KR20160063635A - Substrate stand apparatus - Google Patents

Abstract

The present invention relates to a substrate supporting rack including: a substrate supporting part which supports a substrate by coming in contact with a bottom of the substrate, and is installed to be movable up and down depending on the supporting the substrate; a rotary member which has one end located at the lower side of the substrate supporting part, has the other end located in a separation area separated from an area where the substrate is supported, is installed to be rotatable around a hinge axis, and rotates around the hinge axis when the substrate is supported by the substrate supporting part and the substrate supporting part moves downwardly; and a detection sensor to detect the position of the rotary member. The substrate supporting rack can detect existence of the substrate accurately even though liquid like pure water is stained on a surface of the substrate on the substrate supporting part.

Description

SUBSTRATE STAND APPARATUS

The present invention relates to a substrate holder, and more particularly, to a substrate holder capable of accurately detecting the presence or absence of a substrate without erroneously sensing by pure water injected from the substrate holder.

In general, a process of immersing a substrate in a wet state during a process of processing a substrate used for a display device or a wafer used for manufacturing a semiconductor device (hereinafter, referred to as a "substrate") often occurs.

For example, even before the wafer is mounted on the polishing head before the chemical mechanical polishing process of the wafer is performed, the wafer is loaded on the loading unit and the wafer is unloaded from the polishing head even when the chemical mechanical polishing process of the wafer is completed Unloading unit, and the multistage cleaning process is performed in a state where the chemical mechanical polishing process is completed.

It is important to confirm whether the substrate is in a stationary state or in a stationary standby state in the state where the substrate is stationary, and then perform the next step.

The substrate holder 1 shown in FIG. 1 and FIG. 2 is a holder for holding the substrate W when loading or unloading the substrate. The substrate holder 10 includes a support table 10 for holding the substrate W, A pure water supply unit 20 for spraying pure water 55, a substrate detection sensor 30 for monitoring whether the substrate W is positioned on the substrate holder 1, a cover (not shown) 40).

The substrate support 10 is provided with a mounting surface 10s for mounting the substrate W on the bottom or edge of the substrate W and is arranged around the fall preventing member 15. [ Thus, even if an error occurs in mounting the substrate W on the substrate holder 10, the substrate W does not fall down.

The pure water supply unit 20 injects the pure water 55 through the spray hole 20a to the substrate W placed on the substrate support 10 to prevent drying and damage according to the state of the substrate W. [

The substrate detection sensor 30 irradiates light 30a at a position where the substrate support 10 is stationary and detects the presence or absence of the substrate W by receiving the reflected light from the substrate W. [

The cover 40 serves to prevent the pure water supplied from the pure water supply unit 20 from splashing outward.

The substrate holder 1 configured as described above receives reflected light (including non-reflected light) of the light 30a emitted from the substrate sensor 30 in a state where the substrate W is mounted on the substrate support 10, (W).

However, since the conventional substrate holder 1 shown in Figs. 1 and 2 supplies the pure water 55 to the surface of the substrate, the light 30a irradiated from the substrate detection sensor 30 is reflected on the surface of the substrate W There is a problem that the presence or absence of the substrate W can not be accurately grasped due to scattering by the pure water 55 remaining on the surface.

SUMMARY OF THE INVENTION It is an object of the present invention to provide a substrate holder capable of precisely detecting the presence or absence of a substrate even when pure water is sprayed onto the substrate placed on the substrate holder.

According to an aspect of the present invention, there is provided a substrate mounting table for mounting a substrate thereon, the substrate mounting table comprising: a substrate support table installed to be movable up and down according to the mounting of the substrate in contact with the bottom surface of the substrate; ; And the other end is located in an isolated region isolated from an area where the substrate is mounted and is pivotable about a hinge axis so that the substrate is placed on the substrate support and the substrate support is moved downward A pivoting member that rotates about the hinge axis; A sensing sensor for sensing a position of the tiltable member; And detecting whether or not the substrate is held by the movement of the other end of the tiltable member detected by the detection sensor.

Here, the detection sensor may be a displacement sensor for detecting the position of the other end of the tiltable member.

According to another aspect of the present invention, there is provided a substrate holder for mounting a substrate thereon, the substrate holder including: a substrate supporter mounted on the substrate in contact with a bottom surface of the substrate to be movable up and down according to the substrate; A movable member whose one end is moved up and down in association with the substrate support and the other end is located in an isolated region isolated from an area where the substrate is mounted and the substrate is placed on the substrate support and the substrate support is moved downward; A sensing sensor for sensing a position of the moving member; And a substrate holder for detecting whether or not the substrate is held by the movement of the other end of the moving member detected by the detection sensor.

Here, the detection sensor may be formed as a displacement sensor that senses the position of the other end of the moving member.

Further, the present invention is characterized by comprising: a cover surrounding an area where the substrate is mounted; Wherein the isolation region is disposed outside the cover to detect whether the substrate is stuck in an area isolated from water droplets splashed by the pure water applied to the surface of the substrate to accurately detect whether the substrate is stuck or not can do.

The substrate support may include a loading unit for supplying a substrate to the chemical mechanical polishing process, an unloading unit for receiving the substrate after the chemical mechanical polishing process is completed, and a device for cleaning or rinsing while rotating the substrate It can be one.

As described above, according to the present invention, the other end of a member rotating or moving in association with a substrate holder, which is moved up and down by the amount corresponding to the self weight of the substrate, is positioned in an isolated region isolated from a region where the substrate is mounted The substrate is supported by the substrate support and the substrate support is moved downward, the movement of the other end of the member is sensed by the detection sensor to confirm whether the substrate is stationary or not, It is possible to obtain an advantageous effect of accurately detecting the presence or absence of the substrate.

1 is a perspective view showing a configuration of a conventional substrate holder,
FIG. 2 is a schematic view showing a configuration in which a substrate is mounted on the substrate holder of FIG. 1 and the presence or absence of a substrate is detected by a substrate detection sensor;
3 is a perspective view showing a configuration of a substrate holder according to a first embodiment of the present invention,
FIG. 4A is a longitudinal sectional view showing the configuration of the substrate holder of the portion 'A' in FIG. 3,
FIG. 4B is a longitudinal sectional view for explaining the principle of detecting the presence or absence of the substrate of the substrate holder of FIG. 4A,
FIG. 5A is a longitudinal sectional view showing a configuration of a substrate holder of a portion corresponding to the portion 'A' of FIG. 3 as a substrate holder according to a second embodiment of the present invention;
5B is a vertical sectional view for explaining the principle of detecting the presence or absence of the substrate of the substrate holder of FIG. 5A.

Hereinafter, a substrate holder 100 according to a first embodiment of the present invention will be described in detail with reference to the accompanying drawings. In describing the present invention, well-known functions or constructions will be omitted for the sake of clarity of the present invention, and the same or similar function or configuration will be given the same or similar reference numerals.

As shown in the drawing, the substrate holder 100 according to the first embodiment of the present invention includes a substrate support 110 which supports the bottom surface of the substrate and is elastically supported and movable up and down, A sensor 130 for detecting whether the substrate W is mounted on the substrate supporter 110 and a sensor 130 for sensing whether the substrate W is mounted on the substrate supporter 110. The pure supporter 120 surrounds the substrate supporter 110, A cover 140 for preventing pure water supplied to the surface of the substrate W from the substrate support 120 from bouncing to the outside and a tilting member 150 rotatably provided in association with the vertical movement of the substrate support table 110 do.

When the substrate W is mounted on the substrate support table 110, a stationary surface 110s which abuts the bottom surface of the substrate W is formed and is elastically supported by the spring 112. Accordingly, when the substrate W is placed on the stationary surface 110s, the substrate W is moved downward (110d) by the self weight of the substrate W in a state of being elastically supported.

The rigidity of the spring 112 is determined so that the vertical displacement of the substrate support 110 is in the range of 1 mm to 30 mm in accordance with the weight of the substrate W mounted on the substrate support 110. Accordingly, when the substrate W is sufficiently heavy, the spring stiffness 112 becomes large, and when the substrate W is light, such as a wafer with a diameter of 300 mm, the spring stiffness 112 becomes small.

The contact member 110a is formed on the bottom surface of the substrate support 110 on which the one end 150R of the tiltable member 1150 is disposed so as to be interlocked with the vertical movement of the substrate support 110 and the rotation movement of the tiltable member 150, As shown in FIG. Even though the pivoting member 150 rotates about the hinge axis 150H, the one end 150R of the pivoting member 150 is kept in contact with the substrate support 110 in a downward direction, The pivot member 150 can be smoothly rotated in accordance with the downward movement of the substrate support table 110 because the pivot member 150 is pushed downward by the support table 110. [

Although the figure shows a configuration in which a plurality of substrate supports 110 are provided to support the bottom edge of the substrate W, according to another embodiment not shown in the drawing, And may be formed in a shape to support the bottom of the center portion.

The pure water supply unit 120 supplies pure water 55 to the surface of the substrate W when the substrate W is mounted on the substrate support 110. Although the pure water supply unit 120 may not be provided as needed, the substrate associated with the chemical mechanical polishing process is required to supply pure water because the substrate is damaged by drying.

The cover 140 extends around the periphery of the substrate support 110 so as to be sufficiently high to prevent pure water applied in a state where the substrate is mounted on the substrate support 110 and liquid used in the treatment process to bounce around .

Outside the cover 140 on which the substrate support 110 is disposed is formed a housing 160 forming a substrate region X1 surrounded by the cover 140 and an isolation space X2 isolated by the partition wall 99 .

One end 150R and the other end 150L of the tiltable member 150 are located in the substrate mounting area X1 and the isolation area X2 surrounded by the cover 140 and the hinge axis 150H As shown in Fig. One end 150R of the tiltable member 150 is kept in contact with the contact member 110a located on the bottom surface of the substrate support 110. [

A spring 152 having a low rigidity of 1/5 to 1/100 as compared with the spring 112 provided on the substrate support table 110 is installed in the tiltable member 150 so that the substrate support table 110 is moved upward Thereby exerting a force for rotating the pivoting member 150 to the home position. 4 (a). When the pivoting member 150 is rotated and returned to the original position shown in Fig. 4 (a) by the spring 152, the wall surface 77 are formed to serve as a stopper for restricting rotation of the tiltable member 150.

The detection sensor 130 is installed in the isolation region X2 isolated from the substrate W and does not spatter the pure water 55 and detects the distance to the sensing surface 150s of the other end 150L of the tiltable member 150 L1) is measured.

4A, when the substrate W is not mounted on the substrate support 110, the rotation member 150 does not rotate about the hinge shaft 150H, The distance L1 to the sensing surface 150s located at the other end 150L of the tiltable member 150 is measured to be sufficiently long. However, when the substrate W is mounted on the substrate support 110, the substrate support 110 is moved downward by the weight of the substrate W as shown in FIG. 4B, And the distance L2 from the sensing sensor 130 to the sensing surface 150S located at the other end 150L is reduced by the rotation 150d about the hinge axis 150H.

Therefore, the detection sensor 130 can detect whether or not the substrate W is mounted on the substrate support 110 by measuring the distance to the other end 150L of the tiltable member 150. Particularly, since the detection sensor 130 is isolated by the region X1 where the substrate W is located and the partition wall 99, the detection sensor 130 is not affected at all by spraying pure water or a cleaning liquid on the substrate W . The present invention is not affected by the liquid such as pure water applied to the substrate mounting region X1 and the amount of change in the distance from the sensing sensor 130 located in the isolation region X2 to the other end of the tiltable member 150 It is possible to accurately detect whether the substrate W is mounted on the substrate support 110 or not.

That is, the substrate holder 100 according to the first embodiment of the present invention is configured such that a force corresponding to the self weight of the substrate W as the substrate W is mounted on the substrate holder 110, The other end 150L of the pivoting member 150 that rotates in conjunction with the vertically moving substrate holder 110 by acting on the support table 110 is detected by the detection sensor 130 in the isolated region X2, It is possible to obtain an advantageous effect of accurately detecting whether or not the substrate is mounted on the substrate support 110 even if pure water or the like is coated in the region X1 surrounded by the cover 140 have.

Hereinafter, a substrate holder 200 according to a second embodiment of the present invention will be described in detail with reference to the accompanying drawings. In the following description of the present invention, the same or similar reference numerals are used to designate the same or similar functions or configurations of the first embodiment. .

The substrate holder 200 according to the second embodiment of the present invention includes a substrate support 210 that supports the bottom surface of the substrate and is elastically supported to be movable up and down and pure water 55 is sprayed onto the surface of the substrate W A sensing sensor 230 for detecting whether the substrate W is mounted on the substrate support 110 and a sensor for sensing the substrate W from the pure water supply unit 120 by surrounding the substrate support 210. [ A cover 140 for preventing pure water supplied to the surface of the substrate support 110 from bouncing to the outside and a movable member 250 provided so as to be movable up and down in conjunction with the vertical movement of the substrate support 110. That is, the second embodiment of the present invention is different from the first embodiment in that the movable member 250 moves up and down together with the vertical movement of the substrate holder 210.

When the substrate W is mounted on the substrate support 210, the mounting surface 210s contacting the bottom surface of the substrate W is formed and is elastically supported by the spring 112. Accordingly, when the substrate W is held on the stationary surface 210s, the substrate support 210 moves downward (110d) due to its own weight.

The rigidity of the spring 212 is determined so that the vertical displacement of the substrate support 210 is in the range of 1 mm to 30 mm in accordance with the weight of the substrate W mounted on the substrate support 210. Therefore, when the substrate W is sufficiently heavy, the rigidity of the spring 212 becomes large, and when the substrate W is light, such as a wafer with a diameter of 300 mm, the rigidity of the spring 212 becomes small.

The movable member 150 may be coupled to the substrate support 210 at one end or may be moved downward by the substrate support 210 when the substrate support 210 moves downward,

Although the figure shows a configuration in which a plurality of substrate supports 210 are provided to support the bottom edge of the substrate W, according to another embodiment not shown in the drawings, the substrate support 210 may be mounted on the substrate W And may be formed in a shape to support the bottom of the center portion.

The other end 250L of the movable member 250 is located in the substrate mounting area X1 surrounded by the cover 140 and the isolation area X2 isolated by the partition wall 99, And moves in the vertical direction together. The moving member 250 is guided by the guiding wall surface 88 and is installed to be resiliently supported by a spring 252 of low rigidity.

The spring 252 for elastically supporting the movable member 250 is formed to have a low rigidity of 1/5 to 1/100 as compared with the spring 112 provided on the substrate support 110 so that the weight of the substrate W The downward movement of the substrate support 210 is minimized.

The sensing sensor 230 is installed in the isolation region X2 isolated from the substrate W and does not spatter the pure water 55 and measures the distance to the other end 150L of the moving member 250. [

5A, when the substrate W is not mounted on the substrate support 210, the movable member 250 is not moved downward, And the distance L1 to the center line 250L is measured to be small. However, when the substrate W is mounted on the substrate support 210, the substrate support 210 is moved downward by the weight of the substrate W as shown in FIG. 5B, Moves to the lower side 250d, so that the measured distance L2 from the sensing sensor 230 to the other end 250L becomes larger.

Therefore, the detection sensor 230 can detect whether or not the substrate W is mounted on the substrate support 210 through the distance measurement value to the other end 250L of the movable member 250. Particularly, since the detection sensor 230 is isolated from the area X1 where the substrate W is located and the partition wall 99, the detection sensor 230 is not affected at all by spraying pure water or a cleaning liquid on the substrate W .

The present invention is not limited by the liquid such as pure water that is applied to the substrate mounting area X1 and is not affected by the liquid from the sensing sensor 230 located in the isolation region X2 to the other end 250L of the moving member 250 It is possible to accurately detect whether the substrate W is mounted on the substrate support 210 from the distance variation.

The substrate holder 200 according to the second embodiment of the present invention is configured such that a force corresponding to the weight of the substrate W is applied to the substrate support table 210 as the substrate W is mounted on the substrate support table 210 The other end 250L of the moving member 250 which rotates in conjunction with the vertically moving substrate holder 210 is detected by the detection sensor 230 in the isolated region X2 and the substrate W It is possible to accurately detect whether or not the substrate is mounted on the substrate support 210 in the isolation region X2 even if pure water or the like is coated in the region X1 surrounded by the cover 140 An advantageous effect can be obtained.

While the present invention has been particularly shown and described with reference to exemplary embodiments thereof, it is to be understood that the invention is not limited to the disclosed exemplary embodiments, And can be appropriately changed within the scope of the claims.

In the above-described embodiment, the substrate holding tables 100, 200, and 300 for holding the substrate W are merely exemplified. However, the substrate holding tables 100, 200, and 300, A loading unit for supplying the substrate to the chemical mechanical polishing process, an unloading unit for receiving the substrate on which the chemical mechanical polishing process has been completed, and a cleaning device for rinsing or cleaning the substrate while rotating the substrate, To the person skilled in the art to which the present invention belongs.

100, 200: substrate holder 110, 210: substrate holder
120: pure water supply unit 130, 230: detection sensor
140: cover 150: pivot member
250: moving member W: substrate

Claims (9)

As a substrate holder for mounting a substrate,
A substrate support placed in contact with a bottom surface of the substrate to support the substrate, the substrate support being vertically movable according to the mounting of the substrate;
And the other end is located in an isolated region isolated from an area where the substrate is mounted and is pivotable about a hinge axis so that the substrate is placed on the substrate support and the substrate support is moved downward A pivoting member that rotates about the hinge axis;
A sensing sensor for sensing a position of the tiltable member;
And detecting whether the substrate is stationary by moving the other end of the tiltable member detected by the detection sensor.
The method according to claim 1,
Wherein the detection sensor is a displacement sensor for detecting a position of the other end of the tiltable member.
The method according to claim 1,
Wherein a curved contact member is formed on a bottom surface of the substrate support and is in contact with one end of the tiltable member in a curved surface.
As a substrate holder for mounting a substrate,
A substrate support placed in contact with a bottom surface of the substrate to support the substrate, the substrate support being vertically movable according to the mounting of the substrate;
A movable member whose one end is moved up and down in association with the substrate support and the other end is located in an isolated region isolated from an area where the substrate is mounted and the substrate is placed on the substrate support and the substrate support is moved downward;
A sensing sensor for sensing a position of the moving member;
And detecting whether or not the substrate is stuck by movement of the other end of the moving member detected by the detection sensor.
5. The method of claim 4,
Wherein the detection sensor is a displacement sensor for detecting a position of the other end of the moving member.
5. The method of claim 4,
Wherein a curved contact member is formed on the bottom surface of the substrate support and is in curved contact with one end of the moving member.
7. The method according to any one of claims 1 to 6,
Wherein the substrate support is resiliently supported.
7. The method according to any one of claims 1 to 6,
A cover for covering an area where the substrate is mounted;
And wherein the isolation region is disposed outside the cover.
7. The method according to any one of claims 1 to 6,
The substrate support includes a loading unit for supplying a substrate to the chemical mechanical polishing process, an unloading unit for receiving the substrate on which the chemical mechanical polishing process has been completed, and a device for rinsing and cleaning the substrate while rotating the substrate ≪ / RTI >

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