KR100861226B1 - Apparatus for loading/unloading fluorescent lamp - Google Patents

Abstract

An apparatus for loading/unloading a fluorescent lamp is provided to simplify a configuration of the apparatus by holding two fluorescent lamps on a holder at the same time. An apparatus for loading/unloading a fluorescent lamp before and after a sealing process includes a rotating member(122) and a holder(126). The rotating member is rotated by a driving force, such that the fluorescent lamp, which is supplied in a horizontal direction, is supplied to a sealing device in a vertical direction. At least one of the holders is implemented on the rotating member and holds at least two fluorescent lamps thereon. The holder holds two fluorescent lamps at the same time.

Description

Fluorescent Lamp Loading / Unloading Device {APPARATUS FOR LOADING / UNLOADING FLUORESCENT LAMP}

The present invention relates to a fluorescent lamp loading / unloading device, and more particularly, to a fluorescent lamp loading / unloading device for loading and unloading a fluorescent lamp with a sealing device while simplifying the structure and increasing the loading / unloading efficiency when sealing the fluorescent lamp. It relates to an unloading device.

In general, liquid crystal display (LCD) devices that are spotlighted in flat panel display devices include a backlight device that provides a separate light source because they are non-light emitting devices that do not emit light by themselves.

The general requirements of such a backlight are high brightness, high efficiency, uniformity of brightness, long life, thinness, low weight, and low cost. In the case of notebook PCs, high efficiency long life lamps are required to reduce power consumption, and backlights for monitors and TVs require high brightness.

As the 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, and two electrodes. 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 a mixed gas such as mercury, argon, and neon is filled in the inner space 15 of the glass tube.

Meanwhile, as illustrated 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 external electrodes 22 and 23 form an electric field in the glass tube 21 to discharge gas. In addition, a fluorescent material 24 is coated on the inner wall of the glass tube 21, and the inner space 25 of the glass tube is filled with a mixed gas such as mercury, argon, and neon.

In the case of manufacturing such a cold cathode fluorescent lamp or an external electrode fluorescent lamp, a similar process is performed, but a minute part undergoes a different process. In each manufacturing process, the sealing process of vacuuming the inside of the fluorescent lamp and filling gas therein, and the sealing process of removing unnecessary parts while maintaining the sealing state in the completed fluorescent lamp, which are necessary in the manufacturing process, Since the fluorescent lamps are different for each manufacturing method, they will be described briefly here.

The cold-cathode fluorescent lamp and the external electrode fluorescent lamp are divided into two parts, and the external electrode fluorescent lamp is divided into the case of using beads and the case of not using them.

First, in the case of a cold cathode fluorescent lamp, as shown in FIG. 3, a bead process is performed to form beads 17 in the lead 16 portion of the electrode 12 inserted into the lamp. Next, as shown in FIG. 3B, a sealing process of removing air in the glass tube 11, filling the gas, and sealing the gas is performed. In this step, the beads 17 are first inserted into one side of the glass tube 11, and a portion of the glass tube 11 is taken to fix the beads. Also, a portion of the outside of the end of the bead 17 is taken to form a space into which the mercury getter H is introduced. Next, after inverting the glass tube 11, the bead 17 is inserted in the opposite side, and it heats and seals completely.

Thereafter, after completing another process such as filling the gas into the glass tube 11, the fluorescent lamp is inverted and a seal cutting process is performed as shown in FIG. 3C. In this process, the cutting portion is heated with the torch (T), and then the cutting portion is cut using the cutting wheel (W). Then, the glazing process is performed so that the cut surface is heated again to form a smooth curved surface.

On the other hand, the external electrode fluorescent lamp undergoes a different process from the cold cathode fluorescent lamp because the electrode is formed on the outer surface of the glass tube. First, let's look at the case of not using beads. If no beads are used, no bead process is necessary.

Therefore, as shown in Fig. 4a, the sealing process proceeds from the beginning. In this sealing process, first, one end portion of the glass tube 21 is taken to form a space into which the mercury getter H is inserted, and the glass tube 21 is inverted. The other end of the inverted glass tube is heated to seal it completely.

Next, in the thread cutting process, as shown in FIG. 4B, the cutting portion of the glass tube 21 is first preheated, and the cutting portion is secondarily heated and cut. After that, through the glazing process, the cutting surface is smooth.

On the other hand, when the external electrode fluorescent lamp is manufactured using the beads, a bead process is required. However, unlike the cold-cathode fluorescent lamp, in this case, since the beads do not act as electrodes, they simply serve to help seal the sealing process of the glass tube. Accordingly, as shown in FIG. 5A, the external electrode fluorescent lamp is manufactured in the shape of the beads 27 in the shape of a spherical shape, unlike the cold cathode fluorescent lamp.

Next, in the sealing process, as shown in FIG. 5B, the beads 27 are inserted into one side of the glass tube 21, and a portion of the glass tube 21 is taken to fix the beads 27. And a portion of the outer side in which the beads 27 are inserted in the glass tube 21 to create a space in which the mercury getter (H) is inserted. Thereafter, the glass tube 21 is inverted and the other end of the glass tube is heated to be sealed.

Next, in the seal cutting process, as shown in FIG. 5C, the cutting portion is heated, and the glass tube 21 is cut using the cutting wheel W. And the glazing process which heats the cut surface of a glass tube and makes a cut surface smooth is performed.

After the glass tube 11 of the cold cathode fluorescent lamp 10 and the glass tube 21 of the external electrode fluorescent lamp 20 are carried in, a sealer for sealing one end and an exhauster for inverting the other end by inverting the glass tube 21 are sealed. The process is completed by this.

On the other hand, the fluorescent lamp sealing device such as the sealer and the exhaust machine is provided with a fluorescent lamp loading / unloading device for loading and unloading the fluorescent lamp in the fluorescent lamp sealing device, the conventional fluorescent lamp loading / unloading device is Although not shown in the drawing, a pair of rotating members provided in parallel in a position close to the fluorescent lamp sealing apparatus, a driving unit for providing power to rotate the rotating members, and a plurality of holders are provided for each of the rotating members, respectively. The lamp was loaded or unloaded.

Each rotating member rotates sequentially or uniformly so that a pair of fluorescent lamps are loaded or unloaded into the fluorescent lamp sealing apparatus.

However, since the rotating member and the driving unit are provided for each fluorescent lamp to be loaded / unloaded, there is a problem in that the structure becomes complicated and the maintenance is difficult and the facility cost increases.

The present invention has been made to solve the above-mentioned problems, the object is to load / unload a pair of fluorescent lamps at a time, easy to maintain according to the simplified structure of the fluorescent lamp to reduce the cost of equipment A loading / unloading device is provided.

In order to achieve the above object, the present invention, in the fluorescent lamp loading / unloading device for loading / unloading the fluorescent lamps before and after sealing, the driving force to supply the fluorescent lamp supplied in the horizontal direction to the sealing device in a vertical direction A rotating member rotated by; And a holder provided with at least one rotating member to hold the plurality of fluorescent lamps. In this case, the fluorescent lamp is preferably loaded or unloaded by a plurality of holders and rotated by a rotating member so that the structure of the loading / unloading device is simplified and thus the cost is reduced.

In addition, by holding two fluorescent lamps in the holder of the present invention, the structure of the loading / unloading device is simpler than when the fluorescent lamps are held one by one.

Such a fluorescent lamp loading / unloading apparatus of the present invention is easy to maintain and reduce the cost of the equipment by simplifying the structure by loading / unloading a pair of fluorescent lamps at a time.

Hereinafter, the fluorescent lamp loading / unloading apparatus of the present invention will be described with reference to an embodiment with reference to the accompanying drawings.

The fluorescent lamp loading / unloading apparatus according to an exemplary embodiment of the present invention includes a sealer 100 for sealing one end of the fluorescent lamp L and the fluorescent lamp as shown in FIGS. 4 and 5a and b. The loading device 120 is provided between the sealer 100 and the carrying-in conveyor 110, respectively, provided in a state of being close to the exhaust machine 102 for sealing the other end of L), and the exhaust device 102 and the carry-out device are provided. An unloading device 122 is provided between the side conveyors 112.

That is, the loading device 120 is upright in the vertical direction by the fluorescent lamp (L) entering the horizontal state by the loading side conveyor 110, and then loaded in the sealing machine 100, the unloading device ( 122 performs a sealing process on one end of the fluorescent lamp L in a vertical state, and then unloads the horizontal end to seal the other end and then carry it out to the carrying-out conveyor 112.

Here, the loading / unloading devices 120 and 122 are the same, and the loading device 120 will be described with reference to the loading device 120 including the rotating member 122, the driving unit 124, and the holder 126. It is composed by subdividing into.

The rotating member 122 rotates at 90 ° to rotate the fluorescent lamp L supplied in the horizontal direction along the carry-in conveyor 110 in the vertical direction.

The driving unit 124 is coupled to the rear end of the rotating member 122 to provide a driving force so that the rotating member 122 can be rotated by 90 ° by an applied power source.

On the other hand, although not shown in the drawing, when the driving unit 124 loads the fluorescent lamp L on the sealer 100, it rotates 180 ° in the horizontal direction to fix the jig of the sealer 100 (not shown in the drawing). ) And the fluorescent lamp L may be adjacent to each other.

The holder 126 is provided at both ends of the bottom surface of the rotating member 122 to hold a plurality of fluorescent lamps (L), in this embodiment it is illustrated as holding two.

Further, the unloading device 122 also has the same structure and function as the loading device 120, and after the sealing of both ends is completed, the fluorescent lamp L in a vertical state is rotated in a horizontal state, and then the carrying-out conveyor 112 is carried out. Unload with.

Therefore, the operating process of the fluorescent lamp loading / unloading device of the present invention is the rotating member 122 of the loading device 120 is driven by the fluorescent lamp (L) to move in a horizontal state along the loading side conveyor (110) 124 is rotated downward toward the carry-in conveyor 110, the two fluorescent lamps L are fixed by the holder 126, and then loaded into the sealer 100 while being rotated upward to seal at one end. Do this.

Thereafter, the fluorescent lamp L having one end sealed at the sealer 100 is transferred to the exhaust machine 102 and then the other end is sealed.

The holder of the unloading device 122 fixes the fluorescent lamp L in the vertical state in which sealing is completed, and then the rotating member having the holder is driven by driving the drive unit. It rotates downward to (112) direction and unloads to this carrying-out conveyor 112, and it carries out.

As a result, conventionally, a loading device for fixing and loading one fluorescent lamp is provided as a pair, and an unloading device for fixing and unloading a fluorescent lamp is provided as a pair, whereas in the present invention, two fluorescent lamps are provided as one pair. By loading or unloading in the loading or unloading device of the structure of the loading / unloading device can be simplified and a reduction in equipment costs can be obtained.

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

2 is a schematic cross-sectional view showing the structure of an external electrode fluorescent lamp.

3A to 3C are flowcharts illustrating a sealing and sealing process of a cold cathode fluorescent lamp.

4A, 4B and 5A, 5B are process charts illustrating a sealing and sealing process of an external electrode fluorescent lamp.

FIG. 6 is a plan view schematically illustrating a state in which a fluorescent lamp loading / unloading device according to an embodiment of the present invention is provided in a sealing device.

7A and 7B are a plan view and a side view illustrating a state in which a loading device of the fluorescent lamp loading / unloading device is operated.

<Description of Symbols for Main Parts of Drawings>

100: sealer 102: exhaust

110, 112: carrying-in, carrying-out conveyor 120, 122: loading, unloading apparatus

122: rotating member 124: driving part

126: Holder

Claims (2)

In the fluorescent lamp loading / unloading device for loading / unloading the fluorescent lamp before and after sealing, A rotating member rotated by a driving force to supply the fluorescent lamp supplied in a horizontal direction to a sealing device in a vertical direction; And At least one holder provided on the rotating member to hold a plurality of fluorescent lamps; Fluorescent lamp loading / unloading apparatus comprising a. The method of claim 1, And two fluorescent lamps are held in the holder.

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