摘要:
A structure of a focusing mesh for a field emission display includes a cathode substrate and a rectangular mesh. The cathode substrate with one edge formed a cathode conductor including a joint area. The mesh includes a plurality of pores formed in matrix and a L-shaped recess formed at one side of the mesh to provide a rectangular strip as a leading wire of the mesh drooped by self weight to contact with the joint area of the cathode conductor. As such, during vacuuming to envelop the field emission display, it will not cause the crack of wire, air leakage and even make easier to be enveloped and increase the good fabrication rate of a field emission display.
摘要:
A method of fabricating the parallel leading wire in a focusing mesh of field emission display and a structure thereof is provided. A cathode leading wire is formed along one edge of a cathode plate in a field emission display. When the metal mesh is formed on the cathode plate, one edge of the mesh becomes a leading wire parallel to another edge thereof. The leading wire has a designated length and a thickness thinner than the metal mesh. Without applying external force, the parallel leading wire is drooped and contacted the cathode plate because of itself weight. Be way of sintering, parallel leading wire is connected to cathode leading wire and enveloped by the metal mesh within the cathode plate.
摘要:
A method of fabricating the parallel leading wire in a focusing mesh of field emission display and a structure thereof is provided. A cathode leading wire is formed along one edge of a cathode plate in a field emission display. When the metal mesh is formed on the cathode plate, one edge of the mesh becomes a leading wire parallel to another edge thereof. The leading wire has a designated length and a thickness thinner than the metal mesh. Without applying external force, the parallel leading wire is drooped and contacted the cathode plate because of itself weight. Be way of sintering, parallel leading wire is connected to cathode leading wire and enveloped by the metal mesh within the cathode plate.
摘要:
A field emission display with multiple display directions includes an anode structure and a cathode structure. The anode structure has a plurality of peripheral sides, and each of the peripheral sides has an interior surface. A conductive layer and a phosphor layer formed on each interior surface of the shell substrate. The cathode structure is disposed within the shell substrate of the anode structure. The cathode structure has a plurality of peripheral sides facing respective interior surfaces of the anode structure and a conductive layer and an electron emission layer formed on each peripheral side of the cathode structure.
摘要:
A structure of a focusing mesh for a field emission display includes a cathode substrate and a rectangular mesh. The cathode substrate with one edge formed a cathode conductor including a joint area. The mesh includes a plurality of pores formed in matrix and a L-shaped recess formed at one side of the mesh to provide a rectangular strip as a leading wire of the mesh drooped by self weight to contact with the joint area of the cathode conductor. As such, during vacuuming to envelop the field emission display, it will not cause the crack of wire, air leakage and even make easier to be enveloped and increase the good fabrication rate of a field emission display.
摘要:
A method of fabricating the parallel leading wire in a focusing mesh of field emission display and a structure thereof is provided. A cathode leading wire is formed along one edge of a cathode plate in a field emission display. When the metal mesh is formed on the cathode plate, one edge of the mesh becomes a leading wire parallel to another edge thereof. The leading wire has a designated length and a thickness thinner than the metal mesh. Without applying external force, the parallel leading wire is drooped and contacted the cathode plate because of itself weight. Be way of sintering, parallel leading wire is connected to cathode leading wire and enveloped by the metal mesh within the cathode plate.
摘要:
A method for manufacturing glue-pasting area of field emission display forms a plurality of elongated low walls on glue-pasting area of the anode plate or the cathode plate by printing. The elongated low wall includes a length side parallel with a package side of the display. The elongated low walls are arranged on the glue-pasting area in staggered and parallel fashion, where a first gap is defined between two adjacent elongated low walls and the first gap is a channel for overflow glue after the cathode plate is pressed with the anode plate. After the glass glue is pasted on the elongated low wall and the cathode plate is pressed with the anode plate, the overflow glue is constrained b the gap to control the width of glue.