Patent application number | Description | Published |
20090105575 | BIO-SENSING SYSTEM, MICRO-SENSING ELEMENT AND MANUFACTURING METHOD THEREOF - A micro-sensing element includes a substrate, a micro-sensing structure and a covering material. The micro-sensing structure has a plurality of conductive channels disposed on the substrate. Each conductive channel includes a sensing part, a conductive wire and an electrode. The sensing part is electrically connected with the electrode through the conductive wire. The covering material covers the substrate and the conductive wires, and each of the sensing parts and each of the electrodes are exposed out of the covering material. A bio-sensing system and a manufacturing method of the micro-sensing element are also disclosed. | 04-23-2009 |
20100036267 | ANALYSIS DEVICE AND ANALYZING METHOD FOR AUTONOMIC NERVE STATE - A detecting device for detecting an autonomic nervous state of an examinee includes a measuring unit, an analog-to-digital converting (ADC) unit and a digital processing unit. The measuring unit measures a vital sign of the examinee to output a vital sign signal. The ADC unit is coupled to the measuring unit for receiving and converting the vital sign signal from analog to digital to output a digitalized vital sign signal. The digital processing unit is coupled to the ADC unit for receiving and processing the digitalized vital sign signal to obtain a detecting result. The detecting result represents the autonomic nervous state and organic states of the examinee. | 02-11-2010 |
20100274101 | WIRELESS MONITORING BIO-DIAGNOSIS SYSTEM - A MEMS wireless monitoring bio-diagnosis system includes an implantable biosensor system chip, a surface transmitter and an external monitor center. The implantable biosensor system chip contains a biosensor for a cardio-vascular indicator and a wireless transmitter to deliver detected bio-signal data. With the MEMS wireless monitoring bio-diagnosis system, the bio-signal data can be monitored effectively and transmitted to a remote medical unit. | 10-28-2010 |
Patent application number | Description | Published |
20130072320 | Golf club grip and method of making the same - A golf club grip comprises a resilient inner sleeve, a single sheet, an axial seam strip, and a combination of adhesives. The single sheet is wrapped around and adhered on to the resilient inner sleeve's body and has its top and bottom circumferential margins respectively over the resilient inner sleeve's cap underside edge and retaining sidewall edge, and two axial margins forming an axial gap along the length of the resilient inner sleeve's body. The combination of adhesives includes a pressure sensitive adhesive and a structural adhesive. The pressure sensitive adhesive is used to adhere the single sheet onto the resilient inner sleeve's body. The structural adhesive is applied in the axial gap covered with the axial seam strip to form an axial seam structure. The single sheet can be a leather/foam single sheet to provide the golf club grip with a soft and cushion feel for the user. | 03-21-2013 |
20130203514 | Golf putter grip - A golf putter grip comprises a main tubular body having a non-circular cross-section being symmetrical and remaining similar throughout its axial length, a flat front area being of rectangular shape and also along and throughout its axial length. The non-circular cross-section and the flat front area respectively have a width sufficient to have two hands cupped together at the same height and two thumbs placed side by side on the flat front area to hold the putter grip comfortably with minimal wrist breaking-down. The main tubular body has flat-topped arch cross-section and is reversely tapered, and its reverse taper is sufficient in certain degrees to accommodate different finger lengths of two hands for reducing the gripping pressure, so as to make the gripping comfortable. | 08-08-2013 |
20140200097 | Golf putter grip - A golf putter grip comprises a main tubular body having a non-circular cross-section being symmetrical and remaining similar throughout its axial length, and a flat front area also along and throughout its axial length. The non-circular cross-section and the flat front area respectively have a width dimension sufficient to have two hands cupped together at the same height and two thumbs placed side by side on the flat front area to hold the putter grip comfortably with minimal wrist breaking-down. The main tubular body has flat-topped arch cross-section and is reversely tapered, and its reverse taper is sufficient in certain degrees to accommodate different finger lengths of two hands for reducing the gripping pressure, so as to make the gripping comfortable. | 07-17-2014 |
20140213385 | Golf putter grip - A golf putter grip comprises a main tubular body having a non-circular cross-section being symmetrical and remaining similar throughout its axial length, and a flat front area being also along and throughout its axial length. The non-circular cross-section and the flat front area respectively have a width sufficient to have two hands cupped together at the same height and two thumbs placed side by side on the flat front area to hold the putter grip comfortably with minimal wrist breaking-down. The main tubular body preferably has flat-topped arch cross-section and is reversely tapered, and its reverse taper is sufficient in certain degrees to accommodate different finger lengths of two hands for reducing the gripping pressure, so as to make the gripping comfortable. | 07-31-2014 |
Patent application number | Description | Published |
20140333851 | TOUCH SCREEN PANEL AND METHOD FOR MANUFACTURING SAME - A touch screen panel includes a substrate, a plurality of driving electrodes formed over the substrate, a plurality of sensing electrodes arranged between the plurality of driving electrodes, a plurality of insulating layers, and a plurality of conducting connectors. Each of the plurality of insulating layers can be formed on each two neighboring sensing electrodes among the plurality of sensing electrodes and define two through holes. Each of the two through holes is positioned on corresponding one of the two neighboring sensing electrodes among the plurality of sensing electrodes. Each of the plurality of conducting connector formed on each of the plurality of insulating layers and filled the two through holes for electrically coupling with the two neighboring sensing electrodes among the plurality of sensing electrodes. | 11-13-2014 |
20150015809 | TOUCH SCREEN PANEL AND METHOD FOR MANUFACTURING SAME - A touch screen panel includes a substrate, a plurality of first electrodes formed on the substrate and extending along a first axis direction, a plurality of second electrodes formed on the substrate and extending along a second axis substantially perpendicular to the first axis; and a plurality of conducting connectors. Each conducting connector electrically couples with two neighboring second electrodes among the plurality of second electrodes in a same row without contacting the first electrodes. | 01-15-2015 |
20150015811 | TOUCH SCREEN PANEL AND METHOD FOR MANUFACTURING SAME - A touch screen panel includes a substrate, a plurality of first electrodes formed on the substrate and extending along a first direction, a plurality of second electrodes formed on the substrate and extending along a second direction substantially perpendicular to the first direction; and a plurality of conducting connectors. The conducting connectors are made of a metallic material. A surface of each conducting connector is processed by oxidation treatment for forming oxides, or treated by sulfidizing. | 01-15-2015 |
20150077946 | TOUCH SCREEN PANEL AND METHOD FOR MANUFACTURING SAME - A one glass solution touch screen panel includes a substrate, a shielding layer, an indium tin oxide film layer, a soft circuit board, an infiltrate layer, and a plurality of conducting connectors. The shielding layer is formed on a first portion of the substrate. The indium tin oxide film layer is formed on a second portion of the substrate and has a plurality of indium tin oxide film connecting portions. The soft circuit board is formed on the shielding layer. The infiltrate layer is formed on the connecting portions and defines a plurality of infiltrate gaps within the infiltrate layer. The conducting connectors are formed on the infiltrate layer. The conducting connectors are electrically connected to the soft circuit board. The conducting connectors extend into the infiltrate layer substantially filling a substantial portion of the plurality of infiltrate gaps and electrically connecting to the connecting portions. | 03-19-2015 |
Patent application number | Description | Published |
20150158761 | GLASS SHEET AND METHOD FOR MANUFACTURING SAME - A glass sheet includes a base plate, a first coating layer, a second coating layer, and a shielding layer. The base plate includes a display area, and a non-display area surrounding the display area. The first coating layer is formed on the non-display area of the base plate, includes a first bright colored ink, and defines a number of wiredrawing finishing textures separated from each other. The second coating layer is filled in the number of wiredrawing finishing textures, includes a second bright colored ink, and is darker in color than the first coating layer. The shielding layer is formed on the first coating layer and the second coating layer, and completely covers the non-display area. The present disclosure further provides a method for manufacturing the glass sheet. | 06-11-2015 |
20150181715 | METHOD FOR MANUFACTURING TOUCH PANEL - A method for manufacturing a touch panel includes the following procedures. A first conductive layer and a shielding layer surrounding the first conductive layer are formed on a base plate. The first conductive layer is etched to form a plurality of first and second sensing pads alternatively arranged according to columns. The first sensing pads in a column along a first direction are electrically coupled to each other to form a first sensing electrode column. The second sensing pads in a column along a second direction are electrically coupled to each other to form a second sensing electrode column. A second conductive layer is formed on the shielding layer via an ink jet printing method, and is etched to form a plurality of first and second sensing lines to be respectively electrically coupled to the first and second sensing electrode columns. | 06-25-2015 |
20150181716 | METHOD FOR MANUFACTURING TOUCH PANEL - A method for manufacturing a touch panel includes the following procedures. A base plate is provided. An indium tin oxide film is formed on the base plate. The indium tin oxide film is etched to form a plurality of first and second electrodes which are alternatively arranged according to columns on the base plate and insulated from each other, and the first electrodes in a column along a first direction are electrically coupled to each other. A plurality of insulated layers is formed on the first and second electrodes. A plurality of conductive connectors are formed on the plurality of insulated layers via an ink jet printing method to electrically interconnect with the second electrodes in a column along the second direction intersecting the first direction. The widths of the conductive connectors are reduced below 10 μm via a laser processing method. | 06-25-2015 |
20150185893 | TOUCH PANEL AND METHOD FOR MANUFACTURING SAME - A method for manufacturing a touch panel includes the following procedures. A base plate is provided. A conductive layer is formed on the base plate. The conductive layer is etched to form a plurality of first and second electrodes which are alternatively arranged according to columns on the base plate and insulated from each other, and the first electrodes in a column along a first direction are electrically coupled to each other. A plurality of insulated layers is formed on the first and second electrodes. A plurality of conductive rings coupled to each other in an order are formed on each insulated layer via an ink jet printing method to electrically interconnect with each neighboring second electrodes in a column along the second direction intersecting the first direction. The present disclosure further provides a touch panel manufactured by the method. | 07-02-2015 |
20160085326 | CONDUCTIVE LAMINATE, TOUCH PANEL AND ELECTRONIC DEVICE USING THE CONDUCTIVE LAMINATE, AND METHOD FOR MAKING THE CONDUCTIVE LAMINATE - A conductive laminate includes a base layer, an insulative layer on the base layer, an ink layer having a latticed structure on the insulative layer, and a conductive metal layer having a latticed structure on the ink layer. The insulative layer contains a transparent and insulative adhesive. | 03-24-2016 |
20160103508 | TRANSPARENT CONDUCTIVE FILM, METHOD FOR MAKING THE SAME, AND TOUCH-SENSITIVE SCREEN USING THE SAME - A transparent conductive film includes a transparent substrate. A support layer is formed on one surface of the substrate. A surface of the support layer away from the substrate defines grooves formed in a mesh pattern. An ink layer is formed at a bottom of the grooves. A conductive layer is formed on the ink layer and in a mesh pattern. A top of the conductive layer protrudes out of the grooves. | 04-14-2016 |
20160103532 | TRANSPARENT CONDUCTIVE FILM, METHOD FOR MAKING THE SAME, AND TOUCH-SENSITIVE SCREEN USING THE SAME - A transparent conductive film includes a transparent substrate. A support layer is formed on one surface of the substrate. A surface of the support layer away from the substrate defines grooves formed in a mesh pattern. The grooves include a first groove portion and a second groove portion communicating with the first groove portion. A depth of the first groove portion is less than that of the second groove portion. An ink layer is formed at a bottom of the first groove portion and the second groove portion. A conductive layer is formed on the ink layer and in a mesh pattern. A top of the conductive layer formed in the first groove portion protrudes out of the first groove portion, and the conductive layer formed in the second groove portion is totally received in the second groove portion. | 04-14-2016 |