JP2011233930A - Substrate processing apparatus - Google Patents

Abstract

PROBLEM TO BE SOLVED: To provide a coater/developer responsive to small-lot processing.SOLUTION: Two-story vacant cassette loading stages 20, 21 and a cassette transfer mechanism 22 are provided above a cassette loading stage 12 of a cassette carry-in-and-out section 10 of a coater/developer. The vacant cassette loading stages 20, 21 are configured not to disturb an up-and-down movement of an external cassette carrying device A. Each vacant cassette loading stage 20, 21 has 4 cassette transfer devices 30 which can transfer the loaded cassette to the next cassette transfer device. A vacant cassette which is carried onto the cassette loading stage 12 by the external cassette carrying device A and after transporting wafers W to a processing station are transferred to the vacant cassette loading stage by a cassette transfer mechanism 22 to store it temporarily. The next cassette is carried in to the empty cassette loading stage 12. The vacant cassette on the vacant cassette loading stage is returned back to the cassette loading stage 12 before wafer processing is completed.

Description

  The present invention relates to a substrate processing apparatus for processing a substrate.

  For example, in a photolithography process in a semiconductor device manufacturing process, for example, a resist coating process for applying a resist solution on a wafer to form a resist film, an exposure process for exposing the resist film to a predetermined pattern, and developing the exposed resist film A series of processing such as development processing is sequentially performed, and a predetermined resist pattern is formed on the wafer. These series of processes are performed by a coating and developing apparatus equipped with various processing units for processing wafers, a transfer device for transferring wafers, and the like.

  The coating and developing apparatus is generally adjacent to a cassette station for carrying in and out a cassette from the outside, and a processing station provided with a plurality of processing units for performing various processes such as resist coating processing, development processing and heat treatment. An interface station for transferring wafers between the exposure apparatus and the processing station.

  The cassette station is provided with a cassette mounting table on which a cassette loaded from the outside is mounted, a wafer transfer device for transferring a wafer between the cassette of the cassette mounting table and the processing station (Patent Document 1). reference).

  When wafer processing is performed in the coating and developing treatment apparatus, first, a cassette containing a plurality of wafers for one lot is placed on a cassette placement table by an external cassette transfer device. Next, the wafers in the cassette are sequentially transferred to the processing station by the wafer transfer device. In the processing station, each wafer is sequentially transferred to a plurality of processing units such as a resist coating unit and a heat treatment unit, and subjected to predetermined processing. Thereafter, each wafer is transferred to an exposure apparatus and subjected to an exposure process, then returned to the processing station, and sequentially transferred to a development processing unit, a heat treatment unit, etc., and subjected to a predetermined process. Wafers that have been subjected to a series of processing in the processing station are sequentially returned to the original cassette on the cassette mounting table by the wafer transfer device. When all the wafers for one lot are returned to the cassette on the cassette mounting table, the cassette is unloaded from the coating and developing treatment apparatus by an external cassette carrying apparatus.

JP 2006-54438 A

  By the way, in recent years, the coating and developing processing apparatus is required to cope with so-called small lot processing in accordance with the high-mix low-volume production of semiconductor devices. In the case of the small lot processing, the number of wafers accommodated in one cassette is reduced. Therefore, when the wafer processing is started, the wafers in the cassette on the cassette mounting table are often finished immediately. However, since the cassette waits on the cassette mounting table until the wafer returns from the processing station, a new cassette may not be mounted on the cassette mounting table even though there is an empty wafer processing in the processing station. As a result, the throughput in the coating and developing treatment apparatus decreases.

  In such a case, it is conceivable to simply increase the number of cassettes that can be placed. In this case, however, the footprint of the coating and developing apparatus increases, and in addition, the structure of the cassette station needs to be significantly changed. .

  The present invention has been made in view of such a point, and in a substrate processing apparatus such as a coating and developing processing apparatus, it is possible to cope with a small lot process without decreasing the throughput and increasing the footprint. For that purpose.

  In order to achieve the above object, the present invention is a substrate processing apparatus for processing a substrate, and a cassette mounting portion for mounting a cassette containing a substrate when the cassette is carried in and out of the processing apparatus. A substrate processing unit for transporting a substrate in the cassette of the cassette mounting unit to the substrate processing unit, and a substrate transporting unit for transporting a substrate processed by the substrate processing unit to the cassette of the cassette mounting unit And an empty cassette placement unit for temporarily placing a cassette that has been emptied after being transported to the substrate processing unit, and an empty cassette between the empty cassette placement unit and the cassette placement unit. An empty cassette transfer mechanism for transferring, and a cassette moving device that is provided in the empty cassette mounting portion and moves the cassette in a horizontal direction, and the cassette moving device supports a lower surface of the cassette. Provided in parallel And two drive belts, said moving each drive belt, characterized in that it comprises a slider for adjusting the distance between the two drive belts.

  According to the present invention, a cassette that has been emptied by removing a substrate can be temporarily placed on the empty cassette placement portion from the cassette placement portion. For this reason, since new cassettes can be sequentially loaded into the cassette mounting unit, substrates can be continuously loaded into the substrate processing unit without leaving a time interval even in a small lot processing where the number of substrates in one cassette is small. As a result, it is possible to deal with small lot processing without reducing the throughput in the substrate processing apparatus. Further, it is possible to deal with small lot processing without increasing the footprint of the substrate processing apparatus.

  The empty cassette transfer mechanism as a reference example includes an arm that supports a cassette, and an arm moving unit that moves the arm in the vertical direction and the horizontal direction, and the arm includes the empty cassette mounting unit and the arm. The cassette may be moved to the horizontal direction from the side of the cassette mounting unit to transfer the cassette to the empty cassette mounting unit and the cassette mounting unit.

  A cassette as a reference example may include a main body portion that accommodates a substrate, and an engaging portion that protrudes upward from the upper surface of the main body portion and is engaged with an arm of the empty cassette transfer mechanism.

  The empty cassette placement section as a reference example is disposed above the cassette placement section, and the empty cassette placement section is capable of placing a plurality of cassettes in the horizontal direction. May include a carry-in space for temporarily placing a cassette carried in from the outside of the processing apparatus and a carry-out space for temporarily placing a cassette carried out of the outside of the processing apparatus.

  As a reference example, the loading and unloading of the cassette with respect to the loading space and the unloading space is performed by a cassette conveying device outside the processing device, and the cassette conveying device moves up and down from the outside of the processing container to move the loading space. The cassette may be transported to the unloading space.

  As a reference example, the transfer of the cassette between the carry-in space and the cassette placement unit and the transfer of the cassette between the carry-out space and the cassette placement unit are performed by the empty cassette transfer mechanism. May be.

  The empty cassette placement section as a reference example may be provided in a plurality of stages, and the carry-in space and the carry-out space may be provided in the uppermost empty cassette placement section, respectively.

  The control unit further controls a cassette transfer by the empty cassette transfer mechanism as a reference example, and the control unit transfers the cassette in the carry-in space to the cassette mounting unit, and the cassette mounting unit cassette After the substrate in the substrate is transferred to the substrate processing unit, the emptied cassette is transferred to the empty cassette mounting unit, and the predetermined processing for the substrate in the substrate processing unit is completed. The cassette mounting portion is transferred to the cassette mounting portion, and after the processed substrate is stored in the cassette of the cassette mounting portion, the empty space is transferred to the unloading space. The cassette transfer mechanism may be controlled.

  The processing status of the predetermined processing as a reference example is output from the substrate processing unit to the control unit, and the control unit is configured to execute the predetermined processing based on the output result from the substrate processing unit. In addition, the cassette transfer mechanism may be controlled so that the cassette of the empty cassette mounting portion is transferred to the cassette mounting portion.

  The loading / unloading of the cassette to / from the cassette placement unit is performed by a cassette carrying device outside the processing device, and the cassette carrying device moves up and down from the outside of the processing device to the cassette placing unit. You may make it convey a cassette.

  The empty cassette mounting part may be arranged above the cassette mounting part, and may be configured to allow the cassette transporting device and a cassette transported to the cassette transporting device to pass vertically.

  The two drive belts may be configured to be retractable outside a passage through which the cassette transport device and a cassette transported to the cassette transport device pass in the vertical direction.

  The empty cassette placing section may be capable of moving the placed cassette in the horizontal direction so as not to interfere with the cassette carrying device and the passage of the cassette carried to the cassette carrying device.

  The cassette mounting section can be mounted with a plurality of cassettes arranged in the horizontal direction, and the empty cassette mounting section can be mounted with a plurality of cassettes arranged in the same horizontal direction as the cassette mounting section, The empty cassette placement section has a plurality of cassette moving devices that place a cassette and move it in the horizontal direction, and the plurality of cassette moving devices are arranged in the horizontal direction and are adjacent to each other. You may be comprised so that a cassette can be delivered between.

  The empty cassette mounting part may be provided in a plurality of stages.

  The empty cassette transfer mechanism is disposed above the empty cassette mounting portion, and passes through the cassette transfer device and a cassette passage transported by the cassette transfer device. In contrast, an empty cassette may be transferred.

  The empty cassette transfer mechanism may be configured to be movable in the horizontal direction.

  According to the present invention, it is possible to deal with small lot processing without reducing the throughput of the substrate processing apparatus and without increasing the footprint.

It is explanatory drawing which shows the outline of the internal structure of a coating / development processing apparatus. It is a side view which shows the outline of the internal structure of a coating and developing treatment apparatus. It is a side view which shows the outline of the internal structure of a coating and developing treatment apparatus. It is a side view which shows the structure of the cassette carrying in / out part of a cassette station. It is a top view which shows the outline of a structure of the cassette moving apparatus of an empty cassette mounting base. It is explanatory drawing which shows the slide structure of the Y direction of a cassette moving apparatus. It is a top view which shows the structure of the rail of a cassette transfer mechanism. It is explanatory drawing which shows a mode that the external cassette conveying apparatus carried the cassette in the cassette mounting base. It is explanatory drawing which shows a mode that the cassette transfer mechanism hold | maintained the empty cassette. It is explanatory drawing which shows a mode that the cassette transfer mechanism mounted the empty cassette on the empty cassette mounting base. It is explanatory drawing which shows a mode that the external cassette conveyance apparatus carried the next cassette in the cassette mounting base. It is explanatory drawing which shows a mode that the cassette transfer mechanism mounted the next cassette on the empty cassette mounting base. It is explanatory drawing which shows a mode that the cassette transfer mechanism conveyed the empty cassette to the cassette mounting base. It is explanatory drawing which shows a mode that an external cassette conveying apparatus carries out a cassette. It is explanatory drawing which shows the outline of the internal structure of the coating and developing treatment apparatus concerning other embodiment. It is a side view which shows the outline of the internal structure of the coating-development processing apparatus concerning other embodiment. It is a side view of a cassette. It is a side view which shows the structure of the cassette carrying in / out part of a cassette station. It is a top view which shows the outline of a structure of an empty cassette transfer mechanism. It is a side view which shows the outline of a structure of an empty cassette transfer mechanism. It is explanatory drawing which shows a mode that the arm supported the cassette. It is explanatory drawing which shows a mode that the external cassette conveying apparatus mounted the cassette in the carrying-in space. It is explanatory drawing which shows a mode that the empty cassette transfer mechanism mounted the cassette on the cassette mounting base. It is explanatory drawing which shows a mode that the empty cassette transfer mechanism mounted the empty cassette on the empty cassette mounting base, and mounted the next cassette on the cassette mounting base. It is explanatory drawing which shows a mode that the some cassette was mounted in the empty cassette mounting base. It is explanatory drawing which shows a mode that the empty cassette transfer mechanism mounted the empty cassette on the cassette mounting base. It is explanatory drawing which shows a mode that the empty cassette transfer mechanism mounted the empty cassette in the carrying-out space. It is explanatory drawing which shows a mode that the external cassette conveyance apparatus carried out the cassette and the empty cassette transfer mechanism mounted the next empty cassette on the cassette mounting base.

  Hereinafter, an embodiment as a reference example of the present invention will be described. FIG. 1 is an explanatory diagram showing an outline of an internal configuration of a coating and developing treatment apparatus 1 as a substrate processing apparatus according to the present embodiment. 2 and 3 are side views showing an outline of the internal configuration of the coating and developing treatment apparatus 1. FIG.

  As shown in FIG. 1, the coating and developing treatment apparatus 1 includes, for example, a cassette station 2 in which a cassette C is carried into and out of the outside, and a plurality of various processing units that perform predetermined processing in a single wafer type during photolithography processing. And the interface station 5 that transfers the wafer W between the exposure station 4 adjacent to the processing station 3 and the processing station 3 as a substrate processing unit provided with the above-described processing unit 3 are integrally connected.

  The cassette station 2 is divided into, for example, a cassette carry-in / out unit 10 and a wafer transfer unit 11 as a substrate transfer unit. For example, the cassette carry-in / out unit 10 is provided at the end of the coating and developing treatment apparatus 1 on the Y direction negative direction (left direction in FIG. 1) side. The cassette loading / unloading unit 10 is provided with a cassette mounting table 12 as a cassette mounting unit. A plurality, for example, four mounting plates 13 are provided on the cassette mounting table 12. The mounting plates 13 are arranged in a line in the horizontal X direction (up and down direction in FIG. 1). The mounting plate 13 has, for example, a substantially square shape, and can fix the mounted cassette C. Further, the mounting plate 13 is slidable in the Y direction, for example, and the wafer take-out port of the placed cassette C can be connected to a wafer transfer port 11b described later on the wafer transfer unit 11 side.

  For example, as shown in FIG. 4, a rail R is disposed above the cassette loading / unloading unit 10 of the cassette station 2, and the rail R is connected to the coating / development processing apparatus 1 and other processing apparatuses outside. An external cassette transfer device A is provided for transferring the cassette C between them. The external cassette transfer device A can move in the X direction above the cassette carry-in / out unit 10. The external cassette transport apparatus A has a cassette gripping part A1 that can be expanded and contracted in the vertical direction, for example, and the main body of the external cassette transport apparatus A moves above a predetermined mounting plate 13 of the cassette mounting table 12, and then the cassette gripping is performed. The cassette C can be transported to the predetermined mounting plate 13 by moving the portion A1 in the vertical direction.

  Above the cassette loading table 12 of the cassette loading / unloading unit 10, empty cassette loading tables 20, 21 as empty cassette loading units of a plurality of stages, for example, two stages, are provided. Further, an empty cassette transfer mechanism 22 is provided further above the empty cassette mounting tables 20 and 21.

  For example, four cassette moving devices 30 are provided in each empty cassette mounting table 20, 21. The four cassette moving devices 30 are arranged side by side in the X direction so as to correspond to the four mounting plates 13 of the cassette mounting table 12.

  Each cassette moving device 30 has, for example, two drive belts 31 extending in the X direction as shown in FIG. The two drive belts 31 are provided in parallel, and the cassette C can be placed on the two drive belts 31. In the present embodiment, the two drive belts 31 function as support members that support the lower surface of the cassette C.

  Each drive belt 31 is, for example, hung on two pulleys 32 at both ends, and a motor 34 is connected to a rotation shaft 33 of one pulley 32. Each drive belt 31 can be rotated in the X direction by rotating the pulley 32 by the motor 34. Thereby, the cassette C placed on the drive belt 31 can be moved in the X direction.

  For example, as shown in FIG. 6, the rotation shaft 33 of each drive belt 31 is rotatably supported by a bearing portion 35. For example, the bearing portion 35 is attached to a slider 37 that can move on a rail 36 extending in the Y direction by a motor or the like. That is, each drive belt 31 and motor 34 are attached to the slider 37 via the bearing portion 35. By the movement of the slider 37, each drive belt 31 can move in the Y direction, and as a result, the distance between the two drive belts 31 can be adjusted. As a result, as shown in FIG. 5, the two drive belts 31 are opened to the outside, and the cassette gripping part A1 of the external cassette transporting apparatus A and the cassette C transported to the cassette gripping part A1 pass vertically between them. A passage B (a dotted line region in FIG. 5) can be formed.

  As shown in FIG. 4, the four cassette moving devices 30 are provided close to each other, and the cassette C can be transferred between the adjacent cassette moving devices 30. Thereby, for example, when the cassette gripping part A1 of the external cassette conveying apparatus A passes through the passage B, the placed cassette C can be moved to the adjacent cassette moving apparatus 30.

  For example, as shown in FIG. 4, the empty cassette transfer mechanism 22 can move on a rail 40 extending in the X direction provided at the uppermost portion of the cassette loading / unloading unit 10. As shown in FIG. 7, for example, two rails 40 are provided, and are arranged at an interval so as not to obstruct the passage B such as the cassette gripping portion A <b> 1 of the external cassette transport apparatus A. As shown in FIG. 4, the empty cassette transfer mechanism 22 has a cassette gripping portion 41 that can expand and contract in the vertical direction. The cassette gripping portion 41 is formed to have a size that can pass through the passage B of the external cassette transfer device A described above. The empty cassette transfer mechanism 22 can transport the cassette C to the cassette moving device 30 of the mounting plate 13 and each of the empty cassette mounting tables 20 and 21 by moving the cassette gripping portion 41 in the vertical direction.

  As shown in FIGS. 1 and 2, the wafer transfer unit 11 of the cassette station 2 is covered with a casing 11a for controlling the atmosphere. On the wall surface of the casing 11a on the cassette loading / unloading portion 10 side, a wafer transfer port 11b is formed at a position corresponding to each mounting plate 13. Each wafer transfer port 11 b is provided with a door opener 50 that opens and closes the door of the cassette C on the mounting plate 13.

  As shown in FIG. 1, the wafer transfer unit 11 is provided with a wafer transfer device 61 that can move on a transfer path 60 extending in the X direction. The wafer transfer device 61 is also movable in the vertical direction and the vertical axis (θ direction), and is provided between a cassette C on each mounting plate 13 and a delivery device for a third block G3 of the processing station 3 to be described later. Wafers W can be transferred between them.

  The processing station 3 is provided with a plurality of, for example, four blocks G1, G2, G3, and G4 having various units. For example, the first block G1 is provided on the front side of the processing station 3 (X direction negative direction side in FIG. 1), and the second side is provided on the back side of the processing station 3 (X direction positive direction side in FIG. 1). Block G2 is provided. Further, a third block G3 is provided on the cassette station 2 side (Y direction negative direction side in FIG. 1) of the processing station 3, and the processing station 3 interface station 5 side (Y direction positive direction side in FIG. 1). Is provided with a fourth block G4.

  For example, in the first block G1, as shown in FIG. 3, a plurality of liquid processing units, for example, a development processing unit 80 for developing the wafer W, an antireflection film (hereinafter referred to as “lower antireflection”) under the resist film of the wafer W. A lower antireflection film forming unit 81 for forming a film ”, a resist coating unit 82 for applying a resist solution to the wafer W to form a resist film, and an antireflection film (hereinafter referred to as“ upper reflection ”on the resist film of the wafer W). An upper antireflection film forming unit 83 for forming an “antireflection film” is stacked in four steps from the bottom.

  For example, each of the units 80 to 83 of the first block G1 has a plurality of cups F that accommodate the wafers W in the horizontal direction during processing, and can process the plurality of wafers W in parallel.

  For example, in the second block G2, as shown in FIG. 2, a heat treatment unit 90 for heat-treating the wafer W, an adhesion unit 91 for hydrophobizing the wafer W, and a peripheral exposure unit for exposing the outer periphery of the wafer W 92 are arranged in the vertical direction and the horizontal direction. The heat treatment unit 90 includes a hot plate for placing and heating the wafer W and a cooling plate for placing and cooling the wafer W, and can perform both heat treatment and cooling treatment. The number and arrangement of the heat treatment unit 90, the adhesion unit 91, and the peripheral exposure unit 92 can be arbitrarily selected.

  For example, in the third block G3, a plurality of delivery units 100, 101, 102, 103, 104, 105, 106 are provided in order from the bottom. The fourth block G4 is provided with a plurality of delivery units 110, 111, 112 in order from the bottom.

  As shown in FIG. 1, a wafer transfer region D is formed in a region surrounded by the first block G1 to the fourth block G4. For example, a wafer transfer device 120 is disposed in the wafer transfer region D.

  The wafer transfer device 120 has a transfer arm that can move in the Y direction, the front-rear direction, the θ direction, and the vertical direction, for example. The wafer transfer device 120 moves in the wafer transfer area D and transfers the wafer W to a predetermined unit in the surrounding first block G1, second block G2, third block G3, and fourth block G4. it can.

  For example, as shown in FIG. 2, a plurality of wafer transfer apparatuses 120 are arranged in the vertical direction, and can transfer the wafer W to a predetermined unit having the same height of each of the blocks G1 to G4, for example.

  Further, in the wafer transfer area D, a shuttle transfer device 130 that transfers the wafer W linearly between the third block G3 and the fourth block G4 is provided.

  The shuttle transfer device 130 is linearly movable in the Y direction, for example. The shuttle transfer device 130 moves in the Y direction while supporting the wafer W, and can transfer the wafer W between the transfer unit 102 of the third block G3 and the transfer unit 112 of the fourth block G4.

  As shown in FIG. 1, a wafer transfer device 140 is provided on the positive side in the X direction of the third block G3. The wafer transfer device 140 has a transfer arm that is movable in the front-rear direction, the θ direction, and the vertical direction, for example. The wafer transfer device 140 moves up and down while supporting the wafer W, and can transfer the wafer W to each delivery unit in the third block G3.

  The interface station 5 is provided with a wafer transfer device 150 and a delivery unit 151. The wafer transfer device 150 has a transfer arm that is movable in the front-rear direction, the θ direction, and the vertical direction, for example. The wafer transfer device 150 can transfer the wafer W to each transfer unit and transfer unit 151 in the fourth block G4, for example, by supporting the wafer W on a transfer arm.

  Next, the operation of the coating and developing treatment apparatus 1 configured as described above will be described.

  First, a cassette C1 containing unprocessed wafers W for one lot is transported by the external cassette transport device A to above the cassette carry-in / out section 10 of the coating and developing treatment device 1 as shown in FIG. Thereafter, as shown in FIG. 8, the cassette gripping portion A <b> 1 of the external cassette transport apparatus A extends downward, and the cassette C <b> 1 is placed on a predetermined placement plate 13 of the cassette placement table 12. At this time, the empty cassette transfer mechanism 22 is retracted from the path B of the cassette gripping part A1. In addition, the cassette moving device 30 of each empty cassette mounting table 20, 21 is also retracted from the path B with the drive belt 31 opened outward in the Y direction as shown by the dotted line in FIG. The cassette gripping part A <b> 1 passes through the empty cassette mounting tables 20 and 21 and conveys the cassette C <b> 1 to the mounting plate 13.

  After the cassette C1 is mounted on the mounting plate 13 shown in FIG. 1, the mounting plate 13 moves to the wafer transfer unit 11 side, and the cassette C1 is set in the wafer transfer port 11b. Then, the door of the cassette C1 is opened by the door opener 50. Thereafter, the wafers W in the cassette C1 are sequentially taken out by the wafer transfer device 61, transferred into the processing station 3, and processed.

  After all the wafers W are unloaded from the cassette C1, the empty cassette C1 is transferred to the empty cassette mounting table 20, for example, by the empty cassette transfer mechanism 22. At this time, the empty cassette transfer mechanism 22 first moves directly above the empty cassette C1, and as shown in FIG. 9, the cassette gripping portion 41 of the empty cassette transfer mechanism 22 extends downward to hold the empty cassette C1. At this time, the drive belt 31 of the cassette moving device 30 of the empty cassette mounting tables 20 and 21 is opened to the outside, and the passage B is secured.

  Then, the cassette gripping portion 41 lifts the empty cassette C1 to above the empty cassette mounting table 20, and then the interval between the drive belts 31 of the cassette moving device 30 is reduced. Then, as shown in FIG. 10, the empty cassette C <b> 1 is placed on the cassette moving device 30 of the empty cassette mounting table 20 by the cassette gripping portion 41. Thus, the empty cassette C1 is temporarily stored on the empty cassette mounting table 20 during the lot processing of the wafer W.

  When the empty cassette C1 is mounted on the empty cassette mounting table 20, a new lot of the cassette C2 is carried onto the mounting plate 13 by the external cassette transfer device A as shown in FIG. At this time, when there is an empty cassette C1 on the passage B of the external cassette conveying apparatus A, the drive belt 31 of the cassette moving apparatus 30 is operated, and the empty cassette C1 is driven by the drive belt 31 of the adjacent cassette moving apparatus 30. Is passed on. Thereby, the passage B of the external cassette conveying apparatus A is secured, and a new cassette C2 can be conveyed to the mounting plate 13.

  The cassette C2 transferred to the mounting plate 13 is, for example, an empty cassette mounting table by an empty cassette transfer mechanism 22 as shown in FIG. 12 after all the wafers W are transferred to the processing station 3 in the same manner as the cassette C1. It is conveyed to 21. Thereafter, the cassette C2 is transferred to the adjacent cassette moving device 30 in order to secure the passage B as necessary. As described above, the cassette C that has been emptied after the wafer W is unloaded on the mounting plate 13 is transported to the empty cassette mounting table 20 or 21 and temporarily stored therein.

  On the other hand, the wafer W in the cassette C1 transferred to the processing station 3 includes, for example, a heat treatment unit 90, a lower antireflection film forming unit 81, a heat treatment unit 90, an adhesion unit 91, a resist coating unit 82, a heat treatment unit 90, and an upper part. The antireflection film forming unit 83, the heat treatment unit 90, the peripheral exposure unit 92, and the like are sequentially conveyed to each unit, and predetermined processing is performed in each unit. Thereafter, the wafer W is transferred to the exposure apparatus 4 and subjected to exposure processing, and then returned to the processing station 3. Thereafter, the wafer W is sequentially transferred to the heat treatment unit 90, the development processing unit 80, the heat treatment unit 90, and the like, and predetermined processing is performed in each unit. Thus, a series of processing (photolithographic processing) for the wafer W is completed.

  When a series of processing of the wafer W is completed, the empty cassette C1 temporarily mounted on the empty cassette mounting table 20 is transferred to the original mounting plate 13 by the empty cassette transfer mechanism 22 as shown in FIG. Returned. At this time, if an empty cassette C1 has been delivered to the adjacent cassette moving device 30, the empty cassette C1 is returned to the cassette moving device 30 directly above the original placement plate 13, and then empty. The original is placed on the original placement plate 13 by the cassette transfer mechanism 22. At this time, the drive belt 31 of the cassette moving device 30 is opened outward, and the passage B is secured. Further, for example, when the cassette C2 of the empty cassette mounting table 21 obstructs the passage B, the cassette C2 is moved to the adjacent cassette moving device 30.

  After the cassette C1 is returned to the original placement plate 13, the processed wafer W is returned to the original cassette C1 by the wafer transfer device 61.

  Thereafter, as shown in FIG. 14, the cassette gripping portion A1 of the external cassette transport apparatus A is lowered, and the cassette C1 on the mounting plate 13 is held by the cassette gripping portion A1. Thereafter, the cassette gripping portion A1 is raised and the cassette C1 is unloaded from the coating and developing treatment apparatus 1.

  Similarly, the cassette C2 is returned to the original mounting plate 13 by the empty cassette transfer mechanism 22 when the processing of the wafer W is completed. After all the wafers W have been accommodated, the cassette C2 is unloaded from the coating and developing treatment apparatus 1 by the external cassette carrying apparatus A.

  According to the above embodiment, since the empty cassette mounting tables 20 and 21 and the empty cassette transfer mechanism 22 are provided in the cassette carry-in / out section 10 of the coating and developing treatment apparatus 1, it becomes empty during the processing of each lot. The cassette C can be removed from the mounting plate 13 and temporarily stored in the empty cassette mounting tables 20 and 21. For this reason, since the new cassette C can be sequentially loaded onto the mounting plate 13, even in the small lot processing in which the number of wafers in one cassette is small, the wafers W are continuously transferred to the processing station 3 without leaving a time interval. Can be brought in. As a result, it is possible to deal with small lot processing without reducing the throughput in the coating and developing treatment apparatus 1. Further, it is possible to deal with small lot processing without increasing the number of mounting plates 13 of the cassette mounting table 12 and without increasing the footprint of the coating and developing treatment apparatus 1. Further, since the transfer of the cassette C between the external cassette transfer device A and the cassette mounting table 12 can be made the same as the existing one, for example, the control of the carry-in / out of the cassette C by the external cassette transfer device A is changed. It is not necessary and can handle small lot processing relatively easily.

  In the above embodiment, since the empty cassette mounting tables 20 and 21 and the empty cassette transfer mechanism 22 are provided immediately above the cassette mounting table 12, the footprint increases due to the installation of the empty cassette mounting tables 20 and 21 and the like. Can be prevented. The empty cassette mounting tables 20 and 21 are configured so that the external cassette transport device A and the cassette C transported to the external cassette transport device A can pass in the vertical direction. The used cassette C can be carried in and out appropriately.

  The empty cassette mounting tables 20 and 21 have a drive belt 31 that supports the cassette C, and the drive belt 31 is configured to move in the Y direction and retract to the outside of the passage B. Both support and securing of the passage B such as the external cassette transfer device A can be appropriately performed.

  The empty cassette mounting tables 20 and 21 are provided with four cassette moving devices 30 that move the cassette C in the X direction, and the cassette C can be transferred between the cassette moving devices 30. The empty cassette C can be transferred to the adjacent cassette moving device 30 to secure the passage B of the external cassette conveying device A or the like. As a result, the new cassette C can be continuously carried into the cassette mounting table 12 by the external cassette carrying device A.

  Since the empty cassette mounting tables 20 and 21 are provided in a plurality of stages, a large number of empty cassettes C can be stored, and new cassettes C can be carried into the cassette mounting table 12 accordingly. As a result, it is possible to deal with processing of a smaller lot.

  Since the empty cassette transfer mechanism 22 can transfer the cassette C through the passage B of the external cassette transfer device A or the like, even when the cassette transfer device 22 is provided above the empty cassette mounting tables 20 and 21, the transfer of the cassette C is performed. Can be performed properly. Further, since the empty cassette transfer mechanism 22 can move in the horizontal direction so as not to obstruct the passage B of the external cassette transfer device A or the like, the cassette C can be properly loaded and unloaded by the external cassette transfer device A. Can do.

  For example, the number of empty cassette mounting tables in the processing station 2 described in the above embodiment is not limited to two, but may be three or more. Further, the number of cassette moving devices 30 of each empty cassette mounting table 20, 21 can be arbitrarily selected according to the number of mounting plates 13. In the above embodiment, the support member of the cassette of the cassette moving device 30 is the drive belt 31, but a support member having another structure may be used. In addition, the movement of the cassette C by the cassette moving device 30 is performed by the drive belt 31, but may be performed by another drive mechanism.

  Next, a coating and developing treatment apparatus 1 equipped with a cassette loading / unloading section 200 shown in FIG. 15, which is another embodiment (an embodiment of the present invention) of the cassette loading / unloading section 10 described in the above embodiment. explain. FIG. 15 is an explanatory diagram showing an outline of the internal configuration of the coating and developing treatment apparatus 1 according to another embodiment, and FIG. 16 is a side view showing the outline of the internal configuration of the coating and developing treatment apparatus 1. As shown in FIG. 17, the cassette C in the present embodiment includes a main body portion 210 that accommodates the wafer W, a shaft 211 protruding from the upper surface of the main body portion 210, and a locking portion 212 supported by the shaft 211. Have. The locking portion 212 has a substantially rectangular shape, and the length of one side thereof is longer than the diameter of the shaft 211.

  For example, the cassette carry-in / out unit 200 is provided at the end of the coating and developing treatment apparatus 1 on the Y direction negative direction (left direction in FIG. 15) side as shown in FIG. The cassette loading / unloading unit 200 is provided with a cassette mounting table 220 as a cassette mounting unit. On the cassette mounting table 220, a plurality of, for example, four mounting plates 221 are provided. The mounting plates 221 are arranged in a line in the horizontal X direction (vertical direction in FIG. 15). The placement plate 221 has, for example, a substantially square shape, and can fix the placed cassette C. Further, the mounting plate 221 is slidable in the Y direction, for example, and the wafer take-out port of the placed cassette C can be connected to the wafer transfer port 11b on the wafer transfer unit 11 side.

  As shown in FIG. 18, empty cassette mounting tables 230 and 231 as empty cassette mounting units of a plurality of stages, for example, two stages, are provided above the cassette mounting table 220 of the cassette loading / unloading unit 200. A plurality of, for example, four mounting plates 232 are provided on each empty cassette mounting table 230, 231. The four mounting plates 232 are arranged in the X direction so as to correspond to the four mounting plates 221 of the cassette mounting table 220. Each placement plate 232 has, for example, a substantially square shape, and can fix the placed cassette C.

  Of the four mounting plates 232 provided on the upper empty cassette mounting table 231, the space where the cassette C is mounted on the two mounting plates 232 is the cassette C between the outside of the coating and developing treatment apparatus 1. Functions as a carry-in space 240 and a carry-out space 241.

  Further, a rail R is disposed above the upper empty cassette mounting table 231, and the cassette C is transported between the coating and developing treatment apparatus 1 and another external processing apparatus on the rail R. An external cassette transfer device A is provided. The external cassette transfer device A can move in the X direction above the empty cassette mounting table 231. The external cassette transport device A has, for example, a cassette gripping portion A1 that can be expanded and contracted in the vertical direction, and the main body of the external cassette transport device A moves above the carry-in space 240 or the carry-out space 241 of the empty cassette mounting table 231. The cassette C can be transported to the carry-in space 240 or the carry-out space 241 by moving the cassette gripping portion A1 in the vertical direction.

  In the cassette loading / unloading section 200, for example, as shown in FIG. 15, an empty cassette transfer mechanism 250 is provided on the negative side of the cassette mounting table 220 in the Y direction (left direction in FIG. 15).

  The empty cassette transfer mechanism 250 has an arm 251 that supports the cassette C as shown in FIGS. 19 and 20. As shown in FIG. 21, the arm 251 includes two main body portions 252 and a support portion 253 that supports the main body portion 252. The two main body portions 252 can support the cassette C by contacting the lower surface of the locking portion 212 without interfering with the shaft 211 of the cassette C.

  The arm 251 is supported by an arm support portion 254 that extends in the horizontal direction (X direction in the figure) as shown in FIGS. 19 and 20. The arm support portion 254 is supported by an arm drive portion 255 that extends in the vertical direction (Z direction in the drawing). The arm drive unit 255 includes a motor (not shown), for example, and moves the arm support unit 254 and the arm 251 in the horizontal direction (X direction and Y direction in the drawing) and the vertical direction (Z direction in the drawing). Can be moved to. In other words, the arm 251 moves in the horizontal direction (Y direction in the figure) from the side of the empty cassette mounting tables 230 and 231 and the cassette mounting table 220, so that the arms 251 move relative to the empty cassette mounting tables 230 and 231 and the cassette mounting table 220. Cassette C can be transferred. Further, the arm 251 can move the cassette C between the empty cassette mounting tables 230 and 231 and the cassette mounting table 220 by moving in the vertical direction. In the present embodiment, these arm support portion 254 and arm drive portion 255 constitute an arm moving portion.

  The operation of the empty cassette transfer mechanism 250 is controlled by the control unit 300 shown in FIGS. The control unit 300 controls the operation of the empty cassette transfer mechanism 250 so that the cassette C is mounted at appropriate timings at appropriate positions on the empty cassette mounting tables 230 and 231 and the cassette mounting table 220. For example, in this embodiment, addresses are assigned to the empty cassette placement tables 230 and 231 and the placement plates 232 and 221 of the cassette placement table 220, and a cassette ID is assigned to the cassette C. Then, the control unit 300 sets the placement location of the cassette C based on the addresses of the placement plates 232 and 221 and the cassette ID, and controls the operation of the empty cassette transfer mechanism 250.

  In the present embodiment, the wafer W in the cassette C is also given a wafer ID corresponding to the cassette ID. Based on the cassette ID and wafer ID, the control unit 300 sets the placement location of the cassette C so that the wafer W is always accommodated in the same cassette C, and controls the operation of the empty cassette transfer mechanism 250. .

  Further, the control unit 300 controls the processing of the wafer W in the coating and developing processing system 1 together with the operation of the empty cassette transfer mechanism 250 described above. The controller 300 outputs the processing status of the wafer W together with the wafer ID from each unit of the processing station 3, the exposure apparatus 4, and the like. The control unit 300 controls the processing of the wafer W based on the output result and controls the operation of the empty cassette transfer mechanism 250.

  The control unit 300 is configured by, for example, a computer including a CPU and a memory, and can control the operation of the empty cassette transfer mechanism 250 and the processing of the wafer W by executing a program stored in the memory, for example. The various programs are stored in, for example, a computer-readable storage medium such as a CD, and those installed in the control unit 300 from the storage medium are used.

  The other configuration of the coating and developing treatment apparatus 1 is the same as the configuration described in the above embodiment, and a description thereof will be omitted.

  Next, the operation of the coating and developing treatment apparatus 1 configured as described above will be described.

  First, a cassette C1 containing unprocessed wafers W for one lot is transferred by the external cassette transfer device A to above the loading space 240 of the empty cassette mounting table 231. Thereafter, as shown in FIG. 22, the cassette gripping portion A <b> 1 of the external cassette transport device A extends downward, and the cassette C <b> 1 is placed on the placement plate 232 in the carry-in space 240.

  Next, the cassette C1 in the carry-in space 240 is placed on a predetermined placement plate 221 of the cassette placement table 220 by the empty cassette transfer mechanism 250 as shown in FIG. At this time, the cassette C2 of the new lot is transported up to the upper part of the carry-in space 240 by the external cassette transport device A.

  After the cassette C1 is mounted on the mounting plate 221, the mounting plate 221 shown in FIG. 15 moves to the wafer transfer unit 11 side, and the cassette C1 is set at the wafer transfer port 11b. Then, the door of the cassette C1 is opened by the door opener 50. Thereafter, the wafers W in the cassette C1 are sequentially taken out by the wafer transfer device 61, transferred into the processing station 3, and processed.

  While the wafer W in the cassette C1 is being transferred to the processing station 3, the cassette C2 in the loading space 240 is placed on the other placement plate 221 of the cassette placement table 220 by the empty cassette transfer mechanism 250 as shown in FIG. Placed. At this time, the cassette C3 of the new lot is transported to the upper part of the carry-in space 240 by the external cassette transport device A.

  After all the wafers W are unloaded from the cassette C1, the empty cassette C1 is transferred to, for example, the empty cassette mounting table 230 by the empty cassette transfer mechanism 250 as shown in FIG. The empty cassette C1 is mounted on a predetermined mounting plate 232 of the empty cassette mounting table 230 and temporarily stored in the empty cassette mounting table 230 during the lot processing of the wafer W. The empty cassette C1 is placed on the placement plate 232 until predetermined processing, for example, development processing in the development unit 80 is completed on all the wafers W of the cassette C1.

  When all the wafers W are unloaded from the cassette C1, the placement plate 221 on which the next cassette C2 is placed moves to the wafer transfer unit 11 side, and each wafer W in the cassette C2 is taken out in order. , Transported into the processing station 3 and processed. Thereafter, when all the wafers W are unloaded from the cassette C2, the empty set C2 is placed on a predetermined placement table 232 of the empty cassette placement table 230.

  Thus, after a predetermined number, for example, six cassettes C1 to C6 are sequentially loaded into the cassette station 2, the wafers W in the cassettes C1 to C6 are unloaded into the processing station 3. Then, the empty cassettes C1 to C6 are placed on the placement plates 232 of the empty cassette placement tables 230 and 231 as shown in FIG. The number of empty cassettes C stored in the empty cassette mounting tables 230 and 231 is not limited to six, and can be arbitrarily changed according to the processing process for the wafer W and the like.

  On the other hand, various processes are performed on the wafer W of the cassette C1 carried out to the processing station 3. During this time, the processing status of the wafer W is output to the control unit 300 from the processing station 3 or the like. For example, when the development processing in the developing unit 80 is completed for all the wafers W in the cassette C1, the control unit 300 controls the empty cassette transfer mechanism 250, so that the empty cassette as shown in FIG. The empty cassette C1 of the mounting table 230 is transferred to a predetermined mounting plate 221 of the cassette mounting table 220. Thereafter, the wafer W after a series of photolithography processes is returned to the original cassette C1 by the wafer transfer device 61.

  When all the wafers W are accommodated in the cassette C 1, the cassette C 1 is transferred to the carry-out space 241 by the empty cassette transfer mechanism 250 as shown in FIG. 27 and mounted on the mounting plate 232.

  Thereafter, as shown in FIG. 28, the cassette gripping portion A1 of the external cassette transport apparatus A is lowered from above the carry-out space 241 and the cassette C1 on the mounting plate 232 is held by the cassette gripping portion A1. Then, the cassette gripping part A1 rises and the cassette C1 is carried out from the coating and developing treatment apparatus 1. At this time, when the development processing in the developing unit 80 has been completed for all the wafers W in the cassette C2, the empty cassette C2 of the empty cassette mounting table 230 is removed from the cassette mounting table by the empty cassette transfer mechanism 250. 220 is transferred to a predetermined mounting plate 221.

  As described above, the cassette C is continuously carried into and out of the coating and developing treatment apparatus 1, and the photolithography process is performed on the wafer W in the cassette C.

  According to the above embodiment, the cassette loading / unloading unit 200 of the coating and developing treatment apparatus 1 is provided with the empty cassette mounting tables 230 and 231 and the empty cassette transfer mechanism 250. The cassette C can be removed from the cassette mounting table 220 and temporarily stored in the empty cassette mounting tables 230 and 231. For this reason, since the new cassette C can be sequentially transferred to the cassette mounting table 220, even in a small lot processing in which the number of wafers in one cassette is small, the wafer W is continuously transferred to the processing station 3 without a time interval. Can be brought in. As a result, it is possible to deal with small lot processing without reducing the throughput in the coating and developing treatment apparatus 1. Further, it is possible to deal with small lot processing without increasing the number of mounting plates 221 of the cassette mounting table 220 and without increasing the footprint of the coating and developing treatment apparatus 1. Furthermore, since the external cassette carrying apparatus A carries the cassette C in and out of only the carrying-in space 240 and the carrying-out space 241, the carrying of the cassette C in the external cassette carrying apparatus A can be made the same as the existing one. Thereby, for example, it is not necessary to change the control of loading / unloading of the cassette C by the external cassette carrying device A, and it is possible to deal with small lot processing relatively easily.

  The provision of the empty cassette mounting tables 230 and 231 and the empty cassette transfer mechanism 250 in this way is also effective when performing a double patterning process used when forming a fine pattern on the wafer W. In the double patterning process, the pattern formed in the fine layer on the wafer W is exposed in two steps, the etching process is performed after the first exposure process, and the second exposure process is performed again on the same layer. . Accordingly, the first patterning and the second patterning have different processing steps performed on the wafer W, and therefore the time required for each processing is different. Even when the coating and developing treatment system 1 according to the present embodiment is used in such a double patterning process, the cassette C is stored in the empty cassette mounting tables 230 and 231 so that the cassette C can be obtained at an appropriate timing. Can be transferred to the cassette mounting table 220. Therefore, the processed wafers W can be sequentially accommodated in the cassette C, and the throughput in the coating and developing treatment apparatus 1 can be improved.

  In the above embodiment, since the empty cassette mounting tables 230 and 231 are provided directly above the cassette mounting table 220, it is possible to prevent an increase in footprint due to the installation of the empty cassette mounting tables 230 and 231 and the like.

  Since the arm 251 of the empty cassette transfer mechanism 250 can be moved in the vertical direction and the horizontal direction by the arm support portion 254 and the arm drive portion 255, it can be The cassette C can be transferred to the empty cassette mounting tables 230 and 231 and the cassette mounting table 220 by moving in the direction. Thus, even when a plurality of cassettes C are carried into the coating and developing treatment apparatus 1, each cassette C can be properly transferred to a predetermined place without causing interference.

  The empty cassette mounting tables 230 and 231 are provided with a loading space 240 for loading and unloading the cassette C to and from the outside of the coating and developing treatment apparatus 1, and the cassette C in the loading space 241 is moved by the empty cassette transfer mechanism 250. Since it is configured to be transferred to the cassette mounting table 220, new cassettes C can be continuously carried into the loading space 240 by the external cassette carrying device A.

  Since the empty cassette mounting tables 230 and 231 are provided in a plurality of stages and each of the cassette mounting tables 230 and 231 is provided with a plurality of mounting plates 232, a large number of empty cassettes C can be stored. A new cassette C can be transferred to the cassette mounting table 220. As a result, it is possible to deal with processing of a smaller lot without reducing the throughput in the coating and developing treatment apparatus 1.

  Using the coating and developing treatment apparatus 1 of the above embodiment, for example, the recovery of the wafer W in the apparatus when the coating and developing treatment apparatus 1 is shut down may be controlled. At the time of shutdown, it is not always the most efficient to collect the wafers W in the order of loading into the processing station 3. For example, the wafer W in the resist coating unit 82 is carried into the processing station 3 after the wafer W in the exposure apparatus 4, but the transport path to the cassette station 2 is short. In this case, it may be more efficient to collect the wafer W in the resist coating unit 82 first. Therefore, when the coating and developing treatment apparatus 1 is shut down, first, the control unit 300 determines the order of collection based on the processing state of each wafer W. Thereafter, the empty cassette transfer mechanism 250 is controlled based on the determined collection order of the wafers W, and empty cassettes C of the empty cassette mounting tables 230 and 231 are transferred to the cassette mounting table 220. As a result, the wafers W remaining in the coating and developing treatment apparatus 1 at the time of shutdown can be efficiently recovered, and the throughput can be improved.

  In the above embodiment, the wafers W in the cassette C are carried out and processed in the processing station 3 in the order of being transferred to the cassette mounting table 220. However, depending on the processing conditions of the wafers W in each cassette C, The order of carrying out to the processing station 3 may be changed. For example, when the heat treatment unit 90 continuously performs the heat treatment at different heat treatment temperatures on the wafer W, for example, the heat treatment temperature for the wafer W in the cassette C1 is 90 degrees, and the heat treatment temperature for the wafer W in the cassette C2 is 100. The heat treatment temperature for the wafer W in the cassette C3 may be 90 degrees. At this time, even when the cassettes C1 to C3 are transferred to the cassette mounting table 220 in this order, the wafers W in the cassette C1 and the cassette C3 are unloaded to the processing station 3, and then the wafers W in the cassette C2 are transferred to the processing station 3. To be taken out. Then, in the heat treatment unit 90, the wafer W can be continuously heat-treated by changing the heat treatment temperature once. Therefore, the throughput in the coating and developing treatment apparatus 1 can be improved. The processing conditions in this case are not limited to the heat treatment temperature, and may be other processing conditions.

  In the above embodiment, the cassette mounting table 220 is provided in one stage, but may be two or more stages. Further, the empty cassette mounting tables 230 and 231 are provided in two stages, but may be three or more stages. Further, although the empty cassette mounting tables 230 and 231 are provided on the positive side in the Y direction of the empty cassette transfer mechanism 250 as shown in FIG. A cassette mounting table may be further provided. Further, the number of mounting plates 232 of each empty cassette mounting table 230, 231 can be arbitrarily increased. As described above, by increasing the number of places where the cassette C is placed, a large number of empty cassettes C can be stored, and a new cassette C can be transferred to the cassette placing table 220 accordingly. As a result, it is possible to deal with processing of a smaller lot without reducing the throughput in the coating and developing treatment apparatus 1.

  In the above embodiment, the empty cassette mounting tables 230 and 231 are fixed above the cassette mounting table 220, but may be configured to be removable. Thereby, for example, maintenance of the empty cassette mounting tables 230 and 231 can be easily performed. Even when the empty cassette mounting tables 230 and 231 are removed, the coating and developing treatment apparatus 1 can be operated as it is.

  The preferred embodiments of the present invention have been described above with reference to the accompanying drawings, but the present invention is not limited to such examples. It is obvious for those skilled in the art that various modifications or modifications can be conceived within the scope of the idea described in the claims, and these naturally belong to the technical scope of the present invention. It is understood.

  The substrate processing apparatus in the above embodiment is a coating and developing processing apparatus that performs photolithography processing, but may be a processing apparatus that performs other processing. Furthermore, the present invention can be applied to other substrate processing apparatuses such as an FPD (flat panel display) and a photomask mask reticle in addition to a semiconductor wafer.

  The present invention is useful for a substrate processing apparatus for processing a small lot.

DESCRIPTION OF SYMBOLS 1 Application | coating development apparatus 2 Cassette station 3 Processing station 10 Cassette carrying in / out part 12 Cassette mounting base 13 Mounting plate 20, 21 Empty cassette mounting base 22 Empty cassette transfer mechanism 30 Cassette moving apparatus 31 Drive belt C Cassette W Wafer

Claims (9)

A substrate processing apparatus,
A cassette mounting section for mounting a cassette for storing a substrate when the cassette is carried in and out of the processing apparatus;
A substrate processing unit for processing the substrate;
A substrate transport unit that transports the substrate in the cassette of the cassette mounting unit to the substrate processing unit, and transports the substrate that has been processed in the substrate processing unit to the cassette of the cassette mounting unit;
An empty cassette placement unit for temporarily placing a cassette that has been emptied after being transported to the substrate processing unit;
An empty cassette transfer mechanism for transferring an empty cassette between the empty cassette mounting portion and the cassette mounting portion;
A cassette moving device that is provided in the empty cassette placing portion and places the cassette and moves in a horizontal direction;
The cassette moving device includes two drive belts provided in parallel and supporting the lower surface of the cassette, and a slider for adjusting the distance between the two drive belts by moving the drive belts. A substrate processing apparatus comprising: a substrate processing apparatus; The loading and unloading of the cassette to and from the cassette mounting portion is performed by a cassette carrying device outside the processing device,
2. The substrate processing apparatus according to claim 1, wherein the cassette transfer apparatus moves in the vertical direction from the outside of the processing apparatus to transfer the cassette to the cassette mounting portion. The empty cassette mounting part is disposed above the cassette mounting part, and is configured to allow the cassette transporting device and a cassette transported to the cassette transporting device to pass in the vertical direction. The substrate processing apparatus according to claim 2. The said two drive belts are comprised so that it can retract | save to the outer side of the channel | path through which the said cassette conveyance apparatus and the cassette conveyed by the cassette conveyance apparatus pass up and down. Substrate processing equipment. The said empty cassette mounting part can move the mounted cassette to a horizontal direction so that the path | route of the cassette conveying apparatus and the cassette conveyed to the cassette conveying apparatus may not be disturbed. 4. The substrate processing apparatus according to 1. The cassette placing section can be placed by arranging a plurality of cassettes in the horizontal direction,
The empty cassette mounting section can be mounted with a plurality of cassettes arranged in the same horizontal direction as the cassette mounting section,
The empty cassette placement unit has a plurality of cassette moving devices for placing a cassette and moving the cassette in the horizontal direction,
The substrate processing apparatus according to claim 5, wherein the plurality of cassette moving apparatuses are arranged in the horizontal direction and configured to allow cassettes to be transferred between adjacent cassette moving apparatuses. The substrate processing apparatus according to claim 3, wherein the empty cassette mounting part is provided in a plurality of stages. The empty cassette transfer mechanism is disposed above the empty cassette mounting portion, and passes through the cassette transfer device and a cassette passage transported by the cassette transfer device. The substrate processing apparatus according to claim 3, wherein an empty cassette can be transferred. The substrate processing apparatus according to claim 8, wherein the empty cassette transfer mechanism is configured to be movable in a horizontal direction.

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