| Patent application number | Description | Published |
|---|
| 20090238851 | ANTIBACTERIAL ELECTRONIC DEVICE AND METHOD FOR MANUFACTURING THE SAME - The present invention relates to a method for manufacturing an antibacterial electronic device. The method includes the steps of: (1) dispersing antibacterial material into alcohol solution with a predetermined concentration to form an even mixture solution; (2) laying statically the even mixture solution for a predetermined period of time to obtain a uniform and steady antibacterial solution; (3) coating the antibacterial solution to a surface of an insulating shell of an electronic device, the surface of the insulating shell of the electronic device with the antibacterial solution being dried at a temperature ranging from 50-150 degrees centigrade for obtaining a continuous antibacterial layer tightly attached to the surface of the insulating shell. | 09-24-2009 |
| 20090274829 | Method of Resisting Dust and Dirt with Nanotechnology - A method of resisting dust and dirt with nanotechnology applied to electronic products is described hereinafter. Firstly, make an initial reactant into a metal oxide gel of nanometer by way of a sol-gel method. Secondly, dilute the metal oxide gel of nanometer with a diluent to form a coating solution, and then stand the coating solution for a period of time to make the metal oxide gel of nanometer and the diluent well mixed each other. Next, coat the coating solution onto surfaces of the electronic products evenly. Lastly, put the electronic products coated with the coating solution under a room temperature to make the coating solution evaporated so as to form protective films on the surfaces of the electronic products. | 11-05-2009 |
| 20090291218 | Method For Forming A Film On A Substrate - A method for forming a film on a substrate includes steps of: blending precursor, dissolvent, de-ionized water and catalyst in proportion to make sol solution; standing the sol solution for a period of to form gel solution; mixing the gel solution with diluent in proportion to form the coating solution; and coating the coating solution onto the substrate and then drying the coating solution to form a film on the substrate. The ratio of the gel solution and the diluent in the coating solution can be controlled to change the thickness of the film formed on the substrate. The ratio of the gel solution and the diluent is adjusted, the thickness of the film is adjusted according to the ratio to realize controlling the thickness of the film, therefore, the method for forming the film on the substrate is simply, and the thickness of the film can be controlled exactly, so the method can be used in industry field. | 11-26-2009 |
| 20100015322 | Method And Apparatus For Coating A Film On A Substrate - A method and an apparatus for coating a film on a substrate are presented. According to principle of the invention, firstly, a control device controls a first coating device to spray a coating solution onto the substrate. Then, a sensor monitors viscosity data of the coating solution presented between the first coating device and the substrate during movement of the first coating device and sends the viscosity data to the control device, or the sensor monitors viscosity data of the coating solution coated on the substrate and sends the viscosity data to the control device. Lastly, the control device controls a second coating device to spray a coating solution onto the substrate after the first coating device according to signals about the viscosity data from the control device. | 01-21-2010 |
| 20100074985 | Auxiliary Position Apparatus For Injection Molding Machine - An auxiliary position apparatus is adapted for an injection molding machine which includes a nose and the nose has a nozzle at one end thereof. The auxiliary position apparatus includes a position device for being mounted to the nose and at least two light emitting devices adjustably mounted to the position device. The two light emitting devices can emit two adjustable light beams to focus as a light-spot which is substantially in alignment with the nozzle on a mold placed on the injection molding machine. By moving the mold to make the light-spot located at an injecting hole of the mold, the nozzle can be adjustably in alignment with the injecting hole rapidly and precisely before the injection molding operations. | 03-25-2010 |
| 20100129537 | METHOD OF MANUFACTURING ELECTRONIC DEVICES OF RESISTING SCRAPE AND WEAR WITH NANOTECHNOLOGY - A method of manufacturing electronic devices of resisting scrape and wear with nanotechnology is described hereinafter. Firstly, make an initial reactant into a coating solution of nanometer. Secondly, coat the coating solution of nanometer onto surfaces of an electronic product evenly. Lastly, put the electronic product coated with the coating solution of nanometer under a room temperature or a heating environment lower than 150 degrees centigrade to make the coating solution of nanometer dried for forming nanometer protective films on the surfaces of the electronic product, wherein the thickness of the nanometer protective film is substantially 10-20 microns. The nanometer protective film can protect the electronic product from being scraped and worn, and the thickness thereof is controlled to be 10-20 microns that ensures the aesthetic of the electronic product uninfluenced. | 05-27-2010 |
| 20100129555 | NANOCOMPOSITE COATING AND THE METHOD OF COATING THEREOF - A nanocomposite coating and a method of coating for protecting a product with the nanocomposite coating are presented. Firstly, the nanocomposite coating is prepared, wherein the nanocomposite coating is formed by mixing 22.5˜49.5% nanometer inorganic oxide gel made by a sol-gel method, 45˜74.25% organic solvent and 1˜10% nanometer powder together. Next, the nanocomposite coating is coated onto surfaces of the product evenly by way of spraying, dipping or roll-to-rolling. Lastly, the product coated with the nanocomposite coating is subjected to a room temperature or a heating environment lower than 170 degrees centigrade to make the nanocomposite coating dry for forming nanometer protective films on the surfaces of the product. | 05-27-2010 |
| 20100147192 | METHOD OF MAKING COMPOSITE COATING AND PRODUCT FORMED WITH THE COMPOSITE COATING - A method of making a composite coating includes the steps of: adding a proper quantity of inorganic metal salt into an organic dissolvent to form a first mixed solution and then stirring the first mixed solution for 30-60 minutes; adding a proper quantity of SiO | 06-17-2010 |
| 20110129597 | ANTIBACTERIAL ELECTRONIC DEVICE AND METHOD FOR MANUFACTURING THE SAME - The present invention relates to a method for manufacturing an antibacterial electronic device. The method includes the steps of: (1) dispersing antibacterial material into alcohol solution with a predetermined concentration to form an even mixture solution; (2) laying statically the even mixture solution for a predetermined period of time to obtain a uniform and steady antibacterial solution; (3) coating the antibacterial solution to a surface of an insulating shell of an electronic device, the surface of the insulating shell of the electronic device with the antibacterial solution being dried at a temperature ranging from 50-150 degrees centigrade for obtaining a continuous antibacterial layer tightly attached to the surface of the insulating shell. | 06-02-2011 |
