JP2015012283A - Substrate accommodation support device into substrate housing, and substrate accommodation device - Google Patents

Abstract

PROBLEM TO BE SOLVED: To provide a substrate accommodation support device into a substrate housing capable of supporting a plurality of substrates while being spaced apart from each other at predetermined intervals in a direction across board surface when accommodating the plurality of substrates into the substrate housing in an erected state, and a substrate accommodation device.SOLUTION: The substrate accommodation support device comprises: holding shafts 19 which are provided so as to be movable forwards and backwards from one side of a cassette in an intersection direction and disposed while being spaced apart from each other in a direction along a surface of substrates and coupled in an independently rotatable manner; and a plurality of substrate holders 19b which are provided in an outer circumference of the holding shafts at a predetermined pitch in a length direction so as to be movable between a holding position to hold the substrates accommodated in an accommodation part and a cancel position to cancel the holding of the substrates by rotating the holding shafts. Each time the substrate is successively accommodated in the accommodation part, in order to alternately hold the substrates accommodated in the accommodation part by the substrate holders, the holding shafts are rotated to perform a substrate holding operation for moving the substrate holders to the cancel position, then moving them forwards in the intersection direction and moving them to the hold position thereafter.

Description

  The present invention relates to a substrate storage auxiliary device for a substrate container that can be supported at a predetermined interval in a direction intersecting the plate surface when the plurality of substrates are stored in a standing state in the substrate container. The present invention relates to a substrate accommodation apparatus.

  Conventionally, cassettes, magazines, containers, and the like are used to transport substrates such as thin plates and glass plates. Patent Documents 1 to 6 are known as this type of technology. The “substrate storage cassette” of Patent Document 1 aims to provide a substrate storage cassette capable of storing a plurality of types of substrates. A plurality of holes are provided at equal intervals on a pair of left and right side plates of the cassette, and a guide The protrusions of the members are provided so that they can be inserted, and the position of the guide member can be changed according to the size of the substrate to be stored.

  The “substrate cassette” of Patent Document 2 has a substantially rectangular parallelepiped shape, a pair of side plates arranged at regular intervals with a certain interval, and a pair of side plates connecting these side plates at both ends. It consists of a connecting plate. The side plate has a substantially L-shaped cross section, and is composed of a standing surface and an extending surface that is formed to extend to the lower end of the standing surface. Inside the side plate, a plurality of U-shaped grooves that support the substrate vertically are formed, and these grooves are formed on the standing surface, and are formed on the vertical groove with a wide groove width and on the extended surface. It consists of a lateral groove with a narrow groove width.

  The “structure of a printed circuit board transport magazine” in Patent Document 3 is composed of a box body whose upper surface is open and a lid body which can be opened and closed with respect to the upper surface. In the carrying magazine for storing the both end edges so as to fit into the vertical grooves provided on the left and right inner side surfaces of the box body, it is an object to prevent the printed boards from coming off the vertical grooves during the conveyance, Sponge bodies are attached to the bottom surface of the box body and the bottom surface of the lid body, and both upper and lower edges of each printed circuit board bite into both sponge bodies.

  Patent Document 4 “Freight Dedicated Container for Transporting Temperature Sensitive Items” is a case where the freight dedicated container has an aluminum outer side having a side wall, a rear wall, a bottom wall, an upper wall, and a front opening of a pair of hinge door protrusions. A housing is provided. The housing contains a molded box-shaped composite outer shell. The outer shell houses a synthetic inner shell that defines a cargo storage chamber in a molded box shape. Corresponding walls of the inner shell, outer shell and door enclose the insulation cassette. Each cassette has a vacuum insulation panel that is separated by a foam sheet and forms a layer covered by an immersed plastic sheet, all these vacuum insulation panels being covered with a plastic membrane. Air is circulated in the cargo containment chamber through cooling evaporators and electric heating elements. The rear part of the housing encloses the cooling compressor, accumulator and control system. The control system senses the temperature in the cargo compartment and operates the compressor and heating element from a battery or external power source to maintain a preset, substantially constant temperature in the cargo compartment.

  The “substrate transfer method and apparatus” of Patent Document 5 provides a substrate transfer method and a substrate transfer apparatus that can automatically transfer a substrate between cassettes without impairing the quality of the substrate. The present invention includes a mounting stage for a first cassette in which the substrate is in the vertical direction, a mounting stage for the second cassette in which the substrate is in the vertical direction, a holding means for holding the substrate side surface, and a substrate transporting means.

  The “vertical storage type cassette and the substrate storage system including the same” disclosed in Patent Document 6 can store a plurality of substrates with high density and can transfer a substrate to and from a vertical transfer type substrate transfer apparatus. An object of the present invention is to provide a vertical storage cassette that can be easily taken in and out, and a substrate storage system includes a vertical storage cassette that stores a substrate in an upright state. Each substrate support substrate is disposed on the front side wall, the back side wall, and the bottom wall of the vertical storage cassette, and the front side back surface portion, the back surface side periphery portion, and the lower side periphery portion of the substrate are supported. When the substrate is carried out from the vertical storage type cassette, the front side wall is opened, and each front side substrate disposed on the front side wall together with each roller of each bottom side substrate support mechanism disposed on the bottom wall. The lower peripheral edge of the substrate is guided by each roller of the support mechanism, and the substrate is conveyed in a standing state toward the front side along the planar direction of the pair of side walls of the vertical storage cassette. Yes.

  Patent Documents 1 and 2 show a cassette that accommodates a substrate in an upright state by supporting three of the four peripheral edges of the substrate. Patent Documents 3 and 4 show cassettes that support the four sides of the substrate, including the remaining one, in order to prevent vibrations on the substrate and positional displacement of the substrate during transportation. In Patent Documents 5 and 6, when a substrate is automatically stored in a cassette or the like, the upper end portion of the substrate is grasped and inserted into the cassette whose upper side is opened from the upper side for good handling and workability of the substrate. An apparatus for receiving a substrate is shown.

JP 2002-43406 A JP-A-6-250161 Japanese Patent Laid-Open No. 10-322089 Special table 2008-543680 gazette JP-A-7-153816 JP 2005-317826 A

  When a large thin plate-like substrate is accommodated in a cassette or the like in a state where it supports and supports only three sides except for the upper side, the substrate is bent or wavy due to its own weight, which causes the substrate to be removed from the support portion. There is a risk of falling and falling. Moreover, when a board | substrate is glass, there exists a subject that a board | substrate may be damaged by the impact removed from the support part.

  On the other hand, an attachment for holding the remaining one may be attached in order to accommodate the plurality of substrates supported in the cassette or the like supported on three sides except the upper side in a more stable state. In this case, if the substrate is bent and wavy, there is a problem that the distance between the substrates becomes irregular and the attachment cannot be attached.

  These problems have become a major problem as glass substrates for PDPs and touch panels are becoming larger and thinner in recent years.

  The present invention was devised in view of the above-described conventional problems, and supports a plurality of substrates in a standing state in a direction intersecting the plate surface at a predetermined interval when they are accommodated in a substrate container. It is an object of the present invention to provide a substrate accommodation auxiliary device and a substrate accommodation device for a substrate accommodation body that can be used.

  The substrate accommodation auxiliary device for the substrate container according to the present invention accommodates the substrate in an upright state by supporting three of the four peripheral edges of the substrate, and the substrate from the remaining one of the substrates. A substrate accommodation assisting device for a substrate container that assists in accommodating a substrate in a plurality of substrate housings provided at a predetermined pitch in a crossing direction intersecting a plate surface of the substrate to be accommodated. A shaft that is provided so as to be able to advance and retreat along the intersecting direction from one side of the substrate container, and is arranged at intervals from each other in the direction along the plate surface, and a pair of independently rotatable shafts, A holding position for holding the substrate accommodated in the accommodating portion by the rotation of the shaft provided on the outer circumference of each of the paired shafts along the longitudinal direction of the shaft, and holding the substrate Move to the release position to be released. Each of the pair of shafts including a plurality of possible substrate holding pieces alternately holds the substrates accommodated in the accommodating portions by the substrate retaining pieces each time the substrates are sequentially accommodated in the accommodating portions. For this purpose, the substrate holding piece is moved to the release position and then moved in the crossing direction, and then rotated to move to the holding position.

  A plurality of the paired shafts are provided at intervals in the direction along the plate surface of the substrate.

  Of the plurality of substrate holding pieces provided on each shaft, the adjacent substrate holding pieces have opposing surfaces facing each other, and the opposing surfaces move from the release position to the holding position. In this case, the distance between them is gradually reduced.

  The substrate holding piece is provided in a quarter-circle portion in the circumferential direction of the shaft, and is moved between the holding position and the release position by rotating the shaft by 90 °.

  The substrate holding piece of each shaft is positioned on the opposite side of the other shaft in the pair at the release position, and moved toward the other shaft when moving to the holding position. It is characterized by that.

  The substrate container includes a holding member that holds the other peripheral edge of the substrate, and the distance between the paired shafts is wider than the width of the substrate held by the holding member. .

  The substrate container according to the present invention is characterized in that a substrate container auxiliary device for the substrate container is provided in the substrate container.

  In the substrate storage auxiliary device and the substrate storage device for the substrate container according to the present invention, when the plurality of substrates are stored in the substrate storage body in a standing state, a predetermined interval is set in the direction intersecting the plate surface. It can be supported remotely.

It is a perspective view showing one suitable embodiment of a substrate accommodation auxiliary device to a substrate container concerning the present invention. It is a longitudinal cross-sectional view of the board | substrate accommodation auxiliary | assistance apparatus to the board | substrate container shown in FIG. FIG. 3 is a cross-sectional view taken along line XX in FIG. In FIG. 2, it is a YY arrow directional cross-sectional view. It is explanatory drawing for demonstrating the holding shaft used for the board | substrate accommodation auxiliary | assistance apparatus to the board | substrate container shown in FIG. It is explanatory drawing for demonstrating the accommodation operation | movement of the board | substrate by the board | substrate accommodation auxiliary | assistance apparatus to the board | substrate container shown in FIG. FIG. 7 is an explanatory diagram for explaining a substrate accommodation operation following FIG. 6. FIG. 8 is an explanatory diagram for explaining a substrate accommodation operation following FIG. 7. FIG. 9 is an explanatory diagram for explaining a substrate accommodation operation following FIG. 8. FIG. 10 is an explanatory diagram for explaining a substrate accommodation operation following FIG. 9; It is explanatory drawing for demonstrating the accommodation operation | movement of the board | substrate following FIG. It is explanatory drawing for demonstrating the state which the accommodation operation | movement of a board | substrate is completed and the board | substrate is hold | maintained by the upper holder after that. It is a perspective view which shows another example of the conveyance holder of a board | substrate.

  DESCRIPTION OF EMBODIMENTS Preferred embodiments of a substrate storage auxiliary device and a substrate storage device for a substrate storage body according to the present invention will be described below in detail with reference to the accompanying drawings. FIG. 1 is a perspective view showing a substrate storage auxiliary device for a substrate storage body according to the present embodiment.

  The substrate storage auxiliary device 1 for a substrate container according to the present embodiment is used when a substrate 2 is stored in a cassette 3 as a substrate container. The cassette 3 accommodates the substrate 2 in an upright state by supporting, for example, three sides of the peripheral portion of the substrate 2 such as a thin plate or a glass plate, the lower side and the left and right sides. The cassette 3 serves to suppress bending of the substrate 2 to be accommodated and to align the substrate 2. In the cassette 3, a plurality of storage portions 3 a for taking in and out the substrate 2 from above are provided at a predetermined pitch in a direction intersecting with the plate surface of the substrate 2 to be stored (hereinafter referred to as “crossing direction”).

  As shown in FIG. 1, the substrate storage auxiliary device 1 is disposed adjacent to the belt conveyor 4 to which the cassette 3 is conveyed, in a direction (crossing direction) orthogonal to the conveying direction of the belt conveyor 4. The operation of accommodating the substrate 2 in the cassette 3 is performed in a state where the cassette 3 conveyed by the belt conveyor 4 is stopped in front of the substrate accommodation auxiliary device 1.

  The cassette 3 is a box that is open at the top, and the side walls of the cassette 3 facing in the transport direction are arranged facing each other along the vertical direction, and the board 2 is placed in the transport direction of the belt conveyor 4. A vertical groove is formed so as to be guided along the bottom surface. A receiving groove (not shown) is connected to the bottom surface of the cassette 3 to connect the lower ends of the vertical grooves to receive the lower peripheral edge of the substrate 2 guided by the vertical groove. ) Is formed. The accommodating part 3a is comprised by these vertical grooves and receiving grooves. These longitudinal grooves and receiving grooves constituting the accommodating portion 3a have a groove width that gradually decreases from the inner side to the outer side of the cassette 3 in order to have both the operability and the retaining property of inserting the substrate 2 into the accommodating portion 3a. Formed.

  The cassette 3 is a holding member that holds the peripheral edge above the substrate 2 so that the plurality of accommodated substrates 2 are not detached from the accommodating portion 3a during transportation and so that the substrates 2 do not contact each other. An upper holder 5 is provided.

  The upper holder 5 is a member having the same length dimension as the cassette 3 in the intersecting direction, and is spanned between the side wall portions 3c of the cassette 3 along the intersecting direction, and the width in the transport direction is narrow. It is formed in a substantially plate shape. The upper holder 5 has a plurality of the same as those provided on the side wall surface and the bottom surface inside the cassette 3 on the lower surface side, except for the portion located on the side wall portion 3c when spanned between the side wall portions 3c. A receiving groove 5a is provided. The upper holder 5 is mounted on the cassette 3 in which the substrate 2 is accommodated from above so that each receiving groove 5 a receives the upper peripheral edge of each substrate 2.

  The upper holder 5 is provided with a pin 5b protruding downward at a position located on the side wall 3c when it is bridged between the side walls 3c. These pins 5b are inserted into the recesses 3d provided on the upper surface of the side wall 3c when the upper holder 5 is bridged between the side walls 3c, so that the upper holder 5 can be attached and fixed to the cassette 3. .

  The substrate 2 is accommodated by moving the substrate 2 suspended by holding the upper peripheral edge thereof by the transport holder 6 of the substrate transport apparatus (not shown) installed in the manufacturing process, It is carried out by hanging from the accommodating portion 3a in the cassette 3. The substrate 2 is disposed along the intersecting direction from the accommodating portion 3a on the side close to the substrate accommodating auxiliary device 1 on one side of the cassette 3, and on the side far from the substrate accommodating auxiliary device 1 on the other side. It is accommodated sequentially toward 3a.

  Since the board | substrate 2 is thin plate shape, there exists a possibility that a deformation | transformation may arise in the board | substrate 2 only by supporting from the three directions by the accommodating part 3a in the cassette 3. FIG. When the plurality of substrates 2 are bent and deformed in the cassette 3, the interval between the substrates 2 does not match the pitch of the receiving grooves 5 a of the upper holder 5, so that it is difficult to mount the upper holder 5. There is a risk that. In the present embodiment, as a countermeasure, the substrate 2 is accommodated in the cassette 3 by using the substrate accommodation auxiliary device 1.

  Further, since the substrate 2 is a thin plate, there is a possibility that bending and vibration may occur during the movement of the substrate 2, so that instead of the transport holder 6 that grips the upper peripheral edge of the substrate 2, FIG. 13 shows. As described above, the conveyance holder 6 including the vacuum chuck 23 that adsorbs the side surface of the substrate 2 may be used.

  FIG. 2 is a vertical cross-sectional view showing the substrate storage auxiliary device for the substrate container according to the present embodiment. FIG. 3 is a cross-sectional view taken along line XX in FIG. 4 is a cross-sectional view taken along line YY in FIG.

  As shown in FIG. 2, the substrate storage auxiliary device 1 of the present embodiment mainly includes an attachment base 7 covered with a rectangular parallelepiped cover 1 a, a main body frame 8 fixed to the attachment base 7, and a main body frame 8. A fixed linear guide 9, a ball screw 10 whose both ends are supported by bearings 13 with respect to the mounting base 7 and the body frame 8, and a ball screw motor that is mounted on the mounting base 7 and drives the ball screw 10. 11 and a holding unit 12 which is provided so as to be able to advance and retreat in the crossing direction toward the top of the cassette 3 by the ball screw 10 and sequentially holds the substrates 2 accommodated in the cassette 3.

  The mounting base 7 has at least a base wall portion 7a erected vertically at an interval in the intersecting direction with the cassette 3 being transported along the transport direction.

  The main body frame 8 mainly extends in the horizontal direction toward the base wall portion 7a along the crossing direction from the upper and lower portions of the opposing frame portion 8a, facing the base wall portion 7a in the crossing direction. The upper frame portion 8b and the lower frame portion 8c, the upper fixing portion 8d extending upward from the end portion of the upper frame portion 8b facing the base wall portion 7a, and the base wall portion 7a are similarly faced. The lower fixing portion 8e extends downward from the end of the lower frame portion 8c.

  The main body frame 8 is fixed to the base wall portion 7a by the upper fixing portion 8d and the lower fixing portion 8e, so that the opposing frame portion 8a is disposed in the vicinity of the cassette 3 conveyed by the belt conveyor 4.

  At the corner between the upper frame 8b and the upper fixing part 8d and at the corner between the lower frame 8c and the lower fixing part 8e, a horizontal plane is formed while being fixed to the base wall 7a. Reinforcing ribs 8f are provided to maintain the posture of the upper frame portion 8b and the lower frame portion 8c.

  Between the upper frame portion 8b and the lower frame portion 8c, the ball screw 10 is disposed close to the upper frame portion 8b side. The ball screw 10 spans between a suspended block 8g suspended from a portion of the upper frame portion 8b near the base wall portion 7a and a bearing 13 provided on each of the opposed frame portions 8a, and is disposed horizontally. And a ball nut 10b screwed to the ball screw shaft 10a. The ball nut 10b can move forward and backward along the intersecting direction by the rotation of the ball screw shaft 10a. The ball screw shaft 10a protrudes from the bearing 13 of the suspended block 8g to the base wall 7a side, and is connected to the motor shaft 11a of the ball screw motor 11 fixed to the base wall 7a via a coupling 14. The

  A linear guide 9 is provided on the lower frame portion 8 c of the main body frame 8. The linear guide 9 includes a linear rail 9a disposed along the intersecting direction on the lower frame portion 8c, and a linear block 9b provided slidably along the linear rail 9a.

  As shown in FIG. 3, the ball nut 10 b of the ball screw 10 and the linear block 9 b of the linear guide 9 are integrally provided via a pedestal 15. The pedestal 15 is formed in a planar rectangular shape and has a size such that both end portions along the transport direction protrude outward from the lower frame portion 8c and the linear guide 9. As shown in FIG. 4, four support columns 16 are provided at the four corners of the base 15 protruding outward from the lower frame portion 8c and the like so as to reach the lower side of the lower frame portion 8c. A holding unit 12 is provided by being suspended by a column 16. When the ball screw shaft 10a is rotated by the ball screw motor 11, the ball nut 10b screwed to the ball screw shaft 10a moves back and forth, whereby the linear block 9b integrated with the ball nut 10b slides along the linear rail 9a. Then, the holding unit 12 is moved back and forth in the crossing direction.

  As shown in FIG. 2, the holding unit 12 mainly includes a holding frame 17 having a pair of opposing wall portions 17 a facing each other with an interval in the intersecting direction, and a holding shaft 19 rotatably provided on the holding frame 17. The shaft rotation motor 20 provided on the opposing wall portion 17a on the base wall portion 7a side, and the coupling 21 that connects the holding shaft 19 and the motor shaft 20a of the shaft rotation motor 20 are provided. Instead of the shaft rotation motor 20, another rotation mechanism such as a pneumatic rotary actuator may be used.

  In the holding frame 17, the upper ends of the pair of opposing wall portions 17a are connected to each other by a connecting frame portion 17b. A bearing support portion 17c having a bearing 18 is suspended from a portion of the coupling frame portion 17b near the base wall portion 7a. A bearing 18 is provided on the opposing wall portion 17a located on the cassette 3 side.

  As shown in FIGS. 3 and 4, in the holding unit 12, four support columns 16 that are suspended from the base 15 are fixed to the base wall portion 7 a side of the connecting frame portion 17 b. Thereby, the holding unit 12 is connected with the linear block 9b and the ball nut 10b.

  Both ends of the holding shaft 19 are rotatably supported by a bearing 18 provided on the opposing wall portion 17a on the cassette 3 side and a bearing 18 provided on the bearing support portion 17c. The holding shaft 19 is rotationally driven by a shaft rotation motor 20. The The holding shaft 19 includes a holding shaft portion 19a disposed along the crossing direction, and a plurality of substrates provided on the outer peripheral surface of the holding shaft portion 19a at a predetermined pitch along the longitudinal direction (crossing direction) of the holding shaft portion 19a. Holding piece 19b. The predetermined pitch of the substrate holding pieces 19 b is set to be equal to the pitch of the receiving portions 5 a provided in the cassette 3 and the receiving grooves 5 a of the upper holder 5.

  5A is a front cross-sectional view of the holding shaft 19 as viewed from the axial direction, FIG. 5B is a side view of the holding shaft 19, and FIG. It is the figure looked up from.

  When the holding shaft 19 is viewed in the axial direction from the end portion, the substrate holding piece 19b is provided in a quarter-circle portion in the circumferential direction, that is, in a range of 90 °, as shown in FIG.

  The substrate holding piece 19b has a cross-sectional shape when cut along a plane orthogonal to the axial direction of the holding shaft portion 19a, passes through the center O of the holding shaft portion 19a, and from the point P on the circumference to the radial direction of the holding shaft portion 19a. A line segment 19c that extends outward, a point Q that is 90 ° apart from the point P on the circumference in the circumferential direction, and a tip 19d of the line segment 19c are formed with an arcuate outline.

  The holding shaft 19 is arranged so that the point Q is directly below the center O of the holding shaft portion 19a when moving upward of the cassette 3. When the substrate holding piece 19b is moved to a predetermined position to hold the substrate 2, the holding shaft 19 is rotated so that the point P, that is, the line segment 19c is directly below the center O of the holding shaft portion 19a. . In other words, in the substrate holding piece 19b, the position where the line segment 19c extending from the point P is directly below the center O of the holding shaft portion 19a is the holding position of the substrate 2, and the point Q is directly below the center O of the holding shaft portion 19a. This position becomes a release position for releasing the holding of the substrate 2. The substrate holding piece 19b moves between the holding position and the release position when the holding shaft 19 is rotated 90 degrees in the forward and reverse directions.

  As shown in FIGS. 5B and 5C, the substrate holding piece 19b itself has the largest width in the direction along the length direction of the holding shaft portion 19a at the position of the tip 19d of the line segment 19c. It is formed so as to become gradually narrower toward the point Q. Accordingly, the gap between adjacent substrate holding pieces 19b is conversely the narrowest between the tips 19d and the widest between the points Q. As a result, the gap between the opposing surfaces 19e of the substrate holding pieces 19b adjacent to each other in the length direction of the holding shaft portion 19a gradually narrows while moving from the release position of the holding shaft 19 to the holding position. ing. The gap formed between the opposing surfaces 19e of the adjacent substrate holding pieces 19b is set to be slightly wider than the thickness of the substrate 2 at the narrowest position (holding position).

  One substrate holding mechanism 22 is constituted by the main body frame 8 on which the ball screw 10, the linear guide 9 and the holding unit 12 are collectively mounted. The two substrate holding mechanisms 22 are arranged in the transport direction to form a pair. (The main body frame 8 may be shared or shared with respect to the pair of substrate holding mechanisms 22). The distance between the two holding shafts 19 of the pair of substrate holding mechanisms 22 (see A in FIG. 3) is a width for holding the substrate 2 by the upper holder 5 mounted from above after the substrate 2 is accommodated, that is, the upper portion The holder 5 is set wider than the width for holding one substrate 2. Similarly, when the distance between the connecting frame portions 17b (see B in FIG. 4) is set wider than the width of the upper holder 5, the upper holder 5 can be easily mounted from above. Further, it is better to set the distances A and B to be narrower in a range that does not become narrower than the width of the upper holder 5. By doing so, the bending of the substrate 2 between the holding shafts 19 can be further reduced. If the bending can be suppressed to a small level, the upper peripheral edge of the substrate 2 into which the guide groove 5a of the upper holder 5 is inserted can be more accurately arranged, and the upper holder 5 can be mounted more easily. The substrate holding piece 19b of each holding shaft 19 provided in the pair of substrate holding mechanisms 22 is positioned on the opposite side of the other holding shaft 19 that makes a pair when moved to the release position. Therefore, when the substrate holding piece 19b moves to the holding position, the substrate holding piece 19b is moved so as to approach toward the other holding shaft 19 forming a pair. In this way, the paired holding shafts 19 can be arranged more narrowly, so that the above-described effect can be made more reliable. The shape of the substrate holding piece 19b and the rotation angle of the holding shaft 19 are not limited to those described above, and the setting is such that the substrate holding piece 19b can be moved between the holding position and the release position of the substrate 2 by the rotation of the holding shaft 19. If it is.

  Next, the accommodation operation | movement to the cassette 3 of the board | substrate 2 using the board | substrate accommodation auxiliary | assistance apparatus 1 concerning this embodiment is demonstrated using FIGS.

  In the substrate storage auxiliary device 1 according to the present embodiment, as shown in FIG. 1, the pair of substrate holding mechanisms 22 are spaced apart in the direction along the plate surface of the substrate 2 to be stored (the transport direction) with a gap therebetween. Is provided so as to be able to advance and retract along the crossing direction from one side of the cassette 3. Each holding shaft 19 of the substrate holding mechanism 22 conveys the substrate 2 when the holding shaft 19 is advanced on the suspended substrate 2 in a state where the substrate 2 is suspended in the cassette 3. It is arranged at a height position that does not interfere with the holder 6.

  6-11 is a figure which shows the accommodation operation | movement of the board | substrate 2 using the board | substrate accommodation auxiliary | assistance apparatus 1 to a board | substrate container. In relation to the substrate holding mechanisms 22 arranged side by side, the housing operations themselves are the same except that the operations of the two holding shafts 19 of each substrate holding mechanism 22 are symmetrical.

  When the substrate 2 is stored in the cassette 3, the cassette 3 is first transported and stopped by the belt conveyor 4 at a position aligned with the substrate storage auxiliary device 1. Next, among the plurality of storage units 3a included in the cassette 3, the substrates 2 suspended from the transport holder 6 of the substrate transport apparatus are stored in order from the storage unit 3a on the side closer to the substrate storage auxiliary device 1. .

  In the illustrated example, a description will be given of a housing operation in which three substrates 2 are already accommodated and a fourth substrate 2 is accommodated. In the following description, the direction in the intersecting direction will be described with the opposite side of the substrate storage auxiliary device 1 as the front side and the substrate storage auxiliary device 1 as the rear side with reference to the advancing and retreating direction of the holding shaft 19. 6 to 11, for the sake of understanding, one of the two holding shafts 19 of the pair of substrate holding mechanisms 22 will be described as a holding shaft 19s and the other as a holding shaft 19t.

  In a state where the three substrates 2 are accommodated in the cassette 3, one holding shaft 19s of each substrate holding mechanism 22 is in the holding position. In the holding shaft 19s, only the substrate holding piece 19b arranged at the most distal end is positioned in front of the third housed substrate 2, and between the accommodated substrates 2 (between the third and second, second and first). The substrate holding pieces 19b are located one by one. On the other hand, the other holding shaft 19t of the substrate holding mechanism 22 is in the release position. In the holding shaft 19t, the substrate holding piece 19b arranged at the foremost end is located between the substrate 2 accommodated third and the substrate 2 accommodated second, and between the substrates 2 accommodated (second and second). One substrate holding piece 19b is located between the first).

  When the fourth board 2 is transported, as shown in FIG. 6A, the holding shaft 19 t located at the rear of the pair of holding shafts 19 s and 19 t is rotated 90 ° by the shaft rotation motor 20. Then, the substrate holding piece 19b is moved from the holding position to the release position above the substrate 2. Next, as shown in FIG. 6B, the substrate 2 is suspended and accommodated in the fourth accommodating portion 3 a of the cassette 3 by the transport holder 6.

  Next, as shown in FIG. 7C, in order to move the holding shaft 19t forward, the ball screw motor 11 is driven to move the holding unit 12 forward. As a result, the holding shaft 19t moves forward. At this time, the shaft rotation motor 20 is stopped. The ball screw motor 11 rotates and moves so that only the substrate holding piece 19b at the foremost end of the holding shaft 19t is positioned forward of the substrate 2 accommodated in the fourth position, and then stops.

  Next, as shown in FIG. 7D, the holding shaft 19t is rotated 90 ° by the shaft rotation motor 20, and the substrate holding piece 19b is moved to the holding position. Accordingly, the upper peripheral edge of the four substrates 2 accommodated in the cassette 3 is held by the substrate holding pieces 19b provided in the two shafts 19s and 19t. In a state where the four substrates 2 are held by the holding shafts 19s and 19t, the transport holder 6 is detached from the fourth substrate 2 as shown in FIG.

  Next, as shown in FIG. 8 (f), of the two holding shafts 19 s and 19 t of the substrate holding mechanism 22, the holding shaft 19 s whose tip is located on the rear side is rotated 90 ° by the shaft rotation motor 20. Then, the substrate holding piece 19b is moved to the release position above the substrate 2. At this time, the holding state of all the substrates 2 is maintained by the substrate holding piece 19b of the other holding shaft 19t.

  Next, as illustrated in FIG. 9G, the substrate 2 is suspended and accommodated in the fifth accommodating portion 3 a of the cassette 3 by the transport holder 6. Next, as shown in FIG. 9H, the ball screw motor 11 is driven to move the holding shaft 19s in the release position forward. The holding shaft 19s is moved so that only the substrate holding piece 19b arranged at the foremost end is positioned on the front side of the substrate 2 accommodated fifth.

  Next, as shown in FIG. 10 (i), the holding shaft 19 s is rotated 90 ° by the shaft rotation motor 20, and the substrate holding piece 19 b including the substrate 2 accommodated in the fifth is included in these substrates 2. Move to the holding position that holds As a result, the upper peripheral edge of the five substrates 2 housed in the cassette 3 is held by the substrate holding pieces 19b included in the two holding shafts 19s and 19t. In the state where the five substrates 2 are held by the holding shafts 19s and 19t, the transport holder 6 is detached from the fifth substrate 2 as shown in FIG.

  The pair of holding shafts 19s and 19t are sequentially and alternately rotated from the holding position in order to hold the substrate 2 with the substrate holding piece 19b each time the substrate 2 is accommodated in the accommodating portion 3a of the cassette 3. The substrate 2 is moved to the release position, linearly advanced in the crossing direction, rotated from the release position and moved to the holding position, and the accommodated substrates 2 are sequentially held.

  When all the substrates 2 have been stored in the cassette 3, as shown in FIG. 11 (k), the upper holder 5 is inserted between the two holding shafts 19s and 19t, and the pins 5b of the upper holder 5 are inserted into the cassette 3. The upper holder 5 is attached to the cassette 3.

  Next, as shown in FIG. 11 (l), the two holding shafts 19s and 19t are both rotated by 90 ° by the shaft rotation motor 20, moved to the release position, and stopped. Thereafter, the ball screw motor 11 moves backward from above the cassette 3 and stops at a position behind the substrate 2 accommodated in the first sheet. FIG. 12 shows a state in which the accommodation operation of the substrate 2 is completed and the substrate 2 is then held by the upper holder 5. Thus, the substrate storage auxiliary device 1 is withdrawn from the cassette 3, and the cassette 3 is carried out to the next process by the belt conveyor 4.

  According to the substrate accommodation auxiliary device 1 for the substrate container of the present embodiment, above the substrate 2 accommodated in the cassette 3 that accommodates the substrate 2 in a standing state while supporting the peripheral edges of the substrate 2. Since the holding shaft 19 including the substrate holding piece 19b that can move to the holding position for holding the accommodated substrate 2 is provided, the substrate 2 is always held from four directions and the substrate 2 is stably placed in the cassette 3. Can be accommodated. Since the accommodating portion 3a in which the substrate 2 is accommodated and the substrate holding piece 19b provided on the holding shaft 19 are formed at the same pitch, the substrate 2 can be accommodated in the cassette 3 in an orderly manner at a predetermined pitch.

  Each of the holding shafts 19 that form a pair, each time the substrate 2 is sequentially accommodated in the accommodating portion 3a, alternately holds the substrate holding pieces 19b in order to hold the substrates 2 accommodated in the accommodating portions 3a by the substrate holding pieces 19b. Since the substrate holding operation of rotating to the holding position after moving in the crossing direction after moving to the release position is performed, the substrate 2 is held from all sides in a stable state every time the substrate 2 is accommodated in the cassette 3. Can be accommodated in.

  Since the holding shafts 19 are provided in pairs, and the substrate holding operation is alternately performed by these holding shafts 19, the substrate 2 already accommodated is always held by the substrate holding piece 19 b of one of the holding shafts 19. can do. For this reason, it is possible to prevent the accommodation state from being disturbed, for example, the substrate 2 once accommodated is detached from the accommodation portion 3a.

  Since the holding shaft 19 can advance and retract in the same direction as the direction in which the substrate 2 is accommodated in the cassette 3, the substrate 2 can be efficiently and orderly accommodated from the end of the cassette 3. Thereby, in the state which stood the several board | substrate 2, it can hold | maintain at a fixed space | interval mutually in the direction which cross | intersects a plate surface.

  Since the upper side of the cassette 3 is open, the substrate 2 can be suspended and accommodated from above, and the accommodating operation can be facilitated.

  Even if the upper portion of the cassette 3 is opened to load and unload the substrate 2 from above the cassette 3, the upper peripheral edge of the substrate 2 can always be held, so that the substrate 2 is bent by its own weight during loading and unloading. It is possible to prevent the substrate 2 from being damaged, such as being dropped from 3a or being broken to break the substrate 2.

  Of the plurality of substrate holding pieces 19b provided on each holding shaft 19, the adjacent substrate holding pieces 19b have opposing surfaces 19e facing each other, and the opposing surfaces 19e are located at positions where the holding shaft 19 is held from the release position. When the substrate 2 is moved, the substrate holding piece moves to the holding position by the rotation of the holding shaft 19 even if the substrate 2 to be suspended is inclined in the accommodating portion 3a. The substrate 2 can be appropriately held by 19b. Therefore, even when the substrate 2 is bent during the suspension, the substrate holding piece 19b can accommodate the substrate 2 in the correct posture.

  The substrate holding piece 19b of the holding shaft 19 is provided in a quarter-circle portion in the circumferential direction of the holding shaft 19, and moves between the holding position and the release position by rotating the holding shaft 19 by 90 °, so that the angle is small By rotating the holding shaft 19, the substrate holding piece 19 b can be moved between the holding position and the release position, and the storing operation can be efficiently performed in a short cycle.

  Since the distance between the pair of holding shafts 19 is slightly wider than the width of the plate-like upper holder 5, the upper holder 5 can be appropriately mounted between the holding shafts 19.

  The substrate holding piece 19b of each holding shaft 19 is positioned on the opposite side of the other holding shaft 19 in a pair at the release position, and moves toward the other holding shaft 19 when moving to the holding position. Therefore, the substrate holding piece 19b does not protrude between the holding shafts 19, so that the substrate holding piece 19b does not obstruct the mounting operation of the upper holder 5, and the holding shafts 19 Can be made as narrow as possible. Thereby, the bending of the board | substrate 2 between the holding shafts 19 can be restrained smaller. In view of the insertion of the upper holder 5 between the holding shafts 19, it is preferable that the upper peripheral portion of the substrate 2 is arranged at a more accurate pitch, so that the upper holder 5 can be mounted more easily. . And since the upper holder 5 becomes easy to insert, work time can be shortened.

  Since a plurality of holding shafts 19 forming a pair are provided at intervals in the direction along the plate surface of the substrate 2, the occurrence of bending over the entire width of the substrate 2 can be suppressed and the cassette 3 can be stored in an orderly manner.

  In the above-described embodiment, one side where the cassette 3 is opened is set as the upper side. However, the present invention is not limited to this and may be on the side. In the above-described embodiment, an example in which two pairs of holding shafts 19 are provided has been described. However, a pair of holding shafts 19 may be provided in pairs or in three or more pairs depending on the size of the substrate 2 to be accommodated. Also good.

  In the above-described embodiment, the example in which the substrate 2 is accommodated in one cassette 3 has been described. However, when the substrates 2 are continuously loaded into and unloaded from the plurality of cassettes 3, the cassette placed on the belt conveyor 4 is used. 3 may be sequentially transported before the substrate storage auxiliary device 1, or the substrate storage auxiliary device 1 may be placed on a linear movement mechanism such as a belt conveyor 4, Before that, the substrate storage auxiliary device 1 may be moved sequentially.

  In the above-described embodiment, the example in which the substrate accommodation auxiliary device 1 and the cassette 3 are separated has been described. However, the substrate accommodation auxiliary device 1 and the cassette 3 may be integrated. In this case, since the substrate accommodation auxiliary device 1 is always attached to the cassette 3, the substrate 2 can be correctly accommodated wherever the cassette 3 is carried.

DESCRIPTION OF SYMBOLS 1 Substrate accommodation auxiliary | assistance apparatus 1a Cover 2 Substrate 3 Cassette 3a Accommodating part 3c Side wall part 3d Recessed part 4 Belt conveyor 5 Upper holder 5a Receiving groove 5b Pin 6 Conveying holder 7 Mounting base 7a Base wall part 8 Main body frame 8a Opposing frame part 8b Frame portion 8c Lower frame portion 8d Upper fixed portion 8e Lower fixed portion 8f Reinforcement rib 8g Vertical block 9 Linear guide 9a Linear rail 9b Linear block 10 Ball screw 10a Ball screw shaft 10b Ball nut 11 Ball screw motor 11a Motor shaft 12 Holding Unit 13 Bearing 14 Coupling 15 Pedestal 16 Post 17 Holding frame 17a Opposing wall 17b Connection frame 17c Bearing support 18 Bearing 19, 19s, 19t Holding shaft 19a Holding shaft 19b Substrate holding piece 1 c Line segment defining shape of substrate holding piece 19d Tip of line segment 19e Opposing surface 20 Shaft rotation motor 20a Motor shaft 21 Coupling 22 Substrate holding mechanism 23 Vacuum chuck O Center of holding shaft portion P, Q Circle of holding shaft portion Points on the circumference

Claims (7)

The substrate is accommodated in an upright state by supporting three of the four peripheral edge portions of the substrate, and an accommodating portion for taking the substrate in and out from the other side of the substrate is disposed on the plate surface of the substrate to be accommodated. A substrate storage auxiliary device for a substrate container that assists in storing a substrate in a plurality of substrate containers provided at a predetermined pitch in a crossing direction,
A shaft that is provided so as to be able to advance and retreat along the intersecting direction from one side of the substrate container, and is arranged at intervals from each other in the direction along the plate surface, and a pair of independently rotatable shafts,
A holding position for holding the substrate accommodated in the accommodating portion by the rotation of the shaft provided on the outer circumference of each of the paired shafts along the longitudinal direction of the shaft, and holding the substrate A plurality of substrate holding pieces movable to a release position to be released;
Each of the paired shafts alternately holds the substrate holding piece in the release position in order to hold the substrate accommodated in the accommodation portion with the substrate holding piece alternately each time the substrate is accommodated in the accommodation portion. A substrate holding auxiliary device for a substrate holding body, which performs a substrate holding operation of rotating to move to the holding position after being moved in the crossing direction after being moved to.   The substrate accommodating auxiliary device for a substrate container according to claim 1, wherein a plurality of the shafts forming the pair are provided at intervals in a direction along the plate surface of the substrate. Among the plurality of substrate holding pieces provided on each of the shafts, the adjacent substrate holding pieces have opposing surfaces facing each other,
3. The substrate container according to claim 1, wherein the opposing surfaces are formed such that a distance between the opposing surfaces gradually decreases when the shaft moves from the release position to the holding position. 4. Substrate accommodation auxiliary device.   4. The substrate holding piece is provided at a quarter circle portion in the circumferential direction of the shaft, and moves between the holding position and the release position by rotating the shaft by 90 degrees. The board | substrate accommodation auxiliary | assistance apparatus to the board | substrate container as described in 2.   The substrate holding piece of each shaft is positioned on the opposite side of the other shaft in the pair at the release position, and moved toward the other shaft when moving to the holding position. The board | substrate accommodation auxiliary | assistance apparatus to the board | substrate container as described in any one of Claim 1 to 4 characterized by the above-mentioned.   The substrate container includes a holding member that holds the other peripheral edge of the substrate, and the distance between the paired shafts is wider than the width of the substrate held by the holding member. The board | substrate accommodation auxiliary | assistance apparatus to the board | substrate container in any one of Claim 1 to 5.   A substrate storage device, wherein the substrate storage auxiliary device for a substrate storage body according to any one of claims 1 to 6 is provided in the substrate storage body.

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