| Patent application number | Description | Published |
|---|
| 20100037913 | CLEANING APPARATUS AND METHOD FOR CLEANING GLUE - A cleaning apparatus includes a heating device, a freezing device, and a conveying belt. The heating device includes a hot water source and a hot water container. The hot water container includes an exit shutter and defines a water inlet and a water outlet. The hot water source being communicated to the hot water container via the water inlet. The freezing device includes an aerosol spray system and a freezing container. The spray system includes a spray head. The freezing container includes an entrance shutter. The spray head is received in the freezing container. The conveying belt extends into the hot water container via the exit shutter and into the freezing container via the entrance shutter and thereby bridges the hot water container and the freezing container. | 02-18-2010 |
| 20100058981 | FILM COATING APPARATUS - A film coating apparatus for coating a substrate includes a number of film coating units. Each film coating unit includes a container, a transfer roller, a liquid jet, and a heater. The container is used for receiving coating liquid. The coating liquid includes coating material. The transfer roller is capable of conveying the substrate. The liquid jet is configured for jetting coating liquid received in the container toward the transfer roller. The heater is used for heating the coating liquid on the substrate to solidify the coating material of the coating liquid on the substrate to form films. | 03-11-2010 |
| 20100126578 | WORKING ELECTRODE, DYE-SENSITIZED SOLAR CELL HAVING SAME AND METHOD FOR MAKING SAME - An exemplary working electrode includes a transparent conductive substrate, a nanorod layer formed on the transparent conductive substrate, and a porous semiconductor layer formed on the nanorod layer. The nanorod layer includes a plurality of nanorods. Each nanorod is comprised of a material selected from the group consisting of iridium-iridium oxide and ruthenium-ruthenium oxide. The porous semiconductor layer has a dye sensitizer adsorbed thereon. | 05-27-2010 |
| 20100170443 | FILM MANUFACTURING DEVICE - A film manufacturing device for forming a film on a substrate includes a vaporizing device, a container, an absorption tower and a film deposition device. The vaporizing device is configured for vaporizing a dopant containing solution. The container is configured for containing a film forming solution. The absorption tower is configured for mixing the film forming solution with the vaporized dopant containing solution to obtain a precursor solution. The film deposition device is configured for forming the film on the substrate using the precursor solution. | 07-08-2010 |
| 20100252427 | MAGNETRON SPUTTERING TARGET AND MAGNETRON SPUTTERING SYSTEM - A magnetron sputtering target comprises a magnetron device and a target positioned in a magnetic field of the magnetron device. The magnetron device comprises a metal plate, a plurality of first magnets and second magnets. A direction of the magnetic lines of the first magnets is opposite to that of the second magnets. The first magnets and the second magnets are embedded in the metal plate and arranged in a number of rows and columns. At least one first magnet is adjacent to a second magnet in one row, and at least one first magnet is adjacent to a second magnet in one column, therefore, there are magnetic lines in row direction and column direction exist in the magnetic field of the magnetron device. | 10-07-2010 |
| 20100270153 | GAS SENSING SYSTEM WITH QUARTZ CRYSTAL SUBSTRATE - An exemplary gas sensing system includes a gas sensing unit, a detecting unit, and a processing unit. The gas sensing unit includes a quartz crystal substrate, a first electrode layer, a second electrode layer, a first activating layer, and a sensor medium layer having adsorption ability and desorption ability to chemiacal gas. The detecting unit is electrically connected with the first electrode and the second electrode, and is configured for detecting a frequency change of the gas sensing unit before and after adsorbing the chemiacal gas. The processing unit is electrically connecting with the detecting unit, and is configured for obtaining a mass change of the gas sensing unit according to the frequency change. | 10-28-2010 |
| 20100275838 | COATING APPARATUS - A coating apparatus includes a chamber device and a transporting device. The chamber device defines two coating chambers, two parallel coating channels, and a transportation channel communicating with the coating channels. The coating chambers are separated from each other. The coating chambers and the coating channels are alternately arranged. Each coating chamber defines at least one coating slot communicating with the respective coating channel. The transporting device includes a shaft rotatable with respect to the chamber device and a carrying board fixed on the shaft. The shaft is axially movable in the transportation channel. The carrying board is receivable in each of the coating channels for exposing a substrate to the corresponding coating chamber via the associated coating slot. The carrying board is rotatable about the shaft in each of the coating channels and jointly movable with the shaft in and along the transportation channel between the coating channels. | 11-04-2010 |
| 20100288314 | EVAPORATION MATERIAL CLEANING APPARATUS - An apparatus capable of cleaning a material includes pipes arranged in a first barrel; and through holes defined in a second barrel. The second barrel is received in the first barrel. The apparatus Further includes a driver comprising a drive shaft, the drive shaft extending through the first barrel and being connected to the second barrel. A fluid container is included store fluid, an air controller is provided air-dry the material. Before washing the material, the second barrel is driven by the driver to cause each of the through holes to disengage from a corresponding pipe. After washing the material, the second barrel is driven by the driver to cause each of the through holes to engage with the corresponding pipe. | 11-18-2010 |
| 20100288630 | PHYSICAL VAPOR DEPOSITION DEVICE - A physical vapor deposition device includes a chamber; a cathode and an opposite anode, a target material, and supporting device arranged in the chamber. The target material and the supporting device are positioned between the cathode and the anode. The supporting device includes a rotatable device and a hollow supporting plate. The hollow supporting plate is configured for securing the workpiece and exposing part of the workpiece where is needed to be coated. The hollow supporting plate is movably fastened to the rotatable device. A distance from the hollow supporting plate to the rotatable device can be adjusted when the hollow supporting plate is rotated together with the rotatable device in order to align workpiece with the target material. | 11-18-2010 |
| 20100294658 | MAGNETRON SPUTTERING DEVICE HAVING ROTATABLE SUBSTRATE HOLDER - A magnetron sputtering device includes a target holder, a substrate holder, and a first driver. The target holder defines a sputtering space therein, and includes at least one target tray arranged at a periphery of the sputtering space. The substrate holder is rotatably positioned in the sputtering space. The first driver is connected to the substrate holder. The first driver is operable to rotate the substrate holder relative to the target holder. | 11-25-2010 |
| 20100319622 | FILM COATING APPARATUS FOR CHEMICAL VAPOR DEPOSITION AND PHYSICAL VAPOR DEPOSITION - An exemplary film coating apparatus includes a housing, a holder for holding a workpiece, and a coating source. The housing defines a chamber therein. The holder and the coating source are received in the chamber. The coating source includes a supporting plate and a number of gas jetting heads. The supporting plate includes a first surface facing the holder, and defines a receiving recess at the first surface configured for receiving a target material, and a number of through holes. The gas jetting heads are capable of introducing one or more gases into the chamber, each gas jetting head passes through one respectively through hole and is fixed in the through hole. | 12-23-2010 |
| 20110000429 | FILM COATING APPARATUS - A coating apparatus includes a housing, a number of coating chambers, a first lifting rod, a second lifting rod, and a third lifting rod. The housing includes a bottom wall with an opening defined thereon, a first side wall, and a second side wall opposite to the first side wall. The coating chambers are vertically aligned with each other and received in the housing. Each coating chamber defines an inlet and an outlet at two opposite sides thereof, two inlets of each two adjacent coating chambers faces the first side wall and the second side wall respectively. The first lifting rod and the second lifting rod are disposed adjacent to the second side wall and the first side wall respectively for moving a substrate among the coating chambers. The third lifting rod is disposed between the first lifting rod and the second lifting rod for carrying the substrate into and out of the housing through the opening. | 01-06-2011 |
| 20110011339 | COATING APPARATUS - A coating apparatus includes a chamber device and a transporting device. The chamber device defines two separated coating chambers, two coating channels, which are alternately arranged, two coating slots communicating the coating chambers with the coating channels respectively, and a transportation channel extending to intersect the coating chambers and the coating channels and communicate with the coating channels. The transporting device includes a carrying board for carrying a substrate to be coated and an a driver for driving the carrying board to move along the transportation channel and to rotate the carrying board into one of the coating channels so that the substrate faces and aligns a corresponding coating chamber via a corresponding coating slot. | 01-20-2011 |
| 20110017136 | COATING DEVICE - A coating device includes a table, a number of coating housings, a carrier, a number of conveyors, and a number of turntables. The coating housings are separately mounted on the table, and each including a hatch formed thereon. The hatches of all the coating housings face towards a same direction. The carrier are used for carrying one or more products to be coated. The conveyors are distributed on the table around each of the coating housing, and respectively extend into the inside of the coating housing through the hatch for delivering the carrier into the coating housings in turn. The turntables are installed between every two adjacent conveyors for transporting the carrier from a preceding conveyor to a succeeding conveyor according to a predefined route, respectively. | 01-27-2011 |
| 20110020486 | DEVICE FOR FORMING FILM - A device for forming films on a substrate includes a main chamber and a reacting device. The main chamber is for receiving the substrate. The reacting device is received in the main chamber facing the substrate. The reacting device includes a reacting container, a supporting plate, a cover, and a collimation tube. The supporting plate and the cover are disposed on opposite ends of the reacting container to close the reacting container. The supporting plate is configured for supporting a target. The collimation tube is located in the reacting container to divide the reacting container into a first chamber and a second chamber. The target is located in the first chamber, and the cover defines a number of through holes. | 01-27-2011 |
| 20110024290 | MAGNETIC DEVICE AND MAGNETRON SPUTTERING DEVICE USING THE SAME - A magnetron sputtering device includes a base arranged adjacent to a sputtering target, and a plurality of movable magnet assemblies. Each movable magnet assembly includes a support fixed to the base, and a plurality of magnets that are connected to each other, arranged on the support and comprising opposing poles facing the base. Each movable magnet assembly also includes a driving device to drive the plurality of magnets to slide with respect to the support. | 02-03-2011 |
| 20110031108 | SPUTTERING DEPOSITION METHOD AND APPARATUS - A sputtering deposition method is utilized by a sputtering deposition apparatus including a first chamber, a second chamber, a first carrier, and a second carrier. Some first substrates are positioned in the first carriers in the first chamber for heating. The first carriers in the first chamber and the second carriers in the second chamber are exchanged. The first substrates in the second chamber are sputtered. The second carriers in the first chamber and the first carriers in the second chamber are exchanged. The first substrates in the first chamber are taken out. | 02-10-2011 |
| 20110031116 | MAGNETRON SPUTTERING TARGET ASSEMBLY AND COATING APPARATUS HAVING SAME - A coating apparatus includes a shielding casing defining a chamber, a substrate holder received in the chamber and a target assembly located inside the shielding casing. The substrate holder is configured to hold a substrate. The target assembly faces the substrate. The target assembly includes a target frame, two opposite target electrodes, a number of magnetrons and a transport unit. The target base includes two opposite end surfaces and a number of side surfaces interconnecting the end surfaces. The two opposite target electrodes are fixed on the two opposite side surfaces. The magnetrons are received in the receiving cavity and disposed between the target electrodes. The transport unit is configured to carry the magnetrons to circulate therearound. | 02-10-2011 |
| 20110047787 | MULTI-FUNCTIONAL ASSEMBLY DEVICE - A multi-functional assembly device includes a fixed barrel, a number of supporting boards, a rotatable barrel, and a driving device for rotating the rotatable barrel. The fixed barrel includes a number of sidewalls and defines a chamber surrounded by the sidewalls. The supporting boards are configured for holding the lens modules and are able to be secured on the inner surfaces of the sidewalls. The rotatable barrel includes a main body, a number of carrying devices, a number of glue dispensers, and a number of glue solidifying devices. The main body includes a first side surface, a second side surface, and a third side surface facing the inner surfaces of the sidewalls. The carrying devices, the glue dispensers, and the glue solidifying devices are installed on the first side surface, the second side surface, and the third side surface respectively. | 03-03-2011 |
| 20110048321 | COATING APPARATUS - A coating apparatus includes a first coating element, a second coating element, an isolating element, at least one isolating block, and at least one linear driving element. The isolating element includes a main chamber and at least one secondary chamber communicating with the main chamber. The first coating element is connected to one end of the isolating element, and the second coating element is connected to an opposite end of the isolating element. Each of the at least one isolating block is received in one of the at least one secondary chamber. Each of the at least one linear driving element is mounted in one of the at least one secondary chamber and connected to one of the at least one isolating block. | 03-03-2011 |
| 20110052180 | LIGHT BLOCKING PLATE, CAMERA MODULE HAVING SAME, AND METHOD FOR MAKING SAME - An exemplary light blocking plate includes a light pervious substrate, a filter film formed on the light pervious substrate, and a metal film layer formed on the light pervious substrate and the optical filter film. The metal film layer defines a through hole to expose a central portion of the optical filter film. | 03-03-2011 |
| 20110053472 | GRINDING DEVICE WITH CLEANING ASSEMBLY - An exemplary grinding device includes a fixed barrel, a rotatable barrel, a grinding plate, an actuator and a cleaning assembly. The fixed barrel defines a chamber and includes a number of inner sidewall substantially parallel to a central axis, each of which defines a holding groove for holding a workpiece. The rotatable barrel is received in the chamber and includes an outer side substantially parallel to the central axis and defines an installation groove. The grinding plate is installed in each of the installation grooves. The actuator is configured for driving the rotatable barrel to rotate and simultaneously move up and down in the first chamber, such that the grinding plates contact the workpieces and grind the workpieces. The cleaning assembly is situated under the fixed barrel for cleaning the workpieces. | 03-03-2011 |
| 20110065367 | ARC SURFACE GRINDING DEVICE - A grinding device includes a fixed barrel, a moving barrel, a grinding plate, and an actuator. The fixed barrel defines a chamber and includes a number of inner surfaces substantially parallel to a central axis, each of which defines a holding groove therein for holding a workpiece. The moving barrel is received in the chamber and includes a side surface substantially parallel to the central axis and defines an installation groove. The grinding plate is fixedly installed in the installation groove. The actuator is configured for driving the moving barrel to spin and move back and forth along the central axis, and driving the moving barrel to move towards a workpiece so that a surface of the workpiece is grinded into a desired arc surface by the grinding plate, and driving the moving barrel to move towards another workpiece after the desired arc surface of the workpiece is obtained. | 03-17-2011 |
| 20110073472 | COATING APPARATUS - A coating apparatus includes a housing, a sputter mechanism, an evaporation mechanism, and a workpiece transport assembly. The housing defines a receiving space. The workpiece transport assembly includes a fixing plate, a first transport member, and a first shaft. The fixing plate is secured to the housing via the receiving space and divides the receiving space into a sputter chamber and an evaporation chamber. The sputter mechanism is mounted in the sputter chamber, and the evaporation mechanism is mounted in the evaporation chamber. The fixing plate defines a through hole. The sputter chamber communicates with the evaporation chamber via the through hole. The first transport member is configured to transport at least one workpiece. The first shaft is secured to the first transport member and rotatably mounted to the housing. | 03-31-2011 |
| 20110088615 | DIP COATING APPARATUS - A dip coating apparatus includes a housing and a workpiece holder movably and rotatably received in the housing. The housing includes an immersing portion configured for carrying out immersion process and a drying portion configured for carrying out drying process. The inner spaces of the immersing portion and the drying portion are communicated with each other. The lifting workpiece holder is configured for fixed workpieces thereon and moving and rotating relative to the immersing portion and the drying portion of the housing. The workpieces is driven by the lifting-rotating to carry out the immersion process and the drying process. | 04-21-2011 |
| 20110126763 | VAPOR DEPOSITION DEVICE - A vapor deposition device includes a holding compartment and a reaction device. The holding compartment defines a receiving chamber and includes a number of inner side surfaces and a number of holding plates disposed on the respective inner side surfaces, each holding plate defines a number of holding grooves for holding substrates. The reaction device is rotatably received in the receiving chamber and includes an outer barrel and an inner barrel received in the outer barrel, the outer barrel and the inner barrel cooperatively defines a first room, the inner barrel defines a second room; the reaction device includes ion nozzles communicating with the second room and precursor gas nozzles communicating with the first room; the outer barrel includes at least one crucible and at least one electron beam gun received in the first room, the inner barrel includes an ion source received in the second room. | 06-02-2011 |
| 20110126766 | COATING APPARATUS - A coating apparatus includes a deposition case, a reaction assembly, two precursors, a target, and a driving assembly. The deposition case includes a housing defining a cavity for receiving workpieces. The reaction assembly receives in the cavity and includes an outer barrel, an inner barrel, a plurality of nozzles, and a plurality of pipes. The outer barrel includes a main body and two protruding bodies. The main body and the inner barrel cooperatively define a first room therebetween. Each protruding body defines a second room communicating with the first room. The inner barrel defines a third room. The nozzles extend from the main body and communicate with the first room. The pipes extend from the inner barrel and communicate with the third room. The precursors receive in the second rooms. The target receives in the third room. The driving assembly drives the housing to rotate relative to the reaction assembly. | 06-02-2011 |
| 20110155053 | APPARATUS FOR MAKING WORKING ELECTRODE OF DYE-SENSITIZED SOLAR CELL - An apparatus for making a working electrode of a dye-sensitized solar cell is provided. The apparatus includes a columnar body, a rotatable mechanism rotatably received in the columnar body, and a cover enclosing the columnar body. Accommodating grooves are formed in the columnar body configured to accommodate substrates. The rotatable mechanism includes a containing chamber, rollers, and nozzles. The nozzles are configured for jetting the slurry from the containing chamber to the accommodating grooves. The rollers are independently rotatable and configured for rolling the slurry on the substrates. The cover has feeding tubes and exporting tubes extending therethrough. The feeding tubes are in communication with the containing chamber and configured for feeding the slurry to the containing chamber. The exporting tubes are in communication with the columnar body and configured for evacuating excess slurry from the columnar body. | 06-30-2011 |
| 20110155055 | CVD DEVICE - A CVD device includes a reaction chamber, a support device, a gas input assembly and a gas output device. The support device is positioned in the reaction chamber. The gas input assembly and a gas output assembly are connected to the reaction chamber respectively. The gas input assembly includes a main body positioned in the reaction chamber and a plurality of gas jets uniformly positioned on the main body, introducing mixed gas to the reaction chamber uniformly. | 06-30-2011 |
| 20110155562 | LENS MODULE FABRICATION METHOD - A method for fabricating a lens module includes forming an IR-cut filter, forming a shading block on part of a surface of the IR-cut filter, forming a blocking layer on the IR-cut filter and the shading block, forming an electromagnetic shielding layer on the blocking layer, polishing the electromagnetic shielding layer and the blocking layer to expose the shading block, removing the shading block from the IR-cut filter to form an optical component, mounting a lens in the barrel portion adjacent to the IR-cut filter portion, and packaging the holding portion of the optical component to a printed circuit board to form the lens module. | 06-30-2011 |
| 20110159792 | MULTI-FUNCTIONAL GRINDING APPARATUS - A multi-functional grinding apparatus includes a fixed barrel, a moving barrel, a cutting device, a grinding plate, and an actuator. The fixed barrel defines a chamber therein and includes a number of inner side surfaces, the inner side surfaces are substantially parallel to a central axis of the fixed barrel. Each of the inner side surfaces defines a holding groove therein for holding a workpiece. The moving barrel is received in the chamber and includes a first side surface and a second side surface, the first side surface and second side surface are substantially parallel to the central axis. The cutting device is fixed on the first side surface. The grinding plate is fixed on the second side surface. The actuator is configured for driving the moving barrel to move towards a workpiece, and rotating the moving barrel. | 06-30-2011 |
| 20110177307 | CARBON NANOTUBE DEVICE AND METHOD FOR MAKING SAME - A carbon nanotube device includes a flexible substrate and a patterned carbon nanotube layer. The flexible substrate defines a plurality of recesses. The patterned carbon nanotube layer is formed on the flexible substrate. The carbon nanotube layer includes a plurality of carbon nanotube arrays. Each carbon nanotube array is fixedly attached in the corresponding recess. | 07-21-2011 |
| 20110179994 | COATING APPARATUS - A coating apparatus includes a first vessel, a revolving unit, and a motor having a drive shaft. The first vessel has a receiving space defined therein for receiving substrates and a first solution. The revolving unit is received in the receiving space and rotatable relative to the first vessel to impart a centrifugal force to the first solution. The drive shaft is coupled to the revolving unit. The motor is configured for rotating the revolving unit. | 07-28-2011 |
| 20110185968 | COATING DEVICE - A coating device includes a case, a reaction module, and a cover. The case defines a reaction cavity. Receiving plates are positioned on an inner surface of the reaction cavity. The reaction module is received in the reaction cavity and capable of being rotated in the reaction cavity. The reaction module includes an outer housing and an inner housing. The outer housing includes electric magnets and waveguides. The electric magnets are positioned around the outer housing. Waveguide channels are defined in the outer housing. Each waveguide is partially received in a corresponding waveguide channel. The inner housing is received in the outer housing. A first receiving chamber is defined between the inner and outer housings. A second receiving chamber is defined in the inner housing. The first receiving chamber communicates with the second receiving chamber and the reaction cavity. The cover covers the opening end. | 08-04-2011 |
| 20110192346 | COATING DEVICE - A coating device includes an autoclave and a spray member. The autoclave includes an autoclave body and a cover sealing the autoclave body. The autoclave body defines a plurality of holding grooves in an inner surface thereof for holding substrates. The spray member is positioned on the cover and received in the autoclave body. The spray member defines openings in a side surface thereof. The spray member includes a container and an ultrasonic atomization unit. The container defines a cavity in communication with the openings. The ultrasonic atomization unit is received in the cavity. | 08-11-2011 |
| 20110203736 | SURFACE ACTIVATION DEVICE - A surface activation device comprises a holding compartment, a nozzle support, and a sealing assembly. The holding compartment defines a receiving chamber and defining a plurality of recesses for holding workpieces therein. The nozzle support is rotatably received in the receiving chamber and comprises an outer barrel, an inner barrel is received in the outer barrel, and at least one ultraviolet (UV) lamp is embedded in the outer barrel. The outer barrel and the inner barrel cooperatively define a first chamber therebetween, and the inner barrel defines a second chamber therein. The sealing assembly seals the first chamber and the second chamber, and comprises at least one first inlet tube communicated with the first chamber and at least one second inlet tube communicated with the second chamber. | 08-25-2011 |
| 20110232572 | PLASMA FILM-COATING APPARATUS - An exemplary plasma film-coating apparatus includes a reaction chamber, a pipe, and a reaction device. The reaction chamber defines a reaction cavity. The reaction cavity includes receiving grooves defined in an inner wall of the reaction chamber. The receiving grooves are configured for receiving workpieces. The pipe extends through the reaction chamber and is in communication with the reaction cavity. The reaction device is rotatably connected to the reaction chamber. The reaction device includes two electrodes and at least one precursor chamber. The two electrodes are positioned inside the reaction cavity, and face each other. The at least one precursor chamber is attached to a surface of one electrode away from another electrode, and extends through the reaction chamber. The at least one precursor chamber is in communication with the reaction cavity and is configured for providing gaseous precursor. | 09-29-2011 |
| 20110247558 | COATING HOLDER AND COATING DEVICE HAVING SAME - A coating holder for holding a plurality of workpieces includes a rotating shaft, a first driving member, a plurality of hanging arms, a plurality of supporting trays, and a plurality of second driving members. The first driving member is configured for driving the rotating shaft to rotate. The hanging arms extend from the rotating shaft. Each hanging arm includes a free end distal from the rotating shaft. The supporting trays are configured for holding the workpieces. The second driving members are fixed in the respective free ends and are connected to the respective supporting trays. The second driving members are configured for driving the supporting trays to rotate. | 10-13-2011 |
| 20110253036 | WET-COATING APPARATUS - A wet-coating apparatus includes a main body, a cleaning agent bin, a coating agent storage bin, a hot-air injector, a heater, and a transport. The main body defines a coating chamber. The coating chamber includes a first sub-chamber, a second sub-chamber, and a third sub-chamber located between the first and second sub-chambers. The cleaning agent storage bin is received in the first sub-chamber. The coating agent storage bin is received in the first sub-chamber and located adjacent to the third sub-chamber. The hot-air injector is received in the third sub-chamber. The heater is received in the second sub-chamber. The transport is located over the cleaning agent storage bin and the coating agent storage bin, and configured to transport a substrate from the first sub-chamber to the second sub-chamber. | 10-20-2011 |
| 20110253038 | SPIN COATING DEVICE - A spin coating device includes a container and a rotating member. The container is used for holding a first solution and includes a sidewall which a plurality of substrates are arranged on. The rotating member is rotatable within the container and includes an inlet and at least one outlet. A second solution flows into the rotating member through the inlet, and flows into the container through the at lease one outlet. A mixture of the first solution and the second solution is spread onto the substrate by centrifugal force of the rotating member. | 10-20-2011 |
| 20110253041 | DIP COATING APPARATUS - A dip coating apparatus includes a container, a separating plate, an air intake, at least one driving module, and at least one carrying base. The separating plate separates the container into a first chamber and a second chamber, and defines a through opening communicating the two chambers. The first chamber is configured for drying workpieces, and the second chamber is configured for carrying coating liquid to coat the workpieces. The air intake takes drying air into the first chamber. The driving module is mounted on the separating plate. The carrying base carries the workpieces, and is connected to the driving module and positioned in the second chamber. Driven by the driving module, the carrying base is able to dip the workpieces into the coating liquid for coating, and is able to cover the through opening and expose the workpieces to the first chamber for drying. | 10-20-2011 |
| 20110253531 | COMPOSITE COATING APPARATUS - A composite coating apparatus includes a main body, two carrying boards, and two actuators. The main body defines a first chamber and a second chamber with a separating board intervening therebetween. The separating board defines a coating opening intercommunicating with the chambers. The carrying boards are received in the first chamber and rotatably connected to the separating board at two sides of the coating opening. Each carrying board defines a receiving groove for holding a substrate. The actuators are configured for driving the carrying boards to rotate between a first coating position, in which the substrate is exposed to the second chamber for a first coating process carried out in the second chamber via the coating opening, and a second coating position, in which the substrate faces away from the separating board for a second coating process carried out in the first chamber. | 10-20-2011 |
| 20110259266 | COATING SYSTEM - A coating system includes a housing, a coating umbrella, a rotatable assembly, a lift driver, a solvent storage chamber, and a jet device. The housing includes a block dividing the housing into a coating chamber and a painting chamber. The coating umbrella is configured for receiving a number of workpieces. The rotatable assembly is connected to the coating umbrella to drive the rotatable assembly to rotate. The lift driver lifts the rotatable assembly to switch the position of the coating umbrella between the coating chamber and the spray painting chamber. The solvent storage chamber is configured for storing paint solvent. The solvent storage chamber communicates with the painting chamber. The jet device is received in the solvent storage chamber, and communicated with the painting chamber to spray the paint solvent onto the workpieces. | 10-27-2011 |
| 20110259267 | FILM COATING HOLDER - A film coating holder includes a top cover, a plurality of annular parts, and a plurality of connecting pieces. The top cover defines a plurality of first holes for receiving workpieces therein. The plurality of annular parts is stacked on each other with progressively increasing radiuses. Each of the plurality of annular parts defines a plurality of second holes for receiving the workpieces, and the top cover is positioned on the annular part with a minimum radius. The plurality of connecting pieces connects the annular part with the minimum radius to the top cover and connects each two adjacent annular parts together. | 10-27-2011 |
| 20110259738 | MAGNETRON SPUTTERING DEVICE - A magnetron sputtering device includes a holding compartment, a target assembly, a supporting base, and a rotation module. The holding compartment is divided to a reactive chamber and a receiving chamber. The target assembly includes two cooling plates, two magnetic units, and a target. The two cooling plates define a magnetron room communicating with the receiving chamber. The two magnetic units are suspended in the magnetron room. The target is attached on the cooling plate under the magnetic units. The supporting base is for supporting work-pieces. The rotation module is received in the receiving chamber, and jointed to the two magnetic units. The rotation module drives the magnetic units to spin about a central axis thereof and move back and forth along a direction lengthwise of the magnetic unit. | 10-27-2011 |
| 20110266028 | CONDUCTIVE FILM AND METHOD FOR MAKING SAME - A method for making a conductive film includes: providing a carbon nanotube film defining a plurality of holes therein; attaching the carbon nanotube film on a substrate; adjusting a temperature of the carbon nanotube film in a range from about 7° C. to about 9° C.; dropping and rubbing a nanoparticle aqueous solution in the carbon nanotube film, the nanoparticles aqueous solution containing a plurality of nanoparticles; and adjusting the temperature of the carbon nanotube film in a range from about 24° C. to about 26° C. and drying the carbon nanotube film to obtain the conductive film on the substrate. | 11-03-2011 |
| 20110266148 | TARGET BASE AND SPUTTERING APPARATUS USING SAME - A target base includes a fixed carrier, a rotatable carrier, a number of target housings, and a number of target supports. The rotatable carrier is rotatably mounted on the fixed carrier. The target housings are mounted on the fixed carrier around the rotatable carrier, and define receiving spaces adjacent to the rotatable carrier. The target supports are rotatably mounted on the target housings correspondingly. Each target support is able to rotate to be received in the receiving space of a corresponding one of the target housings or to move out of the receiving space. | 11-03-2011 |
| 20110267684 | LIGHT BLOCKING PLATE, LENS MODULE HAVING SAME, AND METHOD FOR MAKING SAME - An exemplary light blocking plate includes a flat plate-like light pervious member, and a blocking and shielding layer formed on the light pervious member. The blocking and shielding layer includes a top surface facing away from the light pervious member, a bottom surface facing the light pervious member, and a through hole extending from the top surface to the bottom surface. The blocking and shielding layer includes an electromagnetic shielding layer having a first part of the top surface, and a light blocking layer. The light blocking layer includes a first portion having the bottom surface, and a second portion having a second part of the top surface, and extending from the first portion to the second part of the top surface. The electromagnetic shielding layer surrounds the second portion of the light blocking layer. The second portion of the light blocking layer surrounds the through hole. | 11-03-2011 |
| 20110271909 | COATING APPARATUS - A coating apparatus includes a base, actuators, separating boards and a gas guide grill. The base includes a carrying surface for supporting a workpiece. The base defines recesses on the carrying surface. The actuators include shafts rotatably located in the recesses correspondingly, and motors for driving the shafts. The separating boards are located above the carrying surface and securely connected to the shafts. The separating boards define chambers therebetween. The separating boards are capable of being rotated toward the carrying surface by the shafts. The gas guide grill is located above the base. The gas guide grill defines gas guide holes corresponding to the chambers respectively. | 11-10-2011 |
| 20110283938 | LENS BARREL COATING AID APPARATUS - A lens barrel coating aid apparatus includes a holder, a suction component and a suction source. The holder includes a holding surface, securing portions positioned on the holding surface to fix lens barrels, and a first positioning portion. The first positioning portions are formed on the holding surface, and spaced from the securing portions. The suction component includes a suction surface facing the holding surface and a second positioning portion corresponding to the first positioning portion. Suction holes are defined on the suction surface corresponding to the securing portions. The suction holes are configured to suck plugs to insert into or pull out of the lens barrels. The second positioning portions are formed on the suction surface, and spaced from the suction holes. The suction source is connected with the suction holes, and provides suction force to the suction holes. | 11-24-2011 |
| 20110283943 | VAPOR DEPOSITION APPARATUS - A vapor deposition apparatus includes a deposition chamber, an umbrella-shaped supporting member, a plurality of coating precursor sources. The umbrella-shaped supporting member is received in the deposition chamber. The supporting member is configured for supporting a number of workpieces. The coating precursor sources oppose the supporting member. Each coating precursor source includes a stationary sleeve and a moveable member moveably received in the stationary sleeve. The moveable member defines a recess for receiving a coating material in a top end of the moveable member opposing the supporting member. The moveable members are moveable relative to the respective stationary sleeve such that a distance between the supporting member and the coating material in each recess can be adjusted. | 11-24-2011 |
| 20110297602 | LIQUID PURIFYING APPARATUS AND SUBSTRATE CLEANING APPARATUS - An exemplary liquid purifying apparatus includes beads in contact with the liquid, a lighting element, and a driving member. Each bead has a purifying coating comprised of a nano material formed thereon. The lighting element has the beads positioned thereon. The driving member is configured for driving the lighting element to rotate, thereby rotating the beads in the liquid. | 12-08-2011 |
| 20110297607 | LIQUID PURIFYING APPARATUS - An exemplary liquid purifying apparatus includes beads in contact with the liquid, a rotating shaft, and a driving member. Each bead has a purifying coating comprised of a nano material. The rotating shaft has the beads positioned thereon and is configured for rotating the beads. The driving member is configured for driving the rotating shaft to rotate, thereby rotating the beads in the liquid. | 12-08-2011 |
| 20110308456 | COATING APPARATUS - A coating apparatus for coating a number of workpieces includes a deposition chamber, a reaction assembly, and a driving assembly. The deposition chamber includes a housing defining a cavity. The reaction assembly is received in the deposition chamber and includes an outer barrel, an inner barrel, a number of nozzles, and a number of pipes. The housing and the outer barrel define a reaction chamber therebetween. The outer barrel includes a main body and two protruding portions extending from the main body. The workpieces are positioned on the protruding portions. The main body and the inner barrel define a first room therebetween. The inner barrel defines a second room. The pipes communicate the second room with the reaction chamber. The nozzles communicate the first room with the reaction chamber. The driving assembly is connected to the reaction assembly and configured for rotating the reaction assembly in the cavity. | 12-22-2011 |
| 20110312252 | SANDBLASTING APPARATUS AND METHOD FOR SHAPING PRODUCT WITH SAME - A sandblasting apparatus includes a processing chamber, a sandblasting nozzle positioned on a top of the processing chamber, a support mechanism, an elevation mechanism, a worktable, and a cutting mechanism. The support mechanism is positioned in the processing chamber and opposite to the sandblasting nozzle. The support mechanism is used for supporting a template with a cutting pattern. The elevation mechanism is positioned on the bottom of the processing chamber. The worktable is located between the support mechanism and the elevation mechanism and configured for supporting a plate for processing and being opposite to the template. The center of worktable defines a through hole matching with the pattern of the template. The cutting mechanism is fixed on the elevation mechanism and faces the through hole. The elevation mechanism drives the cutting mechanism to move toward or away the worktable. | 12-22-2011 |
| 20110314983 | CUTTING DEVICE AND CUTTING APPARATUS HAVING SAME - A cutting device includes a fixing plate, a revolving cylinder, an annular cutting blade, and an ejection bar. The fixing plate defines a first through hole. The revolving cylinder is threadedly engaged in the first through hole and defines a second through hole. The cutting blade defines a third through hole and is attached to the revolving cylinder. The revolving cylinder is rotatable relative to the fixing plate to move the cutting blade between an extended position and a retracted position. In the extended position, the cutting blade cuts a surface of the workpiece to create a round blind crack in the surface thereof, a portion of the workpiece being surrounded by the blind crack. In the retracted position, the cutting blade is moved away from the workpiece. The ejection bar is configured for pushing the surrounded portion out of the workpiece. | 12-29-2011 |
| 20110314985 | CUTTING APPARATUS - A cutting apparatus includes a workpiece supplying member, a positioning mechanism, a transportation robot, and an annular cutting blade. The workpiece supplying member includes a number of slots for receiving a number of plate-shaped workpieces therein. The positioning mechanism includes a number of side surfaces and a number of recesses. The transportation robot is configured for unloading a workpiece from the workpiece supplying member, transporting the workpiece from the workpiece supplying member to the positioning mechanism, and loading the workpiece on the positioning mechanism. The positioning mechanism is rotatable about the central axis such that one of the side faces can be selectively oriented to face the transportation robot so as to load the workpiece transported by the transportation robot in the corresponding recess. The cutting blade is configured for cutting a workpiece loaded on the positioning mechanism. | 12-29-2011 |
| 20110318998 | POLISHING DEVICE - A polishing device includes an outer barrel, an inner barrel, polishing members, and an actuator. The outer barrel defines a chamber and includes inner surfaces substantially parallel to a central axis of the outer barrel. Each of the inner surfaces defines a holding groove for holding a workpiece. The inner barrel is received in the chamber and includes a side surface substantially parallel to the central axis. The side surface defines installation grooves. Each polishing member includes an elastic piece, a polishing motor connected to a bottom of a corresponding installation groove by the elastic piece and received in the corresponding installation groove, and a polishing plate connected to the polishing motor and capable of being driven to rotate by the polishing motor. The actuator is configured for driving the outer barrel to spin and move back and forth along the central axis. | 12-29-2011 |
| 20120006267 | APPARATUS FOR PROCESSING COATING MATERIAL AND EVAPORATION DEPOSITION DEVICE HAVING SAME - An apparatus for processing coating material includes a crucible having a cylindrical receptacle for receiving coating material, a drive member having a drive shaft, and a cover coupled to the drive shaft. The cover has a flat surface. The drive shaft is configured to drive the cover to rotate thereabout between a closed position where the cover covers the receptacle and the flat surface presses against the coating material to flatten the coating material, and an open position where the cover is moved away from the receptacle. | 01-12-2012 |
| 20120012050 | APPARATUS FOR PROCESSING COATING MATERIAL AND EVAPORATION DEPOSITION DEVICE HAVING SAME - An apparatus for processing coating material includes a crucible having a receptacle for receiving coating material, a drive member having a drive shaft, a cover coupled to the drive shaft, and a flame nozzle opposing the receptacle. The cover includes an inner chamber, a first through hole and a number of second through holes. The first through hole and the second through holes communicate with the inner chamber. The cover has a flat surface with the second through holes exposed at the flat surface. The drive shaft drives the cover to rotate between a closed position where the cover covers the receptacle and the flat surface presses against the coating material to flatten the coating material, and an open position where the cover is moved away from the receptacle. The flame nozzle sprays flame from the second through holes through the first through hole to heat the coating material. | 01-19-2012 |
| 20120012051 | DRUM COATING DEVICE - A drum coating device for coating work-pieces includes a main body, a support element, a cleaning device, a spraying device, a rotary drum device, a heating device, and a drive device. The main body defines a receiving room. The support element is received in the receiving room and defines slots for receiving the work-pieces. The cleaning device cleans the work-pieces. The spraying device sprays coating materials to the work-pieces. The rotary drum device uniformly coats the coating materials on the work-pieces. The heating device heats the coating materials coated on the work-pieces. The drive device includes a rotating drive rotating the support element and a linear drive raising or lowering the support element in the receiving room. | 01-19-2012 |
| 20120012056 | APPARATUS FOR PROCESSING COATING MATERIAL AND EVAPORATION DEPOSITION DEVICE HAVING SAME - An apparatus for processing coating material includes a crucible having a receptacle for receiving coating material, a drive member having a drive shaft, a cover coupled to the drive shaft, and a monitor system including a light source and a camera module. The cover includes a flat surface, a slot defined in the flat surface, a first through hole and a second through hole respectively communicating with opposite ends of the slot. The drive shaft drives the cover to rotate between a closed position where the cover covers the receptacle, and the flat surface presses and flattens the coating material, and an open position where the cover is moved away from the receptacle. The light source is for emitting light through the first through hole to illuminate the coating material. The camera module is for capturing images of the illuminated coating material through the second through hole. | 01-19-2012 |
| 20120015591 | GLASS MANUFACTURING DEVICE - A glass manufacturing device includes a working container, a loading device, a sand blower, a shielding device, and a supporting device. The loading device is received in the working container and configured for loading a glass substrate in place. The sand blower is arranged opposite to the loading device and configured for sandblasting the glass substrate. The supporting device is used for supporting the shielding device and pressing the shielding device onto the glass substrate during the process of sandblasting. The shielding device includes a shielding cover having a number of shielding units. The shielding units are configured to shield portions of the glass substrate and prevent the portions of the glass substrate from being cut during sandblasting. | 01-19-2012 |
| 20120021678 | CYLINDRICAL GRINDING AND POLISHING DEVICE - A cylindrical grinding and polishing device includes a main body defining a cavity, a polishing device, a cylindrical grinding device, a support device. The polishing device is received in the cavity, and includes a number of polishing wheels positioned along a first direction. The cylindrical grinding device is received in the cavity, and includes a grinding wheel positioned at an end of the cavity along a second direction substantially perpendicular to the first direction. The support device is received in the cavity, and includes a support plate for supporting a work-piece. The support device carries the work-piece to contact the polishing wheels or the grinding wheel. | 01-26-2012 |
| 20120037075 | COATING APPRATUS HAVING CONCENTRATION SENSOR - A coating apparatus includes an atomization chamber, a reaction chamber having an opening, an outputting chamber successively connected with each other. The coating apparatus also includes a gate, a concentration sensor and a control device. The atomization chamber atomizes a precursor. The reaction chamber receives a reactive gas for reacting with the atomized precursor. The gate is movable between a first position where the opening is closed by the gate and a second position where the opening is disengaged from the gate. The concentration sensor is located in the reaction chamber and senses a concentration of a product obtained in the reaction chamber. The control device is electrically connected with the concentration sensor, configured for comparing the concentration sensed by the concentration sensor with a prestored concentration value, and controlling the gate to move to the second position if the sensed product concentration is equal to the prestored concentration value. | 02-16-2012 |
| 20120037076 | MULTI-ENVIRONMENT COATING DEVICE - A coating device includes a main body defining a first and a second receiving rooms, a base received in the first receiving room for supporting work-pieces, a cleaning device opposing the first receiving room, a spraying device positioned on the top of the first receiving room for spraying coating materials to the work-pieces, a rotary drum device received in the first receiving room for uniformly coating the coating materials on the work-pieces, a heating device opposing the first receiving room for heating the coating materials to form a first film, a drive device for rotating, raising and lowering the base, a transportation device positioned in the second receiving room for transporting the base from the first receiving room to the second receiving room, a vacuum coating device opposing the second receiving room for coating a second film on the work-pieces after completing coating the first film on the work-pieces. | 02-16-2012 |
| 20120040593 | COATING AND CYLINDRICAL GRINDING APPARATUS - A coating and cylindrical grinding apparatus includes a main body defining a cavity, a roller device, a liquid jetting device, a heating device, a cylindrical grinding device, and a support device received in the cavity. The roller device includes a number of rollers positioned along a first direction and is used for coating a work-piece. The liquid jetting device is mounted above the roller device for ejecting coating liquid to the roller device. The heating device heats the work-piece. The cylindrical grinding device includes a grinding wheel positioned at an end of the cavity along a second direction substantially perpendicular to the first direction. The support device includes a support plate for supporting the work-piece, the support device is capable of carrying the work-piece to contact the rollers or the grinding wheel. | 02-16-2012 |
| 20120064807 | SANDBLASTING APPARATUS - A sandblasting apparatus includes a chamber defining a cavity, a support assembly received in the cavity, a first sandblasting assembly, and a second sandblasting assembly. The support assembly includes a plurality of pairs of elongated support plates for holding a plate-shaped workpiece therebetween. The support plates are moveable along a vertical direction and a first horizontal direction. The first sandblasting assembly is configured for spraying sand downwardly toward the plate-shaped workpiece so as to cut the plate-shaped workpiece into a plurality of workpiece stripes. The second sandblasting assembly is configured for spaying sand toward the workpiece stripes along a second horizontal direction perpendicular to the first horizontal direction so as to cut each of the workpiece stripes into workpiece block, and processing the workpiece blocks into cylindrical workpieces. | 03-15-2012 |
| 20120073499 | COATING DEVICE - A coating device includes a reaction device, a mixing device, a deposition device, a first switching device and a second switching device. The reaction device defines a reaction chamber. The mixing device is connected to the reaction device and defines a mixing chamber that communicates with the reaction chamber. The deposition device is connected to the mixing device and defines a deposition chamber that communicates with the mixing chamber. The first switching device is configured to communicate the reaction chamber and the mixing chamber and separate the reaction chamber from the mixing chamber. The second switching device is configured to communicate the mixing chamber and the deposition chamber and separate the mixing chamber from the deposition chamber. | 03-29-2012 |
| 20120073965 | MAGNET MOUNTING SYSTEM AND MAGNETRON SPUTTERING DEVICE HAVING SAME - A magnetron sputtering device includes a main body and a magnet mounting system for receiving magnets. The magnet mounting system comprises a first annular member, a second annular member coaxially encasing the first member, a third annular member coaxially encasing the second member, a first driving device connected to the first annular member, a second driving device connected to the second annular member, and a third driving device connected to the third annular member. The first driving device, the second driving device, and the third driving device are respectively configured for driving the first annular member, the second annular member, and the third annular member to move along an axis of the first annular member. | 03-29-2012 |
| 20120077423 | SANDBLASTING APPARATUS - A sandblasting apparatus for cutting a plate-shaped workpiece into a plurality of separate tablets includes a chamber defining a cavity, a support assembly received in the cavity, a sandblasting assembly for spraying sand toward the workpiece, a first mask located between the sandblasting assembly and the support assembly, a second mask located between the sandblasting assembly and the support assembly, and a mask switching member for selectively placing the first mask or the second mask over the workpiece. The support assembly is configured for supporting the workpiece and the tablets. The first mask cooperates with the sandblasting assembly to remove unwanted portions of the workpiece thus obtaining a tablet network consisting of a plurality of tablets and a plurality of connecting portions interconnected between the tablets. The second mask cooperates with the sandblasting assembly to remove the connecting portions of the tablet network thus obtaining a plurality of separated tablets. | 03-29-2012 |
| 20120088437 | GLASS MANUFACTURING DEVICE - A glass manufacturing device includes a work container, a loading device, a sandblaster, a shield device, and a lift device. The loading device is received in the work container and loads a glass substrate in place. The sandblaster is arranged opposite to the loading device and sandblasts the glass substrate. The lift device is connected to the shield device and used for pressing the shield device onto the glass substrate during the process of sandblasting. The shield device includes a shield cover having a number of shield units. The surfaces of the shield units facing the bottom of the work container are engaged with elastic washers. The shield units are configured to shield portions of the glass substrate and prevent the portions of the glass substrate from being cut during sandblasting. | 04-12-2012 |
| 20120090442 | GLASS CUTTING DEVICE - A glass cutting device includes a cutter, a driver, and an ejector. The cutter includes a connection tube, an annular blade base, and a blade. The annular blade base extends outward from an end of the connection tube along a direction substantially parallel to a radial direction of the connection tube. The blade extends from a surface of the blade base opposite to the connection tube along a direction substantially perpendicular to the radial direction of the connection tube. The driver drives the connection tube to spin and move toward a glass substrate to cut a circular glass from the glass substrate by the blade. The ejector is received in the connection tube and ejects the circular glass from the glass substrate. | 04-19-2012 |
| 20120097098 | COATING APPRATUS HAVING TWO COATING DEVICES FOR SUCCESSIVELY COATING SAME SURFACE OF SUBSTRATE - A coating apparatus includes a first coating device, a number of second coating devices and a number of substrate holders. Each of the substrate holders is rotatable relative to the first coating device and the second coating devices such that one of two opposite holding surfaces of the substrate holder alternately faces the first coating device and the second coating devices. | 04-26-2012 |
| 20120260956 | CLEANING DEVICE FOR CLEANING HOLDER OF LENS MODULE - A cleaning device for cleaning holders includes a chamber, a rotatable component, a lifting component, a support component, and a jetting component. The rotatable component is positioned on an inner surface of the chamber. One end of the lifting component is connected to the rotatable component, and another end of the lifting component is connected to the support component. The supporting component supports the holders. The jetting component is positioned on another inner surface of the chamber and faces the support component. The jetting component includes water guns. The rotatable component rotates the lifting component and the support component. The lifting component moves the support component to a position where each high pressure water gun inserts into a corresponding holder. | 10-18-2012 |
| 20120275872 | CIRCULAR GLASS ARTICLE FORMING APPARATUS - A circular glass article forming apparatus includes a supporting board, a slidable block and a circular glass article forming device. The supporting board has recesses for receiving glass plates to be treated, and two parallel first rails located at opposite sides of the recesses. The slidable block is slidable along the first rails. The slidable block has a second rail with a lengthwise direction substantially perpendicular to that of the first rails. The circular glass article forming device includes a supporting body slidable on the second rail, a first rotation motor and a second rotation motor both arranged on the supporting body, and a drill bit mounting device connected to the first rotation motor and having drill bits. The drill bit mounting device is capable of mounting a selected one of the drill bit to be connected to the second rotation motor. | 11-01-2012 |
| 20120285374 | EVAPORATION SOURCE WITH FLAME JETTING UNIT AND RELATED EVAPORATION DEPOSITION SYSTEM - An evaporation source includes a crucible chamber, a crucible, a driving unit, a flame jetting unit and an electron-beam emitting unit. The crucible is rotatably received in the crucible chamber, and contains a target material. The driving unit is located on a sidewall of the crucible chamber and drives the crucible to rotate. The flame jetting unit jets a flame to pre-heat the target material in the crucible. The electron-beam emitting unit emits an electron-beam to the crucible to evaporate the pre-heated target material. An evaporation deposition system using the evaporation source is also provided. | 11-15-2012 |
| 20120298034 | LOADING DEVICE FOR COATING PROCESS - A loading device which is used in coating processes includes a base, a loading plate, and a reversing assembly. The base includes an outer frame and a ring-shaped inner frame rotatably positioned on the outer frame. The loading plate defines a number of holes for loading components. The reversing assembly connects the inner frame to the loading plate. The reversing assembly includes two reversing motors and two shafts. The reversing motors are opposite to each other and fixed on the inner frame. The reversing shafts are opposite to each other and positioned in a straight line. One end of each reversing shaft is coupled with a corresponding reversing motor, the other end of each reversing shaft is fixed on the loading plate. The reversing shafts are driven by the reversing motors to reverse the loading plate relative to the inner frame. | 11-29-2012 |
| 20120301237 | CUTTING DEVICE FOR CUTTING LENSES - A cutting device includes a support base, a first slide module, a second slide module slidably connected to the first slide module, and a cutting module. The support base includes a support surface and a slide portion on the support surface. The first slide module is slidably positioned on the slide portion. The sliding direction of the second slide module is perpendicular to the sliding direction of the first slide module. The cutting module includes a fixed frame fixed on the second slide module, a driving device fixed on the fixed frame, and a cutter connected to the driving device. The driving device drives the cutter to rotate around a central axis of the cutter and move up and down along the central axis. The central axis is perpendicular to the support surface. The cutter includes a hollow cylindrical blade. An end surface of the blade faces the support surface. | 11-29-2012 |
| 20120312229 | APPARATUS FOR MAKING ELECTRODE OF DYE-SENSITIZED SOLAR CELL - An apparatus for making an electrode of a dye-sensitized solar cell, includes a dye container, a number of nozzles, a roller and a number of holders. The dye container has a chamber for receiving a dye material, and the chamber has a top wall and a number of through holes formed through the top wall. The nozzles each have an opening facing toward a substrate to be formed into the electrode and configured for jetting a working material to the substrate. The roller rolls the working material on the substrate. The holders are rotatably mounted on the top wall and each hold a corresponding substrate to first receive the working material and then to be submerged into the dye material through one of the through holes of the dye container by rotation, thereby obtaining the electrode of a dye-sensitized solar cell. | 12-13-2012 |
| 20130008505 | ADJUSTABLE SOLAR POWER GENERATION APPARATUS - An adjustable solar power generation apparatus includes a solar power generation unit, a base, and a supporting bar supporting the base. The base accommodates the solar power generation unit. The supporting bar supports the base. The solar power generation unit includes a fixed lens unit and a solar cell. The fixed lens unit includes a converging lens to converge sunlight. The solar cell is located in the fixed lens unit, and is capable of moving toward or away from the converging lens to adjust the light intensity received by the solar cell. | 01-10-2013 |
| 20130012109 | POLISHING DEVICE - A polishing device is used for polishing at least one workpiece and includes a bracket, at least one loading device, a number of polishing tools having different roughness, a number of first driving devices, a supporting device, and a second driving device. The at least one loading device is positioned on the bracket, and is used for loading the at least one workpiece. Each first driving device is used for driving a respective one of the polishing tools to rotate to polish one workpiece. The supporting device is connected to the bracket, and is used for loading the polishing tools and the first driving devices. The second driving device is connected to the supporting devices, and is used for driving the supporting device to rotate to select a proper one of the polishing tools. | 01-10-2013 |
| 20130022934 | WAX-RECOVERY APPARATUS - A wax-recovery apparatus for collecting wax from one or more composite columns of glass lenses stuck together using wax. The wax-recovery apparatus includes a first conveyer, at least one holding mechanism, a heating device and a controller. The first conveyer includes a first conveyer belt having a carrying surface. The heating device is assembled adjacent to the carrying surface for heating the carrying surface and melting the wax. The controller is connected with the holding mechanism and the first conveyer for controlling the holding mechanism and the first conveyer to periodically work. | 01-24-2013 |
| 20130067720 | METHOD FOR ASSEMBLING LENS MODULE - A method for assembling a lens module is provided. The lens module includes a lens barrel, a lens holder, a lens and a filter. The lens barrel includes a first portion and a second portion. The method for assembling the lens module includes the steps of; providing a tray which defines a plurality of perforations, each of which is for accommodating the lens barrel; spreading glue on the second portion, and affixing the filter on the second portion by means of glue; solidifying the glue; cleaning the inside of the lens barrel after the filter is mounted on the second portion; cutting the filter into a plurality of filter portions whose shape matches the shape of the second portion; and placing the lens holder with the lens into the lens barrel complete with a filter portion after the lens barrel has been cleaned. | 03-21-2013 |
| 20130074926 | SOLAR ENERGY CONVERTING DEVICE - A solar energy application device, comprising: a solar cell panel comprising a light receiving surface; an electrochromic unit provided on the light receiving surface; and a heat collection device electronically connected to the electrochromic unit; wherein a color of the electrochromic unit changes between a transparent state to a darkened state; wherein in the transparent state of the electrochromic unit, light is incident on the light receiving surface, and the solar cell panel converts the light into electricity; and wherein in the darkened state of the electrochromic unit, the electrochromic unit absorbs the ray to generate heat and then transmits the heat to the heat collection device. | 03-28-2013 |
| 20130104761 | SPRAYING AND PRINTING DEVICE | 05-02-2013 |
| 20130104801 | MASK FOR USE IN EVAPORATION COATING DEVICE | 05-02-2013 |
| 20130106040 | LENS DEWAXING DEVICE | 05-02-2013 |
| 20130112139 | MASK FOR USE IN EVAPORATION COATING PROCESS - A mask includes a base board, a number of wing boards, and aluminum foil. The wing boards are detachably attached to the base board in pairs, in a certain disposition and order and are rotatable relative to the base board in a substantially coplanar manner. The aluminum foil wraps around the base board and the wing boards so as to achieve a contour that is cooperatively defined by the base board and the wing boards. | 05-09-2013 |
| 20130120823 | LENS MODULE WITH INFRARED ABSORBING FILTER - A lens module includes an infrared absorbing filter. The infrared absorbing filter includes an electrochromic substrate. The electrochromic substrate changes from colorlessness to blue when a preset voltage is applied on the electrochromic substrate. The electrochromic substrate is configured for absorbing the infrared constituent of incoming light rays when the color is changed to blue. | 05-16-2013 |
| 20130139857 | AUTOMATIC WAX REMOVING DEVICE AND AUTOMATIC WAX REMOVING METHOD USING SAME - An automatic wax removing device includes a base, a heating plate, a cooling plate, a first actuator, a second actuator, and an operation plate. The base includes a base plate and a framework. The heating plate is arranged on the base plate. The cooling plate is arranged on the base plate and separated from the heating plate. The first actuator includes a sliding rail and a elongated sliding member on the sliding rail. The sliding rail is fixed on the frame and parallel with the heating plate. The second actuator includes a main body and a rotation shaft arranged on the main body. The main body is slideable along the length of the sliding member. One end of the rotation shaft is connected to the main body. The operation plate is fixed to the other end of the rotation shaft. | 06-06-2013 |
| 20130140428 | MOLD CORE AND METHOD FOR MANUFACTURING THE MOLD CORE - A method for manufacturing a mold core includes the following steps: providing a body having a forming surface; forming an iridium dioxide layer preform on the forming surface to obtain a mold core preform; and reducing iridium dioxide of a surface of the iridium dioxide layer preform into iridium, so that the iridium dioxide layer preform is converted to an iridium dioxide layer and an iridium layer formed on the iridium dioxide layer to obtain the mold core. | 06-06-2013 |
| 20130141771 | LENS MODULE WITH INFRARED ABSORBING FILTER - A lens module includes an optical element and an infrared absorbing filter covering on the optical element. The infrared absorbing filter includes an electrochromic substrate. The electrochromic substrate changes from colorlessness to blue and absorbs the infrared constituent of incoming light when a preset voltage is applied on the electrochromic substrate. | 06-06-2013 |
| 20130160624 | GLASS CUTTING MACHINE - A glass cutting machine includes a worktable, a cutting mechanism positioned above the worktable, and a plurality of grasping assemblies rotatably positioned on the worktable for transporting glass plates. Each grasping assembly includes a support shaft rotatably received in the worktable, a positioning bar fixed to an end of the support shaft, and one or more grasping members positioned on the positioning bar. The worktable includes several rotating members, and each rotating member includes a support disc that can be rotated to drive the glass plate to rotate. | 06-27-2013 |
| 20130180987 | LID FOR USE IN ION BEAM ASSISTED DEPOSITION - A lid includes a first surface defining a cavity, a first joint defining an inlet, a second joint defining an outlet, a center hole communicating with the inlet, a circular channel communicating with the outlet and extending along a periphery of the first surface, and a number of branch channels radially extending from the center hole to the circular channel. The first surface includes a screen plate retained within the cavity, capable of letting the side-effect particles adhere thereon. Each of the plurality of branch channels communicates with the center hole and the circular channel, allowing liquid of a predetermined temperature to circulate within the lid. | 07-18-2013 |
| 20130228121 | ADJUSTABLE MASK FOR USE IN OPTICAL COATING PROCESS - A mask for use in an optical evaporation coating includes a main shaft, a number of horizontal rods, a number of pairs of shielding sheets, and a number of adjustment members. The horizontal rods are vertically fixed on the main shaft, and each horizontal has a scale thereon. A pair of shielding sheets is connected to the two ends of each horizontal rod, and can slide along the horizontal rod. The shape of the mask can be accurately adjusted using the adjustment members to ensure masks covered with aluminum foil by different workers have the same shape. | 09-05-2013 |
| 20130247786 | SCREEN PRINTING MACHINE - A screen printing machine includes a supporting member, a printing mechanism, and a spraying mechanism. The supporting member includes a supporting surface, a number of cavities defined in the supporting surface to receive a number of substrates, and a number of screens detachably covering the plurality of cavities. The printing mechanism includes a guide plate located above the screens, a sliding device slidably connected to the guide plate, a roller rotatably connected to the sliding device, and a squeegee. The sliding device is configured to drive the roller to roll across and the squeegee to slide across the screens. The spraying mechanism is located at one side of the supporting member for dispensing printing material onto the press roller. | 09-26-2013 |
| 20130258455 | OPTICAL ELEMENT WITH INFRARED ABSORBING LAYER AND LENS MODULE INCLUDING SAME - An optical element includes a transparent substrate and an infrared absorbing layer on an object-side surface of the transparent substrate. The infrared absorbing layer is a thermo sensitive ink printed or deposited on the transparent substrate. The thermo sensitive ink is cured to blue color. | 10-03-2013 |
| 20130335625 | LENS WITH SAPPHIRE SUBSTRATE AND LENS MODULE - A lens includes a substrate and an infrared-cut (IR-cut) filtering film. The substrate is made of sapphire, is configured for converging or diffusing light rays and includes an object-side surface and an image-side surface opposite to the object-side surface. The IR-cut filtering film increases the reflectivity of the substrate in relation to infrared light, and is coated on the image-side surface of the substrate. | 12-19-2013 |
| 20130340676 | COATING AUXILIARY DEVICE - A coating auxiliary device, for coating hollow workpieces, includes a loading tray, masking stoppers, and an ejecting plate. The loading tray includes a loading surface, a matching surface opposite to the loading surface, and engaging portions extending up from the loading surface. Each workpiece is engaged with an engaging portion. The loading device defines guiding holes. Each guiding hole passes through an engaging portion and the matching surface and is in communication with the respective workpiece. Each masking stopper is configured to be inserted into a respective workpiece to mask an interior of the respective workpiece. The ejecting plate includes an assembling surface and ejecting rods extending up from the assembling surface. Each ejecting rod is configured to be guided into a respective guiding hole from the matching surface to eject out a respective masking stopper. | 12-26-2013 |
| 20130343702 | OPTICAL FIBER ASSEMBLY HAVING FIBER BRAGG GRATING - An optical fiber assembly includes an optical fiber and a lens. The optical fiber defines a receiving groove in an end surface thereof. The lens is held in the receiving groove and includes a substrate and a Bragg grating. The Bragg grating includes a number of film layers stacked on the substrate. | 12-26-2013 |
| 20140002429 | SYSTEM AND METHOD FOR SETTING BACKGROUND IMAGE OF DISPLAY MODULE | 01-02-2014 |
