KR100718664B1 - Hg-free type Flat Fluorescent Lamp Device - Google Patents

Abstract

The present invention relates to a mercury-free surface light emitting lamp device that can simplify the process by not using a ball spacer and increase the luminance efficiency by increasing the discharge space and the light emitting area. The apparatus of the present invention comprises an upper substrate formed with a plurality of convex domes shaped like an upper portion of the tunnel; and a lower substrate formed with a plurality of channels concave down like a furrow, and the upper substrate is placed upward like an upper portion of the tunnel. The upper plate glass is formed of a plurality of convex domes, and a phosphor layer formed inside the convex portion of the upper glass. The lower substrate may include a lower plate glass having a channel recessed downwardly like a furrow, a phosphor printed on the recessed channel portion, a cathode electrode formed in a longitudinal direction in the plane of the partition wall between the channel, a dielectric layer for insulating the cathode electrode, A sealant for sealing the upper substrate and the lower substrate, and an anode electrode formed in the width direction on the outside of the lower plate glass. Therefore, according to the present invention, the process is simplified since the adhesive is directly adhered through the dielectric in the partition portion between the channels without using the ball spacer between the upper substrate and the lower substrate, and the discharge space is wider than that of the conventional flat plate. In addition, there is an advantage that the luminance area is increased to increase the luminance efficiency.

Surface emitting lamp, channel, discharge space, ball spacer, luminance efficiency

Description

Mercury-free surface emitting lamp device {Hg-free type Flat Fluorescent Lamp Device}

1 is a side cross-sectional view showing a conventional mercury-free surface light emitting lamp,

Figure 2 is an exploded perspective view of the mercury-free surface light emitting lamp according to the present invention,

3 is a partially cutaway perspective view of the mercury-free surface light emitting lamp according to the present invention,

Figure 4 is a side cross-sectional view of a mercury-free surface light emitting lamp according to the present invention.

* Explanation of symbols for main parts of the drawings

100: mercury-free surface light emitting lamp 110: the upper substrate

111: upper glass 112: phosphor

120: lower substrate 121: lower glass

122: dielectric 123: anode electrode

124: cathode electrode 125: phosphor

126 sealant

The present invention relates to a surface light emitting lamp, and more particularly, to a mercury-free surface light emitting lamp device that can simplify the process by not using a ball spacer and increase luminance efficiency by increasing a discharge space and a light emitting area.

In general, a backlight used as a light source such as a liquid crystal display device has a direct type and a light guide plate in a manner of disposing a cylindrical lamp. In the direct type, the fluorescent lamp is placed on a flat surface. Since the shape of the fluorescent lamp appears on the liquid crystal panel, the gap between the lamp and the liquid crystal must be maintained, and light scattering means must be provided for the uniform distribution of light. There is. In the light guide plate method, a fluorescent lamp is installed outside the flat plate to disperse light to the entire surface by using the light guide plate, which requires low brightness and high optical processing technology for the light guide plate.

In recent years, in order to solve these problems and provide a backlight having high brightness, a surface emitting lamp in which the entire plane facing the display surface of the panel emits light has been widely researched and developed. In general, the surface light emitting lamp is configured to form a discharge space between the upper plate and the lower plate coated with the phosphor, and then discharge the discharge gas between the anode and the cathode electrode so that the phosphor emits light.

In the conventional mercury-free surface light emitting lamp as shown in Figure 1, the upper substrate 11 and the lower substrate 12 is sealed by a sealing material 16 to form a discharge space therein, the lower substrate 12 and Between the upper substrate 11, a negative electrode 14 insulated by the insulating layer 15, and a ball spacer 17 for forming a gap between the upper substrate and the lower substrate, are located outside the lower substrate 12. The anode electrode 12 is formed. In addition, xenon (Xe) gas is inserted into the discharge space 18 instead of mercury (Hg).

However, since the conventional mercury-free surface light-emitting lamp 10 manufactures a panel using the ball spacer 17 between the upper substrate and the processed lower substrate of the flat glass substrate, a non-light emitting area caused by the ball spacer 17 is generated. There is a problem that the uniformity falls. In addition, the process of installing the ball spacer 17 is difficult, and there is a problem that breakage occurs when bonding due to the step of the ball spacer 17.

The present invention has been proposed to solve the above problems, to provide a mercury-free surface light emitting lamp that can simplify the process without using the ball spacer and increase the luminance efficiency by increasing the discharge space and the light emitting area. There is this.

In order to achieve the above object, the apparatus of the present invention, the upper substrate is formed of a plurality of convex dome shape, such as the upper portion of the tunnel; and the coalesced with the upper substrate to form a discharge space, concave down as a furrow It characterized in that it comprises a lower substrate formed with a channel.

Here, the upper substrate is formed by molding a glass substrate using a mold or a molding die, and the lower substrate is formed of a channel using sand blaster or wet etching.

And the upper substrate is composed of a top plate glass formed of a plurality of convex dome shape like the upper portion of the tunnel, and a phosphor layer formed inside the convex portion of the top glass, the lower substrate is formed with a channel concave down like a furrow A lower plated glass, a phosphor formed by spraying or leveling on the concave channel portion, a cathode electrode formed in a longitudinal direction on the partition plane between the channel and the channel, a dielectric layer for insulating the cathode electrode, A sealant for sealing the upper substrate and the lower substrate, and an anode electrode formed in the width direction on the outer side of the lower plate glass.

Hereinafter, exemplary embodiments of the present invention will be described in detail with reference to the accompanying drawings.

2 is an exploded perspective view of the mercury-free surface light emitting lamp according to the present invention, Figure 3 is a partially cutaway perspective view of the mercury-free surface light emitting lamp according to the present invention, Figure 4 is a side cross-sectional view of the mercury-free surface light emitting lamp according to the present invention.

As shown in FIG. 2, the mercury-free surface light emitting lamp 100 according to the present invention includes an upper substrate 110 formed by molding a glass substrate using a mold or a mold, and a sand blaster or wet etching method. It is manufactured by attaching the lower substrate 120, the long groove-shaped channel is formed using a wet etching as shown in FIG.

As shown in FIGS. 2 and 4, the upper substrate 110 includes a top glass 111 formed of a plurality of convex dome shapes, such as an upper portion of a tunnel, and a phosphor formed inside the convex portion of the top glass 111. 112, the lower substrate 120 is formed in the longitudinal direction in the bottom plate glass 121 is formed in a concave channel downward concave, the phosphor 122 printed on the concave channel portion, the partition plane between the channel and the channel in the longitudinal direction. The formed cathode electrode 124, the dielectric 122 for insulating the cathode electrode 124, the sealant 126 for sealing the upper substrate and the lower substrate, and the anode electrode 123 formed in the width direction outside the lower glass 121. )

At this time, the cathode electrodes 124 formed between the channel barrier ribs are formed in pairs, and the anode electrode 124 and the cathode electrode 123 are installed in a direction crossing each other, so that the dielectric discharges in the discharge space 130 between the two electrodes. This is supposed to happen. In the discharge space, xenon (Xe) is distributed as a discharge gas.

In the exemplary embodiment of the present invention, the dome shape of the upper substrate bundles two channels of the lower substrate into one discharge space, and the partition walls of the upper substrate 110 and the lower substrate 120 have an adhesive function. The peripheral portions where the upper substrate 110 and the lower substrate 120 meet each other are bonded to each other by the sealant 126.

The surface light emitting lamp 100 of the present invention has a simple process because the upper substrate 110 is convex upward in the dome shape, and is directly bonded through the dielectric 122 at the partition portion between the channels without using a ball spacer. Become. In addition, one or two or more channels are bundled together to form one discharge space, and the upper substrate is convex upward, so that the discharge space is wider and the light emitting area is increased, resulting in higher luminance efficiency than the conventional flat plate. There is this.

As described above, according to the present invention, the process is simplified by directly bonding through the dielectric at the partition portion between the channels without using a ball spacer between the upper substrate and the lower substrate, and the dome is convex upward on the upper substrate. By forming a single discharge space by tying one or two or more channels after forming, the discharge space is wider than that of a conventional flat plate, and the light emitting area is increased, thereby increasing luminance efficiency.

Claims (5)

An upper substrate having a plurality of convex dome shapes formed on top of the tunnel and coated with phosphors on an inner surface thereof; and A lower substrate having two or more channels formed concave down like a furrow with respect to each dome of the upper substrate, and a phosphor coated on an inner surface thereof; A cathode electrode formed in a longitudinal direction on a plane of the partition wall between the channel and the channel; A dielectric layer for insulating the cathode electrode; And And an anode electrode formed in a width direction outside the bottom surface of the lower substrate. The edge of the upper substrate and the lower substrate is laminated by a sealing material, the mercury-free surface light emitting lamp device, characterized in that the dome and the channel is configured to form a discharge space. The method of claim 1, wherein the upper substrate is formed by molding a glass substrate using a mold or a molding die, The lower substrate is a mercury-free surface light emitting lamp device, characterized in that the channel is formed using sand blaster (wet etching) or wet etching (Wet Etching). delete delete 3. The mercury-free surface light-emitting lamp device according to claim 2, wherein an exhaust tunnel is provided at the middle or end of the discharge space formed by the upper substrate and the lower substrate to enable exhaust and gas injection in one exhaust hole.

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