KR20110009124U - boat - Google Patents

Abstract

By connecting the vertical frames disposed on both long sides of the substrate by the support rods, and installing the support pins on the support rods in contact with the substrate with a minimum area and supporting the substrates so that the temperature of the substrate is uniform throughout the substrate processing. A boat for preventing deformation of the substrate is disclosed. The boat according to the present invention is a boat disposed in a chamber providing a space for performing a substrate processing process in a batch substrate processing apparatus and loaded with a plurality of substrates, the plurality of boats arranged along a long side direction of the substrate 10. The unit boat unit 200 includes a unit boat unit 200, and the first and second vertical frames 300A and 300B and the first and second vertical frames are disposed to face opposite sides of the substrate 10. A plurality of support rods 320 connecting the 300A and 300B and a plurality of support pins 330 installed on the support rods 320, and the substrate 10 is mounted on the support pins 330. It is characterized by.

Description

Boat {Boat}

The present invention relates to a boat in which a substrate is loaded and supported in a batch substrate processing apparatus. More specifically, the vertical frames disposed on both sides of the substrate are connected by a support rod, and the support pins which contact the substrate with a minimum area on the support rod and support the substrate are seated so that the temperature of the substrate is uniform during substrate processing. A boat for preventing deformation of a substrate during substrate processing.

Substrate processing systems used in the manufacture of flat panel displays can be roughly divided into deposition apparatus and annealing apparatus.

The deposition apparatus is a device responsible for forming a transparent conductive layer, an insulating layer, a metal layer, or a silicon layer, which constitute the core of a flat panel display. For example, a low pressure chemical vapor deposition (LPCVD) or plasma enhanced chemical vapor deposition (PECVD) Chemical vapor deposition devices, and physical vapor deposition devices such as sputtering. In addition, the annealing device is a device responsible for improving the properties of the deposited film after the deposition process, for example, there is a heat treatment device for crystallization or phase change of the deposited film.

In general, substrate processing apparatuses include a sheet type for performing substrate processing on one substrate and a batch type for performing substrate processing on a plurality of substrates. Single-leaf type has the advantage of simple configuration of the device, but the disadvantage of low productivity has been spotlighted for batch production for mass production.

In a batch substrate processing apparatus, the use of a boat that allows a plurality of substrates to be loaded and supported in a chamber providing a substrate processing space for simultaneously processing a plurality of substrates is essential.

Meanwhile, as the size of a flat panel display increases, the need for a boat capable of stably loading and supporting a large area substrate is increasing. In particular, the conventional boat has a problem in that deformation such as bending of the substrate occurs due to the load of the substrate during substrate processing, thereby deteriorating the characteristics of the flat panel display.

In order to prevent this, the substrate treatment was performed while the substrate was placed on the holder. However, in the case of using the holder, the substrate is deformed by the latent heat of the holder after the substrate treatment, and there is a problem that the size and the price of the substrate treatment system are increased by using the holder stage and the holder robot separately from the substrate.

Accordingly, the present invention has been made to solve the above problems, when performing a substrate processing process for a plurality of substrates loaded in a batch substrate processing apparatus, a support rod for connecting the vertical frame disposed on both sides of the loaded substrate And supporting the substrate by the support pins on the support rod to provide a boat in which the temperature of the substrate is uniform throughout during substrate processing.

In addition, the present invention, when performing a substrate processing process for a plurality of substrates loaded in a batch substrate processing apparatus, the substrate is supported by a support pin disposed on a support rod connecting the vertical frame on both sides of the loaded substrate It is an object of the present invention to provide a boat which can prevent deformation of a substrate during substrate processing even when the substrate is not supported by the holder during substrate processing.

In order to achieve the above object, the boat according to the present invention is a boat in which a plurality of substrates are loaded in a chamber that provides a space for performing a substrate processing process in a batch substrate processing apparatus, the long side direction of the substrate A plurality of unit boat units disposed along the first boat unit, wherein the unit boat unit comprises a plurality of first and second vertical frames arranged opposite to both long sides of the substrate, and a plurality of unit boat units connecting the first and second vertical frames; And a support rod and a plurality of support pins installed on the support rod, wherein the substrate is mounted on the support pins.

At least one of the number of unit boat units and the distance between the unit boat units may be changeable according to the size of the substrate.

The distance between the first and second vertical frames or the length of the support rod may be changeable to correspond to the size of the substrate.

A support frame for supporting the vertical frame may be connected to the lower side of the vertical frame.

The support rods may be replaceably assembled to the first and second vertical frames.

The support pin may be replaceably assembled to the support rod.

The tip portion of the support pin may be rounded.

The material of the unit boat unit may include quartz or heat resistant plastic.

According to the present invention configured as described above, in the boat loaded with a plurality of substrates of the batch type substrate processing apparatus, a support rod for connecting the vertical frame disposed on both sides of the substrate and a support pin for supporting the substrate on the support rod By including it, the temperature of the whole substrate becomes uniform at the time of the temperature rise and fall for substrate processing, and the display characteristic of a flat panel display is improved.

In addition, the boat according to the present invention has the effect that the deformation of the substrate does not occur even if the substrate is not supported by the holder during the substrate processing because the lower side of the substrate is entirely supported by the support pin.

1 is a view showing the configuration of a boat according to an embodiment of the present invention.
2 is an exploded perspective view showing the configuration of a boat according to an embodiment of the present invention.
3 is a perspective view illustrating a state in which a substrate is loaded in a boat according to an embodiment of the present invention.
4 is a side view illustrating a state in which a substrate is loaded in a boat according to an embodiment of the present invention.
FIG. 5 is a detailed view of portion A of FIG. 4.

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

The boat according to the present invention can be used in a batch substrate processing apparatus in which substrate processing is simultaneously performed on a plurality of substrates. Such a batch substrate processing apparatus may include a chamber in which a substrate processing space is provided, a heater for heating a substrate, and a gas supply pipe and a gas exhaust pipe for supplying and exhausting an atmosphere gas for controlling the substrate processing atmosphere. Can be. Since the configuration of the batch substrate processing apparatus and the substrate processing process using the batch substrate processing apparatus are well known techniques in the art, detailed description thereof will be omitted.

1 is a view showing the configuration of a boat 100 according to an embodiment of the present invention.

2 is an exploded perspective view showing the configuration of the boat 100 according to an embodiment of the present invention.

3 is a perspective view illustrating a state in which a substrate is loaded in a boat according to an embodiment of the present invention.

4 is a side view illustrating a state in which a substrate is loaded in a boat according to an embodiment of the present invention.

FIG. 5 is a detailed view of portion A of FIG. 4.

First, in the batch type substrate processing apparatus, the substrate 10 may be loaded after the substrate 10 is loaded in a state in which the boat 100 is installed in a chamber (not shown) providing a substrate processing space. Accordingly, the substrate 10 may be loaded into the boat 100 installed outside the chamber, and the boat 100 may be charged into the chamber, and then the substrate processing process may be performed.

1 and 2, the boat 100 includes a plurality of unit boat units 200.

The unit boat unit 200 is disposed in plural inside the chamber (not shown).

The unit boat unit 200 may be disposed on both sides of the substrate 10 loaded on the boat 100, that is, on the long side of the substrate 10.

The plurality of unit boat units 200 are disposed on the long side of the substrate 10 at predetermined intervals. The spacing interval of the unit boat unit 200 may be determined corresponding to the size of the substrate 10 to be loaded. In addition, the arrangement number of the unit boat unit 200 may be determined corresponding to the size of the substrate 10.

This will be described in more detail as follows.

The size of the substrate 10 loaded on the boat 100 may vary. In order to stably load the substrate 10 having various sizes, the unit boat unit 200 may be disposed to be movable, so that the interval between the unit boat units 200 may be adjusted. In particular, the spacing between the unit boat unit 200 is preferably arranged to be adjustable to correspond to the long side length of the substrate 10.

In addition, in response to the size change of the substrate 10, the number of unit boat units 200 disposed on both sides of the substrate 10 may vary. That is, referring to FIG. 1, three unit boat units 200 are disposed on the long side of the substrate 10, but are not necessarily limited thereto. The unit boat unit 200 may be formed according to the size of the substrate 10. The number may be more than three or less than three.

Referring to FIGS. 1 and 2, the unit boat unit 200 may include first and second vertical frames 300A and 300B, a support rod 320, a support pin 330, and the like.

The first and second vertical frames 300A and 300B are disposed opposite to both long sides of the substrate 10 to form a basic frame of the unit boat unit 200 and further the boat 100.

A support frame 310 may be formed below the first and second vertical frames 300A and 300B so that the first and second vertical frames 300A and 300B may be stably fixed and supported. The support frame 310 is formed to have a predetermined length and a predetermined width toward the inside of the substrate 10. However, the support frame 310 may be formed in another form if it is possible to perform stable fixing and support of the first and second vertical frames 300A and 300B. As a result, the unit boat unit 200 may have a shape of '┗' and '┛' by the first and second vertical frames 300A and 300B and the support frame 310.

The shape and length of the first and second vertical frames 300A and 300B constituting all the unit boat units 200 over the boat 100 are preferably the same.

The support rod 320 connects the first vertical frame 300A and the second vertical frame 300B which are disposed to face both long sides of the substrate 10. The support rod 320 serves to support the substrate 10 loaded on the boat 100.

A plurality of support rods 320 may be connected between the first and second vertical frames 300A and 300B of one unit boat unit 200. The plurality of support rods 320 may be connected to the first and second vertical frames 300A and 300B while being parallel to each other.

The number of support rods 320 connecting the first and second vertical frames 300A and 300B is preferably equal to the total number of substrates 10 that can be loaded into the boat 100. Therefore, in the present invention, the total number of support rods 320 included in the boat 100 may be three times the number of substrates 10. For example, referring to FIG. 1, if the boat 100 can be loaded with six substrates 10, the total number of support rods 320 may be eighteen.

The length and width of the support rod 320 may be variously changed to stably support the substrate 10. That is, the length of the support rod 320 may be changed to correspond to the distance between the first and second vertical frames 300A and 300B which are changed in accordance with the size change of the substrate 10.

On the other hand, in the present invention, the support rod 320 is preferably installed in a replaceable assembly to the first and second vertical frame (300A, 300B) as follows.

First, a plurality of rod insertion grooves 302 having a predetermined interval are formed on opposite surfaces of the first and second vertical frames 300A and 300B. The number of rod insertion grooves 302 per one vertical frame 300A, 300B may be equal to the maximum number of substrates 10 loaded in the boat 100. The heights of the predetermined reference points of the rod insertion grooves 302 formed in all the vertical frames 300A and 300B throughout the boat 100 may all be the same.

Thereafter, a supporting rod 320 having a length corresponding to a spaced interval between the first and second vertical frames 300A and 300B, that is, the short side length of the substrate 10 is prepared. Both ends of the supporting rod 320 are inserted into the rod insertion grooves 302 of the first and second vertical frames 300A and 300B to connect the first and second vertical frames 300A and 300B.

If the separation distance between the first and second vertical frames 300A and 300B is adjusted by changing the size of the substrate 10 loaded on the boat 100, the supporting rod 320 is the first and second vertical frames 300A. It can be replaced with one of a length corresponding to the separation interval between, 300B).

A plurality of support pins 330 supporting the substrate 10 are installed on the support rod 320. The support pin 330 supports the lower side of the substrate 10 loaded on the boat 100 at a predetermined height on the support rod 320.

The support pin 330 may be installed to be replaceably assembled on the support rod 320 connecting the first and second vertical frames 300A and 300B. That is, the support pin 330 may be installed by being inserted into the pin insertion groove 322 after forming the pin insertion groove 322 on the upper surface of the support rod 320. However, the present invention is not necessarily limited thereto, and for example, the support rod 320 and the support pin 330 may be integrally formed or the support pin 330 may be installed on the upper surface of the support rod 320 using a welding method. .

The tip portion of the support pin 330 is rounded to minimize the contact surface between the support pin 330 and the substrate 10, thereby preventing the substrate 10 from being damaged by the support pin 330. In addition, the support pin 330 may be formed to have a cylindrical or conical shape that is narrower toward the tip portion.

The number of support pins 330 installed on the support rod 320 may be variously changed within a range capable of stably supporting the substrate 10. For example, referring to the accompanying drawings, five support pins 330 may be installed on one support rod 320, in which case the boat 100 in the present invention has a total of 90 support pins 330. It may include.

The height of the support pin 330 may be variously changed within a range capable of stably supporting the substrate 10. However, it is preferable that the upper end portions of all the support pins 330 are substantially arranged on the same plane over the entire boat 100 so that the substrate 10 is supported simultaneously with all the support pins 330 horizontally.

The material of the first and second vertical frames 300A and 300B, the support rod 330 and the support pin 330 constituting the unit boat unit 200 is preferably quartz or heat resistant plastic, but is not limited thereto.

Meanwhile, referring to FIGS. 3, 4, and 5, the boat 100 according to the embodiment of the present invention as described above supports the lower side of the substrate 10 by the support pins 330. At this time, the substrate 10 is supported in a state in which the support pin 330 is in contact with the minimum area and is spaced apart from the support rod 320 by a predetermined height.

Accordingly, the boat 100 according to the present invention minimizes the contact area with the substrate 10 so that the boat 10 may be heated by the latent heat of the boat 100 during the temperature rise and fall for performing the substrate treatment process in the chamber. There is an advantage that the temperature uniformity can be prevented from being lowered, and that the display characteristics of the flat panel display can be suppressed from being lowered. In addition, since the lower side of the substrate 10 is entirely supported by the plurality of support pins 330, the boat 100 according to the present invention does not need to be supported by the holder during substrate processing. There is an advantage that no deformation occurs.

The present invention has been shown and described with reference to the preferred embodiments as described above, but is not limited to the above embodiments and various modifications made by those skilled in the art to which the subject innovation pertains without departing from the spirit of the present invention. Modifications and variations are possible. Such modifications and variations should be regarded as falling within the scope of the present invention and the appended claims.

10: Substrate
100: boat
200: unit boat unit
300A, 300B: first and second vertical frames
310: support frame
320: support rod
330: support pin

Claims (8)

A boat in which a plurality of substrates are loaded and disposed in a chamber that provides space for performing a substrate processing process in a batch substrate processing apparatus,
A plurality of unit boat units disposed along a long side direction of the substrate, wherein the unit boat units are disposed to face both long side sides of the substrate, and the first and second vertical frames And a plurality of support rods connected to the support rods, and a plurality of support pins installed on the support rods, wherein the substrate is seated on the support pins. The method of claim 1,
And at least one of the number of unit boat units and the distance between the unit boat units is changeable corresponding to the size of the substrate. The method of claim 1,
And the distance between the first and second vertical frames or the length of the support rod is changeable corresponding to the size of the substrate. The method of claim 1,
A boat, characterized in that the support frame for supporting the vertical frame is connected to the lower side of the vertical frame. The method of claim 1,
And the support rods are replaceably assembled to the first and second vertical frames. The method of claim 1,
And the support pin is replaceably assembled to the support rod. The method of claim 1,
A boat, characterized in that the front end of the support pin is rounded. The method of claim 1,
The unit boat unit is a boat, characterized in that the material comprises a quartz or heat-resistant plastic.

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