1. Field of the Invention
The present invention relates to a gas purge apparatus, a load port apparatus, an installation stand for purging container, and a gas purge method.
2. Description of the Related Art
For example, manufacturing process of semiconductors includes the following technique (bottom purge): a gas purge nozzle is arranged on an installation stand of a load port apparatus and is made contact with a gas purge port provided at a bottom part of a wafer transport container to introduce a purge gas therethrough and clean the inner atmosphere of the wafer transport container by the purge gas.
Upon performing the bottom purge, the purge nozzle is moved toward the purge port to be in contact with the gas purge port provided at the bottom part of the wafer transport container (e.g., see Patent Document 1). At that time, a plurality of the purge ports provided at the bottom part of the transport container has various port connection heights, which may cause the purge nozzle to push up the container and generate a placement failure.
If the transport container is inclined due to the placement failure, handling performance of wafers is adversely affected. For example, the following problems arise: the wafers placed on a shelf inside of the transport container may be damaged due to their inclination; and an insufficient contact between the purge port and the purge nozzle causes a purge gas leak and an outside gas inflow into the transport container.
Patent Document 1: Japanese Patent Laid-Open No.2003-60007
The present invention has been achieved in consideration of the circumstances. It is an object of the invention to provide a gas purge apparatus, a load port apparatus, an installation stand for purging container, and a gas purge method capable of filling inside of a purging container with a cleaning gas without inclining the purging container.
To achieve the above object, the gas purge apparatus according to the present invention is capable of blowing a cleaning gas into a purging container with a purge port therethrough, and comprises:
a purge nozzle with a nozzle opening blowing out the cleaning gas;
a table on which the purging container is detachably placed;
a fixing mechanism configured to fix the purging container to prevent it from moving relatively on the table;
a fixing detection sensor configured to detect whether the purging container is fixed on the table;
a nozzle driving mechanism capable of moving the purge nozzle toward the purge port; and
a control means configured to drive the nozzle driving mechanism to move the purge nozzle toward the purge port based on a fixing detection signal detected by the fixing detection sensor showing that the purging container is fixed on the table.
A gas purge method according to the present invention is for blowing a cleaning gas into a purging container with a purge port therethrough, and comprises the step of moving a purge nozzle toward the purge port after detecting a fixing of the purging container on a table.
In the gas purge apparatus and the gas purge method according to the present invention, the purge nozzle and the purge port are connected by moving the purge nozzle toward the purge port after the purging container is fixed on the table. This prevents the purge nozzle from pushing up the container, and a placement failure hardly happens to the container.
Also, there is no risk that the container leans, and handling performance of wafers or so housed in the container is hardly adversely affected. Also, the purge port and the purge nozzle are sufficiently in contact with, which hardly causes gas leak and prevents outside gas from flowing into the purging container.
The fixing mechanism of the present invention is not limited and includes an upper holding mechanism holding the purging container toward the table from above, a side holding mechanism engaging with a side lower part of the purging container, or the like.
Preferably, the fixing mechanism is a clamp mechanism detachably engaging with the purging container. Preferably, the clamp mechanism is provided to be relatively movable to the table and detachably engaged with a bottom of the purging container.
When the purging container is placed on the table, the clamp mechanism is not obstacle compared with the upper holding mechanism. Also, the side holding mechanism needs to arrange at least a pair of holding mechanisms and thus has a large-scale apparatus. On the other hand, a bottom clamp mechanism engaging with the bottom can perform fixing by arranging only one holding mechanism, which contributes to downsizing of the apparatus.
Preferably, the gas purge apparatus according to the present invention further comprises a position detecting sensor for detecting whether the purging container is placed at a predetermined position on the table, wherein
the control means drives the fixing mechanism to fix the purging container on the table based on a normal position detecting signal detected by the position detecting sensor showing that the purging container is placed at the predetermined position on the table.
An operation for fixing the container on the table is securely performed by detecting the fact that the purging container is at a normal position on the table and then fixing the container on the table. Note that, when the container is not at a normal position on the table, the control means may generate an alarm or so.
Preferably, the gas purge apparatus according to the present invention further comprises a load presence sensor configured to detect whether the purging container is on the table, wherein
the control means confirms a detection signal from the position detecting sensor based on a load presence signal detected by the load presence sensor showing that the purging container is on the table.
When the control means determines that the purging container is not on the table based on the detection signal from the load presence sensor, there is no need to check the detection signal from the position detecting sensor, malfunction can be prevented, and energy saving can be achieved.
A load port apparatus according to the present invention comprises any of the gas purge apparatuses mentioned above. Also, an installation stand for the purging container according to the present invention comprises any of the gas purge apparatuses.
Hereinafter, the present invention will be explained based on embodiments shown in the figures.
As shown in
A sealed transport container 2 can be detachably placed on a top in the Z-axis direction of the table 14. The container 2 is made of a pot, a FOUP, or the like for transporting a plurality of wafers 1 while they are sealed and stored. The container 2 houses a casing 2a. A space for housing the wafers 1 to be processed is formed in the casing 2a. The casing 2a has an approximately box shape where an opening is formed on one of its surfaces in the horizontal direction. Note that, the casing 2a has a bottom that is similar to a plane shape of the table 14 shown in
Also, the container 2 has a lid 4 for sealing an opening 2b of the casing 2a. Shelves (not shown) for vertically overlapping the wafers 1 held horizontally are arranged in the casing 2a. Each of the wafers 1 placed on the shelves is housed in the container 2 at regular intervals.
The load port apparatus 10 is an interface device for transporting the wafers 1 housed in a sealed state in the container 2 into the semiconductor processing apparatus 60 while maintaining a clean condition. The load port apparatus 10 has a door 18 opening and closing a delivery port 13 of a wall member 11. The wall member 11 is configured to function as part of a casing for sealing inside of the semiconductor processing apparatus 60 in a clean condition, or as part of a casing for sealing inside of an apparatus such as an EFEM connecting the semiconductor processing apparatus 60 and the load port apparatus 10 in a clean condition. The movement of the door 18 will be briefly explained with reference to
As shown in
At the same time, the door 18 located inside of the wall 11 (opposite side to the table 14) is engaged with the lid 4 of the container 2. At that time, a space between the opening edge 2c and an opening edge of the delivery port 13 is sealed by gasket or so, and the space is sealed in a good condition. Thereafter, as shown in
Next, as shown in
As shown in
Also, position detecting sensors 40 are arranged near the respective positioning pins 16 on the top surface 14a of the table 14. The position detecting sensors 40 detect whether the container 2 is positioned at a predetermined position in the X-Y axis direction of the top surface 14a of the table 14. Any sensor can be used as the position detecting sensor 40, and a contact type position detecting sensor or a non-contact type position detecting sensor may be used.
The contact type position detecting sensor includes an electric detecting sensor whose switch is turned on by being in contact with part of the bottom of the container 2. Also, the non-contact type position detecting sensor includes a light detecting sensor and a magnetic force detecting sensor. In either case, detection signals detected by the position detecting sensors 40 are inputted to a control means 80 shown in
As shown in
The gas purge units 20 include one for supply and one for discharge, but both of these just have a purging gas flow opposite to each other and have the same structure, such as one shown in
As shown in
A piston chamber 32 is formed between the piston-type purge nozzle 28 and the cylinder 30. A pressure fluid, such as oil, is introduced to the piston chamber 32 or discharged therefrom through a passage 34, and thus the purge nozzle 28 can be moved up and down in the Z-axis direction relatively to the cylinder 30.
In the state of
A communication nozzle 29 is formed at the end in the Z-axis direction of the purge nozzle 28. A communication opening 29a of the communication nozzle 29 is configured to be in connect with a space 22a of the supply passage 22 regardless of the movement in the Z-axis direction of the purge nozzle 28. The supply passage 22 is equipped with a control valve 23, for example, which makes it possible to flow a cleaning gas into the supply passage 22.
In the state of
As shown in
As shown in
For example, in the state of
For example, the bottom of the container 2 is equipped with a bottom plate 70. In the vicinity of the lid 4, an engagement end edge 72 is formed on the bottom plate 70. As shown in
Thereafter, the control means 80 drives the Z-axis direction driving mechanism 54 to move the hook 52 downward in the Z-axis direction, strongly engage the engagement convex part 52a of the hook 52 with the top of the engagement end edge 72, and fix the container 2 on the top surface 14a of the table 14. The container 2 is restricted to move in the X-axis direction, the Y-axis direction, and the Z-axis direction with respect to the table 14.
In the present embodiment, as shown in
As shown in
Note that, in the figures, the purge ports 5, the positioning pins 16, the hook 52, and the like are illustrated in an enlarged manner compared with the container 2 for easy understanding, but are different from actual dimension ratio.
In the present embodiment, as shown in
During storage and transportation of the wafers 1, the inside of the container 2 is sealed, and a clean environment is maintained in the vicinity of the wafers 1. When the container 2 is transported onto the top surface 14a of the table 14, the control means 80 shown in
When the control means 80 detects the fact that the container 2 exists on the table 14 based on the detection signals from the load presence sensors 44a and 44b, the control means 80 then determines whether the container 2 is placed at a predetermined position on the table 14 by the position detecting sensors 40 shown in
Next, the control means 80 shown in
Also, there is no risk that the container 2 leans, and handling performance of the wafers 1 or so housed in the container 2 is hardly adversely affected. Also, the purge ports 5 and the purge nozzles 28 are sufficiently in contact with, which hardly causes gas leak and prevents outside gas from flowing into the container 2 during the bottom purge.
Further, when the container 2 is placed on the table, the clamp mechanism 50 according to the present embodiment is not obstacle, compared with an upper holding mechanism that holds the container 2 from above. Also, a side holding mechanism needs to arrange at least a pair of holding mechanisms and thus has a large-scale apparatus. On the other hand, the clamp mechanism 50 according to the present embodiment can perform fixing by arranging only one holding mechanism, which contributes to downsizing of the apparatus.
Further, in the present embodiment, an operation for fixing the container 2 on the table 14 is securely performed by detecting the fact that the container 2 is at a normal position on the table 14 using the position detecting sensors 40 shown in
Further, in the present embodiment, when the control means 80 determines that the container 2 is not on the table 14 based on the detection signals from the load presence sensors 44a and 44b shown in
Note that, the present invention is not limited to the above-mentioned embodiment, and can be variously changed within the scope thereof
The gas purge apparatus of the present invention is applied to the load port apparatus 10 in the above-mentioned embodiments, but may be applied to other apparatus. For example, the gas purge apparatus of the present invention may be applied to a shelf, an installation stand or so for placing and storing a plurality of the containers 2. Alternatively, the gas purge apparatus of the present invention may be arranged in other apparatus or location.
Number | Date | Country | Kind |
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2015-071641 | Mar 2015 | JP | national |