KR20160138651A - Air knife module for drying substrate and Device for drying substrate comprising the same - Google Patents

Abstract

The purpose of the present invention is to provide an air knife module for drying a substrate, which can improve drying performance of the substrate by uniformly spraying gas for drying the substrate on the surface thereof, and a substrate drying device including the same. To achieve this purpose, the air knife module for drying a substrate according to the present invention comprises: a body spraying gas for drying a substrate to the substrate; and a plurality of slits spaced apart from each other along a transfer direction of the substrate, formed in the body in parallel to each other, and allowing the gas to be sprayed. An internal surface of each of the slits has a tapered shape such that a cross section thereof can be gradually decreased from an inflow side of the gas to an outflow side of the gas.

Description

Technical Field [0001] The present invention relates to an air knife module for drying a substrate,

The present invention relates to an air knife module for drying a substrate and a substrate drying apparatus including the same. More particularly, the present invention relates to an air knife module for drying a substrate by uniformly spraying a gas on a surface of a substrate by inducing a pressure of a gas supplied to the slit to be dispersed, To an air knife module for drying a substrate, and a substrate drying apparatus including the same.

In general, a semiconductor wafer or a flat panel display (FPD) substrate is manufactured through various manufacturing processes. If the substrate surface is contaminated by particles and contaminants generated during the manufacturing process, A cleaning process is performed before / after some manufacturing processes to remove particles and contaminants on the surface.

That is, the cleaning process is a process for cleaning the surface of the substrate, for example, a chemical liquid process, a rinsing process, and a drying process. Particularly, in the drying process, the cleaning liquid remaining on the substrate surface is removed through a chemical liquid process and a rinsing process .

In general, in order to remove the cleaning liquid remaining on the surface of the substrate in the drying process, the cleaning liquid is dried by pressurizing and spraying dry air (CDA) on the surface of the substrate.

Specifically, a substrate drying apparatus including an air knife module for drying a substrate (hereinafter abbreviated as an air knife) for supplying dry air and pressurizing the substrate with a slit formed at an end thereof has been proposed.

The air knife is provided in the width direction of the substrate on the upper and lower sides of the substrate to be transferred after the chemical liquid treatment process and the rinsing process and the dry air is sprayed on the upper and lower surfaces of the substrate by a slit formed at the end, The remaining cleaning liquid is dried.

Meanwhile, since the conventional substrate drying apparatus is provided with a one slit type air knife, the substrate surface may not be completely dried depending on the conditions such as the spraying speed of the dry air, the amount of spraying, the transfer speed of the substrate, If the substrate is naturally dried in a state where the surface of the substrate is not completely dried, a drying defect such as a water mark (water mark) on the surface of the substrate is generated and the yield of products using the substrate is lowered.

In order to solve this problem, when a plurality of air knives are installed along the transport direction of the substrate, a space for installing a plurality of air knives must be secured.

Further, since the jetting intervals are considerably spaced according to the installation intervals of the air knives, the substrate is naturally dried while being transferred to the next air knife through the air knife provided before, so that the above-mentioned occurrence of the watermark can not be prevented .

In the prior art related to the air knife, the air knife for manufacturing a PDP disclosed in the Japanese Patent No. 10-0791726 includes a body formed of an upper plate and a lower plate and having a space formed therein, and an air inlet formed at one side of the upper plate or the lower plate, A packing member coupled to the concave groove formed around the space except for a portion where the nozzle is formed in any one of the upper plate and the lower plate; A fastening member fastened at predetermined intervals along the periphery of the body to fasten the upper and lower plates, and an adjusting member fastened to one end of the body to finely adjust the gap of the nozzle.

In another prior art related to the air knife, the air knife of the LCD panel drying apparatus disclosed in Japanese Patent No. 10-0527789 has an air inlet pipe installed at both ends to introduce compressed air into the inside, An air inlet block having a plurality of outflow holes formed on a lower surface thereof and having a space therein, and an air injection block having one end connected to the air inlet block and the injection hole formed at the other end, A plurality of air induction passages connected to the outflow holes of the inflow block are formed, the orifice passage having a plurality of edge portions formed by a plurality of steps with a width change while being extended from the air induction passage, .

The air knife disclosed in the above-mentioned Japanese Patent No. 10-0791726 and Japanese Patent No. 10-0527789 has a structure in which a single air nozzle (nozzle) is formed inside the body, the drying performance of the substrate is lowered, -0527789 discloses an orifice path for distributing the pressure of air inside the body, which complicates the structure of the knife and makes it difficult to process.

On the other hand, as another prior art related to the air knife, the gas injection unit disclosed in Japanese Patent Laid-Open No. 10-2010-0055806 includes a slit-shaped member for spraying gas toward a substrate in a body extending in a direction parallel to the substrate surface 1 and the second jetting port, the gas is multiply sprayed onto the substrate through the first and second jetting ports to improve the drying effect of the substrate.

However, since the inner surfaces of the first and second ejection openings are parallel to each other and have a constant sectional area along the flow direction of the gas, the pressure of the gas supplied to the first and second ejection openings is dispersed, In order to equalize the pressure distribution over the entire area of the second jetting port, the first and second chambers (buffer spaces) for temporarily storing the gas inside the body must be provided, so that the structure of the air knife is complicated There is a problem in that it is not easy to carry out lapping.

SUMMARY OF THE INVENTION The present invention has been made in order to solve the above problems, and it is an object of the present invention to provide an air knife module for drying a substrate, which can improve the drying performance of a substrate by uniformly spraying a substrate- And to provide a device.

It is another object of the present invention to provide an air knife module for substrate drying, which simplifies the structure for improving uniformity of gas spraying over the entire area of the slit by inducing pressure dispersion of the gas supplied to the slit, .

According to an aspect of the present invention, there is provided an air knife module for drying a substrate, comprising: a body for spraying a substrate drying gas toward a substrate; The inner surface of the slit is tapered so that the cross-sectional area of the slit gradually decreases from the inflow side of the gas toward the discharge side from which the gas is injected.

The body is formed of an assembly of three or more plates capable of disassembling and assembling, and the slits are formed between the plates.

And the slits are each formed to be inclined with respect to the surface of the substrate so as to face the entering direction of the substrate.

The substrate drying apparatus of the present invention includes a transfer section for transferring a substrate, the air knife module provided on the upper side or the lower side, the upper and lower sides of the substrate to be transferred, and the gas supply section for supplying the substrate drying gas to the air knife module .

According to the air knife module for drying a substrate according to the present invention and the substrate drying apparatus including the same, the inner surface of the slit is tapered so that the sectional area thereof gradually decreases from the inflow side of the substrate toward the discharge side, The pressure of the gas supplied toward the slit is dispersed and the substrate drying gas is uniformly sprayed to the surface of the substrate, so that the drying performance of the substrate can be improved.

In addition, since the present invention is able to obtain the pressure dispersion effect of the gas by forming the inner surface of the slit in a tapered shape, compared with a structure requiring a plurality of buffer spaces for pressure distribution of the gas in the prior art, So that it is possible to simplify the structure of the apparatus for improving the uniformity of spraying of the gas, thereby facilitating the processing of the apparatus and reducing the manufacturing cost.

1 is an exploded perspective view of an air knife module for drying a substrate of the present invention,
2 is a cross-sectional view of a substrate drying apparatus including an air knife module for drying a substrate of the present invention.

DETAILED DESCRIPTION OF THE PREFERRED EMBODIMENTS Hereinafter, preferred embodiments of the present invention will be described in detail with reference to the accompanying drawings.

FIG. 1 is an exploded perspective view of an air knife module 100 for drying a substrate of the present invention, and FIG. 2 is a sectional view of a substrate drying apparatus 200 including an air knife module 100 for drying a substrate of the present invention. The arrows shown in Fig. 2 show the flow direction of the substrate drying gas.

Referring to FIGS. 1 and 2, an air knife module 100 for drying a substrate according to an embodiment of the present invention includes a body 40 for spraying a substrate drying gas toward a substrate S, At least two or more slits (S1, S2) formed in parallel to each other in parallel along the conveying direction of the substrate (S) in a direction perpendicular to the direction of conveyance of the substrate (S) And is configured to multiply the air on the surface of the substrate S to be transferred.

The inner surfaces of the slits S1 and S2 are formed in a tapered shape so that the cross-sectional area gradually decreases from the inflow side of the gas toward the discharge side from which the gas is injected.

2, the substrate drying apparatus 200 including the air knife module 100 for drying a substrate includes a transfer unit 60 for supporting and transferring the substrate S, The air knife module 100 installed on the upper side or the lower side or both upper and lower sides of the substrate S transported by the air knife module 100 and the gas supply part 70 supplying the substrate for drying the substrate of high pressure to the air knife module 100 do.

For example, the body 40 of the air knife module 100 includes at least three disassembly and assemblable plates 10, 20, 30 that are sequentially disposed along the direction of transport of the substrate S. In one embodiment, the body 40 comprises an assembly of a first plate 10, a second plate 20, and a third plate 30.

The first plate 10, the second plate 20, and the third plate 30 are coupled to each other by fastening bolts 50, and a first plate 10 facing the second plate 20, The first plate 10 and the second plate 20 are formed with a first slit S1 and a second slit S1 formed between the first plate 10 and the second plate 20, 20 and the third plate 30, the second slit S2 is formed.

The spacing protrusions 21 protrude outwardly from both sides of the second plate 20 and protrude from the first plate 10 and the third plate 20, Respectively, to thereby maintain the gap.

One side of the first plate 10 and the other side of the third plate 30 are connected to a gas supply unit 70 and are connected to a first gas supply unit 70 to receive a substrate drying gas such as dry air (CDA) A sphere 11 and a second gas supply port 31 are formed.

A first valve 12 is formed between the first plate 10 and the second plate 20 to connect the first gas supply port 11 and the upper plate 12, And a first slit S1 having a tapered shape is connected to the lower portion.

A second gas discharge passage 32 is formed between the second plate 20 and the third plate 30 and connected to the upper portion of the second gas supply port 31. The second gas discharge passage 32, 32 are connected to a second slit S2 having a tapered shape.

The gas introduced into the body 40 through the first gas supply port 11 of the first plate 10 passes through the first gas discharge passage 12 and is injected through the first slit S1, And the gas introduced into the body 40 through the second gas supply port 31 of the third plate 30 passes through the second gas discharge path 32 and is injected through the second slit S2, do.

The gas introduced into the body 40 flows through the first slit S1 and the second slit S2 having a tapered shape and flows along the flow direction of the gas in the first slit S1 The pressure of the gas passes through the first slit S1 and the second slit S2 and the pressure of the gas passes through the first slit S1 and the second slit S2, The pressure distribution of the gas becomes uniform over the entire longitudinal direction of the first slit S1 and the second slit S2 as the first slit S1 and the second slit S2 are dispersed in the lateral direction, The gas discharged through the substrate S is uniformly sprayed onto the surface of the substrate S, so that the drying performance of the substrate can be improved.

When a taper T is formed on the inner surfaces of the first slit S1 and the second slit S2 as described above, a plurality of buffer spaces are formed in the gas flow passage in the body for pressure distribution of the gas in the prior art It is possible to simplify the structure of the apparatus for improving the uniformity of injection of the gas by inducing the pressure dispersion of the gas so that the apparatus can be easily processed and the manufacturing cost can be reduced.

The first slit S1 and the second slit S2 are inclined with respect to the surface of the substrate S so as to face the entering direction of the substrate S and are inclined toward the entering direction of the substrate S .

In this case, the first slit S1 and the second slit S2 may be inclined at the same angle, but it is preferable to form the first slit S1 and the second slit S2 so as to have different spray angles so that gases injected to the substrate S do not interfere with each other Do.

The injection angle formed by the first slit S1 and the second slit S2 with the surface of the substrate S may be sequentially increased from the entering direction of the substrate S. [ That is, as shown in FIG. 2, the spray angle of the second slit S2 may be larger than the spray angle of the first slit S1. Therefore, the gas injected from each of the slits S1 and S2 can be smoothly injected into multiple streams without interfering with each other.

As described above, according to the configuration of the air knife module 100 for drying a substrate according to the present invention, first, the cleaning liquid on the upper surface of the substrate S is moved in the direction opposite to the conveying direction of the substrate S by the gas ejected from the first slit S1 The substrate S is first dried at the same time as the substrate S is pushed out and subsequently the cleaning liquid on the upper surface of the substrate S is secondarily dried by the gas sprayed from the second slit S2 to be completely dried, .

The gas discharged from the first slit S1 and the second slit S2 is jetted in multiple to the adjacent portion of the surface of the substrate S and is inclined in the reverse direction of the transport direction of the substrate S without interfering with each other So that the surface of the substrate S can be completely dried.

2, the air knife module 100 is installed on the upper side of the substrate S and injects gas onto the upper surface of the substrate S. However, the present invention is not limited to this, 100 may be provided on the lower side or both upper and lower sides of the substrate S so as to simultaneously inject gas on the lower surface or the upper and lower surfaces of the substrate S. [

While the invention has been shown and described with reference to certain preferred embodiments thereof, it is to be understood that the invention is not limited to the disclosed embodiments, but, on the contrary, is intended to cover various modifications and equivalent arrangements included within the spirit and scope of the appended claims. It will be understood by those skilled in the art that various changes and modifications may be made.

10: first plate 11: first gas supply port
12: first gas discharge passage 20: second plate
21: spacing retaining projection 30: third plate
31: second gas inlet port 32: second gas outlet port
40: body 50: fastening member
60: transfer part 70: gas supply part
100: air knife module 200: substrate drying device
S: Substrate S1: First slit
S2: second slit T: taper

Claims (4)

A body for spraying a substrate drying gas toward the substrate,
And a plurality of slits spaced apart from each other along the transport direction of the substrate to spray the gas,
Wherein an inner side surface of the slit is tapered so that a cross-sectional area of the slit gradually decreases from an inlet side of the gas toward a discharge side from which gas is injected.
The method according to claim 1,
Wherein the body comprises an assembly of three or more plates capable of disassembling and assembling, and the slits are formed between the plates.
The method according to claim 1,
Wherein each of the slits is formed to be inclined with respect to a surface of the substrate so as to face the entering direction of the substrate.
A transfer unit for transferring the substrate;
The air knife module according to any one of claims 1 to 3, wherein the air knife module is installed on an upper side or a lower side or both upper and lower sides of a substrate to be transferred. And
A gas supply unit for supplying a substrate drying gas to the air knife module;
And the substrate drying apparatus.

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