KR20210099032A - board storage container - Google Patents

Abstract

In the substrate storage container (1) of the present invention, the container body (2) has an inner wall (22), an upper wall (23), a lower wall (24) and a wall portion (20) having a pair of side walls, the inner wall The other end of the wall portion 20 is closed by 22, and the container body opening is formed by one end of the upper wall 23, one end of the lower wall 24, and one end of the side walls 25 and 26, A positioning unit 50 for positioning the contained object RP with respect to the container body 2 is installed on the lower wall 24, and the upper wall 23 has the upper portion of the contained object RP on the lower wall 24 ) is provided with a downward pressing part 60 for pressing in the direction, and the lid 3 has the lower wall 24 on the upper part of the contained object RP by the downward pressing part 60 when closing the opening of the container body. press in the direction of

Description

board storage container

The present invention relates to a substrate storage container used for accommodating, storing, conveying, transporting, and the like, a reticle pod (Reticle POD).

A container for storing and conveying a reticle pod for accommodating a reticle used in semiconductor manufacturing is known (see, for example, Patent Document 1 and Patent Document 2).

One end of the container body has an opening periphery in which the container body opening is formed. The other end of the container body is provided with a closed cylindrical wall. A pod accommodating space is formed in the container body. The pod accommodating space is formed surrounded by the wall portion, and can accommodate the reticle pod. The lid is detachable with respect to the periphery of the opening, and the opening of the container body can be closed. A pod fixing member for fixing the reticle pod to the container body is provided inside the container body, and the container houses the reticle pod while the reticle pod is fixed to the container body by the pod fixing member.

Patent Document 1: Japanese Patent Laid-Open No. 2018-30632 Patent Document 2: US Patent Application Publication No. 2018/0102269 Specification

When storing the reticle pod in a conventional container, the lid is separated from the opening periphery of the container body, the reticle pod is inserted into the pod receiving space, and the reticle pod is fixed to the container body by a fixing member. The opening of the container body is closed by the lid. However, it is desirable to make the procedure for receiving such a reticle pod into a container more smooth.

An object of the present invention is to provide a substrate storage container capable of more smoothly the procedure for accommodating a reticle pod in the container.

According to the present invention, a container body having an opening periphery formed therein with a pod accommodating space capable of accommodating a contained object and having an opening periphery of the container body communicating with the pod accommodating space at one end thereof; a lid detachable from the side and capable of closing the container body opening in a positional relationship surrounded by the opening periphery; and a lid attached to the lid and capable of contacting the lid and the opening periphery, the opening periphery comprising: and a sealing member sandwiched between the lid and closely contacting the opening periphery and the lid to close the opening of the container body together with the lid, wherein the container body includes an inner wall, an upper wall, a lower wall and a pair of A wall portion having a side wall is provided, the other end of the wall portion is closed by the inner wall, and the container body opening is formed by one end of the upper wall, one end of the lower wall, and one end of the side wall, The lower wall is provided with a positioning unit for positioning the contained object with respect to the container body, and the upper wall is provided with a lower pressing unit for pressing the upper portion of the contained object in the direction of the lower wall, and the lid is The present invention relates to a substrate storage container in which the upper portion of the object to be contained is pressed in the direction of the lower wall by the lower pressing portion when the opening of the container body is closed.

In addition, the lid includes a pressurizing part engaged with the lower pressurizing part, and when the container body opening is closed, the pressurizing part engaged with the lower pressurizing part is coupled to the lower pressurizing part. It is preferable to press the upper part of the object to be contained in the direction of the lower wall.

In addition, it is preferable that the engaging part of the pressing part of the lid and the driving part engaging part of the downward pressing part engaged with the pressing part engaged part have a hook shape that engages with each other.

In addition, the downward pressing part includes a tip part pressing part that contacts the upper part of the contained object and presses the contained object in the direction of the lower wall, and a pressing part driving part connected to the tip part pressing part and movable according to the movement of the lid. and, when the lid does not close the opening of the container body, it is preferable to include a pressing member for pressing the pressing part driving part so that the tip part pressing part is in a state separated from the contained object.

In addition, the downward pressing part includes a tip part pressing part that contacts the upper part of the contained object and presses the contained object in the direction of the lower wall, and a pressing part driving part connected to the tip part pressing part and movable according to the movement of the lid. And, it is preferable that the pressing unit driving unit can move in an upward direction inclined at a predetermined angle with respect to the horizontal direction when the lid moves in the direction of the inner wall.

In addition, as the upper part of the tip pressing part is pressed in the direction of the inner wall by the pressing part driving unit, the lower part of the tip pressing part moves from the inner wall side to the container body opening side, and in contact with the upper part of the contained object, It is preferable to press the upper part of the containment in the direction of the lower wall.

In addition, it is preferable that the material constituting the wall portion is made of a cycloolefin polymer. In addition, it is preferable to provide a vent path through which the pod accommodation space and the space outside the container body can communicate.

ADVANTAGE OF THE INVENTION According to this invention, the board|substrate storage container which can make the procedure of accommodating a reticle pod in a container more smoothly can be provided.

Fig. 1 is a front view showing a substrate storage container 1 according to an embodiment of the present invention.
Fig. 2 is a plan view showing a substrate storage container 1 according to an embodiment of the present invention.
3 is a side cross-sectional view showing a state in which the reticle pod RP is fixed to the container body 2 in the substrate storage container 1 according to the embodiment of the present invention.
4 is a cross-sectional perspective view showing a state in which a reticle pod RP is fixed to the container body 2 in the substrate storage container 1 according to the embodiment of the present invention.
5 is a side cross-sectional view showing a state in which the reticle pod RP is not fixed to the container body 2 in the substrate storage container 1 according to the embodiment of the present invention.
6 is a cross-sectional perspective view showing a state in which the reticle pod RP is not fixed to the container body 2 in the substrate storage container 1 according to the embodiment of the present invention.

Hereinafter, the board|substrate storage container 1 which concerns on this embodiment is demonstrated, referring drawings.

1 is a front view showing a substrate storage container 1. As shown in FIG. 2 is a plan view showing the substrate storage container 1. As shown in FIG. Fig. 3 is a side cross-sectional view (a cross-sectional side view taken along line A-A in Fig. 2) showing a state in which the reticle pod RP is fixed to the container body 2 in the substrate storage container 1; Fig. 4 is a cross-sectional perspective view (a sectional perspective view taken along line A-A in Fig. 2) showing a state in which the reticle pod RP is fixed to the container body 2 in the substrate storage container 1;

Here, for convenience of explanation, the direction from the container body 2 to the lid 3 to be described later (the direction from top to bottom in Fig. 2) is defined as the front direction D11, and the opposite direction is defined as the rear direction. (D12) is defined, and these are collectively defined as the front-back direction (D1). In addition, the direction (upper direction in Fig. 1) from the lower wall 24 to the upper wall 23, which will be described later, is defined as the upper direction D21, and the opposite direction is defined as the lower direction D22. It is defined as the up-down direction (D2). In addition, the direction from the second side wall 26 to the first side wall 25 to be described later (the direction from right to left in Fig. 1) is defined as the left direction D31, and the opposite direction is defined as the right direction ( D32), and these are collectively defined as the left-right direction (D3). In the main drawings, arrows indicating these directions are shown in the drawings.

In addition, the reticle pod RP accommodated in the substrate storage container 1 is for accommodating one or a plurality of reticles used for exposure processing in semiconductor manufacturing, and as shown in FIG. The overall external shape is a substantially rectangular parallelepiped shape, and the center part is comprised in the shape thicker than the peripheral part.

In addition, the container body 2 of the substrate storage container 1 can be used to accommodate the substrate together with the lid 3, and the substrate is a disk-shaped silicon wafer, glass wafer, sapphire wafer, etc., which are thin industrially used will be. The board|substrate which can be accommodated by the container main body 2 and the lid 3 in this embodiment is a 300 mm diameter silicon wafer.

That is, as shown in Fig. 1, the container body 2 and the lid 3 of the substrate storage container 1 have a configuration based on the SEMI standard, and accommodate the substrate made of a silicon wafer as described above, It is used as a container in a process to be transported in a process in a factory, or is used as a shipping container for transporting a substrate by means of transport such as land, air, and sea transport.

The container body 2 is provided with a tubular wall part 20 in which the container body opening 21 is formed at one end and the other end is closed. A pod accommodation space 27 is formed in the container body 2 . The pod accommodating space 27 is formed surrounded by the wall 20 . In a portion of the wall portion 20 forming the pod accommodating space 27 , a pod mounting portion 50 as a positioning portion and a downward pressing portion 60 are disposed. In the pod accommodating space 27, as shown in Fig. 3 or the like, a reticle pod RP as one to-be-stored object can be accommodated. The pod mounting unit 50 is positioned relative to the container body 2 in the pod accommodation space 27 on which the reticle pod RP is mounted. The downward pressing unit 60 presses the upper portion of the reticle pod RP in the direction of the pod mounting unit 50 .

The lid 3 is removable with respect to the opening periphery 28 (FIG. 1 etc.) which forms the container main body opening part 21, The container main body opening part 21 can be closed.

The substrate storage container 1 is made of a resin such as a plastic material, and the resin of the material is, for example, polycarbonate, cycloolefin polymer, polyetherimide, polyetherketone, polybutylene tere. and thermoplastic resins such as phthalates, polyetheretherketones, and liquid crystal polymers, and alloys thereof. In the case of imparting conductivity to the resin of these molding materials, a conductive material such as carbon fiber, carbon powder, carbon nanotube, or conductive polymer is selectively added. In addition, in order to increase rigidity, glass fiber, carbon fiber, etc. may be added. In the present embodiment, as the container body 2, COP (cycloolefin polymer), which is a low water absorption material, is used. Further, the container body 2 is treated with an antistatic material.

Hereinafter, each part is demonstrated in detail.

1 to 4, the wall portion 20 of the container body 2 has an inner wall 22, an upper wall 23, a lower wall 24, and a first A side wall 25 and a second side wall 26 are provided. The inner wall 22 , the upper wall 23 , the lower wall 24 , the first side wall 25 , and the second side wall 26 are made of the above-described material, and are integrally molded and configured.

The first side wall 25 and the second side wall 26 face each other, and the upper wall 23 and the lower wall 24 face each other. The rear end of the upper wall 23 , the rear end of the lower wall 24 , the rear end of the first side wall 25 , and the rear end of the second side wall 26 are all connected to the inner wall 22 . The front end of the upper wall 23, the front end of the lower wall 24, the front end of the first side wall 25, and the front end of the second side wall 26 form a container body opening 21 having a substantially rectangular shape. The opening periphery 28 is constituted.

The opening periphery 28 is formed at one end of the container body 2 , and the inner wall 22 is located at the other end of the container body 2 . The outer shape of the container body 2 formed by the outer surface of the wall portion 20 is a box shape. The inner surface of the wall portion 20, that is, the inner surface of the inner wall 22, the inner surface of the upper wall 23, the inner surface of the lower wall 24, the inner surface of the first side wall 25, and the inner surface of the second side wall 26 are in these to form a pod receiving space 27 surrounded by the . The container body opening 21 formed in the opening periphery 28 communicates with the pod accommodating space 27 formed inside the container body 2 surrounded by the wall part 20 .

A latching recess (not shown in the figure) which is recessed toward the outside of the pod accommodation space 27 is formed in the part of the upper wall 23 and the lower wall 24 in the vicinity of the opening periphery 28. . A total of four latching recesses are formed in the vicinity of the left and right both ends of the upper wall 23 and the lower wall 24, one each.

As shown in FIG. 1 , on the outer surface of the upper wall 23 , the ribs 235 are formed integrally with the upper wall 23 . The ribs 235 increase the rigidity of the container body 2 . In addition, a top flange 236 is fixed to the central portion of the upper wall 23 . The top flange 236 is a member serving as a hanging portion of the substrate storage container 1 when the substrate storage container 1 is suspended in an AMHS (automatic wafer transfer system), a PGV (wafer substrate transfer cart), or the like.

A bottom plate 244 is fixed to the lower wall 24 as shown in FIG. 3 . The bottom plate 244 is provided with the substantially rectangular plate shape arrange|positioned so that it may oppose the substantially whole surface of the lower surface which comprises the outer surface of the lower wall 24, and it is being fixed to the lower wall 24. As shown in FIG.

At the four corners of the lower wall 24, two types of through-holes, an air supply hole and an exhaust hole, are formed (not shown). In this embodiment, the two through-holes in the front part of the lower wall 24 are exhaust holes for discharging the gas inside the container body 2, and the two through-holes in the rear part are the container body. It is an air supply hole for supplying gas to the inside of (2).

In the through hole serving as the air supply hole, an air supply filter unit (not shown) as an additional component is disposed, and in the exhaust hole through hole, an exhaust filter unit (not shown in the drawing) is arranged. That is, the gas flow path inside the air supply filter unit and the exhaust filter unit constitutes a part of a ventilation path through which the pod accommodating space 27 and the space outside the container body 2 can communicate. In addition, the air supply filter part and the exhaust filter part are arranged on the wall part 20, and in the supply air filter part and the exhaust filter part, gas is passed between the space outside the container body 2 and the pod accommodation space 27. can pass The air supply filter unit communicates with the internal space of the gas jet nozzle unit 8 , and the purge gas supplied to the air supply filter unit through the internal space of the gas jet nozzle unit 8 is supplied to the pod accommodation space 27 . is structured to be

The pod mounting unit 50 has a plate shape with a through hole formed in the center portion, and is fixed to the lower wall 24 . The pod mounting part 50 is provided with the convex part 52 protruding upwardly, and a pin member base part 53 so as to penetrate the part of the convex part 52 of the pod mounting part 50. A total of three are formed. In Fig. 3 and Fig. 4, only one pin member base 53 is shown in each figure.

A kinematic pin 55 is provided on the upper portion of the pin member base 53 so as to cover the upper portion of the pin member base 53 . The kinematic pins 55 protrude upward from the convex portion 52, and three in total are provided. 3 and 4, only one kinematic pin 55 is shown in each figure. A reticle pod (RP) is placed on the pod mounting unit 50, and as shown in FIG. 3 or the like, the kinematic pin 55 is coupled to the kinematic pin coupling groove formed on the bottom surface of the reticle pod (RP). (RP) is positioned with respect to the container body (2). The kinematic pin 55 is treated with an antistatic material, and as described above, the container body 2 is treated with an antistatic material, and is configured to pass static electricity from the reticle inside the reticle pod (RP). has been

On the upper wall 23 , a pressing part support part 61 is fixed and provided. A plate spring 611 is fixed to the pressing part support part 61 . The upper part of the plate spring 611 is fixed to the pressing part support part 61, the plate spring 611 extends in the downward direction and is bent at a right angle in the rear direction on the way, the tip of the plate spring 611 is is provided with a tip convex portion 6111 protruding in the downward direction (D22). The downward pressing part 60 is supported by the pressing part support part 61, The downward pressing part 60 includes the tip part pressing part 63 and the pressing part drive part. ) 64, and a spring (not shown) as a pressing member.

The tip pressing portion 63 is made of an ultra-high molecular weight PE (polyethylene) resin with high sliding properties and abrasion resistance, and has a substantially rectangular prism shape. A through hole is formed in the upper end of the tip pressing portion 63, and the pin member 612 passes through the through hole. A long hole 632 extending in the longitudinal direction of the tip pressing part 63 is formed in the portion of the tip pressing part 63 on the lower end side than the through hole, and a pin constituting the pressing part support part 61 . A member 613 passes through the elongated hole 632 . The pin member 613 can relatively move the long hole 632, and accordingly, the tip pressing part 63 is rotatable with the pin member 613 as a rotation axis and sliding with respect to the pin member 613 is possible. possible. The lower end of the tip pressing portion 63 is provided with a plate-shaped contact portion 615 capable of contacting the upper portion of the reticle pod RP. As the plate-shaped contact portion 615 contacts the upper portion of the reticle pod RP, the tip portion pressing portion 63 presses the reticle pod RP in the direction of the lower wall 24 .

The pressing unit driving unit 64 is made of an ultra-high molecular weight PE (polyethylene) resin with high sliding properties and abrasion resistance, and has a substantially rectangular prism shape. A through hole is formed in the rear end of the pressing unit driving unit 64 , and a pin member 612 penetrating the upper end of the tip pressing unit 63 passes through the through hole. Accordingly, the pressing unit driving unit 64 is connected to be rotatable with respect to the tip pressing unit 63 . A long hole 642 extending in the longitudinal direction of the pressing part driving part 64 is formed in the pressing part driving part 64 on the front side of the through hole, and two pin members constituting the pressing part supporting part 61 ( 616 is passing through the long hole 642 . The pin member 616 can relatively move the long hole 642, and accordingly, the pressing unit driving unit 64 rotates at a predetermined angle with respect to the pin member 616 and the front-rear direction D1 parallel to the horizontal direction. It is possible to slide in an inclined upward direction.

A front recessed part 644 and a rear recessed part 645 are formed in the upper part of the pressing part drive part 64. As shown in FIG. When the tip convex part 6111 of the leaf spring 611 is engaged with the front recessed part 644, the pressing part driving part 64 is connected to the plate-shaped contact part 615 of the tip part pressing part 63 as shown in FIG. At a position in which the reticle pod RP is pressed in the direction of the lower wall 24 in contact with the upper portion of the reticle pod RP, it is configured to be temporarily fixed so as not to be moved in the approximately front-rear direction D1. Further, by engaging the tip convex part 6111 of the leaf spring 611 with the rear recess 645, the pressing part driving part 64 is connected to the plate-shaped contact part 615 of the tip part pressing part 63 as shown in FIG. In a position where the reticle pod RP can be placed or separated with respect to the pod mounting unit 50 by being spaced upward inclined backward from the upper portion of the reticle pod RP, approximately in the front-rear direction (D1) It is configured to be temporarily fixed so that it cannot be moved.

In addition, in the cross-sectional views of FIGS. 5 and 6, illustration of the cross section of the reticle pod RP is abbreviate|omitted.

More specifically, as will be described later, when the lid 3 moves in the direction of the inner wall 22, the pressurizing part driving unit 64 moves in an upward direction inclined at a predetermined angle with respect to the horizontal direction according to this movement. can The front end of the pressing part driving part 64 is provided with a hook-shaped part 647 constituting the driving part engaging part.

The spring, not shown in the figure, is a pressing part to make the tip part pressing part 63 spaced apart from the reticle pod RP, more specifically, to move the pressing part driving part 64 approximately in the forward direction D11. It is provided in combination with the driving unit 64 , and presses the pressing unit driving unit 64 .

The lid 3 has a substantially rectangular shape substantially coincident with the shape of the opening periphery 28 of the container body 2, as shown in FIG. 1 and the like. The lid 3 is detachable with respect to the opening periphery 28 of the container body 2, and the lid 3 is attached to the opening periphery 28, so that the lid 3 closes the opening 21 of the container body. can do it As the inner surface of the lid 3 (the back side of the lid 3 shown in Fig. 1), in the direction D12 immediately behind the opening periphery 28 when the lid 3 closes the container body opening 21. An annular sealing member 4 is attached to a surface opposite to the surface (sealing surface 281) of the step portion formed at the position of . The sealing member 4 is made of various thermoplastic elastomers such as polyester and polyolefin that can be elastically deformed, fluororubber, silicone rubber, or the like. The sealing member 4 is arrange|positioned so that the outer periphery of the lid 3 may go round.

When the lid 3 is attached to the opening periphery 28, the sealing member 4 is elastically deformed by being sandwiched between the sealing surface 281 and the inner surface of the lid 3, and the lid 3 is opened in the container body opening ( 21) is closed in a hermetically sealed state. When the lid 3 is separated from the opening periphery 28 , the reticle pod RP can be put in and out of the pod accommodating space 27 in the container body 2 .

In the lid 3, a latch mechanism is provided. The latch mechanism is provided in the vicinity of the left and right both ends of the lid 3, and as shown in Fig. 5, two upper latch portions 32A that can protrude from the upper side of the lid 3 in the upward direction D21. ) and two lower latch portions 32B that can protrude from the lower side of the lid 3 in the lower direction D22. The two upper latch parts 32A and 32A are arranged in the vicinity of the right and left ends of the upper side of the lid 3 , and the two lower latch parts 32B and 32B are the left and right ends of the lower side of the lid 3 . placed nearby.

As shown in Fig. 1 or the like, an operation unit 33 is provided on the outer surface of the lid 3 . By operating the operation part 33 from the front side of the lid 3, the upper latch part 32A and the lower latch part 32B can protrude from the upper and lower sides of the lid 3, and do not protrude from the upper and lower sides. can be made in a non-existent state. The upper latch part 32A protrudes from the upper side of the lid 3 in the upward direction D21 and engages with the latch engagement recess (not shown) of the container body 2, and the lower latch part 32B The lid 3 protrudes from the lower side of the lid 3 in the downward direction D22 and engages with a latching concave portion (not shown) of the container body 2, so that the lid 3 is connected to the opening periphery 28 of the container body 2 . ) is fixed to

On the inner side of the lid 3, a recess 301 recessed into the outside of the pod accommodating space 27 is formed. In the concave portion 301 , a pressing portion to-be-engaged portion 303 is fixedly provided.

The pressing part to-be-engaged part 303 is being fixed to the part of the recessed part 301 in the upper part of the lid 3 . As shown in Fig. 5, the pressing part to-be-engaged part 303 is constituted by a member having a thickness in the front-back direction D1, and the lower end of the pressing part to-be-engaged part 303 is the pressing part to-be-engaged part. A hook-shaped portion 304 constituting the 303 is provided. The hook-shaped part 304 of the pressing part to-be-engaged part 303 can be engaged with the hook-shaped part 647 of the pressing part driving part 64 .

The storage of the reticle pod RP in the substrate storage container 1 having the above configuration will be described.

5 is a side cross-sectional view showing a state in which the reticle pod RP is not fixed to the container body 2 in the substrate storage container 1 . 6 is a cross-sectional perspective view showing a state in which the reticle pod RP is not fixed to the container body 2 in the substrate storage container 1 .

First, the lid 3 is separated from the opening periphery 28 forming the opening 21 of the container body. Next, the reticle pod (RP) is inserted into the pod receiving space (27), and the kinematic pin coupling groove formed on the bottom surface of the reticle pod (RP) is coupled with the tip of the kinematic pin (55), thereby making the reticle pod (RP) (RP). ) is positioned with respect to the container body (2).

Next, the lid (3) is brought close to the container body (2). In this way, as shown in FIGS. 5 and 6 , the hook-shaped part 304 of the pressing part to-be-engaged part 303 engages with the hook-shaped part 647 of the pressing part driving part 64 . And when the lid 3 is brought closer to the container body 2, the pressing part driving part 64 is pressed by the lid 3, and the pressing part driving part 64 resists the elastic force of the spring not shown in the figure. It moves approximately in the rear direction D12, and accordingly, the upper part of the tip pressing part 63 is pressed in the direction of the inner wall 22 by the pressing part driving unit 64, so that the lower part of the tip pressing part 63 is the inner wall ( 22), it moves to the container body opening 21 side, and comes into contact with the upper portion of the reticle pod RP, and presses the upper portion of the reticle pod RP in the direction of the lower wall 24 . Accordingly, the reticle pod RP is fixed to the container body 2 and at the same time, the container body opening 21 is closed by the lid 3 . Then, by operating the operation part 33 of the lid 3, the upper latch part 32A and the lower latch part 32B are engaged with the latch engagement concave part (not shown) of the container body 2, whereby the lid ( 3) is fixed to the opening periphery 28 of the container body 2 .

When taking out the reticle pod RP from the substrate storage container 1 , first, by operating the operation part 33 of the lid 3 , the upper latch part 32A and the lower latch part 32B are connected to the container body 2 . Make it unengaged with the latching concave portion (not shown in the drawing). Next, the lid 3 is separated from the container body opening 21 . As a result, since the hook-shaped part 304 of the pressing part to-be-engaged part 303 is engaged with the hook-shaped part 647 of the pressing part driving part 64 , the pressing part driving part 64 is connected to the lid 3 . It is moved in the downward direction inclined at a predetermined angle with respect to the forward direction (D11). And when the lid 3 is spaced apart from the opening periphery 28 of the container body 2 by a predetermined distance or more, the lid 3 moves horizontally in the forward direction D11, and the hook of the pressing part driving part 64 Since the shaped portion 647 is located below the hook-shaped portion 304 of the pressing portion to-be-engaged portion 303 , the hook-shaped portion 647 of the pressing portion driving unit 64 and the pressing portion engaged portion 303 are The coupling of the hook-shaped part 304 of the is released, the lid 3 is separated from the pressing part driving part 64 , and the lid 3 is separated from the container body 2 .

According to the board|substrate storage container 1 which concerns on this embodiment of the said structure, the following effects can be acquired.

As described above, the lower wall 24 is provided with a pod mounting unit 50 as a positioning unit for positioning the reticle pod RP as an object to be accommodated with respect to the container body 2, and the upper wall 23 is provided with The downward pressing part 60 for pressing the upper part of the reticle pod RP in the direction of the lower wall 24 is provided, so that when the lid 3 closes the container body opening 21, the downward pressing part 60 This presses the upper portion of the reticle pod RP in the direction of the lower wall 24 .

With the above configuration, it is possible to easily fix the reticle pod RP to the container body 2 by closing the container body opening 21 with the lid 3, so that the reticle pod RP is attached to the substrate storage container 1 ) can make the storage procedure more smooth. In addition, since the reticle pod RP is accommodated in the substrate storage container 1, it is possible to suppress particles from adhering to the outer surface of the reticle pod RP. As a result, when the reticle is taken out from the reticle pod RP, it is possible to suppress the occurrence of circuit failure in the wafer due to the particles being attached to the reticle and becoming contaminated. In particular, in recent years, design rules have been refined and it is necessary to make particle management more strict.

In addition, since the substrate storage container 1 is used as a container for accommodating the reticle pod RP, the dimensions as a container for accommodating the reticle pod RP are also suitable, and an automatic transfer device for transporting the substrate storage container 1 is also generally present, so it can be introduced into the process of smoothly transporting the reticle pod RP.

In addition, the lid 3 has a pressurizing portion engaged portion 303 capable of engaging with the lower pressurizing portion 60, and when the container body opening 21 is closed, the pressurizing portion engaged portion 303 is In combination with the hook-shaped portion 647 of the pressing unit driving unit 64 constituting the downward pressing unit 60, the lower wall 24 is coupled to the upper portion of the reticle pod RP as a contained object by the downward pressing unit 60. pressure in the direction of And the engaging part 303 of the pressing part of the lid 3 and the driving part engaging part of the downward pressing part 60 engaged with the pressing part engaged part 303 are hook-shaped parts 304 and 647 that engage with each other. are being prepared With this configuration, as the lid 3 moves, it is possible to press the reticle pod RP by the front end pressing part 63 of the downward pressing part 60 .

In addition, the downward pressing unit 60 is configured such that, when the lid 3 does not close the container body opening 21, the pressing unit driving unit 64 is in a state where the tip pressing unit 63 is separated from the reticle pod RP. ) as a pressing member for pressing the spring (not shown). With this configuration, when the reticle pod RP is not accommodated in the container body 2 and the container body opening 21 is not closed by the lid 3, the tip pressing part 63 is ), in other words, it is possible to make the reticle pod RP into a position in a state where it can be placed with respect to the pod mounting table.

In addition, when the lid 3 moves in the direction of the inner wall 22 , the pressing unit driving unit 64 may move in an upward direction inclined at a predetermined angle with respect to the horizontal direction. With this configuration, when the lid 3 is moved in the direction of the inner wall 22 , the hook-shaped part 304 of the pressing part to-be-engaged part 303 is replaced by the hook-shaped part 647 of the pressing part driving part 64 . can be combined with In addition, when the lid 3 is moved in the direction of the container body opening 21, the hook-shaped part 304 of the pressurizing part to-be-engaged part 303 and the hook-shaped part 647 of the pressurizing part driving part 64 are engaged. can be automatically turned off.

And as the upper portion of the tip pressing part 63 is pressed in the direction of the inner wall 22 by the pressing unit driving unit 64, the lower portion of the tip pressing part 63 is from the inner wall 22 side toward the container body opening 21 side. It moves and contacts the upper part of the reticle pod RP, pressing the upper part of the reticle pod RP in the direction of the lower wall 24 . With this configuration, when the lid 3 is separated from the opening periphery 28 , it is possible to make the reticle pod RP into a state in which it can be easily placed on the pod mounting unit 50 .

In addition, the material constituting the wall portion 20 is made of a cycloolefin polymer. With this configuration, it is possible to suppress the release of moisture from the COP, which is a low-absorption material, into the interior of the pod accommodation space, thereby suppressing the increase in humidity in the pod accommodation space.

In addition, it is provided with a ventilation path that can communicate with the space outside the pod accommodation space (27) and the container body (2). With this configuration, the gas in the pod accommodating space 27 can be purged by the purge gas.

The present invention is not limited to the above-described embodiment, and modifications can be made within the technical scope described in the claims.

For example, in the present embodiment, the container body and the lid are constituted by the container body 2 and the lid 3 of the substrate storage container capable of accommodating a silicon wafer having a diameter of 300 mm, but is not limited thereto. Any container is good as long as it can accommodate the reticle pod (RP). It may be constituted by a container having the same structure as the above.

In addition, in this embodiment, although the to-be-contained object was set as the reticle pod (RP), it is not limited to this.

In addition, the structure of each part of the board|substrate storage container is not limited to the structure of each part of the board|substrate storage container 1 in this embodiment.

In addition, in this embodiment, the two through-holes of the front part of the lower wall 24 are exhaust holes for discharging the gas inside the container body 2, and the two through-holes of the rear part are the Although it was an air supply hole for supplying gas to the inside, it is not limited to this structure. For example, at least one of the two through holes in the front portion of the lower wall may also be an air supply hole for supplying gas to the inside of the container body.

1: Board storage container
2: container body
3: Lid
4: sealing member
20: wall
21: container body opening
22: inner wall
23: upper wall
24: lower wall
25: first side wall
26: second side wall
27: pod accommodation space
28: opening perimeter
50: pod mounting unit (positioning unit)
60: downward pressing part
61: pressure part support part
63: tip part pressing part
64: pressurizing unit driving unit
304: hook shape
615: plate contact part
647: hook shape
RP: Reticle Pod

Claims (8)

A pod accommodating space for accommodating an object to be accommodated is formed therein, and an opening periphery is formed at one end of which a container body opening communicating with the pod accommodating space is formed. A container body having a part),
a lid detachable with respect to the periphery of the opening and capable of closing the opening of the container body in a positional relationship surrounded by the periphery of the opening;
attached to the lid and capable of contacting the lid and the opening periphery, which is sandwiched between the opening periphery and the lid and is in close contact with the opening periphery and the lid, thereby closing the container body opening together with the lid sealing member to close
provided,
The container body is provided with a wall portion having an inner wall, an upper wall, a lower wall and a pair of side walls, the other end of the wall portion is closed by the inner wall, one end of the upper wall, the lower wall The container body opening is formed by one end and one end of the side wall,
The lower wall is provided with a positioning unit for positioning the contained object with respect to the container body,
A lower pressing part for pressing the upper part of the object to be contained in the direction of the lower wall is installed on the upper wall,
The lid, when closing the opening of the container body, presses the upper part of the contained object in the direction of the lower wall by the downward pressing part
Board storage container.
According to claim 1,
The lid includes a pressurizing part engaged portion capable of engaging with the downward pressing part, and when the container body opening is closed, the pressing part engaged part is engaged with the downward pressing part, and the downward pressing part is A substrate storage container for pressing the upper part of the container in the direction of the lower wall.
3. The method of claim 2,
The substrate storage container having a hook shape that engages with each other, the engaging part of the pressing part of the lid and the driving part engaging part of the downward pressing part engaged with the engaging part of the pressing part.
According to claim 1,
The downward pressing unit,
a distal end pressing part for pressing the contained object in the direction of the lower wall by contacting the upper part of the contained object;
a pressing part driving part connected to the tip part pressing part and movable according to the movement of the lid;
When the lid does not close the opening of the container body, a pressing member for pressing the pressing part driving part so that the tip part pressing part is in a state separated from the object to be contained
A substrate storage container provided.
5. The method according to any one of claims 1 to 4,
The downward pressing unit,
a front end pressing part for pressing the contained object in the direction of the lower wall by contacting the upper part of the contained object;
A pressing part driving part connected to the tip part pressing part and moving according to the movement of the lid
provided,
The pressurizing unit driving unit, when the lid moves in the direction of the inner wall, the substrate storage container capable of moving in an upward direction inclined at a predetermined angle with respect to the horizontal direction.
6. The method of claim 5,
As the upper part of the tip pressing part is pressed in the direction of the inner wall by the pressing part driving part, the lower part of the tip pressing part moves from the inner wall side to the container body opening side, and in contact with the upper part of the contained object, A substrate storage container for pressing the upper portion of the water in the direction of the lower wall.
7. The method according to any one of claims 1 to 6,
A material constituting the wall portion is a substrate storage container made of a cycloolefin polymer.
8. The method according to any one of claims 1 to 7,
and a venting path for communicating the pod accommodating space and the space outside the container body.

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