KR100520271B1 - Fluorescence material painting appratus using minute nozzle apparatus - Google Patents

Abstract

BACKGROUND OF THE INVENTION 1. Field of the Invention The present invention relates to a fluorescent liquid applying nozzle apparatus for manufacturing a large sized PD (Plasma Display Panel: PDP). The present invention relates to a nozzle apparatus for reciprocating by a known moving device and applying a fluorescent liquid to a panel. Fluorescent liquid filling portion of the half recess groove is formed in width, the lower portion is in communication with the fluorescent liquid filling portion is formed with a plurality of nozzles for spraying the fluorescent liquid at regular intervals, the first surface is provided with a close contact with each other , 2 nozzle parts; Third and fourth nozzle parts having the same shape as the first and second nozzle parts; A catching groove formed in a form in which sidewalls of the first, second, third and fourth nozzles are opposed to each other; A coupling block inserted and coupled to overlap the engaging grooves of the nozzle portions in contact with each other; An injection tube which penetrates the fluorescent liquid filling unit and the nozzle unit; An insertion groove is formed to insert the combined nozzle portion, and the support is fastened by fastening the inserted first and second nozzle portions by the fastening portion; characterized in that consisting of.

Therefore, according to the present invention, as one fluorescent liquid is applied to a large PD in one operation, the operation of moving and aligning the nozzles by an accurate value is reduced, thereby reducing work time and labor costs, and minimizing defective rate. There are advantages to it.

Description

FLUORESCENCE MATERIAL PAINTING APPRATUS USING MINUTE NOZZLE APPARATUS}

The present invention relates to a fluorescent liquid coating nozzle apparatus for manufacturing a large size PD (Plasma Display Panel: PDP), and more specifically, it is possible to apply a single fluorescent liquid to a large panel in one movement, so that the workability is good. And the invention relates to a fluorescent liquid coating nozzle apparatus that the manufacturing cost is reduced.

BACKGROUND ART Generally, a PD device is a flat panel display device that displays an image by using a gas discharge phenomenon, and is a panel that is attracting more attention in recent years due to its excellent display ability such as display capacity, brightness, contrast, afterimage, and viewing angle.

As is well known, an electrode is formed between the front glass panel and the rear glass panel, and the back glass panel is filled with an inert gas, and then R, G, and B phosphors are applied in turn to apply DC or AC voltage to the electrode. When applied to the gas, discharge occurs in the gas between the electrodes, and the fluorescent liquid is excited to emit light by the radiation of ultraviolet light accompanying thereto.

At this time, the nozzle for applying the fluorescent liquid to the panel is produced by drilling with a fine drill 45㎛ ~ 150㎛ in communication with the tank portion, but this operation is very difficult to manufacture, grinding and polishing processing inside the nozzle Is even more difficult.

In addition, the nozzle as described above is very difficult to clean the inside of the nozzle when the nozzle is clogged by the fluorescent solution, the operation is interrupted, there is an uneconomical problem such as an increase in cost.

In addition, in order to apply the fluorescent solution to the panel, one fluorescent material, that is, R fluorescent solution is applied by a predetermined width, and then the position of the coating device is moved again to apply the same fluorescent solution again from the next column. The next fluorescent solution, the G fluorescent solution and the B fluorescent solution, is applied in the same manner as the application of the R fluorescent solution, but the trend of increasing the size of the PD in accordance with the recent development of the industry and the trend of enlargement of the product, In order to apply the liquid, the conventional apparatus has to be repeated several times and reciprocated to move the position of the nozzle apparatus by a predetermined width. Therefore, the positions of the moved nozzle apparatus and the panel must be reset. It is very difficult to adjust, and it takes a lot of time to increase the manufacturing cost, as well as the risk of failure is very high.

The present invention has been made to solve the problems of the conventional nozzle device as described above, not only can easily and precisely manufacture the nozzle device, but also smooth grinding, lapping, polishing processing of the inside of the nozzle and cleaning the inside It is an object of the present invention to facilitate.

In addition, the present invention induces the fluorescent liquid flowing inside the nozzle to flow without agglomeration, which eliminates the concern that the work is stopped, and it is possible to manufacture a high quality PD device because the fluorescent coating is not smooth and does not mix. There is another object of the invention.

In addition, the present invention to minimize the failure rate by applying the same fluorescent solution to a large panel in one movement, as well as to easily replace the operation in the event of a failure of the nozzle device to reduce the time required for work and downtime due to failure It is an object of the present invention to provide a device capable of.

The configuration of the present invention for achieving the object of the present invention as described above is a nozzle device for reciprocating by a known moving device and applying a fluorescent solution to the panel, the upper side of the fluorescent liquid filling portion of the semi- recess groove in a predetermined width A plurality of first and second nozzles formed at a lower portion thereof, the plurality of nozzles being in communication with the fluorescent liquid filling part and formed at a predetermined interval, and having a close contact with each other to form a contact surface; A catching groove formed in a form in which sidewalls of the first and second nozzle portions are opposed to each other; A coupling block inserted into and coupled with the plurality of nozzle side walls so as to overlap the engaging grooves in contact with each other to extend the nozzle unit; An injection tube which penetrates the fluorescent liquid filling unit and the nozzle unit; An insertion groove is formed in which the combined nozzle part is inserted, and a support tool is secured by fastening the plurality of inserted first and second nozzle parts by a fastening part.

In another aspect, the present invention is characterized by further forming a fluorescent solution inducing portion in the nozzle of the nozzle portion, it is another feature to further form a mixed color prevention groove between each nozzle.

In addition, the present invention is characterized in that the coupling block is formed larger than the locking groove.

Hereinafter, the configuration according to an embodiment of the present invention will be described in detail with reference to the accompanying drawings.

1 is an exploded perspective view of a nozzle apparatus according to the present invention, FIG. 2 is an enlarged exploded perspective view of a nozzle unit in the nozzle apparatus according to the present invention, FIG. 3 is a partially cutaway cross-sectional view of the nozzle apparatus according to the present invention, and FIG. Partial notch longitudinal sectional view of the nozzle apparatus according to the invention.

As shown in the figure, the nozzle device (N) of the present invention is largely composed of a support 10, a nozzle unit 20 and the coupling block 30, the nozzle unit 20 is separated from the center portion, respectively The first nozzle part 20a and the second nozzle part 20b are manufactured to be in contact with each other. In the following description, the first, second, third and fourth nozzle parts 20a, 20b, and 20c are provided for convenience. It demonstrates by 20d. Of course, in order to produce a large PD, it may be possible to configure the nozzle unit 20 by further extension coupling, but in the present invention, only the nozzle unit will be described.

The support 10 is coupled to a known moving means (not shown in the figure) is provided to enable reciprocating movement, is formed long in a rectangular, and forms an insertion groove 11 of a predetermined width.

On the upper side of each of the nozzle portions 20a, 20b, 20c and 20d, the fluorescent liquid filling portion 21 of the recessed groove is formed to be elongated in the longitudinal direction, and the contact surface 22 is formed. In addition, one side of the nozzle unit is provided with a phosphor filling unit 21 and an injection tube 27 penetrating through the nozzle unit.

In addition, a lower portion of each of the nozzle portions 20a, 20b, 20c, and 20d has a nozzle 22 communicating with the phosphor filling portion 21 at predetermined intervals (the interval at which the same phosphor is applied). Form a large number. At this time, the lower diameter of the nozzle 22 is about 80㎛, the upper side of the nozzle 22 is formed slightly wider, the portions connected to each other is formed in a gentle streamline.

In the intermediate portion where the upper and lower portions of the nozzle 22 meet each other, a slightly deeper and smoother phosphor induction portion 23 is formed on the lower side of the nozzle 22 in order to guide the phosphor smoothly. In addition, it is preferable that the outer circumferential surface of the nozzle 22 is formed to be close to a circle such as a hexagon or an octagon, and a plurality of nozzles in order to prevent the ejected fluorescent liquid from flowing through the bottom and mixing with other fluorescent liquids. It is preferable to form the mixed color preventing grooves 24 at predetermined depths between the two layers.

Meanwhile, as shown in FIGS. 5 to 8, the nozzle portions 20a, 20b, 20c, and 20d are separately manufactured by separating the upper phosphor filling part 21 side and the lower nozzle 22 side from each other. Can be combined with each other.

On the sidewalls of the nozzle portions 20a, 20b, 20c, and 20d, a locking groove 28 for connecting the plurality of nozzle portions to each other is formed, and both locking grooves 28 of the nozzle portion 20 in contact with each other are formed. The coupling block 30 is inserted into and coupled to the overlap. The coupling block 30 is formed with a concave portion in the center, both ends are wider than the center form (for example, H-shaped, a variety of dumbbell shape, etc.), the engaging groove 28 is the coupling block 30 It is to be made in the form that is treated with half of the form. However, in order to securely fasten the coupling block 30 and the nozzle unit 20, it is preferable to form the size of the locking groove 28 somewhat smaller than the size of the coupling block 30.

Hereinafter, the steps of manufacturing and assembling the nozzle apparatus of the present invention configured according to one embodiment as described above are as follows.

The nozzle unit 20 is a plurality of first nozzle portion 20a and the second nozzle portion 20b, 20d (in the present invention, the first, second, third and fourth nozzle portions) in a form in which the nozzle portion 20 is welded to each other based on the upper center portion. 20a, 20b, 20c, and 20d, each of the nozzle portions 20a, 20b, 20c, and 20d has a contact surface 25 formed thereon, and the upper side is elongated in the longitudinal direction. And a plurality of nozzles 22 of the recessed grooves communicating with the phosphor filling part 21 are processed at predetermined intervals. In addition, the lower side of the nozzle 22 is formed in a straight line of a narrow diameter, and the upper side is processed into a rather wide diameter. At this time, the part where the wide diameter of the nozzle 22 and the narrow diameter of the lower portion are in contact with the naked eye is gently processed into a streamlined shape. At this time, since the processing can be performed while visually confirming the internal nozzle 22 of the nozzle unit 20, polishing, polishing, lapping, and the like can be performed, thereby providing a good nozzle 22.

While making the contact surface 25 of the 1st, 3rd nozzle part 20a, 20c manufactured as mentioned above, and the contact surface 25 of the 2nd, 4th nozzle part 20b, 20d contact each other, Sidewalls of the first and third nozzle parts 20a and 20c and sidewalls of the second and fourth nozzle parts 20b and 20d are brought into contact with each other, and a coupling block 30 is formed in the locking groove 28 of the sidewall. By inserting, each nozzle part 20 is combined with each other.

At this time, since the coupling block 30 is made to be somewhat larger than the locking groove 28, after cooling to shrink to a predetermined temperature, and then coupled to the locking groove 28, the coupling after the coupling As the temperature of the block 30 rises and relaxes, the block 30 is tightly coupled to the locking groove 28 of the nozzle unit 20. Of course, when the size of the PD is larger, the nozzle unit 20 is used by combining the nozzle block 20 to the required length.

By inserting the nozzle unit 20 coupled as described above into the insertion groove 11 of the support 10, and fastening it again with the support 10 by the fastening unit 12, 26, the nozzle unit ( 20) is firmly supported by the support (10). The support 10 is formed integrally with the length of the nozzle unit 20 connected, so that the support force is good.

The panel 1 is placed on the lower part of the nozzle apparatus N of the present invention thus coupled, and one fluorescent material, that is, an R fluorescent liquid is applied to the panel 1, and thus, a known device not shown in the drawings. The fluorescent liquid discharge device gradually fills the fluorescent liquid into the fluorescent liquid filling part 21 of the nozzle unit 20 through the injection tube 27.

When the filling is carried out to some extent, the secondary liquid is pressurized to pressurize and discharge the fluorescent liquid, and the fluorescent liquid filled in the fluorescent liquid filling part 21 is transferred to the panel 1 through the communicating nozzle 22. The same fluorescent solution is uniformly applied at intervals of one pitch over the entire surface of the large PD by the slowly moving nozzle device N.

At this time, since the inside of the nozzle 22 is smoothly processed in a streamlined manner, ejection of the fluorescent liquid is easy, and the fluorescent liquid guide groove 23 gently guides the fluorescent liquid downward, so that the flow of the fluorescent liquid is reduced to the nozzle ( The problem of temporarily blocking the lower side of 22) can be prevented.

After applying the same fluorescent solution in one movement by a plurality of nozzles 22 in one movement, the nozzle 1 for moving the panel 1 to apply another fluorescent liquid, that is, G fluorescent liquid (N After the panel 1 is placed on the lower part of the panel), the above-described coating operation is performed along the side line on which the R fluorescent solution is applied. To finish.

In addition, when the nozzle 22 is clogged or a defect occurs during the operation, the nozzle unit 20 and the support 10 may be separated, and the interior may be cleaned easily.

What has been described above is merely described with reference to one embodiment of the present invention, the present invention is not limited to the above-described embodiment, the present invention without departing from the gist of the invention claimed in the following claims Anyone with ordinary knowledge in the field to which the present invention pertains will have the technical idea of the present invention to the extent that various modifications can be made.

As described above, the present invention can facilitate grinding, polishing, and lapping of the inside of the nozzle requiring fine and precise processing, thereby reducing manufacturing costs while providing a high quality nozzle, and easily discharging the fluorescent liquid. And, it is easy to clean the inside of the nozzle has the advantage of reducing the time to stop work.

In addition, the present invention is a useful invention in which the flow of the fluorescent liquid inside the nozzle is smooth and there is no fear of agglomeration temporarily therein, and there is no fear that the discharged fluorescent liquid is mixed by the reciprocating motion of the nozzle.

In addition, according to the present invention, as one fluorescent liquid is applied to a large PD in one operation, the work of aligning the nozzle by moving the nozzle to the correct value is reduced, thereby reducing the work time and labor costs, and minimizing the defective rate. There are advantages to it.

1 is an exploded perspective view of a nozzle apparatus according to the present invention

Figure 2 is an enlarged exploded perspective view of the nozzle unit of the nozzle apparatus according to the present invention

3 is a partially cutaway cross-sectional view of the nozzle apparatus according to the present invention.

4 is a partially cut-away longitudinal sectional view of the nozzle apparatus according to the present invention.

5 is an exploded perspective view of a nozzle apparatus according to another embodiment of the present invention.

6 is an enlarged exploded perspective view of a nozzle unit according to another embodiment of the present invention;

7 is a partially cut-away longitudinal sectional view of a nozzle apparatus according to another embodiment of the present invention.

8 is a partially cutaway cross-sectional view of a nozzle apparatus according to another embodiment of the present invention.

9 is an exemplary view showing a state in which the fluorescent liquid is sequentially applied to the panel by the nozzle apparatus according to the present invention.

<Code Description of Main Parts of Drawing>

10: support 11: insertion groove

12,26: fastening part 20,20a, 20b, 20c, 20d: tank part

21: fluorescent liquid filling unit 22: nozzle

23: fluorescent solution induction part 24: mixed color prevention groove

25: contact surface 27: injection tube

28: locking groove 30: coupling block

Claims (4)

In a nozzle device for reciprocating by a known moving device and applying a fluorescent solution to a panel, Fluorescent liquid filling part of the recessed groove is formed in a predetermined width on one side, and a plurality of nozzles are formed at regular intervals in communication with the fluorescent liquid filling part at a predetermined interval, and the contact surface is provided to be in contact with each other. A plurality of first and second nozzle portions in the form; A fluorescent solution inducing unit formed in the nozzle of the nozzle unit; A catching groove formed in a form in which sidewalls of the first and second nozzle portions are opposed to each other; A coupling block inserted into and coupled with the plurality of nozzle side walls so as to overlap the engaging grooves in contact with each other to extend the nozzle unit; An injection tube which penetrates the fluorescent liquid filling unit and the nozzle unit; An insertion groove in which the combined nozzle part is inserted is formed, and a support tool for firmly supporting the plurality of inserted first and second nozzle parts by a fastening part; Fluorescent solution coating nozzle apparatus for producing a large PD, characterized in that consisting of. The method of claim 1, Fluorescent liquid coating nozzle apparatus for manufacturing a large PD, characterized in that to further form a mixed color preventing groove between each nozzle of the nozzle unit. The method according to claim 1 or 2, The coupling block is a fluorescent liquid coating nozzle device for producing a large PD, characterized in that to form a larger than the engaging groove. delete