Patent application number | Description | Published |
20080288951 | Method, Device And System For Allocating A Media Resource - A method and system for allocating a media resource and a device for controlling a media resource. The method for allocating a media resource includes: allocating the media resource processing devices for a resource operation request based on the stored ability information of the various media resource processing devices when the resource operation request is received; and updating the stored ability information of the media resource processing device dynamically. The device for controlling a media resource includes: a memory unit adapted to store the ability information of various media resource processing devices; an allocation unit adapted to allocate media resource processing devices for the resource operation request based on the ability information stored in the memory unit; a dynamic update unit adapted to update the ability information of the media resource processing device stored in the memory unit dynamically. | 11-20-2008 |
20130271685 | LIQUID CRYSTAL PANEL AND MANUFACTURING METHOD THEREOF - A liquid crystal panel includes a liquid crystal layer and a substrate. The substrate includes a sealant bonding area, a cutting edge surrounding the sealant bonding area, and an abutting portion disposed between the sealant bonding area and the cutting edge. A height of the abutting portion is less than a thickness of the liquid crystal layer. The present disclosure further provides a manufacturing method of the liquid crystal panel. With the abutting portion disposed outside the sealant, the uncured sealant is limited from flowing to the cutting edge during the process of bonding the TFT substrate and the CF substrate. Thus, the manufacturing process of the liquid crystal panel may not be influenced by the uncured sealant, and the distance L between the sealant and the cutting edge can be shortened to improve the coating precision of the sealant and the utilization rate of the substrate. | 10-17-2013 |
20130308082 | Liquid Crystal Display Panel - The present invention discloses an LCD panel. The LCD panel includes a first substrate and a second substrate, arranging with the first substrate in pair, a glue, between the first substrate and the second substrate, for pasting the first substrate and the second substrate. A plurality of grooves arrange at intervals on at least one of two adjacent surfaces on the first substrate and the second substrate, and part of the glue, set up on the grooves, permeates the grooves. the LCD panel in the present invention reduces width of the glue effectively to achieve the design of narrow bezel of the LCD panel by arranging a groove structure in a glue coating area on the substrate surface to increase a contact area between the glue and tie substrate in an adhesion force assurance between the glue and a substrate. | 11-21-2013 |
20140028537 | LIQUID CRYSTAL PANEL AND MANUFACTURING METHOD THEREOF - A liquid crystal panel includes an array substrate. The array substrate forms a peripheral circuit area including a COF module crimping area and a shorting bar area located outside the COF module crimping area, the shorting bar area forming at least one detecting circuit being connected to scan lines or data lines on the array substrate and being removed after the liquid crystal panel is detected. In the present disclosure, the at least one detecting circuit formed in the shorting bar area is removed after the liquid crystal panel is detected, thus, a safe area and a laser cutting area located outside the COF module crimping area can be omitted to improve the utilization rate of the liquid crystal panel. | 01-30-2014 |
20140034850 | Lighting Assembly - A lighting assembly for liquid crystal alignment is disclosed. The lighting assembly includes a light guiding plate and a light source. The light guiding plate is made by quartz glass. The light guiding plate includes a light emitting surface, a light incident surface adjacent to the light emitting surface, and a bottom surface opposite to the light emitting surface. The light source faces toward the light incident surface of the light guiding plate. The light guiding plate contains a hydroxyl group in an amount less than or equal to 100 ppm. As the light source faces toward the light incident surface of the light guiding plate, the number of the light source may be reduced so that the light utilization rate is enhanced. | 02-06-2014 |
20140036217 | LIQUID CRYSTAL INJECTION DEVICE AND LIQUID CRYSTAL CONTAINER THEREOF - 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. | 02-06-2014 |
20140069552 | DOCKING DEVICE FOR MATERIAL BOTTLES - The present disclosure provides a docking device for material bottles used for guiding material in a first material bottle to flow into a second material bottle. The docking device includes a sleeve with two ends thereof being respectively engageable with mouths of the first material bottle and the second material bottle and a protrusion configured in the sleeve for guiding the material in the first material bottle to flow into the second material bottle. With the sleeve, the two material bottles can be docked together, thus, the material in one material bottle can be poured into the other material bottle quickly. Meanwhile, the protrusion configured in the sleeve can guide the flowing material to avoid side leakage when the material flows from one material bottle into the other material bottle along the inner wall of the sleeve. | 03-13-2014 |
20140125937 | LIQUID CRYSTAL MOTHER PANEL AND MANUFACTURING METHOD THEREOF - A to-be-cut liquid crystal mother panel includes a TFT mother substrate forming at least one voltage-applying area onto which an external voltage is applied, a CF mother substrate arranged corresponding to the TFT mother substrate, and a pressure-reduction member located between the CF mother substrate and the TFT mother substrate; the pressure-reduction member corresponds to the voltage-applying area for reducing an adsorptive force between the voltage-applying area and an end portion of the CF mother substrate corresponding to the voltage-applying area. The pressure-reduction member increases the surface roughness of the end portion, avoids a vacuum state formed between the end portion and the voltage-applying area, reduces the adsorptive force between the end portion and the voltage-applying area, and allows the splitting device to separate the end portion from the TFT mother substrate easily after the liquid crystal mother panel is cut. | 05-08-2014 |
20140152947 | MANUFACTURING DEVICE FOR LIQUID CRYSTAL PANEL AND LIQUID CRYSTAL PANEL - The manufacturing device for a liquid crystal panel which has a non-displaying area includes a two-dimensional code generating module configured for generating a rectangle-shaped two-dimensional code according to an amount of the data needed to be represented and a two-dimensional forming module configured for forming a photomask according to a figure of the rectangle-shaped two-dimensional code and forming the rectangle-shaped two-dimensional code on the non-displaying area of the liquid crystal panel. With the manufacturing device of the present disclosure, the rectangle-shaped two-dimensional code can be formed on the non-displaying area of the present disclosure. The width of the rectangle-shaped two-dimensional code is less than that of the present square-shaped two-dimensional code used for representing the same data, thus, the width of the non-displaying area can be reduced without reducing the area of the two-dimensional code to allow the liquid crystal display to have a narrow frame. | 06-05-2014 |
20140190795 | GUIDE DEVICE FOR HARD WORKPIECE TRANSFER - A guide device for hard workpiece transfer is provided, comprising a buffer belt for carrying the hard workpiece, a pilot wheel for driving the buffer belt to move, and a drive device for controlling the pilot wheel to rotate, with the buffer belt being made of elastic materials. With the buffer belt made of elastic materials carrying such hard workpieces as glass to be transferred, when the guide device is in contact with the hard workpiece to be transferred, the buffer belt is pressed to deform, which can reduce the pressure produced during the contact of the guide device with the hard workpiece, and prevent the contact portion from being broken or worn because of the pressure, not only preventing loss of the hard workpiece to be transferred, but also reducing use consumption of the guide device, thereby reducing the material cost. | 07-10-2014 |
20150013882 | METHOD FOR LAMINATING GLASS PANELS AND VACUUM LAMINATION DEVICE USING SAME - The present invention provides a method for laminating glass panels and a vacuum lamination device using the method. The method includes (1) providing a TFT substrate ( | 01-15-2015 |
20150037018 | Temperature Control Pin, and The Device and Method For Supporting Substrate In UV Curing Process - A temperature control pin, and the device and the method for supporting a substrate in the ultraviolet (UV) solidifying alignment process are disclosed. The temperature control pins includes a supporting pin for supporting a substrate, a heater being arranged within the supporting pin and is close to a top of the supporting pin, and a cooling system. The heater is controlled by the temperature control system to heat up the supporting pin. The cooling system is controlled by the temperature control system to cool down the supporting pin, and cooperatively operates with the heater to dynamically adjust the temperature of the supporting pins. When being heated, the temperature of the temperature control pins is adjusted by the temperature control system, and the substrate is heated uniformly such that the “Pin Mura” phenomenon is reduced or decreased. | 02-05-2015 |