the power of the motherboard system is turned on, the CPU sends a read only memory fetch cycle to the control unit and fetches a booting program from the system read only memory configured in an external device via the boot loader interface unit. Accordingly, the system read only memory can be conveniently updated and maintained. | 04-15-2010 |