KR100896148B1 - Burning apparatus for fluorescent lamp - Google Patents

Abstract

The present invention relates to a fluorescent lamp firing apparatus, and more particularly, to a fluorescent lamp firing apparatus for increasing the integrity of the process by individually controlling the temperature of the hot air supply.

The present invention comprises a heating unit for forming a constant heating zone; and a fluorescent lamp moving unit that passes through the inside of the heating unit at a constant speed in a state where the fluorescent lamp is mounted; and is configured to fire the phosphor on the inner wall surface of the fluorescent lamp. In the fluorescent lamp firing apparatus, the hot air supply unit for dividing the heating zone of the heating unit into a section of a constant pitch and supplying hot air of a temperature independently determined for each section to the fluorescent lamp moved to each section, characterized in that it is further provided Provided is a fluorescent lamp firing apparatus.

LCD, backlight, fluorescent lamp, firing, hot air

Description

Fluorescent lamp firing equipment {BURNING APPARATUS FOR FLUORESCENT LAMP}

1 is a cross-sectional view illustrating the structure of a cold cathode fluorescent lamp.

2 is a cross-sectional view illustrating a structure of an external electrode fluorescent lamp.

3 is a cross-sectional view showing the structure of a conventional fluorescent lamp firing apparatus.

4 is a plan view showing the structure of a conventional fluorescent lamp firing apparatus.

5 is a view showing a state where a fluorescent lamp is inserted into a quartz tube.

Figure 6 is a graph showing the temperature change of each section in the conventional heating plate.

7 is a plan view showing the structure of a fluorescent lamp firing apparatus according to an embodiment of the present invention.

8 is a partial perspective view showing the structure of a hot air guiding member according to an embodiment of the present invention.

The present invention relates to a fluorescent lamp firing apparatus, and more particularly, to a fluorescent lamp firing apparatus for increasing the integrity of the process by individually controlling the temperature of the hot air supply.

LCD devices, which are being spotlighted in flat panel display devices, include non-light emitting devices that do not emit light by themselves, and thus include a backlight device that provides a separate light source.

In such a backlight device, a fluorescent lamp having a diameter of several mm is used. Cold fluorescent lamps (Cold Cathode Fluorescent Lamp), external electrode fluorescent lamps (External Electrode Fluorescent Lamp) and the like are used for this fluorescent lamp.

As shown in FIG. 1, the general structure of the cold cathode fluorescent lamp 10 is provided with two electrodes, a long glass tube 11 and an anode 12 and a cathode 13 attached to both ends thereof. It is connected to the lead 16 is formed on both ends of the glass tube (11). In addition, a fluorescent substance 14 is coated on the inner wall of the glass tube 11, and the inner space 15 of the glass tube is filled with a mixed gas such as mercury, argon, and neon.

Meanwhile, as shown in FIG. 2, the external electrode fluorescent lamp 20 has a structure in which both ends of the glass tube 21 are sealed, and electrodes 22 and 23 are formed to surround both ends of the lamp from the outside. The electric field is discharged by forming an electric field in the glass tube 21 by (22, 23). In addition, the inner wall of the glass tube 21 is coated with a fluorescent material 24, the interior space 25 of the glass tube is filled with a mixed gas such as mercury, argon, neon.

In the case of manufacturing such a cold cathode fluorescent lamp or an external electrode fluorescent lamp, a process of applying a fluorescent material to the inside of the glass tube and firing and stabilizing it is indispensable. In this process, the fluorescent lamp firing apparatus performs a process of stabilizing heating and firing the fluorescent material applied to the inside of the glass tube.

The fluorescent lamp firing apparatus 100, as shown in Figure 3, the heating unit 110; Fluorescent lamp moving unit 120; It consists of a hot air supply (130). The heating unit 110 is a component for heating the fluorescent lamp passing through the inside to a high temperature to fire the fluorescent lamp applied to the inner surface of the lamp. The heating unit 110 is composed of a lower heating plate 112 disposed below and an upper heating plate 114 disposed above. In this case, the lower heating plate 112 and the upper heating plate 114 are disposed at a predetermined interval, and are fired while the fluorescent lamp is moved to a space between the lower heating plate and the upper heating plate.

Next, the fluorescent lamp moving unit 120 is provided in a conveyor form to continuously move the fluorescent lamp to pass through the inside of the heating unit 110. In the fluorescent lamp firing apparatus, in order to prevent the surface of the fluorescent lamp (L) from being damaged and to ensure the continuity of the work, as shown in FIG. 5, the fluorescent lamp (L) is inserted into the quartz tube (C). Proceed with the firing process. Therefore, the fluorescent lamp moving unit 120 moves the plurality of quartz tubes C along a predetermined trajectory. Then, at the position where the lamp is loaded, a lamp loading unit (not shown) inserts a new fluorescent lamp to be fired into the quartz tube C into the quartz tube, and at the position where the lamp is unloaded, the lamp unloading unit. (Not shown) discharges the fluorescent lamp inside the quartz tube and unloads it to the outside. Generally, as shown in FIG. 3, the fluorescent lamp moving unit 120 passes through the upper and lower heating plates 112 and 114 to return to the loading position via the lower side of the lower heating plate 112. Take it.

The hot air supply unit 130 supplies high temperature air to the inside of the quartz tube while heating the fluorescent lamp by the heating unit 110 to discharge impurities generated during the firing process to the outside and to stably fire the firing process. Let's go. Therefore, the heating unit 130 injects hot air from one side of the quartz tube C passing through the heating unit 110 by the fluorescent lamp moving unit 120 to the other side to supply hot air into the quartz tube. . The quartz tube (C) is moved by a predetermined pitch in accordance with a predetermined time interval and stays for a predetermined time at each position and then moves to the next position. In this case, as shown in FIG. 4, the hot air supply unit 130 may supply hot air for each zone by tying a few fixed positions of the quartz tube into one zone Z, or separately supplying hot air for each location. have. As illustrated in FIG. 4, the hot air supply unit 130 includes a blower 132 for supplying air, a heater 134 for heating the air supplied from the blower, and hot air supplied from the heater. It consists of a hot air supply pipe 136 to supply to.

Looking at the temperature change for each region of the heating unit 110 in the fluorescent lamp firing apparatus 100, that is, as shown in Figure 6, that is, when the fluorescent lamp first enters the heating unit 110, the preheating process is first performed. . At this time, the fluorescent lamp existing at room temperature is gradually heated so as not to impact the lamp made of glass. The temperature then rises through the heating process. In this way, when the temperature rises to about 600 ° C., the firing process proceeds while the temperature is kept constant, and then the cooling of the lamp is performed to discharge the fluorescent lamp.

However, in the conventional fluorescent lamp firing apparatus 100, as shown in Figure 4, there is a problem that the heater 134 of the hot air supply unit is provided as one does not adequately correspond to the temperature fluctuating in each heating unit. That is, since the hot air supplied to the heating unit 110 is supplied at the same temperature by one heater, there is a problem that the uniformity of the firing is impaired because it is not compatible with the heating plate whose temperature varies for each zone. In particular, the conventional heater uniformly fixes the temperature of the hot air supplying the hot air to the quartz tube at 150 ° C. or lower, so that the hot air temporarily lowers the temperature inside the quartz tube rising to a higher temperature during the firing process so that the fluorescent lamp is fired. Harms the uniformity of Specifically, there is a problem in that the firing of the side end of the fluorescent lamp is lower than the central portion, and there is a problem in that it does not adequately correspond to the zone-specific temperatures proceeding into the heating furnace.

SUMMARY OF THE INVENTION An object of the present invention is to provide a fluorescent lamp firing apparatus capable of ensuring uniformity of a process by providing a hot air supply unit capable of independently controlling temperature for each moving position of the fluorescent lamp.

In order to achieve the above object, the present invention comprises a heating unit for forming a constant heating zone; and a fluorescent lamp moving unit that passes through the inside of the heating unit at a constant speed while the fluorescent lamp is mounted; consisting of the fluorescent lamp In the fluorescent lamp firing apparatus for firing the phosphor of the inner wall surface, the hot air supply for dividing the heating zone of the heating unit into sections of a constant pitch and supplying the hot air of the temperature independently determined for each section to the fluorescent lamp moved to each section Further provided is a fluorescent lamp firing apparatus, characterized in that further provided.

Hereinafter, with reference to the accompanying drawings will be described in detail a specific embodiment of the present invention.

The fluorescent lamp firing apparatus 200 according to the present embodiment also has a heating unit 210 as in the prior art; Fluorescent lamp moving unit 220; It consists of a hot air supply unit 230. Here, since the heating unit 210 and the fluorescent lamp moving unit 220 have the same structure and function as those of the related art, the description is not repeated here.

The hot air supply unit 230 according to the present embodiment divides the heating zone of the heating unit 210 into sections of a constant pitch and supplies hot winds having a temperature independently determined for each section to the fluorescent lamps moved to the sections. Therefore, the hot air supply unit 230, as shown in Figure 7, the guide plate 232; Hot air supply pipe 234; Air supply means 236; Heating means 238;

First, the guide plate 232 is disposed on one side of the heating unit 210, and divides the heating zone into a predetermined section to form a through hole for each section, and separates the fluorescent lamp for each section to supply hot air. It is a component to make it.

The hot air supply pipe 234 is coupled to each of the through holes and is a component that supplies hot air to each of the through holes. That is, the guide plate 232 forms a through hole for each position, and a plurality of hot air supply pipes 234 are connected to each of the through holes to supply hot air independently of a predetermined section.

Next, the air supply means 236 is a component that is combined with each hot air supply pipe 234 to supply air to each hot air supply pipe. The air supply means 236 may be provided with a general blower, it is to supply air to each hot air supply pipe 234 individually.

And the heating means 238 is provided between the air supply means 236 and the through hole of the hot air supply pipe 234 is a component for heating the air passing through the hot air supply pipe. That is, as shown in Figure 7, it is provided in the middle of the hot air supply pipe 234, a component for heating the air passing through the hot air supply pipe to rise to a specific temperature. Therefore, the heating means 238 is preferably rapid heating means capable of heating the air passing through the hot air supply pipe at a high speed to a specific temperature in a short time. In this embodiment, this heating means is constituted by an electric heater for simplicity of temperature control.

At this time, it is preferable that the heating means 238 adjusts the temperature of the air passing through itself by co-operating with the temperature of the heating zone. As shown in FIG. 6, each heating zone of the heating unit 210 has a different temperature for each section, which is a temperature curve necessary for accurate firing of the fluorescent lamp. Accordingly, the heating means 238 supplies hot air having the same temperature as that of each section so that the firing of the fluorescent lamp is uniformly and stably performed.

In addition, as illustrated in FIG. 7, the hot air supply unit 230 includes a flow rate adjusting unit 231 coupled to the hot air supply pipe 232 to adjust a flow rate of air passing through the hot air supply pipe. It is preferable to provide. The flow rate adjusting means 231 constantly adjusts the amount of hot air supplied into the quartz tube so that the process proceeds stably, and the same amount of hot air is supplied to each section. In this embodiment, the flow rate adjusting means is constituted by a flow meter.

In addition, as illustrated in FIG. 8, the hot air supply unit 230 may further include a hot air guide member 233. The hot air guiding member is provided for each through hole in the guide plate, and serves to supply the hot air supplied through the hot air supply pipe to the inside of the quartz pipe by being coupled to the quartz tube C moving to each through hole position. . Since the hot air injected in the direction of the quartz tube through the through hole is not directly supplied with the quartz tube, the hot air guiding member is used. That is, by using the hot air guiding member 233, all the hot air supplied through the through hole is supplied to the quartz tube without any external loss, and the temperature of the hot air is prevented from dropping during the supply process.

In this embodiment, the hot air guiding member 233 is provided to be movable horizontally in the direction of the quartz tube. When the fluorescent lamp is moved to each through hole position, the hot air guiding member 233 is horizontally moved to the quartz tube to be combined with the quartz tube. At the time of moving to the next position, the structure is separated from the quartz tube by moving horizontally in the direction opposite to the quartz tube. Therefore, the hot air is supplied in combination with the quartz tube moving by a certain process time, and the continuous process is possible by not interfering with the movement of the quartz tube.

According to the present invention, there is an advantage that uniform firing of the fluorescent lamp is possible by supplying hot air corresponding to the temperature change of the heating unit for each moving section of the fluorescent lamp in the firing process of the fluorescent lamp.

Claims (9)

delete A heating unit for forming a constant heating zone; and a fluorescent lamp moving unit for moving the fluorescent lamp at a constant speed in the heating unit in a state where the fluorescent lamp is mounted; and firing the fluorescent material on the inner wall surface of the fluorescent lamp. In the fluorescent lamp firing apparatus, A hot air supply unit is further provided to divide the heating zone of the heating unit into sections of a constant pitch and supply hot air having a temperature independently determined for each section to the fluorescent lamps moved to the sections, The hot air supply unit, A guide plate disposed on one side of the heating unit and dividing the heating zone into a predetermined section to form a through hole for each section; A hot air supply pipe coupled to each of the through holes and supplying hot air to each of the through holes; Air supply means coupled to each hot air supply pipe to supply air to each hot air supply pipe; And It is provided between the air supply means and the through hole of the hot air supply pipe, and provided with a heating means for heating the air passing through the hot air supply pipe, The heating means, Fluorescent lamp firing apparatus, characterized in that for controlling the temperature of the air passing through it is coordinated with the temperature of the heating zone. The method of claim 2, wherein the heating means, Fluorescent lamp firing apparatus, characterized in that the rapid heating means for heating the air passing through the hot air supply pipe to a specific temperature in a short time. The method of claim 2, wherein the heating means, Fluorescent lamp firing apparatus, characterized in that the electric heater. delete A heating unit for forming a constant heating zone; and a fluorescent lamp moving unit for moving the fluorescent lamp at a constant speed in the heating unit in a state where the fluorescent lamp is mounted; and firing the fluorescent material on the inner wall surface of the fluorescent lamp. In the fluorescent lamp firing apparatus, A hot air supply unit is further provided to divide the heating zone of the heating unit into sections of a constant pitch and supply hot air having a temperature independently determined for each section to the fluorescent lamps moved to the sections, The hot air supply unit, A guide plate disposed on one side of the heating unit and dividing the heating zone into a predetermined section to form a through hole for each section; A hot air supply pipe coupled to each of the through holes and supplying hot air to each of the through holes; Air supply means coupled to each hot air supply pipe to supply air to each hot air supply pipe; And It is provided between the air supply means and the through hole of the hot air supply pipe, and provided with a heating means for heating the air passing through the hot air supply pipe, The hot air supply unit, It is provided coupled to the hot air supply pipe, fluorescent lamp firing apparatus, characterized in that the flow rate adjusting means for adjusting the flow rate of the air passing through the hot air supply pipe is further provided. According to claim 6, The flow rate adjusting means, Fluorescent lamp firing apparatus, characterized in that the flow meter (flow meter). The hot air supply unit according to claim 2, It is provided for each through hole in the guide plate, in combination with the fluorescent lamp to move to each through hole position is characterized in that the hot air guiding member for supplying the entire amount of hot air supplied through the hot air supply pipe into the fluorescent lamp further characterized in that it is provided Fluorescent lamp firing apparatus. The method of claim 8, wherein the hot air guide member, When the fluorescent lamp is moved to each through hole position, the fluorescent lamp is moved horizontally to the fluorescent lamp to be combined with the fluorescent lamp, and when the fluorescent lamp is moved to the next position, the fluorescent lamp is moved horizontally in the opposite direction to the fluorescent lamp. Fluorescent lamp firing device, characterized in that separated from the fluorescent lamp.

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