KR20070005196A - The baking device for the fluorescent lamps - Google Patents

Abstract

A baking device for a fluorescent lamp is provided to perform simultaneously rotational motion and horizontal motion by arranging a plurality of fluorescent lamps in a horizontal state. A phosphor is coated on an upper surface of a frame(1). A transfer unit(3) performs rotational motion and horizontal motion of a fluorescent lamp having the frame. A heating unit(9) applies the heat to the fluorescent lamp. The transfer unit includes sprockets(11) installed at both sides of the frame, a driving motor(15) for transferring rotatory power to one of the sprockets, a chain(13) installed on each of the sprockets in order to transmit the power, and a supporting part(5) for loading the fluorescent lamp in a horizontal state on the transfer unit.

Description

Horizontal fluorescent lamp firing device {The baking device for the fluorescent lamps}

1 is a plan view of a horizontal fluorescent lamp firing apparatus according to a preferred embodiment of the present invention.

2 is a side view of the horizontal fluorescent lamp firing apparatus shown in FIG.

3 is an enlarged view of a portion “A” of FIG. 1;

4 is an enlarged view of a portion “B” of FIG. 2;

FIG. 5 is a side view showing the engaged state of the pinion gear and the rack gear by schematically showing the "C-C" cross section of FIG.

FIG. 6 is a side view showing a state in which a fluorescent lamp rotates on a block by schematically showing the cross-section "D-D" of FIG.

The present invention relates to a firing apparatus for a fluorescent lamp, and more particularly to a firing apparatus for a fluorescent lamp that can easily discharge the organic matter discharged from the phosphor to the outside by firing the fluorescent lamp in a horizontal state.

In general, the manufacturing process of the fluorescent lamp includes a process of applying a phosphor to the interior of the lamp, a process of firing the applied phosphor, a vacuum exhaust process of exhausting the internal gas of the fired lamp, and a process of sealing after gas injection Divide.

In order to perform each process of the fluorescent lamp, a phosphor coating device, a firing device, and an exhaust device are used for each process.

In particular, the capillary fluorescent lamp widely used as a light source for the backlight of the liquid crystal display device can be manufactured through the above manufacturing process.

The capillary fluorescent lamp is a capillary tube having an outer diameter of several mm and includes a cold cathode fluorescent lamp and an external electrode fluorescent lamp.

The fluorescent lamp may be manufactured through a firing process by a standing method. That is, after placing the fluorescent lamp in the vertical direction, the phosphor is coated therein and heated to a high temperature so that the phosphor is fired on the inner wall of the glass tube.

However, in this standing type firing process, hot air is used for firing the phosphor, and as a result of rising air flow inside the lamp, the organic matter generated from the phosphor inside the fluorescent lamp is moved upward. do.

Therefore, organic matter remains inside the fluorescent lamp, and since the fluorescent lamp is sealed in such a state, there is a problem that the lifetime of the fluorescent lamp may be shortened or a bad fluorescent lamp may be manufactured.

In addition, since the fluorescent lamp is placed vertically and fired, there is a problem that the fluorescent lamp may be deformed.

In addition, since the fluorescent lamps must be vertically disposed, the standing type firing apparatus has a problem in that the size of the entire apparatus is increased as the accessory equipment is added, thereby increasing the manufacturing cost of the equipment or increasing the space occupied by the apparatus.

Therefore, the present invention has been made to solve the above problems, the object according to a preferred embodiment of the present invention by arranging the fluorescent lamp in a horizontal state by performing a firing process while simultaneously rotating and horizontal movement, firing It is to provide a firing device of a fluorescent lamp that can maximize the efficiency of the process.

In addition, another object of the present invention is to increase the fluorescence efficiency by applying heat from the fluorescent lamps arranged horizontally to proceed the firing process, while at the same time blowing hot air from the end of the lamp to efficiently discharge the organic matter without rising air flow caused by hot air The present invention provides a firing apparatus for a fluorescent lamp.

Further, another object of the present invention is to provide a firing apparatus of a fluorescent lamp that can reduce the manufacturing cost by miniaturizing the size.

In order to achieve the above object, a fluorescent lamp firing apparatus according to an embodiment of the present invention includes a frame; A transfer unit for rotating and horizontally moving a fluorescent lamp coated with a phosphor on the frame; It includes a heating unit for applying heat to the fluorescent lamp.

The firing apparatus of such a fluorescent lamp can maximize the efficiency of the firing process by arranging a plurality of fluorescent lamps in a horizontal state and performing a firing process while simultaneously rotating and rotating a horizontal motion.

In addition, while heating the upper portion of the fluorescent lamps arranged horizontally to proceed with the firing process, at the same time by blowing the hot air from the end of the lamp to efficiently discharge the organic matter without rising air flow by the hot air, there is an advantage that can increase the fluorescent efficiency.

Hereinafter, the structure of a fluorescent lamp firing apparatus according to a preferred embodiment of the present invention with reference to the accompanying drawings will be described in detail.

1 is a plan view of a horizontal fluorescent lamp firing apparatus according to a preferred embodiment of the present invention, Figure 2 is a side view of the horizontal fluorescent lamp firing apparatus shown in FIG.

As shown, the firing apparatus proposed by the present invention is provided on each side of the frame (Frame) 1 and the frame (1), the fluorescent lamp (L) is mounted on the upper surface of the fluorescent lamp (L) On the pair of transfer parts 3 and 3a to be transported in a horizontal state, the support part 5 provided on the pair of transfer parts 3 and 3a to support the fluorescent lamp L, and on the support part 5. A heating unit 9 for supplying hot air to the rotating unit 7 for rotating the seated fluorescent lamp L and the fluorescent lamp L transported horizontally by the pair of transfer units 3 to perform firing. It includes.

In the firing apparatus of the fluorescent lamp having such a structure, the pair of conveying unit (3) is mounted on both sides of the frame (1), respectively, has a structure having a pair of sprockets for moving the workpiece while rotating Have

At this time, since the transfer parts 3 provided on both sides of the frame 1 have the same structure, only the transfer part on one side will be described below.

The transfer unit 3 is a sprocket 11 which is installed at regular intervals along the frame 1, the chain 13 is mounted on the sprocket 11 so as to enable power transmission, and the sprocket 11 Among them, the drive motor 15 for transmitting the rotational power to any one of the sprockets.

In addition, two or more sprockets 11 are provided on the side of the frame 1 to prevent the chain 13 from sagging.

In the present embodiment, the chain 13 is a chain 13 having a conventional structure, and is in a state of being engaged with the sprocket 11, so that when the sprocket 11 rotates, the chain 13 also rotates in conjunction with the conventional chain conveyor. It may have the same or similar structure as.

In addition, the chain 13 is provided with the support part 5 capable of supporting the fluorescent lamp L so that the fluorescent lamp L can be seated in a horizontal state on the transfer part 3.

In more detail, as shown in FIGS. 2 to 4 and 6, the support part 5 includes a substantially forward-shaped block 17 that is integrally coupled to the chain 13, and one end thereof. The part 23 consists of a pair of rollers of rollers 19a and 19b to which one end 23 is rotatably coupled to the block 17.

The lower part of the block 17 is integrally connected to the chain 13 by a fastening means such as a screw, and a pair of bearings 21 are provided inside the block 17.

The one end portion 23 of the pair of rollers 19a and 19b is coupled to the pair of bearings 21, respectively, to have a rotatable structure.

Thus, the blocks 17 are provided on both sides of the frame 1 so as to face each other, so that both ends of the pair of rollers 19a and 19b are horizontal to the respective blocks 17 and 17a (Fig. 1). Rotatable in a coupled state.

In this case, the pair of rollers 19a and 19b may be rod-shaped rollers having a predetermined diameter. The pair of rollers 19a and 19b are spaced apart from each other by a predetermined distance. At this time, the interval between the pair of rollers (19a, 19b) has a length smaller than the diameter of the fluorescent lamp (L).

Therefore, even if the fluorescent lamp L is seated on the upper portion of the roller (19a, 19b) can be supported without falling between the pair of roller (19a, 19b).

On the other hand, as described above, the pair of rollers (19a, 19b) installed to position the fluorescent lamp (L) in a horizontal position is rotated by the rotating part (7) in the state coupled to the block 17 (自轉) is possible.

As shown in FIGS. 3 and 5, the rotation part 7 includes a pinion gear 25 provided at one end 23 of the pair of rollers 19a and 19b, and the frame 1. It is fixed to the made of a rack gear (Rack Gear) 27 that is engaged to the pinion gear (25).

In more detail, the pinion gear 25 is formed at one end of the pair of rollers 19a and 19b, respectively, and the pair of rollers 19a and 19b are coupled to the block 17 so as to be idle. It is in a state.

In addition, the rack gear 27 to which the pinion gear 25 is meshed is fixedly provided on the top of the frame 1 and is disposed along the conveying direction of the fluorescent lamp L.

Therefore, when the chain 13 is driven and rotated, the block 17 moves forward, and the pair of rollers 19a and 19b rotatably coupled to the block 17 also move forward together. The pinion gear 25 provided on the rollers 19a and 19b is relatively rotated by being pushed by the fixed rack gear 27.

As a result, since the rollers 19a and 19b are rotated by the rotation of the pinion gear 25, the fluorescent lamps L mounted on the pair of rollers 19a and 19b are rotated in place.

The fluorescent lamp L can be appropriately fired by providing the heating section 9 for supplying hot air from the side while applying heat from the upper portion of the fluorescent lamp L rotating in the horizontal state.

As shown in FIGS. 1 and 2, the heating part 9 is provided above the fluorescent lamp L at the upper part of the transfer part 3 and heats and heats the fluorescent lamp L by heating. 29) and hot air supplies 31a and 31b for discharging the internal organic matter of the fluorescent lamp L to the outside by hot air by supplying hot air to the side surface of the fluorescent lamp L.

The heater 29 refers to a heater having a conventional structure, by heating a plurality of fluorescent lamps (L) conveyed by the transfer unit 3 by generating an appropriate amount of heat to be fired.

In addition, the hot air supply (31a, 31b) may be a nozzle in the form of a hole in the tube, the tube is provided between the one end portion 23 and the block 17 of the fluorescent lamp (L) hot air By blowing in the lateral direction of the fluorescent lamp (L) it is possible to efficiently discharge the organic matter inside the fluorescent lamp (L).

In this way, the heating unit 9 fires the inside of the fluorescent lamp L by the heat generated from the upper portion of the fluorescent lamp L and the hot air supplied laterally.

As described above, the firing apparatus of the fluorescent lamp according to the preferred embodiment of the present invention arranges a plurality of fluorescent lamps in a horizontal state and performs the firing process while simultaneously rotating and rotating the horizontal motion, thereby maximizing the efficiency of the firing process. Can be.

In addition, while heating the upper portion of the fluorescent lamps arranged horizontally to proceed with the firing process, at the same time by blowing the hot air from the end of the lamp to efficiently discharge the organic matter without rising air flow by the hot air, there is an advantage that can increase the fluorescent efficiency.

In addition, the firing apparatus can be miniaturized, and the structure thereof can be simplified to reduce manufacturing costs.

In addition, there is an advantage that the yield can be increased by shortening the tac time by improving the firing efficiency.

The present invention can be variously changed by those skilled in the art without departing from the gist of the present invention claimed in the claims, and is not limited to the specific preferred embodiments described above. .

Claims (6)

A frame; A transfer unit for rotating and horizontally moving a fluorescent lamp coated with a phosphor on the frame; Firing apparatus of a fluorescent lamp comprising a heating unit for applying heat to the fluorescent lamp. According to claim 1, The transfer unit is provided with sprockets each provided at both sides of the frame at regular intervals, a drive motor for transmitting rotational power to any one of the sprockets, and power transmission on the sprockets And a supporting part integrally provided in the chain, and a supporting part integrally provided in the chain to allow the fluorescent lamp to be seated horizontally on the conveying part. The fluorescent lamp of claim 2, wherein the support part includes at least one block integrally coupled to the chain, and a pair of rollers having one end rotatably connected to the block and having the fluorescent lamp seated thereon and rotating on the upper part. The firing device of the lamp. According to claim 3, wherein the lower portion of the block is integrally coupled to the chain, the middle portion is provided with a pair of bearings, the pair of bearings are coupled to one end of the pair of rollers, respectively, rotatable fluorescence The firing device of the lamp. According to claim 3, wherein the frame and the transfer portion further comprises a rotating portion, the rotating portion is provided with the rack gear fixed to the frame, the pair of rollers integrally, and is engaged with the rack gear to rotate By the pinion gear, when the block is advanced by the chain, the pinion gear rotates to rotate the pair of rollers in place so that the fluorescent lamp seated on the pair of rollers can rotate and rotate horizontally. Firing apparatus for fluorescent lamps. According to claim 3, wherein the heating unit is provided on the upper portion of the transfer unit to generate heat to fire the fluorescent lamp, and provided on one side of the fluorescent lamp by supplying hot air into the fluorescent lamp to discharge the organic matter to the outside Firing apparatus for a fluorescent lamp comprising a hot air feeder.

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