Patent application number | Description | Published |
20090251909 | TAIL LIGHT - A tail light for an automobile includes a plurality of first illuminating elements and a plurality of second illuminating elements. The first illuminating elements are arranged to form a logo pattern of the automobile, and each of the first and second illuminating elements are configured for providing an adjustable illuminating brightness. The tail light is capable of selectively operating between a braking state and a non-braking state. In the braking state, the illuminating brightness of the first illuminating elements is greater than that of the second illuminating elements. In the non-braking state, the illuminating brightness of the first illuminating elements is less than that of the second illuminating elements. | 10-08-2009 |
20090256056 | DEVICE FOR MANUFACTURING LENSES - A device for manufacturing lenses includes a tray, a cover, and a sheet. The tray defines supporting holes arranged in rows and columns. The cover defines through holes arranged in rows and columns. The sheet is positioned between the tray and the cover, and defines restricting passages. Each of the plurality of restricting passages corresponds to a column of corresponding supporting holes and a column of corresponding through holes. | 10-15-2009 |
20090257238 | AUTOMATIC ILLUMINATING APPARATUS AND METHOD FOR MOTOR VEHICLES - The present invention relates to an automatic illuminating apparatus for motor vehicles. The apparatus includes an illumination device for emitting light beams, comprising a first light emitting member for emitting light beams in daytime and a controlling device electrically connected with the illumination device. The controlling device includes a sensor for sensing whether the vehicle is in motion, a time recording module for recording current time, a memory for storing an illumination period of the first light emitting member, a processor for analyzing whether the current time is in the illumination period which is electrically connected with the time recording module, the memory and the processor, and a controlling module for controlling the first light emitting member emitting light beams based on an analyzed result from the processor. | 10-15-2009 |
20090264055 | ROLLING MACHINE - A rolling machine includes a first clipping component, a second clipping component, a lifting component, and a holding assembly. The first clipping component has a first surface and a second surface opposite to the first surface. The second clipping component has a third surface configured to contact the first surface and a fourth surface opposite to the third surface. The lifting component is connected to the first clipping component and configured to drive the first clipping component to move back and forth. The holding assembly has a first and second holders configured to be symmetrically positioned on both sides of the first clipping component. | 10-22-2009 |
20090290357 | STREET LAMP - An exemplary street lamp for being stalled on the ground includes a light source, a light pervious member and a direction indicator. The light pervious member includes a light incident surface and an opposite light emitting surface for facing the ground. The light source is arranged opposite to the light incident surface. The direction indicator is arranged on the light pervious member for projecting the shadow thereof on the ground to indication a direction at the geographic location of the street lamp. | 11-26-2009 |
20090295054 | SUPPORT DEVICE FOR SPUTTERING MACHINE - A support device used in sputtering machine includes a chamber housing, a frame, at least one holding device, a first and second driving assemblies. The frame is rotatably mounted in the chamber housing. The holding device is rotatably mounted on the frame. The first driving assembly is received in the chamber housing and includes a first motor mounted on the chamber housing and a first shaft installed on the first motor. The first driving assembly is configured for driving the frame rotating in a plane by the first shaft. The second driving assembly is received in the chamber housing and includes a second motor mounted on the chamber housing and second shaft installed on the second motor. The second shaft adjacently parallels to the first shaft. The second driving assembly is configured for driving the at least one holding device rotating in a plane perpendicular to the rotating plane of the frame. | 12-03-2009 |
20100116654 | FILM COATING APPARATUS - An exemplary film coating holder includes a main body, a holding member, a first target electrode, a second target electrode and a driving module. The main body defines a chamber therein. The holding member receives in the chamber and has a plurality of through holes. The through holes being configured for receiving workpieces to be coated. The first target electrode and the second target electrode disposed on the main body and configured for supporting a first target material and a second target material respectively. The driving member is disposed on the main body and mechanically coupled with the holding member, and configured for driving the holding member to rotate about a horizontally oriented axis, thus the first targeted material and the second targeted material can be respectively deposit on opposite sides of each of the workpieces. | 05-13-2010 |
20100134878 | LENS MODULE WITH INFRARED-CUT FILTER AND INFRARED-PASS FILTER - An exemplary lens module includes a barrel receiving a lens system therein, an infrared-cut filter, an infrared-pass filter, and a switching mechanism. The switching mechanism includes a connecting member interconnecting the infrared-cut filter and the infrared-pass filter, a first magnetic member fixed at the barrel, and a second magnetic member fixed at the connecting member. The first and second magnetic members are configured for driving the connecting member to move relative to the barrel so as to selectively bring either the infrared-cut filter or the infrared-pass filter into optical alignment with the lens system in the barrel. | 06-03-2010 |
20100151271 | MULTILAYER SUBSTRATE - A multilayer substrate includes a base layer, a coating layer and an intermediate layer positioned between the base layer and the coating layer. The intermediate layer contains chromium and nitrogen. A content of the chromium in the intermediate layer gradually decreases from the base layer to the coating layer. | 06-17-2010 |
20100271190 | ROAD TRAFFIC MIRROR WITH ACTIVE INDICATING MODULE - An exemplary road traffic mirror includes a casing, a mirror, a monitor, a processor, and an indicating module. The mirror and the hollow casing define a chamber therein, and the mirror includes a transparent glass and a reflection film formed on the transparent glass, wherein the reflection film is a narrow band pass film. The monitor is configured to automatically monitor road conditions and generate corresponding road condition signals. The processor is configured to analyze the road condition signals, and to generate switching signals. The indicating module is received in the chamber and facing the mirror, wherein the indicating module is configured to be activated by the switching signal and emit corresponding light rays, the light rays of the indicating module passing through the reflection film and forming an indication sign on the outside of the road traffic mirror. | 10-28-2010 |
20100271760 | MULTI-LAYER FILM AND ELECTRONIC DEVICE SHELL WITH SAME - An exemplary multi-layer film includes a top layer, a bottom layer and medium layer. The top layer is configured for reflecting part of incident light to be a first reflected light and allowing another part of the incident light to transmit therethrough. The bottom layer is capable of clinging to the substrate, and is configured for reflecting the transmitted light to be a second reflected light. The medium layer is sandwiched between the top layer and the bottom layer, and is configured for controlling a light path difference between the first reflected light and the second reflected light, such that the first and second reflected lights interfere with each other and provide the multi-layer film with a desired color appearance. | 10-28-2010 |
20100295452 | LIGHT EMITTING DIODE STREET LAMP WITH SENSORS - An exemplary light emitting diode street lamp includes a light emitting diode array, a brightness sensor, a humidity sensor, and a controlling system. The brightness sensor senses the brightness of the environment. The humidity sensor senses the humidity of the environment. The controlling system is electrically connected to the light emitting diode array, the humidity sensor and the brightness sensor. Three ranges of humidity and three ranges of brightness are predefined in the controlling system. The controlling system controls the light emitting diode array to emit an amount of light according to a relationship between the sensed humidity value and the humidity ranges, and according to a relationship between the sensed brightness value and the brightness ranges. | 11-25-2010 |
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 |
20110036708 | MAGNETRON SPUTTERING DEVICE - An exemplary magnetron sputtering device includes a target, a magnet arrangement, and a driving system. The target defines a magnet-receiving space therein. The magnet arrangement is received within the magnet-receiving space. The driving system is configured for driving the magnet arrangement to spin and move back and forth. | 02-17-2011 |
20110048933 | GAS-INPUTTING DEVICE FOR VACUUM SPUTTERING APPARATUS - A gas-inputting device for a vacuum sputtering apparatus includes at least one tapered tube. Each tapered tube includes a open end, a closed end, and a conical surface. The small end is configured for introducing gas into the tapered tube. The large end opposes to the open end. Each of the at least one tapered tube tapers from the closed end to the open end. The conical surface connects the open end to the closed end. A plurality of gas holes of a same size are defined in the conical surface and equidistantly arranged along the center axis of the tapered tube from the open end to the closed end. | 03-03-2011 |
20110056830 | SPUTTERING DEPOSITION APPARATUS - A sputtering type deposition apparatus includes a chamber device and a target. The chamber device defines an access chamber, a first entrance from exterior to the access chamber, a depositing chamber, and a second entrance from the access chamber to the depositing chamber. The chamber device includes an access door, a separating door, and a carrier. The access door is disposed at the first entrance and configured to open or close the first entrance. The separating door is disposed at the second entrance and configured to open or close the second entrance. The carrier is disposed in the access chamber and configured to carry a substrate from the access chamber to the depositing chamber. The target is received in the depositing chamber. | 03-10-2011 |
20110174607 | COLORED DEVICE CASING AND SURFACE-TREATING METHOD FOR FABRICATING SAME - A colored device casing includes a base, a color layer and a bonding layer. The base has at least one smooth region. The bonding layer is positioned between the base and the color layer and bonds the base and color layer together. The color layer includes at least one metal layer. A portion of the color layer corresponding to and located over the smooth region has a value for L* in a range from about 70.44 to about 72.44, a value for a* in a range from about −7.84 to about −6.84 and a value for b* in a range from about −8.57 to about −7.57 according to the Commission Internationale del'Eclairage LAB system. A surface-treating method for fabricating the colored casing is also provided. | 07-21-2011 |
20110174612 | SPUTTERING APPARATUS WITH ROTATABLE SPUTTERING TARGET - A sputtering apparatus includes a chamber including a first sidewall and defining a number of evenly spaced first through holes on the first sidewall, a number of slide rails radially extending outwards from the first sidewall corresponding to each first through hole, a number of target holders defining at least two sputtering faces and slidably engaged with the slide rails, and a target material mounting on the sputtering faces. The target holder includes a shaft; the sputtering face capable of rotating about the shaft. The target holders are fastened to the first sidewall with one of the sputtering faces facing the first through hole, the sputtering face capable of being replaced by rotating about the shaft. | 07-21-2011 |
20110174661 | COLORED DEVICE CASING AND SURFACE-TREATING METHOD FOR FABRICATING SAME - A colored device casing includes a base, a color layer and a bonding layer. The base has at least one smooth region. The bonding layer is positioned between the base and the color layer and bonds the base and the color layer together. The color layer includes at least one metal layer. A portion of the color layer corresponding to and located over the smooth region has a value of L* in a range from about 40.34 to about 42.34, a value of a* in a range from about 0.11 to about 1.11 and a value of b* in a range from about 2.24 to about 3.24 according to the Commission Internationale del'Eclairage LAB system. A surface-treating method for fabricating the colored casing is also provided. | 07-21-2011 |
20110174662 | COLORED DEVICE CASING AND SURFACE-TREATING METHOD FOR FABRICATING SAME - A colored device casing includes a base, a color layer and a bonding layer. The base has at least one smooth region. The bonding layer is positioned between the base and the color layer and bonds the base and color layer together. The color layer includes at least one metal layer. Portion of the color layer corresponding to and located over the smooth region has a value of L* in a range from about 17.93 to about 19.93, a value of a* in a range from about 23.74 to about 24.74 and a value of b* in a range from about 2.20 to about 3.20 according to the Commission Internationale del'Eclairage LAB system. A surface-treating method for fabricating the colored casing is also provided. | 07-21-2011 |
20110174663 | COLORED DEVICE CASING AND SURFACE-TREATING METHOD FOR FABRICATING SAME - A colored device casing includes a base, a color layer and a bonding layer. The base has at least one smooth region. The bonding layer is positioned between the base and the color layer and bonds the base and the color layer together. The color layer includes at least one metal layer. Portion of the color layer corresponding to and located over the smooth region has a value of L* in a range from about 57.57 to about 59.57, a value of a* in a range from about 1.04 to about 2.04 and a value of b* in a range from about 6.64 to about 7.64 according to the Commission Internationale del'Eclairage LAB system. A surface-treating method for fabricating the colored casing is also provided. | 07-21-2011 |
20110174664 | COLORED DEVICE CASING AND SURFACE-TREATING METHOD FOR FABRICATING SAME - A colored device casing includes a base, a color layer and a bonding layer. The base has at least one smooth region. The bonding layer is positioned between the base and the color layer and bonds the base and the color layer together. The color layer includes at least one metal layer. Portion of the color layer corresponding to and located over the smooth region has a value of L* in a range from about 81.59 to about 83.59, a value of a* in a range from about −0.55 to about 0.45 and a value of b* in a range from about −0.60 to about 0.40 according to the Commission Internationale del'Eclairage LAB system. A surface-treating method for fabricating the colored casing is also provided. | 07-21-2011 |
20110174666 | COLORED DEVICE CASING AND SURFACE-TREATING METHOD FOR FABRICATING SAME - A colored device casing includes a base, a color layer and a bonding layer. The base has at least one smooth region, and the color layer is located over the smooth region of the base. The color layer includes titanium, and has a value for L* in the range from 51.55 to 52.55, a value for a* in the range from 13.12 to 14.12 and a value for b* in the range from 6.27 to 7.27 according to the Commission Internationale del'Eclairage, (CIE, International Commission on Illumination) LAB system. The bonding layer is located between the substrate and the color layer, providing adhesion therebetween. A surface-treating method for fabricating the colored casing is also provided. | 07-21-2011 |
20110174667 | COLORED DEVICE CASING AND SURFACE-TREATING METHOD FOR FABRICATING SAME - A colored device casing includes a base, a color layer and a bonding layer. The base has at least one smooth region. The bonding layer is positioned between the base and the color layer and bonds the base and color layer together. The color layer includes at least one metal layer. A portion of the color layer corresponding to and located over the smooth region has a value of L* in a range from about 32.51 to about 34.51, a value of a* in a range from about −8.74 to about −7.74 and a value of b* in a range from about −12.39 to about −11.39 according to the Commission Internationale del'Eclairage LAB system. A surface-treating method for fabricating the colored casing is also provided. | 07-21-2011 |
20110174668 | COLORED DEVICE CASING AND SURFACE-TREATING METHOD FOR FABRICATING SAME - A colored device casing includes a base, a color layer and a bonding layer. The base has at least one smooth region. The bonding layer is positioned between the base and the color layer and bonds the base and color layer together. The color layer includes at least one metal layer. A portion of the color layer corresponding to and located over the smooth region has a value of L* in a range from about 50.77 to about 52.77, a value of a* in a range from about −0.93 to about 0.07 and a value of b* in a range from about −1.26 to about −0.26 according to the Commission Internationale del'Eclairage LAB system. A surface-treating method for fabricating the colored casing is also provided. | 07-21-2011 |
20110174669 | COLORED DEVICE CASING AND SURFACE-TREATING METHOD FOR FABRICATING SAME - A colored device casing includes a base, a color layer and a bonding layer. The base has at least one smooth region. The bonding layer is positioned between the base and the color layer and bonds the base and color layer together. The color layer includes at least one metal layer. Portion of the color layer corresponding to and located over the smooth region has a value of L* in a range from about 59.12 to about 61.12, a value of a* in a range from about 0.17 to about 1.17 and a value of b* in a range from about 2.40 to about 3.40 according to the Commission Internationale del'Eclairage LAB system. A surface-treating method for fabricating the colored casing is also provided. | 07-21-2011 |
20110174670 | COLORED DEVICE CASING AND SURFACE-TREATING METHOD FOR FABRICATING SAME - A colored device casing includes a base, a color layer and a bonding layer. The base has at least one smooth region. The bonding layer is positioned between the base and the color layer and bonds the base and color layer together. A portion of the color layer corresponding to and located over the smooth region has a value of L* in a range from about 81.43 to about 83.43, a value of a* in a range from about 0.30 to about 1.30 and a value of b* in a range from about 2.11 to about 3.11 according to the Commission Internationale del'Eclairage LAB system. A surface-treating method for fabricating the colored casing is also provided. | 07-21-2011 |
20110174671 | COLORED DEVICE CASING AND SURFACE-TREATING METHOD FOR FABRICATING SAME - A colored device casing includes a base, a color layer and a bonding layer. The base has at least one smooth region. The bonding layer is positioned between the base and the color layer and bonds the base and color layer together. A portion of the color layer corresponding to and located over the smooth region has a value of L* in a range from about 36.54 to about 38.54, a value of a* in a range from about 0.04 to about 1.04 and a value of b* in a range from about 1.88 to about 2.88 according to the Commission Internationale del'Eclairage LAB system. A surface-treating method for fabricating the colored casing is also provided. | 07-21-2011 |
20110174672 | COLORED DEVICE CASING AND SURFACE-TREATING METHOD FOR FABRICATING SAME - A colored device casing includes a base, a color layer and a bonding layer. The base has at least one smooth region. The bonding layer is positioned between the base and the color layer and bonds the base and color layer together. A portion of the color layer corresponding to and located over the smooth region has a value of L* in a range from about 49.07 to about 51.07, a value of a* in a range from about 0.19 to about 1.19 and a value of b* in a range from about 1.94 to about 2.94 according to the Commission Internationale del'Eclairage LAB system. A surface-treating method for fabricating the colored casing is also provided. | 07-21-2011 |
20110174673 | COLORED DEVICE CASING AND SURFACE-TREATING METHOD FOR FABRICATING SAME - A colored device casing includes a base, a color layer and a bonding layer. The base has at least one smooth region. The bonding layer is positioned between the base and the color layer and bonds the base and color layer together. A portion of the color layer corresponding to and located over the smooth region has a value of L* in a range from about 81.76 to about 83.76, a value of a* in a range from about −0.63 to about 0.37 and a value of b* in a range from about −1.04 to about −0.04 according to the Commission Internationale del'Eclairage LAB system. A surface-treating method for fabricating the colored casing is also provided. | 07-21-2011 |
20110174674 | COLORED DEVICE CASING AND SURFACE-TREATING METHOD FOR FABRICATING SAME - A colored device casing includes a base, a color layer and a bonding layer. The base has at least one smooth region. The bonding layer is positioned between the base and the color layer and bonds the base and color layer together. A portion of the color layer corresponding to and located over the smooth region has a value of L* in a range from about 51.00 to about 53.00, a value of a* in a range from about −1.04 to about −0.04 and a value of b* in a range from about 1.88 to about 2.88 according to the Commission Internationale del'Eclairage LAB system. A surface-treating method for fabricating the colored casing is also provided. | 07-21-2011 |
20110175500 | COLORED DEVICE CASING AND SURFACE-TREATING METHOD FOR FABRICATING SAME - A colored device casing includes a base, a color layer and a bonding layer. The base has at least one smooth region. The bonding layer is positioned between the base and the color layer and bonds the base and color layer together. A portion of the color layer corresponding to and located over the smooth region has a value of L* in a range from about 75.26 to about 77.26, a value of a* in a range from about 0.42 to about 1.42 and a value of b* in a range from about 9.36 to about 10.36 according to the Commission Internationale del'Eclairage LAB system. A surface-treating method for fabricating the colored casing is also provided. | 07-21-2011 |
20110177351 | COLORED DEVICE CASING AND SURFACE-TREATING METHOD FOR FABRICATING SAME - A colored device casing includes a base, a color layer and a bonding layer. The base has at least one smooth region. The bonding layer is positioned between the base and the color layer and bonds the base and color layer together. The color layer includes at least one metal layer. Portion of the color layer corresponding to and located over the smooth region has a value for L* in a range from about 18.14 to about 19.14, a value for a* in a range from about 13.39 to about 14.39 and a value for b* in a range from about −32.46 to about −31.46 according to the Commission Internationale del'Eclairage LAB system. A surface-treating method for fabricating the colored casing is also provided. | 07-21-2011 |
20110177357 | COLORED DEVICE CASING AND SURFACE-TREATING METHOD FOR FABRICATING SAME - A colored device casing includes a base, a color layer and a bonding layer. The base has at least one smooth region. The bonding layer is positioned between the base and the color layer and bonds the base and color layer together. The color layer includes titanium. Portion of the color layer corresponding to and located over the smooth region has a value of L* in a range from about 39.68 to about 41.68, a value of a* in a range from about 4.80 to about 5.80 and a value of b* in a range from about 6.88 to about 7.88 according to the Commission Internationale del'Eclairage, (CIE, International Commission on Illumination) LAB system. A surface-treating method for fabricating the colored casing is also provided. | 07-21-2011 |
20110247553 | COATING DEVICE - A coating device includes two workspaces, two first slide rails, two second slide rails, two transporting loops, a number of rotating platforms, and a number of loading poles. The first slide rails are respectively fixed on the bottoms of the workspaces. The second slide rails are respectively fixed on the tops of the workspaces. The transporting loops are movably positioned on the first slide rails respectively. The rotating platforms are rotatably positioned on the transporting loops and capable of being driven by the transporting loops to rotate and slide along the first slide rails. The loading poles are positioned between the rotating platforms and the second slide rails, and are used for holding substrates. The loading poles are capable of being transported from one workspace to another workspace. | 10-13-2011 |
20110253530 | SUBSTRATE HOLDING DEVICE AND SPUTTERING APPARATUS HAVING SAME - A holding device includes a spindle, a number of aligned adapting members and a number of holders. The adapting members are mounted on the spindle. Each holder is movably coupled with a corresponding adapting member such that the distance between each holder and the spindle is adjustable. | 10-20-2011 |
20110315078 | COATING SYSTEM - A coating system includes a housing, a coating umbrella, a lift driver, a target material source, and a control device. The housing includes a ceiling and a floor. The coating umbrella is configured for receiving a number of workpieces and is suspended from the ceiling. The lift driver is positioned on the floor of the housing and includes a cylinder and a supporting board connected to the cylinder. The cylinder capable of raising or lowering the supporting board in the housing. The target material source is supported on the supporting board and includes a crucible for receiving a target material. The control device is received in the housing and is electrically connected to the lift driver to control the movement of the lift driver to maintain the distance between the coating umbrella and the target material unchanged. | 12-29-2011 |
20120085283 | CORRECTION PLATE AND COATING DEVICE USING SAME - A correction plate includes a supporting plate, a first moving blade array, a second moving blade array, a number of driving devices, and a control module. The first moving blade array and the second moving blade array are located at two opposite sides of the supporting plate. Each of the first moving blade array and the second moving blade array includes a number of blades aligned with each other. The driving devices are positioned on the supporting plate and connected to the blades correspondingly. The control module controls the driving devices to drive the blades to protrude from the two opposite sides of the supporting plate. | 04-12-2012 |
20120160162 | COATING DEVICE - A coating device includes a shell, a plurality of shaft groups, a plurality of first bases, a second base, and a driving device. The shell defines a coating chamber. The shaft groups are parallelly arranged in a first circle and housed in the coating chamber. Each shaft group includes a plurality of holding shafts parallelly arranged in a second circle and configured for holding workpieces. The first bases are housed in the coating chamber and surround the shaft groups. The second base is housed in the coating chamber and surrounded by the shaft groups. The first and second bases are configured for receiving targets. The driving device is configured for driving each holding shaft to spin. | 06-28-2012 |
20120222957 | COATING DEVICE - A coating device includes a rotatable base, a board for holding workpieces, a positioning shaft positioned on the rotatable base, two eccentric wheels, a rack, and two reciprocating shafts. The two eccentric wheels are fixed on the positioning shaft and extend from the positioning shaft along two opposite directions. The two eccentric wheels are parallel to and spaced from each other. The rack is rotatably connected to the rotatable base. The rack is capable of rotating around the positioning shaft. Each reciprocating shaft is positioned on the rack. Each reciprocating shaft includes a hinge portion rotatably connected to an end of the board and a sliding portion slidably connected to the edge of a corresponding eccentric wheel. The two eccentric wheels are capable of driving the two reciprocating shafts to move alternately toward and away from the positioning shaft along radial directions of the positioning shaft. | 09-06-2012 |
20130222894 | INFRARED ABSORBING FILTER AND LENS MODULE HAVING SAME - An infrared absorbing filter includes a glass plate molded by melting a composition of raw materials and cooling the melted composition. The composition of raw materials includes 28-33 by percentage weight (wt %) of phosphorus pentoxide (P | 08-29-2013 |
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 |