Abstract: The present invention discloses an LCD display device, a backlight module and a back plate component thereof. The had plate component includes a movable part and an arm part. The movable part includes a loading part and an erection part, where the loading part is used for loading the light guiding plate and comprises a first guiding part, and the erection part is used for setting up the light source. The arm part includes a second guiding part. The movable part and the arm part are allowed to slide oppositely through the coordination of the first guiding part and the second guiding part such that the light source is allowed to slide near or away the arm part.

Abstract: A backlight module comprises a backplate having a baseplate and side plates, a direct-lit LED array, edge-lit LED arrays and a light guide panel. The light guide panel is located above the baseplate. The direct-lit LED array is disposed between the baseplate and the light guide panel. The edge-lit LED arrays are disposed at two sides of the light guide panel and facing light incident surfaces thereof respectively. Light scattering structures for scattering light rays are disposed on a light exiting surface or on a bottom surface of the light guide panels. With the LED arrays and the light scattering structures, the light guide panel is divided into three backlight regions. Displaying of the backlight module is controlled region by region by the light scattering structures and the LED drive circuit to improve the brightness of the backlight module and reduce the power consumption of the liquid crystal module.

Abstract: A coating includes a nano-composite layer including an equal number of films. The films are stacked on top of each other one after another. Each film includes a zirconium-copper carbonitride layer and a zirconium carbonitride layer.

Abstract: A coated article includes a metal substrate, a TiSiN layer formed on the metal substrate, and a TiN layer formed on the TiSiN layer. The TiSiN layer consists essentially of elemental Ti, elemental Si, and elemental N in non-homogenous deposition. The elemental Si within the TiSiN layer has a mass percentage gradually decreasing from the bottom of the TiSiN layer near the substrate to the top of the TiSiN layer away from the substrate. The elemental N has a mass percentage gradually increasing from the bottom of the TiSiN layer near the substrate to the top of the TiSiN layer away from the substrate. The TiN layer consists essentially of elemental Ti and elemental N. A method for making the coated article is also described.

Abstract: The present invention discloses a backlight module and a liquid crystal display (LCD). The backlight module includes a backplane, a light guide plate, a heat dissipation element and a connector. The light guide plate is disposed on the side of the backplane. The heat dissipation element includes a horizontal part and a vertical part interconnected to each other. The horizontal part is disposed on the other side of the backplane away from the light guide plate, and the vertical part is disposed next to light incident surface of the light guide plate. The light source is disposed on the side of the vertical part close to light incident surface. The connector connects the heat dissipation element to the backplane and allows the heat dissipation element to move relatively to the backplane in the gap direction between the light guide plate and the light source.

Abstract: An electrolyte for removing metal-carbide/nitride coatings or metal-carbide-nitride coatings from substrates, the electrolyte includes an acid, an inhibiter and a complexant. The acid is a mixture of a sulfuric acid and a weak acid. The inhibiter is an organic compound containing hydrophilic group, lipophilic group, and at least one polar group selected from nitrogen-containing group, sulfur-containing group, and hydroxyl group. The complexant is capable of complexing with Fe3+. A method for removing the metal-carbide/nitride coatings or metal-carbide-nitride coatings using the electrolyte is also provided.

Abstract: A backlight module and a light emitting diode (LED) light bar thereof are proposed. The backlight module includes a plurality of LEDs, at least one circuit board, a heat sink, a plurality of screws, and a light guide plate (LGP). The plurality of LEDs are arranged on the at least one circuit board. A plurality of screws are arranged on the at least one circuit board and the arrangement method thereof depends on temperature distribution of the at least one circuit board. The plurality of screws are inserted between the plurality of LEDs and are arranged at an unequally distance so that temperature can be evenly distributed over the LED light bar, thereby improving image quality of display devices.

Abstract: The present invention provides a manufacturing method for array substrate, including: forming a first conductive layer, a first isolator layer, a second conductive layer and a second isolator layer on a substrate from bottom up, the first conductive layer for forming electrically connected scan line and control terminal of switch transistor, performing dry etch on the second isolator layer to form via hole, and forming a third conductive layer on the second isolator layer for forming data line. The present invention also provides an arrays substrate and a liquid crystal display device. As such, the present invention can reduce the possibility of electrostatic explosion during array substrate manufacturing process and improve the yield rate of array substrate.

Abstract: The present invention discloses a high contrast water-proof LED lamp, including: a casing provided with a reflective cup (10), a PCB (12) disposed on the bottom surface of the casing, an LED chip (1) disposed inside the reflective cup (10), and a light-guiding packaging adhesive (4). The casing is composed of a light color layer (8) in the lower part and a dark color layer (9) in the upper part, and a top surface of the PCB (12) and an outer surface of the light color layer (8) of the casing are provided with black water-proof adhesive sealant (11). The lower part of the inner surface of the reflective cup is a light color layer and the upper part is a dark color layer.

Abstract: A server calculates a first coefficient according to a degree of difficulty, a degree of urgency, a degree of importance of a task, and calculates an employee scope according to the first coefficient. The server selects a second list from the first list according to the employee scope, and calculates a second coefficient according to a required time and a prescribed time limit for finishing the task. The server selects a third list from the second list according to a workload of each employee in the second list and the second coefficient, and selects an employee from the third list to handle the task and notifies the employee.

Abstract: The present invention discloses a support arm of a liquid crystal panel transportation device, which includes a primary arm section. The primary arm section includes a plurality of ancillary arm sections that are rotatable to open mounted thereon. The present invention also discloses a liquid crystal panel transportation device. Using the liquid crystal panel transportation device and the support arm structure thereof according to the present invention may effectively control the deflections of the opposite edges of a liquid crystal panel during the transportation of the liquid crystal panel and the transportation device can be used to transport liquid crystal panels of various sizes without replacing the support arm to thereby further reduce the cost and improve throughput.

Abstract: The present invention provides a side-edge backlight module, which includes a backplane, a light guide plate arranged inside the backplane, and a backlight source mounted to the backplane. The backlight source includes a circuit board and a plurality of LED lights mounted to the circuit board and electrically connected to the circuit board. The circuit board includes a mounting section and a bent section connected to the mounting section. The LED lights are mounted to the mounting section. The bent section is coupled to the backplane. The light guide plate is supported on the bent section. The side-edge backlight module of the present invention uses a MCPCB having a bent section to replace the conventional heat dissipation arrangement that attaches an MCPCB through thermal paste to an aluminum extrusion in order to improve the performance of heat dissipation and enhance the quality of backlight module.

Abstract: The present invention provides an organic light-emitting diode, which includes a light-transmitting substrate, an anode arranged on the light-transmitting substrate, a hole transporting layer arranged on the anode, a light emission layer arranged on the hole transporting layer, an electron transporting layer arranged on the light emission layer, and a cathode arranged on the electron transporting layer. The light emission layer includes a color light emission layer and an ultraviolet light emission layer spaced from the color light emission layer. The present invention integrates functions of color displaying and ultraviolet source together to allow the color displaying and the ultraviolet source to be simultaneously or individually activated.

Abstract: A flexible printed circuit board (FPCB) assembly includes a FPCB, a dielectric layer, a stiffener, and a conductive adhesive layer. The FPCB includes a surface and a conductive layer positioned on the surface of the FPCB. The conductive layer includes a circuit portion and a grounding portion connected to the circuit portion. The circuit portion is entirely covered by the dielectric layer and the grounding portion is exposed outside the dielectric layer. The conductive adhesive is positioned on the stiffener and includes a first adhering portion and a second adhering portion. A thickness of the second adhering portion is greater than the first adhering portion. A thickness difference between the second adhering portion and the first adhering portion is substantially equal to a thickness the dielectric layer. The first adhering portion is adhered to the dielectric layer and the second adhering portion is adhered to the grounding portion.

Abstract: A liquid crystal (LC) injection device is disclosed in the present invention and includes an LC container, a transporting pipe, a filter and an LC extractor. An inner wall of a bottom in the LC container is a concave shape. The transporting pipe is disposed within the LC container and contacted the inner wall of the bottom in the LC container. The present invention also discloses an LC container. The present invention is to increase the utilization efficiency of the LC container, decrease the LCs waste and enhance the accuracy of the measurement of the remaining LC quantity in the LC bottle.

Abstract: A chip card holder includes a latching member and a housing. The latching member includes a first cover portion, a second cover portion and a connecting portion therebetween the first cover portion and the second cover portion. The housing defines two receiving grooves. The first cover portion and the second cover portion respectively protrude from the two receiving grooves. The receiving grooves with the first cover portion and the second cover portion define a first latching space and a second latching space for receiving two chip cards.

Abstract: A pole assembly includes a first mounting member defining a locking hole, and a second mounting member setting around the first mounting member. The second mounting member includes a tab operable to be bent into the locking hole to lock the mounting members together.

Abstract: A method for driving a liquid crystal display (LCD) is disclosed. The LCD includes a common electrode, a pixel electrode, and a liquid crystal layer having a plurality of impurity ions. The method includes: separating the impurity ions toward the common electrode and the pixel electrode to form an internal electric field in the liquid crystal layer; and providing a common voltage for the common electrode, and providing a first compensation voltage and a second compensation voltage for the pixel electrode. The first compensation voltage and the second compensation voltage herein are utilized to compensate the internal electric field so that a difference between the first compensation voltage and the common voltage is equal to a difference between the second compensation voltage and the common voltage. Charge accumulation is formed intentionally, and then the first compensation voltage and the second compensation voltage are provided to correctly display images.

Abstract: The present invention provides an apparatus and related methods for stabilizing a payload device such an imaging device. The methods and apparatus provide fast response time for posture adjustment of the payload device while reducing the energy used.

Abstract: A battery cover assembly for a portable electronic device includes a base body, a battery cover, a movable member, a driving rod, and an elastic member. The base body includes a block defining a guiding groove. The guiding groove includes a straight edge, a sloping edge, and a guiding portion having a clasp with a guiding edge formed in the guiding groove. The driving rod has a protrusion and is slidably engaged with the movable member. The elastic member abuts against the movable member. When the driving rod is slid along the guiding portion, the protrusion is slid along the guiding edge and is latched with the clasp to position the driving rod in a first position. When the driving rod is slid in the guiding groove, the protrusion is slid along the straight edge and the sloping edge to position the driving rod in a second position.