JP3932575B2 - Storage shelf equipment - Google Patents

Description

[0001]
BACKGROUND OF THE INVENTION
The present invention relates to a storage shelf apparatus mainly installed in a clean room.
[0002]
[Prior art]
Semiconductor manufacturing is performed in a special room called a “clean room”. In order to maintain a clean state, this room is often structured as follows.
(1) Clean air that has passed through a filter from the ceiling is blown out.
(2) The floor is composed of a “slatted” plate called “grating” or a plate having a plurality of air through holes called “punching metal”. An apparatus for manufacturing a semiconductor is usually installed on this floor surface.
(3) The floor is a large space so that the air flow from the ceiling can easily pass through the floor and to store machinery for operating the clean room.
[0003]
By the way, since the cost per unit area (both construction cost and maintenance cost) is high, there is a demand to use the floor area as effectively as possible.
[0004]
As equipment necessary for the semiconductor manufacturing process, there is a “stocker (storage shelf device)” for temporarily storing semiconductor materials (wafers) in the manufacturing process. For the above reasons, it is desirable that the stocker can store as many wafers as possible with the smallest possible area.
[0005]
A conventional stocker is installed on the floor of a clean room, like other semiconductor manufacturing apparatuses. FIG. 9 shows a configuration of a conventional stocker, where (a) is a plan view and (b) is a side view.
[0006]
The stocker 200 is installed on a grating floor G in a clean room, and planar storage shelf units 202 are arranged facing each other at intervals in a casing 201 having an outer wall structure. In the storage shelf unit 202, a large number of storage units 203 are secured in a grid pattern in the horizontal direction and the vertical direction, and stored items H can be stored in each storage unit 203. In addition, the housing 201 is provided with a delivery part (I / O port) 205 for taking in and out the stored goods H with respect to the outside, located at the end between the storage shelf units 202.
[0007]
Between the left and right storage shelf units 202, a stacker (transfer device) 210 for transferring the stored item H between the delivery unit 205 and the storage unit 203 is provided.
The stacker 210 is supported by the traveling rail 211 extending horizontally between the storage shelf units 202, the lifting column 215 standing on the traveling carriage 212 traveling on the traveling rail 211, and the lifting column 215. The elevator 216 is driven up and down, and the biaxial horizontal robot 217 mounted on the elevator 216 is configured to hold the stored item H by the hand at the tip of the biaxial horizontal robot 217.
[0008]
The procedure for warehousing H in the stocker 200 is as follows.
(1) The stacker 210 is waiting in advance at an initial position, for example, with the arm of the biaxial horizontal robot 217 contracted.
(2) In this state, the stored item H is placed on the delivery unit 205 by hand or a robot.
(3) In response to the transfer instruction, the stacker 210 operates, travels and moves up and down from the standby position, and moves up and down the platform 216 to the delivery unit 205.
(4) When the lifting platform 216 moves to the delivery unit 205, the arm of the biaxial horizontal robot 217 is extended and inserted into the delivery unit 205.
(5) Then, the stored item H is grasped with a hand.
(6) In this state, the arm of the biaxial horizontal robot 217 is contracted, and the stored item H is drawn into the stocker 200.
(7) Next, traveling and raising / lowering are performed, and the stored item H is moved to the position of the storage unit 203 to be stored.
(8) After the movement, the arm of the biaxial horizontal robot 217 is extended and the hand is inserted into the storage unit 203.
(9) Then, the stored item H is lowered onto the shelf of the storage unit 203.
(10) Next, the arm of the biaxial horizontal robot 217 is contracted, the hand is taken out of the storage unit 203, moved to the standby position, and waits until an instruction for the next operation is given.
[0009]
The operation when the stored item H is delivered may be performed by replacing the delivery unit 205 and the storage unit 203 in the above operation.
[0010]
[Problems to be solved by the invention]
By the way, as described above, a clean room stocker is required to store as many wafers as possible with the smallest possible occupation area.
[0011]
In this regard, the conventional stocker is set to a height that fits in the clean room floor to ceiling (usually about 3.5 m), so if you want to increase the storage area, occupy the horizontal direction. The area increases and the previous request cannot be met.
Therefore, as a measure to meet the previous requirements, using the space under the floor that has not been used so far, opening a part of the grating floor and having a height from the ceiling to the floor, Realization of a high stocker is desired.
[0012]
However, in order to embody a high stocker, if the dimensions in the height direction are simply increased while following the structure of the conventional example, the dimensions of the lifting column 215 moved in the horizontal direction by the traveling carriage 212 are increased. As the travel operation starts and stops, a large overturning moment is generated in the lifting column 215. For example, if the length of the lifting column is doubled, it is simply calculated, the weight is doubled, and the center of gravity height is doubled, so that the overturning moment is quadrupled. Therefore, there is a problem that the load on the mechanism for guiding the travel increases, the structure and weight of the guide mechanism and the travel drive system as well as the lifting column are enlarged, the equipment is increased in size, and the cost is increased.
[0013]
In view of the above circumstances, an object of the present invention is to provide a storage shelf device that can increase the storage space in the height direction while suppressing the enlargement of facilities as much as possible.
[0014]
[Means for Solving the Problems]
The storage shelf device of the invention of claim 1 has a plurality of storage portions in the circumferential direction and the vertical direction formed in a frame that stands vertically through the ceiling of the clean room and the lower end of the clean room ventilating floor. And a cylindrical shelf provided with a delivery portion for delivering stored items to and from the outside at a predetermined location, and disposed inside the cylindrical shelf, and moves up and down along the central axis of the cylindrical shelf and is concentric A lifting / lowering swiveling body that swirls around an axis, and a hand for holding stored items that is mounted on the lifting / lowering swiveling body via a telescopic mechanism that expands and contracts in the radial direction of the cylindrical shelf, along the cylindrical shelf. An elevating column is erected, and an elevating table supported by the elevating drive mechanism is supported on the elevating column, and a swivel table that is swung around the central axis of the cylindrical shelf by the swivel driving mechanism is supported by the elevating table. The swivel base Body and corresponds to, the lifting column is erected outside the cylindrical rack, an arm of the lifting platform extends to the central axis position of the cylindrical rack, and the revolving base to the tip of the arm is disposed It is characterized by being.
[0019]
A storage shelf apparatus according to a second aspect of the present invention is characterized in that, in the first aspect , the elevating column is integrated with a frame of the cylindrical shelf or a frame of a housing that holds the cylindrical shelf.
[0020]
A storage shelf device according to a third aspect of the present invention is characterized in that, in any one of the first and second aspects, a linear motor is used as the elevating drive mechanism.
[0021]
A storage shelf device according to a fourth aspect of the present invention is the storage shelf apparatus according to any one of the first to third aspects, wherein an upper pulley is provided at an upper end of the elevating column, and a rope body is wound around the upper pulley in a hanging manner. The lifting platform and the counter balance weight are attached to both ends of the apparatus.
[0022]
Storage shelving system of the invention of claim 5, Oite to claim 4, provided with a lower pulley on the lower end of the lifting column, it is wound on the lower pulleys by the rope member to the endless state, and the lower pulley Is equipped with a non-excitation brake.
[0023]
A storage shelf device according to a sixth aspect of the present invention is the storage shelf device according to the fourth or fifth aspect , wherein an outer periphery of the lifting column provided with the strip body is covered with a cover having a slit that allows the lifting platform to move up and down. A belt having a width covering the slit is used as a body.
[0026]
DETAILED DESCRIPTION OF THE INVENTION
Hereinafter, embodiments of the present invention will be described with reference to the drawings.
1 to 3 show a configuration of a stocker MA as a storage shelf apparatus according to a first embodiment of the present invention. FIG. 1 is a longitudinal sectional view, and FIGS. 2 and 3 are transverse sectional views.
[0027]
The stocker MA includes a cylindrical shelf 1 installed in a rectangular casing 7 and a stacker 10A provided in the cylindrical shelf 1. The cylindrical shelf 1 is provided with a plurality of storage units (storage shelves) 3 in a circumferential direction and an up-down direction on a cylindrical frame 2 erected vertically, and the stored item H is stored in a predetermined place with the outside. The delivery part 5 which delivers is provided. The cylindrical shelf 1 is installed in the clean room CR, and the lower end passes through the opening Ga provided in the grating floor (ventilated floor) G of the clean room CR and extends into the underfloor space YK. And the lower end base part 8 is being fixed to the floor surface Y of the underfloor space YK. Further, the upper end is set to a height that fills the ceiling T of the clean room CR.
[0028]
A swivel base 11 that is swiveled in the horizontal plane as indicated by an arrow (b) by a swivel motor (a swivel drive mechanism) 12 is provided at the inner bottom of the cylindrical shelf 1. Is standing vertically. A lift table 20 that is lifted and lowered as indicated by an arrow (A) by a linear motor 25 that is a lift drive mechanism is supported on the lift column 15 so as to be movable in the vertical direction. The elevator 20 is guided in the vertical direction by the linear guide 23. The turning center of the swivel base 11 coincides with the central axis L of the cylindrical shelf 1, and the central part of the lift table 20 is substantially located on the central axis L. Here, since the entire lifting column 15 is swiveled, the lifting platform 20 corresponds to the lifting swivel body of claim 1.
[0029]
On the lifting platform 20, a hand 30 for holding stored items is provided via an arm-type expansion / contraction mechanism 31 that expands and contracts in the radial direction of the cylindrical shelf 1 as indicated by an arrow (c). An upper pulley 17 is provided at the upper end of the lifting column 15, and a lower pulley 18 is provided at the lower end. Between the upper pulley 17 and the lower pulley 18, an endless belt 19 having a predetermined width is wound as a rope. Yes. On both sides of the belt 19, a lifting platform 15 and a counter balance weight 21 are attached in a sliding manner.
[0030]
The counter balance weight 21 is also guided up and down by the guide mechanism 24 without shaking. The lower pulley 18 is equipped with a non-excitation actuating brake 27. Further, a cable bearer 22 extends from an intermediate portion in the height direction of the lifting column 15 to the lifting platform 15. Further, a cover 28 is provided on the outer periphery of the lifting column 15 so as to cover the lifting column 15 from the outside of the belt 19 and the cable bear 22. The cover 28 is formed with a vertically long slit 28a that allows the elevator 15 to move up and down, and the width of the belt 19 is set to a dimension that covers the slit 28a.
[0031]
Next, the operation will be described. The operation when warehousing the stored item H is as follows.
(1) The stacker 10 </ b> A stands by with a bear in which the expansion / contraction mechanism 31 is previously contracted. The elevator 15 is held at a fixed position by a non-excitation actuating brake 27 mounted on the lower pulley 18.
(2) In this state, the stored item H is placed on the delivery unit 5 by hand or a robot.
(3) After the stacker 10A is operated by the transfer command and the non-excitation actuating brake 27 is released, the swivel base 11 is swung to a predetermined position, and the elevator 20 is moved by the linear motor 25 to the transfer section 5 Move to height.
(4) When the lifting platform 20 moves to the delivery unit 5, the telescopic mechanism 31 is extended and the hand 30 is inserted into the delivery unit 5.
(5) Then, the lifting platform 20 is raised a little, and the stored item H is held by the hand 30.
(6) In this state, the telescopic mechanism 31 is contracted, and the stored item H is drawn into the stocker MA.
(7) Next, it moves up and down and turns to move the stored item H to the position of the storage unit 3 to be stored.
(8) After moving, the telescopic mechanism 31 is extended and the hand 30 is inserted into the storage unit 3.
(9) Then, the elevator 15 is slightly lowered, and the stored item H is lowered to the storage unit 3.
(10) Next, the telescopic mechanism 31 is contracted and the hand 30 is taken out of the shelf.
(11) Then, the lifting platform 15 is held at that position by the non-excitation actuating brake 27 mounted on the lower pulley 18 and waits until the next operation command is issued.
[0032]
The operation when the stored item H is delivered may be performed by replacing the delivery unit 3 and the storage unit 3 in the above operation.
[0033]
Even if the power supply is forcibly cut off due to a power failure or emergency stop during the above operation, the non-excitation actuating brake 27 provided in the lower pulley 18 operates, so that the elevator 15 is dropped by the braking / holding force. Can be prevented.
[0034]
According to this stocker MA, the elevating column 15 itself does not travel in the horizontal direction, so a guide mechanism or the like for traveling is unnecessary, and enlargement of equipment can be prevented. Further, since the position of the hand 30 is controlled by cylindrical coordinates and moved by the three-axis operations of raising / lowering, turning, and extending / contracting, the control is simple and the operation can be speeded up. Further, since the turning mechanism is arranged at the lower end of the lifting column 15, the weight of the lifting platform 15 can be reduced, and even when the lifting stroke is long, the lifting operation can be speeded up.
[0035]
Further, since the elevator 20 is moved up and down by the linear motor 25, mechanical power loss can be reduced and the lifting operation can be speeded up. Further, since the stroke in that case does not depend on the strength and accuracy of the transmission element, the length can be increased. Further, since the counter balance weight 21 is provided, the load due to the weight of the lifting platform 15 can be substantially eliminated, the speed of the lifting operation can be increased, and the position holding force can be reduced. Further, since the slit 28a of the cover 28 is concealed by the width of the belt 19, the lifting actuator (linear motor), the linear guide 23, etc. can be concealed from the outside.
[0036]
Further, since the lower end of the cylindrical shelf 1 is penetrated through the grating floor G of the clean room CR, not only the storage unit 3 but also driving machines or control devices can be arranged in the under floor space YK. Can be used effectively.
[0037]
Next, the stocker MB according to the second embodiment of the present invention will be described with reference to FIGS. 4 is a longitudinal sectional view, and FIG. 5 is a transverse sectional view.
This stocker MB is characterized in that a turning mechanism is provided on the lifting platform 40.
[0038]
The elevating column 15 is fixedly erected on the central axis L of the cylindrical shelf 1, and a revolving table 42 that is driven to revolve by a revolving motor 41 is supported on an elevating table 40 that moves up and down along the elevating column 15. . The hand 30 is mounted on the swivel base 42 via a slide type expansion / contraction mechanism 33. 33a is a linear guide for guiding the slide operation. The turning center of the turntable 42 coincides with the central axis L of the cylindrical shelf 1. In this case, the swivel 42 mounted on the lift 40 corresponds to the lift swivel of claim 1. Since the other configuration is the same as that of the first embodiment, the same components are given the same reference numerals and description thereof is omitted.
[0039]
In this stocker MB, the elevating column 15 is fixedly erected and the swivel base 42 is provided on the elevating table 40. Therefore, even if the height of the elevating column 15 is long, the elevating column 15 itself is not swiveled. Therefore, the turning force can be reduced. Moreover, since the raising / lowering column 15 is arrange | positioned inside the cylindrical shelf 1, a structure is compact.
[0040]
Next, a stocker MC according to a third embodiment of the present invention will be described with reference to FIGS. 6 is a longitudinal sectional view, and FIG. 7 is a transverse sectional view.
In this stocker MC, the elevating column 15 in the stocker MB of the second embodiment is erected outside the cylindrical shelf 1, and an arm 51 extending to the position of the central axis L of the cylindrical shelf 1 is provided on the elevating table 50, A swivel base 53 that is swiveled by a swivel motor 52 is disposed at the tip of the arm 51. The turning center of the turntable 53 coincides with the central axis L of the cylindrical shelf 1. Further, the arm 51 is inserted through the cutout portion 1 a of the cylindrical shelf 1. Further, the elevating column 15 is integrated with the frame of the housing 7 that holds the cylindrical shelf 1 to increase the strength. In this case, it can also be integrated with the frame 2 of the cylindrical shelf 1.
[0041]
In this stocker MC, since the elevating column 15 is disposed outside the cylindrical shelf 1, the elevating column 15 can be designed regardless of the size of the internal space of the cylindrical shelf 1. Further, the turning radius of the turntable 53 can be reduced, and the internal operation space can be widened.
[0042]
The stocker MD shown in FIG. 8 includes a cylindrical shelf 1 having a smaller diameter than the stocker MC of the third embodiment shown in FIG. The basic structure of the stacker 10C is the same as described above. Thus, when the cross-sectional area of the cylindrical shelf 1 is reduced, the installation floor area can be reduced, and the space of the clean room can be effectively used.
[0043]
In the above embodiment, the upper end of the cylindrical shelf 1 is set below the ceiling T of the clean room CR. However, the cylindrical shelf 1 may be provided through the ceiling. Then, the storage space can be further increased without increasing the occupied area. Of course, the shape of the frame is not limited to the cylindrical shape as in the embodiment.
[0044]
【The invention's effect】
As described above, according to the first aspect of the present invention, the elevating swivel body is disposed inside the cylindrical shelf, and the hand is provided on the elevating swivel body via the telescopic mechanism. Can be configured. Therefore, even when a long lifting column is provided as a lifting mechanism, the lifting column itself does not travel in the horizontal direction, so there is no need for a guide mechanism or the like for traveling, and equipment with specially enhanced strength is provided. There is no need to build. Therefore, even if the height of the cylindrical shelf is increased in order to increase the storage space, the equipment can be prevented from being enlarged and the cost can be reduced. In addition, it is a cylindrical coordinate type, and the position of the hand is moved by three-axis movements of raising / lowering, turning, and extending / contracting, so the control is simple, the operation can be speeded up, and there is no need for cooperative control such as linear interpolation control. .
According to the first aspect of the invention, since the lower end of the cylindrical shelf is penetrated through the ventilation floor of the clean room, not only the storage unit but also the drive machinery or the control device can be arranged in the underfloor space. Effective use of the space in the clean room can be achieved.
According to the invention of claim 1, since the upper end of the cylindrical shelf is penetrated through the ceiling of the clean room, the storage space can be further increased without increasing the occupied area.
[0046]
According to the first aspect of the present invention, since the lifting column is fixedly erected and the swivel base is provided on the lift base, the turning force can be reduced even when the height of the lift column is long. .
[0048]
According to the first aspect of the present invention, since the elevating column is erected outside the cylindrical shelf, the elevating column can be disposed regardless of the size of the internal space of the cylindrical shelf, and the strength of the elevating column can be easily increased. Can be. Moreover, since the turning radius of the swivel can be reduced, the cross-sectional area of the cylindrical shelf can be reduced, and the installation floor area can be reduced.
[0049]
According to the invention of claim 2, the lifting column definitive in claim 1, since is integrated into the frame of the housing that holds the frame or cylinder shelf cylindrical shelves, on which the structure is simplified, the lifting column and The strength of the frame can be increased.
[0050]
According to the invention of claim 3, since the linear motor is used as the lifting drive mechanism and the lifting platform is directly driven in a non-contact manner, mechanical power loss can be reduced and the lifting operation can be speeded up. Further, since the stroke does not depend on the strength and accuracy of the transmission element, the length can be increased.
[0051]
According to the invention of claim 4 , since the counter balance weight is provided so as to balance with the lifting platform, the load due to the weight of the lifting platform can be substantially eliminated, and the lifting operation can be speeded up. The position holding force can be reduced.
[0052]
According to the fifth aspect of the present invention, the cable body connected to the lifting platform and the counter balance weight is wound around the lower pulley, and the lower pulley is equipped with a non-excitation actuating brake. This eliminates the danger of dropping the lifting platform even during a power failure. It can also be used for position holding.
[0053]
According to the invention of claim 6, since the slit of the cover of the lifting column is concealed by the width of the belt used as the rope body, the lifting actuator and the guide mechanism can be concealed from the outside.
[Brief description of the drawings]
FIG. 1 is a longitudinal sectional view of a first embodiment of the present invention.
FIG. 2 is a view taken in the direction of arrows II-II in FIG.
FIG. 3 is a view taken in the direction of arrows III-III in FIG.
FIG. 4 is a longitudinal sectional view of a second embodiment of the present invention.
5 is a VV arrow view of FIG. 4;
FIG. 6 is a longitudinal sectional view of a third embodiment of the present invention.
7 is a view taken along arrow VII-VII in FIG. 6;
FIG. 8 is a view similar to FIG. 7 showing a modification of the third embodiment.
FIG. 9 is a configuration diagram of a conventional stocker (storage shelf device), where (a) is a plan view and (b) is a side view.
[Explanation of symbols]
DESCRIPTION OF SYMBOLS 1 Cylindrical shelf 2 Frame 3 Storage part 5 Delivery part 7 Case 12 Turning motor (turning drive mechanism)
15 Lifting column 17 Recessed pulley 18 Lower pulley 19 Belt (strand body)
20 Lifting platform (lifting swivel body)
25 Linear motor (elevating drive mechanism)
27 Non-excited brake 28 Cover 28a Slit 30 Hands 31, 33 Telescopic mechanisms 40, 50 Lift platform 41, 52 Swing motor (turning drive mechanism)
42,53 swivel (lifting swivel body)
51 Arm CR Clean room T Ceiling G Grating floor (ventilated floor)
H Storage L Center axis of cylindrical shelf

Claims (6)

The upper end penetrates the ceiling of the clean room, the lower end penetrates the ventilation floor of the clean room, and vertically forms a number of storage parts in the circumferential direction and the vertical direction. A cylindrical shelf provided with a delivery section for delivering stored items;
An ascending / descending swivel body disposed inside the cylindrical shelf, elevating and lowering along the central axis of the cylindrical shelf and turning around the central axis;
On the ascending / descending swivel body, provided with a hand for holding stored items equipped via an expansion / contraction mechanism extending and contracting in the radial direction of the cylindrical shelf,
A lifting column is erected along the cylindrical shelf,
A lifting platform that is lifted and lowered by a lifting drive mechanism is supported on the lifting column,
A swivel that is swung around the central axis of the cylindrical shelf by a swivel drive mechanism is supported on the lift.
The swivel base corresponds to the lifting swivel body,
The elevating column is erected outside the cylindrical shelf, the elevating table has an arm extending to the position of the central axis of the cylindrical shelf, and the swivel is disposed at the tip of the arm. Shelf equipment.   2. The storage shelf apparatus according to claim 1, wherein the elevating column is integrated with a frame of the cylindrical shelf or a frame of a casing that holds the cylindrical shelf.   The storage shelf apparatus according to claim 1, wherein a linear motor is used as the elevating drive mechanism.   2. An upper pulley is provided at an upper end of the elevating column, a rope body is wound around the upper pulley in a slidable manner, and the elevating platform and a counter balance weight are attached to both ends of the rope body. The storage shelf apparatus in any one of -3.   5. A lower pulley is provided at a lower end of the elevating column, the rope body is endlessly wound around the lower pulley, and a non-excitation actuating brake is provided on the lower pulley. Storage shelf equipment.   The outer periphery of the lifting column provided with the strip is covered with a cover having a slit that allows the lifting platform to move up and down, and a belt having a width that covers the slit is used as the strip. The storage shelf device according to claim 4 or 5.

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