KR100861227B1 - Bulb loading apparatus - Google Patents

Abstract

A bulb loading apparatus is provided to simplify a configuration of the bulb loading apparatus by removing a gauging robot from the bulb loading apparatus. A bulb loading apparatus loads a bulb into a crystal tube and includes a primary loader(10), a horizontal transfer unit(30), and a secondary loader(20). The primary loader inserts a portion of the bulb into the crystal tube. The horizontal transfer unit reciprocally transfers the primary loader in a horizontal direction. The secondary loader completely inserts the bulb into the crystal tube. The secondary loader extends from the primary loader in a horizontal direction. A clamp is arranged on the first loader, such that one end of the bulb is grasped.

Description

Bulb loading apparatus

The present invention relates to a bulb loading device, and more particularly, to a bulb loading device capable of simultaneously loading and gauging.

Among the flat panel display devices that are in the spotlight recently, LCD devices are non-light emitting devices that do not emit light. Therefore, a backlight device for providing a separate light source is required.

In such a backlight unit, 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.

Referring to the general structure of the cold cathode fluorescent lamp 10, as shown in Figure 1, the bulb 11, which is a long glass tube, and the anode 12 and the cathode 13 are attached to both ends thereof, the two electrodes are the bulb It is comprised by the lead 16 formed in the both ends of (11). In addition, the inner wall of the bulb 11 is coated with a fluorescent material 14, and the inner space 15 of the bulb 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 bulb 21 are sealed, and electrodes 22 and 23 are formed to surround both ends of the lamp 20 from the outside. The external electrodes 22 and 23 form an electric field in the bulb 21 to discharge gas. In addition, a fluorescent material 24 is coated on the inner wall of the bulb 21, and the inner space 25 of the bulb is filled with a mixed gas such as mercury, argon, and neon.

In order to manufacture such a cold cathode fluorescent lamp or an external electrode fluorescent lamp, a fluorescent material is applied to the inside of the bulb by a fluorescent material coating device, and a process of firing and stabilizing it by a sintering device is inevitably performed.

The firing apparatus is completed by loading a bulb coated with a fluorescent material between an upper heating furnace and a lower heating furnace, heating and baking by an upper and lower heating furnace, and then unloading the fired bulb.

However, since the bulb is a glass tube with a very thin thickness, the bulb may be damaged by hitting each other during loading and unloading. In particular, when the bulb is fired by the upper and lower heating furnaces, the bulb is rotated in order to transmit heat evenly, and breakage of the bulb frequently occurs during such rotational movement.

Therefore, in order to solve this problem, as shown in Figure 3, the bulb (L) is inserted into the quartz tube (C) to be loaded, rotated, unloaded and fired. In this way, when the quartz tube C is used, not only the breakage of the bulb L can be prevented, but also a side effect of ensuring the continuity of the work. In FIG. 3, one bulb L is inserted into the quartz tube C, but it is generally advantageous to insert the three bulbs into the quartz tube to perform the process.

In order to perform the firing process by inserting the bulb into the quartz tube as described above, the process of loading the bulb into the quartz tube must be preceded.

4 illustrates a conventional bulb loading device and an operating state. Referring to this, the bulb loading device is composed of a loading robot 100 and a gauging robot 2000. The loading robot 100 primarily pushes one end of the bulb (L) to the bulb (L) in the quartz tube (C) As a part of loading), it consists of a pusher 120 and a horizontal moving unit 110 to horizontally move the pusher 120.

In addition, the gauging robot 200 further pushes the bulb L partially inserted into the quartz tube C to completely load the bulb L into the quartz tube C. The pusher 210 and the It consists of a gauge 220 mounted at the end of the pusher 210. The gauge 220 is a known element for detecting the insertion position (insertion degree) of the bulb (L) to accurately load the bulb (L) into the quartz tube (C).

In the conventional bulb loading device configured as described above, a portion of the bulb L is first loaded into the quartz tube C by the loading robot 100 (see (a)).

Next, the first loaded bulb L is completely loaded into the quartz tube C while gauging (see (b)).

However, the conventional bulb loading device configured as described above has a problem that the facility is expensive, complicated to operate, and the quartz tube or the bulb is frequently broken because the loading robot and the gauging robot must be provided separately.

The present invention has been made to solve the above problems, an object of the present invention is to provide a bulb loading device that can perform loading and gauging at the same time.

In order to solve the above technical problem, the apparatus for loading a bulb into the quartz tube according to the present invention is installed vertically, the primary loading portion for inserting a part of the bulb into the quartz tube; A horizontal moving unit for horizontally reciprocating the primary loading unit; And a secondary loading part which completely inserts the first loaded bulb into the quartz tube. The secondary loading part extends in a horizontal direction from the primary loading part. That is, the secondary loading unit of the present invention may be formed in a form that is integrally formed or separated and coupled to the primary loading unit.

In addition, the first loading portion is provided with a clamp to hold one end of the bulb, the end of the secondary loading portion is more preferably provided with a gauge for detecting the insertion position of the bulb.

According to the present invention, there is an effect that can simultaneously perform loading and gauging in one operation in one device.

That is, compared with the conventional loading device, since the gauging robot is unnecessary, the installation is very simple and the manufacturing cost is reduced.

Hereinafter, with reference to the accompanying drawings will be described the configuration and operation of the embodiment according to the present invention.

Referring to FIG. 5, the bulb loading device 1 according to the present invention includes a primary loading unit 10, a secondary loading unit 20, and a horizontal moving unit 30.

The primary loading unit 10 is a component for inserting a part of the bulb into the inside of the quartz tube by moving horizontally while holding one end of the bulb. In this embodiment, it can be seen that the primary loading unit 10 is installed vertically. In addition, the primary loading portion 10 is formed with a clamp 11 for holding one end of the bulb.

The horizontal moving part 30 is a component for horizontally reciprocating the primary loading part 10.

The secondary loading unit 20 is a component for further pushing the bulb partially inserted into the inside of the quartz tube by the primary loading unit 10 to completely insert and mount the inside of the quartz tube. In addition, the gauge 21 is provided at the end to detect the insertion position (or insertion degree) of the bulb. The gauge 21 is a known component, as described above. In particular, it can be seen that the secondary loading unit 20 extends in the horizontal direction from the primary loading unit 10. Therefore, when the primary loading unit 10 is horizontally moved by the horizontal moving unit 30, it can be seen that the secondary loading unit 20 is also horizontally moved at the same time.

The operation of the bulb loading device 1 according to the present invention will be described with reference to FIG. 6.

First, the first bulb L1 is supplied in a state of being partially inserted into the first quartz tube C1, and the clamp 11 of the primary loading part 10 clamps the first bulb L1. (see (a)).

In this state, the first loading unit 10 is horizontally moved by the horizontal moving unit 30 so as to first load the first bulb L1 into the first quartz tube C1 ((b)). Reference).

Next, the first quartz tube C1 and the first bulb L1 having completed the first loading are transferred to the front of the second loading unit 20, and the second quartz tube C2 is transferred to the first loading unit. Supply so that it is located in front of (10). A part of the second bulb L2 is also inserted into the second quartz tube C2, and one end thereof is gripped by the clamp 11 of the first loading part 10. In addition, the first loading unit 10 horizontally moved to load the first bulb L1 returns to its original position (see (c)).

In this state, when the primary loading unit 10 is horizontally moved by the horizontal moving unit 30, the second bulb L2 is first loaded on the second quartz tube C2. At the same time, the secondary loading unit 20 is also horizontally moved and the first bulb L1 is inserted into an appropriate position while gauging the first quartz tube C1 to complete the mounting (see (d)).

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 illustrates a state in which a bulb is inserted into a quartz tube.

Figure 4 shows the operating state of the conventional bulb loading device.

5 illustrates a bulb loading device according to the present invention.

Figure 6 shows the operating state of the loading apparatus according to the present invention.

** Description of the symbols for the main parts of the drawings **

1: loading device 10: primary loading unit

11: clamp 20: secondary loading

21: gauge 30: horizontal moving part

Claims (3)

In the device for loading the bulb into the quartz tube, A primary loading part for inserting a part of the bulb into the quartz tube; A horizontal moving unit for horizontally reciprocating the primary loading unit; And It includes a secondary loading unit for completely inserting the primary-loaded bulb into the quartz tube, The secondary loading portion bulb loading device, characterized in that extending in the horizontal direction from the primary loading portion. The method of claim 1, The first loading portion is a bulb loading device, characterized in that the clamp is provided to hold one end of the bulb. The method of claim 1, A bulb loading device, characterized in that a gauge for detecting the insertion position of the bulb is provided at the end of the secondary loading portion.

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