TPK TOUCH SOLUTIONS (XIAMEN) INC.
|TPK TOUCH SOLUTIONS (XIAMEN) INC. Patent applications|
|Patent application number||Title||Published|
|20130314112||RESISTIVITY-MEASURING DEVICE - A resistivity-measuring device comprising: a carrier platform used for loading a plurality of products under measure; a material-incoming conveyor, on which the carrier platform is disposed, and comprising a material-incoming guide wheel group for moving the carrier platform horizontally; a probe module, used for measuring the resistance of the products under measure; a probe position regulating mechanism, disposed on the material-incoming conveyor and connected to the probe module for elevating the probe module vertically and moving the probe module horizontally; a revolving machine, connected to the material-incoming conveyor for receiving and transferring a plurality of products under measure from the material-incoming conveyor, wherein a transferring direction of the revolving machine is adjustable; and a controller, electrically connected to the material-incoming conveyor, the probe module, the probe position regulating mechanism and the revolving machine. The resistivity-measuring device achieves automatic measuring resistivity, increases the efficiency of measurement, and reduces labor power cost.||11-28-2013|
|20130306452||Touch Panel And Manufacturing Method Thereof - The present disclosure relates to a touch panel and a manufacturing method thereof, and more particularly, relates to a touch panel having a shielding layer. A manufacturing method of the touch panel provided in the present disclosure comprises of the steps of forming a plurality of first conductive axes and a plurality of second conductive units on a substrate; covering the first conductive axes and the second conductive units with an insulating layer and exposing at least a partial set of second conductive units; and forming a plurality of bridging structures and a shielding layer on the insulating layer simultaneously, wherein the bridging structures electrically connect to the second conductive units. The proposed method allows the shielding layer to be formed during the formation of the bridging structures, thereby eliminating the step of forming the shielding layer separately through an independent process, which saves costs and time.||11-21-2013|
|20130271408||TOUCH SCREEN AND MANUFACTURING METHOD THEREOF - The present &closure provides a touch screen, wherein the touch screen includes: a protecting cover comprising a touch area and a border area surrounding the touch area; a black mask layer farmed on the border area; and a conductive assembly formed in the touch area, Wherein the conductive assembly is isolated from the black mask layer. By using the touch screen provided in the present disclosure, the problem of easy breaking of the conductive assembly Which leads to functional failure of a touch screen in the conventional technology can be solved. In addition, the present disclosure also provides a manufacturing method of the foregoing touch screen.||10-17-2013|
|20130270079||TOUCH PANEL AND A MANUFACTURING METHOD THEREOF - The present disclosure provides a touch panel which at least comprises a sensing area, a conductive wire area, and earthing lines. The conductive wire area surrounds the sensing area and is electrically connected to the sensing area, and the conductive wire area comprises a first conductive wire area and a second conductive wire area. The earthing lines are set between the first conductive wire area and the second conductive wire area. The touch panel can efficiently shield signal crosstalk between the first conductive wire area and the second conductive wire area by setting the earthing lines between the first conductive wire area and the second conductive wire area, thereby reducing the influence of signal crosstalk on efficiency of the touch panel.||10-17-2013|
|20130265253||TOUCH PANEL - The present disclosure provides a touch panel including a plate, a sensing layer, a border, and an optical compensation layer, wherein the plate has an upper surface and a lower surface opposite to the upper surface, wherein the lower surface is planned with a conducting wire region and a sensing region. The border is overlaid on the conducting wire region, and the sensing layer is disposed in the sensing region. An optical compensation layer is disposed on the border, and is located between the plate and the border. The border has a first color, which appears as a second color if a user sees the border through the optical compensation layer, and thus achieves diversification of the border color.||10-10-2013|
|20130264103||BONDING STRUCTURE - The present disclosure discloses a bonding structure, wherein a plurality of first bonding pads is located on a first substrate. A second substrate is disposed to partially face first substrate. A plurality of second bonding pads is located on second substrate with one side, and partially overlapped with the first bonding pads with the other side to form a bonding region and a peripheral region located in the periphery of the bonding region. An anisotropic conductive film is disposed between first bonding pads and second bonding pads. The anisotropic conductive film includes a plurality of conductive particles. At least one move structure is disposed in the periphery region. When the conductive particles of the anisotropic conductive film are moving during the bonding process, the groove structure can accommodate the conductive particles moved hereto. Accordingly, short circuit caused by accumulation of the conductive particles in the bonding process can be avoided.||10-10-2013|
|20130249839||CONDUCTIVE FILM OF A TOUCH PANEL AND MANUFACTURING METHOD THEREOF - The present disclosure provides a conductive film of a touch panel. The conductive film has a film and a plurality of a plurality of hydrophobic units. The film is used for sensing touch signals, and the hydrophobic units are disposed in the film with intervals. Conductive material of the conductive film of the touch panel is distributed outside the region of the hydrophobic units, and as the hydrophobic units have good light transmittance, the touch panel of the present disclosure has a characteristic of high light transmittance.||09-26-2013|
|20130033458||MULTILAYER STRUCTURE, METHOD FOR PRODUCING THE SAME AND TOUCH SENSITIVE DISPLAY USING THE SAME - The present invention is directed to an optical bonding apparatus with multiple layer structure including a pressure sensitive bonding layer and a thermal flow pressure sensitive bonding layer. The thermal flow pressure sensitive bonding layer is used for bonding to a rough surface of an object and superposing on the pressure sensitive bonding layer.||02-07-2013|
|20120127099||CAPACITIVE TOUCH CIRCUIT PATTERN AND MANUFACTURING METHOD THEREOF - The present disclosure relates to a touch circuit pattern and a manufacturing method thereof. A capacitive touch circuit pattern in the present disclosure comprises a substrate, wherein at least two adjacent transparent first-axis electrode blocks, a transparent first-axis conductive wire, and at least two adjacent transparent second-axis electrode blocks are formed on the substrate. The first-axis conductive wire is formed between the two adjacent first-axis electrode blocks to connect the two adjacent first-axis electrode blocks and the two adjacent second-axis electrode blocks, respectively, at two sides of the first-axis conductive wire. The capacitive touch circuit pattern further comprises of a metal second-axis conductive wire, which stretches across the first-axis conductive wire and connects the two adjacent second-axis electrode blocks.||05-24-2012|
Patent applications by TPK TOUCH SOLUTIONS (XIAMEN) INC.