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WO2020158019A1 - Transfer apparatus - Google Patents

Transfer apparatus Download PDF

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Publication number
WO2020158019A1
WO2020158019A1 PCT/JP2019/032485 JP2019032485W WO2020158019A1 WO 2020158019 A1 WO2020158019 A1 WO 2020158019A1 JP 2019032485 W JP2019032485 W JP 2019032485W WO 2020158019 A1 WO2020158019 A1 WO 2020158019A1
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WO
WIPO (PCT)
Prior art keywords
transfer table
transfer
arm
upper arm
support member
Prior art date
Application number
PCT/JP2019/032485
Other languages
French (fr)
Japanese (ja)
Inventor
文恵 山田
哲資 棚橋
Original Assignee
村田機械株式会社
Priority date (The priority date is an assumption and is not a legal conclusion. Google has not performed a legal analysis and makes no representation as to the accuracy of the date listed.)
Filing date
Publication date
Application filed by 村田機械株式会社 filed Critical 村田機械株式会社
Priority to JP2020569351A priority Critical patent/JP7088322B2/en
Publication of WO2020158019A1 publication Critical patent/WO2020158019A1/en

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Classifications

    • BPERFORMING OPERATIONS; TRANSPORTING
    • B65CONVEYING; PACKING; STORING; HANDLING THIN OR FILAMENTARY MATERIAL
    • B65GTRANSPORT OR STORAGE DEVICES, e.g. CONVEYORS FOR LOADING OR TIPPING, SHOP CONVEYOR SYSTEMS OR PNEUMATIC TUBE CONVEYORS
    • B65G1/00Storing articles, individually or in orderly arrangement, in warehouses or magazines
    • B65G1/02Storage devices
    • B65G1/04Storage devices mechanical

Definitions

  • the present invention relates to a transfer device, and more particularly to a transfer device for transferring stacked loads.
  • the automated warehouse mainly has a rack and a stacker crane.
  • the rack has shelves arranged vertically and horizontally.
  • the stacker crane travels in the vicinity of the rack, and loads and unloads luggage on the rack.
  • one piece of luggage may be placed on each shelf of the rack, or a plurality of pieces of luggage may be stacked on each shelf of the rack (for example, see Patent Document 1). ).
  • Patent Document 1 discloses a pallet and case automatic storage picking system. In that system, a stacker crane equipped with an in-rack conveyor and two lifts can take out cargo with high capacity.
  • Both of the transfer devices 40 of Patent Document 1 have a transfer conveyor 41 and a suction arm 42 provided with a suction head 43.
  • the transfer conveyor 41 and the suction arm 42 which are inserted into the rack, are arranged side by side in the vertical direction, so that the dimension in the height direction of these members becomes large. Therefore, even if the picking target is a parcel of the minimum height, it is necessary to secure a sufficient upper space of the shelf for picking.
  • An object of the present invention is to reduce the thickness of a portion to be inserted into a rack when taking out a load in a transfer device that takes out a load stacked in a rack.
  • a transfer device is a device for transferring loads stacked on a shelf, and includes a base, a lower arm, an upper arm, a transfer table, and a suction pad. I have it.
  • the lower arm is attached to the base so as to be rotatable about a vertical axis.
  • the upper arm is attached to the lower arm so as to be rotatable about the vertical axis.
  • the transfer table is attached to the lower end of the upper arm on the tip side so as to be able to move forward and backward in the horizontal direction and to be rotatable around the vertical axis.
  • the suction pad is attached to the tip end side of the transfer table at a height position overlapping with the upper arm in a side view so as to be movable back and forth and vertically movable.
  • a transfer table is attached to the lower part of the upper arm, and a suction pad is provided at a height that overlaps with the upper arm, so that a portion to be inserted into the rack when the luggage is taken out (for example, the upper arm and the transfer table). , Suction pad) thickness can be reduced.
  • the transfer device may further include a controller that controls the lower arm, the upper arm, the transfer table, and the suction pad.
  • the controller is Advancing the suction pad, adsorbing to the luggage, lifting the luggage, By moving the transfer table forward, it is inserted into the gap below the load, and by moving the transfer table further forward, the load is placed on the transfer table.
  • the transfer table since the load is placed on the transfer table by advancing the transfer table, it is not necessary to move the lower arm further to the inner side when the innermost load is taken. Therefore, the lower arm does not enter the shelf.
  • the transfer device may further include a spacer.
  • the spacer has a vertical dimension that is provided between the lower arm and the upper arm and is longer than the vertical dimension of the transfer table. In this device, the spacer can prevent interference between the lower arm and the transfer table. As a result, the arm can be folded small.
  • the transfer device may further include a first pad support member and a second pad support member. The first pad support member is supported on the transfer table so as to be movable in the transfer direction. The second pad support member is vertically movable with respect to the first pad support member, and may support the suction pad.
  • the schematic top view of an automatic warehouse system The schematic side view of an automatic warehouse system.
  • the typical partial front view of a picking device The block diagram which shows the control structure of an automatic warehouse system.
  • the typical partial front view showing one state of picking and payout operation The typical partial front view showing one state of picking and payout operation.
  • the typical partial front view showing one state of picking and payout operation The typical partial front view showing one state of picking and payout operation.
  • the typical partial top view showing one state of picking and payout operation.
  • the typical partial front view showing one state of picking and payout operation The typical partial top view showing one state of picking and payout operation.
  • the typical partial top view showing one state of picking and payout operation The typical partial top view showing one state of picking and payout operation.
  • the typical partial front view showing one state of picking and payout operation The typical partial front view showing one state of picking and payout operation.
  • the typical partial front view showing one state of picking and payout operation The typical partial front view showing one state of picking and payout operation.
  • the typical partial front view showing one state of picking and payout operation The typical partial front
  • FIG. 1 is a schematic plan view of an automatic warehouse system.
  • FIG. 2 is a schematic side view of the automatic warehouse system.
  • the automatic warehouse system 1 is a system for storing and picking a pallet 3 and a case 5 (an example of luggage).
  • a plurality of cases 5 are stacked on the pallet 3.
  • the plurality of cases 5 are products of the same type, and are mounted on the pallet 3 so as to be vertically, front-rear, left-right, and stacked. That is, many cases 5 are mounted on the pallet 3 in an aligned state.
  • the pallet 3 may simply mean the pallet 3 in which a plurality of cases 5 are stacked.
  • the automatic warehouse system 1 has a first rack 11 and a second rack 13. The first rack 11 and the second rack 13 are arranged in parallel, and a traveling lane 19 is provided between them.
  • the first rack 11 has a plurality of shelves 15 for storing the pallets 3 in a plurality of rows and a plurality of rows.
  • the second rack 13 has a plurality of shelves 15 for storing the pallets 3 in a plurality of stages and a plurality of rows.
  • the second rack 13 further includes a delivery conveyor 17 for paying out cases.
  • the delivery conveyor 17 is arranged in the second rack 13 and extends along the extending direction of the second rack 13.
  • the delivery conveyor 17 is arranged at an intermediate position in the vertical direction of the second rack 13.
  • the delivery conveyor 17 is, for example, a roller conveyor, and delivers the cases 5 one by one.
  • the horizontal direction in which the first rack 11 and the second rack 13 extend is the first direction (arrow Y)
  • the horizontal direction orthogonal to the first direction is the second direction (arrow X).
  • the automated warehouse system 1 has a pallet crane 21 that travels in the travel lane 19 and a case crane 23.
  • the pallet crane 21 transfers the pallets 3 to and from the shelves 15. Further, the pallet crane 21 carries out an operation of collecting empty pallets and exchanging luggage.
  • the case crane 23 picks the case 5 placed on the shelf 15.
  • the case crane 23 is arranged on the right side of the pallet crane 21.
  • the case crane 23 repeatedly picks the case 5 from the pallet station 16 which is the base point toward the end point (right side in the first direction) and delivers it to the delivery conveyor 17.
  • the pallets 3 are stored on the shelves 15 in the movable area of.
  • the pallet crane 21 and the case crane 23 return to the pallet station 16 without storing or picking. Continuous processing is performed with this cooperative operation as one cycle.
  • the pallet station 16 has a conveyor, in which the pallet 3 is transferred to and from the pallet crane 21, and the pallet 3 is transferred to and from a forklift (not shown).
  • the case crane 23 continuously picks up luggage to the same destination, so that picking may be repeated while moving to a position separated in the traveling direction.
  • the case crane 23 can store the case 5 in the first rack 11 or the second rack 13.
  • the pallet crane 21 can also pick the pallet 3 and convey it to the pallet station 16 which is the base point.
  • the pallet crane 21 has a traveling device 25, a lifting device 27, and a transfer device 29, as shown in FIG. 4 (described later).
  • the traveling device 25 has a known configuration including a motor, a power transmission mechanism, and wheels.
  • the lifting device 27 is mounted on the traveling device 25 and lifts and lowers the transfer device 29.
  • the lifting device 27 has a known structure including a mast, a lifting platform, a motor, and a power transmission mechanism.
  • the transfer device 29 transfers the pallet 3 to the shelf 15.
  • the case crane 23, as shown in FIG. 4, has a traveling device 35, a lifting device 37, and a pair of picking devices 41 (an example of a transfer device).
  • the traveling device 35 has a known configuration including a motor, a power transmission mechanism, and wheels.
  • the lifting device 37 is mounted on the traveling device 35, and has a known configuration including a mast, a pair of lifting platforms 37a, a motor, and a power transmission mechanism.
  • the pair of picking devices 41 are mounted on the pair of lifts 37a, respectively, and can be lifted and lowered independently of each other.
  • the pair of picking devices 41 each have a motor and a power transmission mechanism.
  • the picking device 41 picks one of the cases 5 stored in a stacked state on the shelves 15 of the first rack 11 or the second rack 13 and then pays it out to the delivery conveyor 17.
  • the picking device 41 has a SCARA arm 51, and a swivel device 53 for swiveling the SCARA arm 51 about an up-and-down axial center with respect to a base part which is a part of the lifting platform 37a.
  • FIG. 3 is a schematic partial front view of the picking device.
  • the SCARA arm 51 is a known technique, and by rotating the arm structure, the arm structure bent in a V shape is straightened, and thereby the tip is moved to the first rack 11 or the second rack 13 side. You can The SCARA arm 51 has a lower arm 51a and an upper arm 51b.
  • the base end of the lower arm 51a is attached to the swivel device 53 so as to swivel about a vertical axis.
  • the base end of the upper arm 51b is attached to the tip of the lower arm 51a so as to be rotatable about a vertical axis.
  • the base end of the lower arm 51a of the SCARA arm 51 is connected to a motor (not shown) of an arm driving device 81 (described later), and the SCARA arm 51 interlocks with the upper arm 51b when the lower arm 51a turns. It has a chain interlocking mechanism (not shown) for pivoting.
  • the picking device 41 has a transfer table 57.
  • the transfer table 57 is attached to the lower portion on the tip side of the upper arm 51b so as to be movable back and forth in the second direction. Further, the transfer table 57 is attached so as to be rotatable with respect to the upper arm 51b. Specifically, as shown in FIG. 3, a base portion 61 is rotatably provided below the tip of the upper arm 51b.
  • the transfer table 57 is supported movably in the second direction with respect to a guide portion (not shown) of the base portion 61, and is connected to the base portion 61 via a rack and pinion mechanism (not shown). ..
  • the transfer table 57 can be moved in the second direction with respect to the tip of the upper arm 51b by driving the rack and pinion mechanism with the motor. Specifically, the transfer table 57 is movable between a first position in which the front end is close to the tip of the upper arm 51b and a second position in which the front end is farthest from the tip of the upper arm 51b.
  • a roller 58 is rotatably attached to the front end of the transfer table 57.
  • the picking device 41 has a suction pad 59. The suction pad 59 is attached to the front end side of the transfer table 57 so as to be movable in the second direction and the vertical direction. Specifically, as shown in FIG.
  • the first pad support member 62 is supported by the transfer table 57, and specifically, a belt mechanism extending in the second direction of the transfer table 57 (not shown). It is fixed to a belt (not shown). Therefore, the first pad support member 62 can move on the transfer table 57 in the second direction by driving the belt mechanism with the motor.
  • a chain mechanism may be used instead of the belt mechanism.
  • the second pad support member 63 is supported movably in the vertical direction with respect to the guide portion (not shown) of the first pad support member 62, and the rack and pinion mechanism is provided with respect to the first pad support member 62. It is mounted so that it can be raised and lowered by.
  • the suction pad 59 is attached to the second pad support member 63 so as to be swingable.
  • the height position of the suction pad 59 is a position overlapping with the upper arm 51b in a side view (at least a part of the suction pad 59 is located in the height region A corresponding to the vertical dimension of the upper arm 51b).
  • another linear drive such as an electric cylinder or an air cylinder may be used.
  • the vertical size of the suction pad 59 and the vertical size of the upper arm 51b are substantially the same.
  • the upper surface of the suction pad 59 is lower than the upper surface of the upper arm 51b, and the lower surface of the suction pad 59 is lower than the lower surface of the upper arm 51b.
  • the suction pad 59 may be arranged at a position higher than the position shown in FIG. In that case, specifically, the upper surface of the suction pad 59 is lower than the upper surface of the upper arm 51b, and the lower surface of the suction pad 59 is higher than the lower surface of the upper arm 51b. That is, the suction pad 59 is contained within the height area A of the upper arm 51b.
  • the suction pad 59 may be arranged at a higher position.
  • the upper surface of the suction pad 59 is located higher than the upper surface of the upper arm 51b, and the lower surface of the suction pad 59 is located between the upper surface and the lower surface of the upper arm 51b.
  • the picking device 41 further includes a spacer 60.
  • the spacer 60 is provided between the lower arm 51a and the upper arm 51b.
  • the spacer 60 is larger than the vertical dimension of the transfer table 57 (that is, the thickness in the vertical direction, the length from the mounting portion of the transfer table 57 and the lower arm 51a to the lower end of the insertion portion of the lower arm 51a).
  • the spacer 60 can prevent the lower arm 51a and the transfer table 57 from interfering with each other. As a result, the SCARA arm 51 can be folded small.
  • FIG. 4 is a block diagram showing the control configuration of the automatic warehouse system.
  • the automatic warehouse system 1 has a controller 71 (an example of a control unit).
  • the controller 71 is a computer having a processor (eg, CPU), a storage device (eg, ROM, RAM, HDD, SSD, etc.), and various interfaces (eg, A/D converter, D/A converter, communication interface, etc.) System.
  • the controller 71 performs various control operations by executing a program stored in a storage unit (corresponding to a part or all of the storage area of the storage device).
  • the controller 71 may be composed of a single processor, but may be composed of a plurality of processors independent for each control. Some or all of the functions of each element of the controller 71 may be realized as a program that can be executed by a computer system that constitutes a control unit. In addition, a part of the function of each element of the controller 71 may be configured by a custom IC.
  • the controller 71 includes a delivery conveyor 17, a traveling device 25, an elevating device 27, a transfer device 29, a traveling device 35, an elevating device 37, a turning device 53, an arm drive device 81, a transfer table drive device 82, a suction device 83, a suction device.
  • the pad drive device 84 is controlled.
  • the arm driving device 81 moves the SCARA arm 51 forward and backward.
  • a motor (not shown) of the arm driving device 81 drives a chain interlocking mechanism (not shown) so that when the base end of the lower arm 51a pivots, the upper arm 51b pivots interlockingly.
  • the SCARA arm 51 can take a V-shaped posture and a posture in which the SCARA arm 51 extends straight to the rack side.
  • the transfer table drive device 82 moves the transfer table 57 forward and backward with respect to the upper arm 51b. Further, the transfer table 57 is rotatable with respect to the upper arm 51b. The transfer table 57 and the upper arm 51b are connected by a chain (not shown), and both rotate in conjunction with each other. As a result, even if the SCARA arm 51 turns, the transfer table 57 can face straight forward.
  • the suction device 83 sucks and releases the suction pad 59.
  • the suction pad drive device 84 moves the suction pad 59 with respect to the transfer table 57 in the vertical direction and the second direction.
  • the controller 71 is connected with a sensor for detecting the size, shape and position of the pallet 3 and the case 5, a sensor and a switch for detecting the state of each device, and an information input device.
  • the picking device 41 moves to the picking position of the small case 5A designated by the controller 71.
  • the small case 5A of this embodiment is a luggage having a minimum height.
  • the small cases 5A are stacked on one pallet (not shown).
  • the transfer table 57 and the suction pad 59 move forward toward the small case 5A.
  • the transfer table 57 is driven forward by the transfer table drive device 82, and the suction pad 59 moves forward according to the transfer table 57.
  • the transfer table 57 is attached to the lower portion of the upper arm 51b and the suction pad 59 is provided at a height overlapping with the upper arm 51b, when the case 5 is taken out, the inside of the first rack 11 or the second rack 13 is removed.
  • the thickness of the portion (for example, the upper arm 51b, the transfer table 57, and the suction pad 59) to be inserted into is small.
  • the gap B between the uppermost small case 5A and the ceiling 15a of the shelf 15 can be kept small.
  • the suction pad 59 is pressed against the small case 5A side. Specifically, the suction pad 59 is driven forward by the suction pad drive device 84 with respect to the transfer table 57. Then, when suction is performed next, the suction pad 59 sucks the small case 5A.
  • the suction pad 59 rises to lift the small case 5A. Specifically, the suction pad 59 is driven upward by the suction pad drive device 84 with respect to the transfer table 57. The front surface of the small case 5A is lifted by the suction pad 59 and is inclined. As shown in FIG. 6, the transfer table 57 is moved forward to be inserted into the gap below the small case 5A, and the transfer table 57 is further moved forward to mount the small case 5A on the transfer table 57. At this time, the roller 58 comes into contact with the lower surface of the small case 5A that is tilted as described above, so that the small case 5A moves smoothly onto the transfer table 57.
  • the case 5 may be placed on the transfer table 57 by moving the suction pad 59 to the front side with respect to the transfer table 57.
  • the transfer table 57 is pulled toward the SCARA arm 51 side, and the suction pad 59 is moved toward the SCARA arm 51 side with respect to the transfer table 57.
  • the small case 5A is pulled toward the lift table 37a.
  • the spacer 60 can prevent the lower arm 51a and the transfer table 57 from interfering with each other.
  • the elevating table 37a is moved up and down to a position corresponding to the delivery conveyor 17.
  • the transfer table 57 is moved to the first rack 11 side.
  • FIGS. 11 and 12 by swiveling the swivel device 53, the front end of the transfer table 57 is directed to the second rack 13 side.
  • the transfer table 57 is moved to the second rack 13 side while holding the small case 5A.
  • the suction pad 59 and the transfer table 57 are moved to the second rack 13 side. As shown in FIG. 16, the suction pad 59 is further moved with respect to the transfer table 57 to further release the suction, whereby the small case 5A is discharged onto the delivery conveyor 17.
  • the picking device 41 (an example of a transfer device) is a device for transferring the cases 5 (an example of luggage) stacked on the shelf 15 (an example of a shelf), and is a lifting platform 37a (an example of a base).
  • a lower arm 51a (an example of a lower arm), an upper arm 51b (an example of an upper arm), a transfer table 57 (an example of a transfer table), and a suction pad 59 (an example of a suction pad).
  • the lower arm 51a is attached to the lifting platform 37a so as to be rotatable about a vertical axis.
  • the upper arm 51b is attached to the lower arm 51a so as to be rotatable about the vertical axis.
  • the transfer table 57 is attached to the lower portion of the upper arm 51b on the front end side so as to be capable of advancing and retracting in the horizontal direction and pivotable about the vertical axis.
  • the suction pad 59 is attached to the tip end side of the transfer table 57 at a height position overlapping the upper arm 51b in a side view so as to be movable back and forth and vertically movable.
  • the transfer table 57 is attached to the lower portion of the upper arm 51b, and the suction pad 59 is provided at a height overlapping with the upper arm 51b, so that the portion to be inserted into the first rack 11 when the case 5 is taken out. The thickness can be reduced.
  • the type of stacker crane is not particularly limited.
  • the present invention can also be applied to a stacker crane provided with one lifting platform.
  • the picking operation and the payout operation are performed in one case, but the two operations may be performed in a plurality of cases.
  • the delivery conveyor has one stage in the above embodiment, it may have a plurality of stages.
  • the transfer table since the transfer table is sufficiently long in the second direction, it is not necessary for the lower arm of the SCARA arm to enter the rack even when picking the innermost case.
  • the transfer table may be shorter in the second direction than that of the above embodiment. In that case, for example, the lower arm does not have to be put in the rack when the front side luggage is taken, but the lower arm is put in the rack when the far side luggage is taken.
  • the SCARA arm is provided with the spacer between the lower arm and the upper arm. As a modification, the spacer may not be provided.
  • the present invention can be widely applied to a transfer device for transferring stacked loads.

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  • Engineering & Computer Science (AREA)
  • Mechanical Engineering (AREA)
  • Warehouses Or Storage Devices (AREA)

Abstract

In this transfer apparatus for taking out parcels stacked within a rack, a portion to be inserted in the rack when taking out a parcel is configured to have a reduced thickness. A picking apparatus 41 is for transferring cases 5 stacked on a shelf 15, and is provided with an elevation platform 37a, a lower arm 51a, an upper arm 51b, a transfer table 57, and a suction pad 59. The lower arm 51a is mounted to the elevation platform 37a and is capable of pivoting about the vertical axis. The upper arm 51b is mounted to the lower arm 51a so as to be capable of pivoting about the vertical axis. The transfer table 57 is mounted to a lower part of on the leading end side of the upper arm 51b so as to be capable of moving back and forth in the horizontal direction and pivoting about the vertical axis. The suction pad 59 is mounted on the leading end side of the transfer table 57 at a height position that overlaps the upper arm 51b in a lateral view, so as to be capable of moving up and down and back and forth.

Description

移載装置Transfer device
 本発明は、移載装置、特に、段積みされた荷物を移載する移載装置に関する。 The present invention relates to a transfer device, and more particularly to a transfer device for transferring stacked loads.
 自動倉庫は、主に、ラックと、スタッカクレーンとを有している。ラックは、上下左右に並んだ棚を有している。スタッカクレーンは、ラックの近傍を走行し、荷物をラックに入庫したり出庫したりする。
 自動倉庫によっては、ラックの各棚に1個の荷物が載置されている場合もあれば、ラックの各棚に複数の荷物が段積みされている場合がある(例えば、特許文献1を参照)。
The automated warehouse mainly has a rack and a stacker crane. The rack has shelves arranged vertically and horizontally. The stacker crane travels in the vicinity of the rack, and loads and unloads luggage on the rack.
Depending on the automated warehouse, one piece of luggage may be placed on each shelf of the rack, or a plurality of pieces of luggage may be stacked on each shelf of the rack (for example, see Patent Document 1). ).
 特許文献1には、パレット及びケース自動収納ピッキングシステムが開示されている。そのシステムでは、ラック内コンベヤと2つの昇降台を備えるスタッカクレーンによって、高能力で荷物を取り出すことができる。 Patent Document 1 discloses a pallet and case automatic storage picking system. In that system, a stacker crane equipped with an in-rack conveyor and two lifts can take out cargo with high capacity.
特許第6343358号公報Japanese Patent No. 6343358
 特許文献1の移載装置40は、2台とも、移載コンベア41と、吸着ヘッド43が設けられた吸着アーム42とを有している。
 この場合、ラック内に挿入される移載コンベア41と吸着アーム42が上下方向に並べて配置されているので、これら部材の高さ方向寸法が大きくなる。そのため、ピッキング対象が最小高さの荷物であっても、ピッキングのためには棚の上部空間を十分に確保する必要がある。
Both of the transfer devices 40 of Patent Document 1 have a transfer conveyor 41 and a suction arm 42 provided with a suction head 43.
In this case, the transfer conveyor 41 and the suction arm 42, which are inserted into the rack, are arranged side by side in the vertical direction, so that the dimension in the height direction of these members becomes large. Therefore, even if the picking target is a parcel of the minimum height, it is necessary to secure a sufficient upper space of the shelf for picking.
 本発明の目的は、ラック内で段積みされている荷物を取り出す移載装置において、荷物を取り出す際にラック内に挿入する部分の厚みを減らすことにある。 An object of the present invention is to reduce the thickness of a portion to be inserted into a rack when taking out a load in a transfer device that takes out a load stacked in a rack.
 以下に、課題を解決するための手段として複数の態様を説明する。これら態様は、必要に応じて任意に組み合せることができる。 Below, we explain several aspects as means for solving the problems. These aspects can be arbitrarily combined as needed.
 本発明の一見地に係る移載装置は、棚に段積みされた荷物を移載するための装置であって、基部と、下アームと、上アームと、移載テーブルと、吸着パッドとを備えている。
 下アームは、基部に対して鉛直軸中心に旋回可能に取り付けられている。
 上アームは、下アームに対して鉛直軸中心に旋回可能に取り付けられている。
 移載テーブルは、上アームの先端側下部に、水平方向に進退可能にかつ鉛直軸中心に旋回可能に取り付けられている。
 吸着パッドは、移載テーブルの先端側において上アームと側面視で重複する高さ位置に、進退可能かつ上下移動可能に取り付けられている。
 この装置では、上アームの下部に移載テーブルを取り付け、上アームと重複する高さに吸着パッドを備えることにより、荷物を取り出す際にラック内に挿入する部分(例えば、上アーム、移載テーブル、吸着パッド)の厚みを減らすことができる。
A transfer device according to one aspect of the present invention is a device for transferring loads stacked on a shelf, and includes a base, a lower arm, an upper arm, a transfer table, and a suction pad. I have it.
The lower arm is attached to the base so as to be rotatable about a vertical axis.
The upper arm is attached to the lower arm so as to be rotatable about the vertical axis.
The transfer table is attached to the lower end of the upper arm on the tip side so as to be able to move forward and backward in the horizontal direction and to be rotatable around the vertical axis.
The suction pad is attached to the tip end side of the transfer table at a height position overlapping with the upper arm in a side view so as to be movable back and forth and vertically movable.
In this device, a transfer table is attached to the lower part of the upper arm, and a suction pad is provided at a height that overlaps with the upper arm, so that a portion to be inserted into the rack when the luggage is taken out (for example, the upper arm and the transfer table). , Suction pad) thickness can be reduced.
 移載装置は、下アーム、上アーム、移載テーブル、及び吸着パッドを制御するコントローラをさらに備えていてもよい。
 コントローラは、
 吸着パッドを前進させ、荷物に吸着させ、該荷物を持ち上げ、
 移載テーブルを前進させることで該荷物の下にある隙間に差し込み、移載テーブルをさらに前進させることで移載テーブルの上に荷物を載せる、動作を行う。
 この装置では、移載テーブルの前進によって荷物を移載テーブルに載せるので、一番奥の荷物を取る場合に、下アームをさらに奥側に移動させる必要がない。したがって、下アームが棚内に入ることがない。
The transfer device may further include a controller that controls the lower arm, the upper arm, the transfer table, and the suction pad.
The controller is
Advancing the suction pad, adsorbing to the luggage, lifting the luggage,
By moving the transfer table forward, it is inserted into the gap below the load, and by moving the transfer table further forward, the load is placed on the transfer table.
In this device, since the load is placed on the transfer table by advancing the transfer table, it is not necessary to move the lower arm further to the inner side when the innermost load is taken. Therefore, the lower arm does not enter the shelf.
 移載装置は、スペーサをさらに備えていてもよい。スペーサは、下アームと上アームとの間に設けられた、移載テーブルの上下方向寸法よりも長い上下方向寸法を有する。
 この装置では、スペーサによって、下アームと移載テーブルの干渉を防ぐことができる。その結果、アームを小さく折りたたむことができる。
 移載装置は、第1パッド支持部材と、第2パッド支持部材とをさらに備えていてもよい。第1パッド支持部材は、移載テーブルの上を移載方向に移動可能に支持されている。第2パッド支持部材は、第1パッド支持部材に対して上下方向に移動可能であり、吸着パッドを支持してもよい。
The transfer device may further include a spacer. The spacer has a vertical dimension that is provided between the lower arm and the upper arm and is longer than the vertical dimension of the transfer table.
In this device, the spacer can prevent interference between the lower arm and the transfer table. As a result, the arm can be folded small.
The transfer device may further include a first pad support member and a second pad support member. The first pad support member is supported on the transfer table so as to be movable in the transfer direction. The second pad support member is vertically movable with respect to the first pad support member, and may support the suction pad.
 本発明に係る移載装置では、荷物を取り出す際にラック内に挿入する部分の厚みを減らせる。 With the transfer device according to the present invention, it is possible to reduce the thickness of the portion to be inserted into the rack when taking out luggage.
自動倉庫システムの模式的平面図。The schematic top view of an automatic warehouse system. 自動倉庫システムの模式的側面図。The schematic side view of an automatic warehouse system. ピッキング装置の模式的部分正面図。The typical partial front view of a picking device. 自動倉庫システムの制御構成を示すブロック図。The block diagram which shows the control structure of an automatic warehouse system. ピッキング・払い出し動作の一状態を示す模式的部分正面図。The typical partial front view showing one state of picking and payout operation. ピッキング・払い出し動作の一状態を示す模式的部分正面図。The typical partial front view showing one state of picking and payout operation. ピッキング・払い出し動作の一状態を示す模式的部分正面図。The typical partial front view showing one state of picking and payout operation. ピッキング・払い出し動作の一状態を示す模式的部分正面図。The typical partial front view showing one state of picking and payout operation. ピッキング・払い出し動作の一状態を示す模式的部分平面図。The typical partial top view showing one state of picking and payout operation. ピッキング・払い出し動作の一状態を示す模式的部分正面図。The typical partial front view showing one state of picking and payout operation. ピッキング・払い出し動作の一状態を示す模式的部分平面図。The typical partial top view showing one state of picking and payout operation. ピッキング・払い出し動作の一状態を示す模式的部分平面図。The typical partial top view showing one state of picking and payout operation. ピッキング・払い出し動作の一状態を示す模式的部分正面図。The typical partial front view showing one state of picking and payout operation. ピッキング・払い出し動作の一状態を示す模式的部分正面図。The typical partial front view showing one state of picking and payout operation. ピッキング・払い出し動作の一状態を示す模式的部分平面図。The typical partial top view showing one state of picking and payout operation. ピッキング・払い出し動作の一状態を示す模式的部分正面図。The typical partial front view showing one state of picking and payout operation.
1.第1実施形態
(1)自動倉庫システム全体の説明
 図1及び図2を用いて、自動倉庫システム1を説明する。図1は、自動倉庫システムの模式的平面図である。図2は、自動倉庫システムの模式的側面図である。
1. First Embodiment (1) Description of Whole Automatic Warehouse System The automatic warehouse system 1 will be described with reference to FIGS. 1 and 2. FIG. 1 is a schematic plan view of an automatic warehouse system. FIG. 2 is a schematic side view of the automatic warehouse system.
 自動倉庫システム1は、パレット3及びケース5(荷物の一例)を収納及びピッキングするためのシステムである。パレット3には、複数のケース5が段積みされている。具体的には、複数のケース5は、同じ種類の商品であり、パレット3上に上下前後左右に積み重なるように載っている。つまり、多数のケース5は、パレット3上に整列状態で載っている。
 なお、以下で単にパレット3と言うときは、複数のケース5が段積みされたパレット3を意味することがある。
 自動倉庫システム1は、第1ラック11と、第2ラック13とを有している。第1ラック11と第2ラック13は並列に配置されおり、両者の間には走行レーン19が設けられている。第1ラック11は、パレット3を保管するための棚15を複数段で複数列有している。第2ラック13は、パレット3を保管するための棚15を複数段で複数列有している。
 第2ラック13は、さらに、ケース払い出し用の出庫コンベヤ17を有している。出庫コンベヤ17は、第2ラック13内に配置され、第2ラック13の延びる方向に沿って延びている。出庫コンベヤ17は、第2ラック13の上下方向中間位置に配置されている。出庫コンベヤ17は、例えばローラコンベヤであって、ケース5を1つずつ出庫搬送する。
 なお、以下の説明では、第1ラック11及び第2ラック13が延びる水平方向を第1方向(矢印Y)とし、第1方向に直交する水平方向を第2方向(矢印X)とする。
The automatic warehouse system 1 is a system for storing and picking a pallet 3 and a case 5 (an example of luggage). A plurality of cases 5 are stacked on the pallet 3. Specifically, the plurality of cases 5 are products of the same type, and are mounted on the pallet 3 so as to be vertically, front-rear, left-right, and stacked. That is, many cases 5 are mounted on the pallet 3 in an aligned state.
In the following description, the pallet 3 may simply mean the pallet 3 in which a plurality of cases 5 are stacked.
The automatic warehouse system 1 has a first rack 11 and a second rack 13. The first rack 11 and the second rack 13 are arranged in parallel, and a traveling lane 19 is provided between them. The first rack 11 has a plurality of shelves 15 for storing the pallets 3 in a plurality of rows and a plurality of rows. The second rack 13 has a plurality of shelves 15 for storing the pallets 3 in a plurality of stages and a plurality of rows.
The second rack 13 further includes a delivery conveyor 17 for paying out cases. The delivery conveyor 17 is arranged in the second rack 13 and extends along the extending direction of the second rack 13. The delivery conveyor 17 is arranged at an intermediate position in the vertical direction of the second rack 13. The delivery conveyor 17 is, for example, a roller conveyor, and delivers the cases 5 one by one.
In the following description, the horizontal direction in which the first rack 11 and the second rack 13 extend is the first direction (arrow Y), and the horizontal direction orthogonal to the first direction is the second direction (arrow X).
 自動倉庫システム1は、走行レーン19を走行するパレットクレーン21と、ケースクレーン23とを有している。パレットクレーン21は、パレット3を各棚15との間で移載する。さらに、パレットクレーン21は、空パレットの回収や荷物の入れ替え動作を行う。ケースクレーン23は、棚15に載置されたケース5をピッキングする。 The automated warehouse system 1 has a pallet crane 21 that travels in the travel lane 19 and a case crane 23. The pallet crane 21 transfers the pallets 3 to and from the shelves 15. Further, the pallet crane 21 carries out an operation of collecting empty pallets and exchanging luggage. The case crane 23 picks the case 5 placed on the shelf 15.
 図1及び図2に示すように、ケースクレーン23は、パレットクレーン21の右側に配置されている。ケースクレーン23が基点となるパレットステーション16から終点方向(第1方向右側)へケース5のピッキング作業を行って出庫コンベヤ17に払い出すことを繰り返し、パレットクレーン21は基点からケースクレーン23の手前までの移動可能領域の棚15にパレット3を収納する。
 ケースクレーン23が終点に到着し、パレットクレーン21も同様に終点まで移動すると、パレットクレーン21及びケースクレーン23はパレットステーション16まで収納やピッキングを行わずに戻る。この協働動作を1サイクルとして連続処理が行われる。
 パレットステーション16は、コンベヤを有しており、そこではパレットクレーン21とのパレット3の受け渡し、フォークリフト(図示せず)とのパレット3の受け渡しが行われる。
 なお、ケースクレーン23は、上記ピッキング動作とは異なり、同じ出庫先への荷物を連続して出庫するため、走行方向に離れた位置を移動しながらピッキングを繰り返してもよい。
 なお、ケースクレーン23は、ケース5を第1ラック11又は第2ラック13に収納することもできる。パレットクレーン21は、パレット3をピッキングして、それを基点となるパレットステーション16へ搬送することもできる。
As shown in FIGS. 1 and 2, the case crane 23 is arranged on the right side of the pallet crane 21. The case crane 23 repeatedly picks the case 5 from the pallet station 16 which is the base point toward the end point (right side in the first direction) and delivers it to the delivery conveyor 17. The pallets 3 are stored on the shelves 15 in the movable area of.
When the case crane 23 arrives at the end point and the pallet crane 21 also moves to the end point, the pallet crane 21 and the case crane 23 return to the pallet station 16 without storing or picking. Continuous processing is performed with this cooperative operation as one cycle.
The pallet station 16 has a conveyor, in which the pallet 3 is transferred to and from the pallet crane 21, and the pallet 3 is transferred to and from a forklift (not shown).
Note that, unlike the above-described picking operation, the case crane 23 continuously picks up luggage to the same destination, so that picking may be repeated while moving to a position separated in the traveling direction.
The case crane 23 can store the case 5 in the first rack 11 or the second rack 13. The pallet crane 21 can also pick the pallet 3 and convey it to the pallet station 16 which is the base point.
(2)パレットクレーン
 パレットクレーン21は、図4(後述)に示すように、走行装置25、昇降装置27及び移載装置29を有している。走行装置25は、モータ、動力伝達機構、車輪を有する公知の構成である。昇降装置27は、走行装置25に搭載され、移載装置29を昇降する。昇降装置27は、マスト、昇降台、モータ、動力伝達機構を有する公知の構成である。移載装置29は、パレット3を棚15へ移載する。
(2) Pallet Crane The pallet crane 21 has a traveling device 25, a lifting device 27, and a transfer device 29, as shown in FIG. 4 (described later). The traveling device 25 has a known configuration including a motor, a power transmission mechanism, and wheels. The lifting device 27 is mounted on the traveling device 25 and lifts and lowers the transfer device 29. The lifting device 27 has a known structure including a mast, a lifting platform, a motor, and a power transmission mechanism. The transfer device 29 transfers the pallet 3 to the shelf 15.
(3)ケースクレーン
 ケースクレーン23は、図4に示すように、走行装置35、昇降装置37、及び一対のピッキング装置41(移載装置の一例)を有している。走行装置35は、モータ、動力伝達機構、車輪を有する公知の構成である。昇降装置37は、走行装置35に搭載されており、マスト、一対の昇降台37a、モータ、動力伝達機構を有する公知の構成である。一対のピッキング装置41は、一対の昇降台37aにそれぞれ搭載され、互いに独立して昇降可能である。一対のピッキング装置41は、モータ、動力伝達機構をそれぞれ有している。
(3) Case Crane The case crane 23, as shown in FIG. 4, has a traveling device 35, a lifting device 37, and a pair of picking devices 41 (an example of a transfer device). The traveling device 35 has a known configuration including a motor, a power transmission mechanism, and wheels. The lifting device 37 is mounted on the traveling device 35, and has a known configuration including a mast, a pair of lifting platforms 37a, a motor, and a power transmission mechanism. The pair of picking devices 41 are mounted on the pair of lifts 37a, respectively, and can be lifted and lowered independently of each other. The pair of picking devices 41 each have a motor and a power transmission mechanism.
 ピッキング装置41は、概略動作として、第1ラック11又は第2ラック13の棚15において段積み状態で保管されたケース5から1つをピッキングして、次に出庫コンベヤ17に払い出す。 As a rough operation, the picking device 41 picks one of the cases 5 stored in a stacked state on the shelves 15 of the first rack 11 or the second rack 13 and then pays it out to the delivery conveyor 17.
 ピッキング装置41は、図3に示すように、スカラアーム51と、スカラアーム51を昇降台37aの一部である基部に対して上下方向軸中心に旋回させるための旋回装置53とを有している。図3は、ピッキング装置の模式的部分正面図である。
 スカラアーム51は、公知の技術であり、アーム構成を旋回させることで、Vの字に曲がったアーム構成を真っ直ぐに伸ばし、それにより先端を第1ラック11又は第2ラック13側へ移動させることができる。スカラアーム51は、下アーム51aと、上アーム51bとを有している。下アーム51aの基端は、旋回装置53に対して鉛直軸回りに旋回可能に取り付けられている。上アーム51bの基端は、下アーム51aの先端に対して鉛直軸回りに旋回可能に取り付けられている。なお、スカラアーム51の下アーム51aの基端は、アーム駆動装置81(後述)のモータ(図示せず)に連結されており、スカラアーム51は、下アーム51aが旋回すると上アーム51bが連動して旋回するためのチェーン連動機構(図示せず)を有している。
As shown in FIG. 3, the picking device 41 has a SCARA arm 51, and a swivel device 53 for swiveling the SCARA arm 51 about an up-and-down axial center with respect to a base part which is a part of the lifting platform 37a. There is. FIG. 3 is a schematic partial front view of the picking device.
The SCARA arm 51 is a known technique, and by rotating the arm structure, the arm structure bent in a V shape is straightened, and thereby the tip is moved to the first rack 11 or the second rack 13 side. You can The SCARA arm 51 has a lower arm 51a and an upper arm 51b. The base end of the lower arm 51a is attached to the swivel device 53 so as to swivel about a vertical axis. The base end of the upper arm 51b is attached to the tip of the lower arm 51a so as to be rotatable about a vertical axis. The base end of the lower arm 51a of the SCARA arm 51 is connected to a motor (not shown) of an arm driving device 81 (described later), and the SCARA arm 51 interlocks with the upper arm 51b when the lower arm 51a turns. It has a chain interlocking mechanism (not shown) for pivoting.
 ピッキング装置41は、移載テーブル57を有している。移載テーブル57は、上アーム51bの先端側下部に、第2方向に進退可能に取り付けられている。さらに、移載テーブル57は、上アーム51bに対して旋回可能に取り付けられている。
 具体的には、上アーム51bの先端下部には、図3に示すように、基部61が回転自在に設けられている。移載テーブル57は、基部61のガイド部(図示せず)に対して第2方向に移動自在に支持されると共に、ラック&ピニオン機構(図示せず)を介して基部61に連結されている。したがって、ラック&ピニオン機構のモータ駆動によって移載テーブル57は、上アーム51bの先端に対して第2方向に移動可能である。具体的には、移載テーブル57は、前端が上アーム51bの先端に近接した第1位置と、前端が上アーム51bの先端から最も離れた第2位置との間で移動可能である。
 移載テーブル57の前端には、ローラ58が回転自在に装着されている。
 ピッキング装置41は、吸着パッド59を有している。吸着パッド59は、移載テーブル57の先端側に第2方向及び上下方向に移動可能に取り付けられている。具体的には、図3に示すように、第1パッド支持部材62が、移載テーブル57に支持されており、具体的には、移載テーブル57の第2方向にわたって延びるベルト機構(図示せず)のベルト(図示せず)に固定されている。したがって、ベルト機構のモータ駆動によって、第1パッド支持部材62が移載テーブル57の上を第2方向に移動可能である。なお、ベルト機構の代わりにチェーン機構を用いてもよい。
 さらに、第2パッド支持部材63が第1パッド支持部材62のガイド部(図示せず)に対して上下方向に移動自在に支持されると共に、第1パッド支持部材62に対してラック&ピニオン機構によって昇降可能に取り付けられている。なお、吸着パッド59は、第2パッド支持部材63に対して首振り可能に取り付けられている。吸着パッド59の高さ位置は、上アーム51bに対して側面視で重複する位置である(上アーム51bの上下方向寸法に対応する高さ領域A内に、吸着パッド59の少なくとも一部が入っている)。
 なお、ラック&ピニオン機構の代わりに、電動シリンダやエアシリンダのような他の直動駆動を用いてもよい。
The picking device 41 has a transfer table 57. The transfer table 57 is attached to the lower portion on the tip side of the upper arm 51b so as to be movable back and forth in the second direction. Further, the transfer table 57 is attached so as to be rotatable with respect to the upper arm 51b.
Specifically, as shown in FIG. 3, a base portion 61 is rotatably provided below the tip of the upper arm 51b. The transfer table 57 is supported movably in the second direction with respect to a guide portion (not shown) of the base portion 61, and is connected to the base portion 61 via a rack and pinion mechanism (not shown). .. Therefore, the transfer table 57 can be moved in the second direction with respect to the tip of the upper arm 51b by driving the rack and pinion mechanism with the motor. Specifically, the transfer table 57 is movable between a first position in which the front end is close to the tip of the upper arm 51b and a second position in which the front end is farthest from the tip of the upper arm 51b.
A roller 58 is rotatably attached to the front end of the transfer table 57.
The picking device 41 has a suction pad 59. The suction pad 59 is attached to the front end side of the transfer table 57 so as to be movable in the second direction and the vertical direction. Specifically, as shown in FIG. 3, the first pad support member 62 is supported by the transfer table 57, and specifically, a belt mechanism extending in the second direction of the transfer table 57 (not shown). It is fixed to a belt (not shown). Therefore, the first pad support member 62 can move on the transfer table 57 in the second direction by driving the belt mechanism with the motor. A chain mechanism may be used instead of the belt mechanism.
Further, the second pad support member 63 is supported movably in the vertical direction with respect to the guide portion (not shown) of the first pad support member 62, and the rack and pinion mechanism is provided with respect to the first pad support member 62. It is mounted so that it can be raised and lowered by. The suction pad 59 is attached to the second pad support member 63 so as to be swingable. The height position of the suction pad 59 is a position overlapping with the upper arm 51b in a side view (at least a part of the suction pad 59 is located in the height region A corresponding to the vertical dimension of the upper arm 51b). ing).
Instead of the rack and pinion mechanism, another linear drive such as an electric cylinder or an air cylinder may be used.
 さらに具体的には、吸着パッド59の上下方向寸法と上アーム51bの上下方向寸法は、ほぼ同じである。そして、吸着パッド59の上面は上アーム51bの上面より低い位置にあり、吸着パッド59の下面は上アーム51bの下面より低い位置にある。
 変形例として、吸着パッド59は図3の位置より高い位置に配置されてもよい。その場合、具体的には、吸着パッド59の上面は上アーム51bの上面より低い位置にあり、吸着パッド59の下面は上アーム51bの下面より高い位置にある。つまり、吸着パッド59は、上アーム51bの高さ領域A内に収まっている。
 さらに他の変形例として、吸着パッド59はさらに高い位置に配置されてもよい。その場合、具体的には、吸着パッド59の上面は上アーム51bの上面より高い位置にあり、吸着パッド59の下面は上アーム51bの上面と下面の間の位置にある。
More specifically, the vertical size of the suction pad 59 and the vertical size of the upper arm 51b are substantially the same. The upper surface of the suction pad 59 is lower than the upper surface of the upper arm 51b, and the lower surface of the suction pad 59 is lower than the lower surface of the upper arm 51b.
As a modification, the suction pad 59 may be arranged at a position higher than the position shown in FIG. In that case, specifically, the upper surface of the suction pad 59 is lower than the upper surface of the upper arm 51b, and the lower surface of the suction pad 59 is higher than the lower surface of the upper arm 51b. That is, the suction pad 59 is contained within the height area A of the upper arm 51b.
As yet another modification, the suction pad 59 may be arranged at a higher position. In that case, specifically, the upper surface of the suction pad 59 is located higher than the upper surface of the upper arm 51b, and the lower surface of the suction pad 59 is located between the upper surface and the lower surface of the upper arm 51b.
 ピッキング装置41は、スペーサ60をさらに備えている。スペーサ60は、下アーム51aと上アーム51bとの間に設けられている。スペーサ60は、移載テーブル57の上下方向寸法(つまり、上下方向の厚みであって、移載テーブル57と下アーム51aの取り付け部分から下アーム51aの差し込む部分の下端までの長さ)よりも長い上下方向寸法を有する。
 スペーサ60によって、下アーム51aと移載テーブル57の干渉を防ぐことができる。その結果、スカラアーム51を小さく折りたたむことができる。
The picking device 41 further includes a spacer 60. The spacer 60 is provided between the lower arm 51a and the upper arm 51b. The spacer 60 is larger than the vertical dimension of the transfer table 57 (that is, the thickness in the vertical direction, the length from the mounting portion of the transfer table 57 and the lower arm 51a to the lower end of the insertion portion of the lower arm 51a). Has a long vertical dimension.
The spacer 60 can prevent the lower arm 51a and the transfer table 57 from interfering with each other. As a result, the SCARA arm 51 can be folded small.
(4)自動倉庫システムの制御構成
 図4を用いて、自動倉庫システム1の制御構成を説明する。図4は、自動倉庫システムの制御構成を示すブロック図である。
 自動倉庫システム1は、コントローラ71(制御部の一例)を有している。
 コントローラ71は、プロセッサ(例えば、CPU)と、記憶装置(例えば、ROM、RAM、HDD、SSDなど)と、各種インターフェース(例えば、A/Dコンバータ、D/Aコンバータ、通信インターフェースなど)を有するコンピュータシステムである。コントローラ71は、記憶部(記憶装置の記憶領域の一部又は全部に対応)に保存されたプログラムを実行することで、各種制御動作を行う。
(4) Control Configuration of Automated Warehouse System The control configuration of the automated warehouse system 1 will be described with reference to FIG. FIG. 4 is a block diagram showing the control configuration of the automatic warehouse system.
The automatic warehouse system 1 has a controller 71 (an example of a control unit).
The controller 71 is a computer having a processor (eg, CPU), a storage device (eg, ROM, RAM, HDD, SSD, etc.), and various interfaces (eg, A/D converter, D/A converter, communication interface, etc.) System. The controller 71 performs various control operations by executing a program stored in a storage unit (corresponding to a part or all of the storage area of the storage device).
 コントローラ71は、単一のプロセッサで構成されていてもよいが、各制御のために独立した複数のプロセッサから構成されていてもよい。
 コントローラ71の各要素の機能は、一部又は全てが、制御部を構成するコンピュータシステムにて実行可能なプログラムとして実現されてもよい。その他、コントローラ71の各要素の機能の一部は、カスタムICにより構成されていてもよい。
The controller 71 may be composed of a single processor, but may be composed of a plurality of processors independent for each control.
Some or all of the functions of each element of the controller 71 may be realized as a program that can be executed by a computer system that constitutes a control unit. In addition, a part of the function of each element of the controller 71 may be configured by a custom IC.
 コントローラ71は、出庫コンベヤ17、走行装置25、昇降装置27、移載装置29、走行装置35、昇降装置37、旋回装置53、アーム駆動装置81、移載テーブル駆動装置82、吸引装置83、吸着パッド駆動装置84を制御する。
 アーム駆動装置81は、スカラアーム51を進退させる。具体的には、アーム駆動装置81のモータ(図示せず)がチェーン連動機構(図示せず)を駆動することで、下アーム51aの基端が旋回すると上アーム51bが連動して旋回する。これにより、スカラアーム51は、Vの字に曲がった姿勢と、真っ直ぐにラック側に延びた姿勢とを取ることができる。
 移載テーブル駆動装置82は、移載テーブル57を上アーム51bに対して進退させる。また、移載テーブル57は、上アーム51bに対して旋回可能である。なお、移載テーブル57と上アーム51bはチェーン(図示せず)で接続されており、両者は連動して回転する。これにより、スカラアーム51が旋回しても、移載テーブル57がまっすぐ前を向くことができる。
 吸引装置83は、吸着パッド59における吸引及び解除を行う。
 吸着パッド駆動装置84は、吸着パッド59を移載テーブル57に対して上下方向及び第2方向に移動させる。
The controller 71 includes a delivery conveyor 17, a traveling device 25, an elevating device 27, a transfer device 29, a traveling device 35, an elevating device 37, a turning device 53, an arm drive device 81, a transfer table drive device 82, a suction device 83, a suction device. The pad drive device 84 is controlled.
The arm driving device 81 moves the SCARA arm 51 forward and backward. Specifically, a motor (not shown) of the arm driving device 81 drives a chain interlocking mechanism (not shown) so that when the base end of the lower arm 51a pivots, the upper arm 51b pivots interlockingly. As a result, the SCARA arm 51 can take a V-shaped posture and a posture in which the SCARA arm 51 extends straight to the rack side.
The transfer table drive device 82 moves the transfer table 57 forward and backward with respect to the upper arm 51b. Further, the transfer table 57 is rotatable with respect to the upper arm 51b. The transfer table 57 and the upper arm 51b are connected by a chain (not shown), and both rotate in conjunction with each other. As a result, even if the SCARA arm 51 turns, the transfer table 57 can face straight forward.
The suction device 83 sucks and releases the suction pad 59.
The suction pad drive device 84 moves the suction pad 59 with respect to the transfer table 57 in the vertical direction and the second direction.
 コントローラ71には、図示しないが、パレット3やケース5の大きさ、形状及び位置を検出するセンサ、各装置の状態を検出するためのセンサ及びスイッチ、並びに情報入力装置が接続されている。 Although not shown, the controller 71 is connected with a sensor for detecting the size, shape and position of the pallet 3 and the case 5, a sensor and a switch for detecting the state of each device, and an information input device.
(5)ピッキング・払い出し制御動作
 コントローラ71によるピッキング・払い出し制御動作を説明する。
 (5-1)ピッキング動作
 図3、図5~図16を用いて、ピッキング装置41のケースピッキング動作のフローを説明する。なお、模式的正面図では、図面の簡略化のため、基部61、第1パッド支持部材62は省略されている。
(5) Picking/Payout Control Operation The picking/payout control operation by the controller 71 will be described.
(5-1) Picking Operation The flow of the case picking operation of the picking device 41 will be described with reference to FIGS. 3 and 5 to 16. In the schematic front view, the base 61 and the first pad support member 62 are omitted for simplification of the drawing.
 最初に、コントローラ71により指定された小ケース5Aのピッキング位置まで、ピッキング装置41が移動する。この実施形態の小ケース5Aは、最小高さの荷物である。小ケース5Aは、1つのパレット(図示せず)の上に段積みされている。
 図3に示すように、移載テーブル57と吸着パッド59が小ケース5Aに向かって前進する。具体的には、移載テーブル57が移載テーブル駆動装置82によって前進駆動され、吸着パッド59は移載テーブル57に従って前進する。この場合、上アーム51bの下部に移載テーブル57を取り付け、上アーム51bと重複する高さに吸着パッド59を備えているので、ケース5を取り出す際に第1ラック11又は第2ラック13内に挿入する部分(例えば、上アーム51b、移載テーブル57、吸着パッド59)の厚みが小さくなっている。
 この結果、図3に示すように、最上段の小ケース5Aと棚15の天井15aとの隙間Bを小さく維持できる。
 図5に示すように、吸着パッド59が小ケース5A側に押し付けられる。具体的には、吸着パッド59が吸着パッド駆動装置84によって移載テーブル57に対して前進駆動される。そして、次に吸引が行われることで吸着パッド59が小ケース5Aを吸着する。
First, the picking device 41 moves to the picking position of the small case 5A designated by the controller 71. The small case 5A of this embodiment is a luggage having a minimum height. The small cases 5A are stacked on one pallet (not shown).
As shown in FIG. 3, the transfer table 57 and the suction pad 59 move forward toward the small case 5A. Specifically, the transfer table 57 is driven forward by the transfer table drive device 82, and the suction pad 59 moves forward according to the transfer table 57. In this case, since the transfer table 57 is attached to the lower portion of the upper arm 51b and the suction pad 59 is provided at a height overlapping with the upper arm 51b, when the case 5 is taken out, the inside of the first rack 11 or the second rack 13 is removed. The thickness of the portion (for example, the upper arm 51b, the transfer table 57, and the suction pad 59) to be inserted into is small.
As a result, as shown in FIG. 3, the gap B between the uppermost small case 5A and the ceiling 15a of the shelf 15 can be kept small.
As shown in FIG. 5, the suction pad 59 is pressed against the small case 5A side. Specifically, the suction pad 59 is driven forward by the suction pad drive device 84 with respect to the transfer table 57. Then, when suction is performed next, the suction pad 59 sucks the small case 5A.
 図6に示すように、吸着パッド59が上昇することで、小ケース5Aを持ち上げる。具体的には、吸着パッド59が吸着パッド駆動装置84によって移載テーブル57に対して上昇駆動される。なお、小ケース5Aは、前面が吸着パッド59で持ち上げられて傾いた状態になる。
 図6に示すように、移載テーブル57を前進させることで小ケース5Aの下にある隙間に差し込み、さらに移載テーブル57を前進させることで移載テーブル57の上に小ケース5Aを載せる。このとき、ローラ58が上記の通り傾いた状態の小ケース5Aの下面に当接することで、小ケース5Aは移載テーブル57の上にスムーズに移動する。
As shown in FIG. 6, the suction pad 59 rises to lift the small case 5A. Specifically, the suction pad 59 is driven upward by the suction pad drive device 84 with respect to the transfer table 57. The front surface of the small case 5A is lifted by the suction pad 59 and is inclined.
As shown in FIG. 6, the transfer table 57 is moved forward to be inserted into the gap below the small case 5A, and the transfer table 57 is further moved forward to mount the small case 5A on the transfer table 57. At this time, the roller 58 comes into contact with the lower surface of the small case 5A that is tilted as described above, so that the small case 5A moves smoothly onto the transfer table 57.
 このとき棚15に入っているのは、上アーム51bまでであって、下アーム51aは棚15内に入っていない。
 ケース5を移載テーブル57に載せる方法として、上記のように移載テーブル57をケース5の下方に差し込むので、移載テーブル57にはベルトコンベヤ等の駆動機構を設ける必要が無く、そのため薄型化が実現されている。さらに、ピッキング対象のケース5がその下のケース5に強く摺動することがないという利点がある。
 なお、移載テーブル57をケース5の下の差し込む代わりに、吸着パッド59を移載テーブル57に対して手前側に移動させることでケース5を移載テーブル57に載せてもよい。
At this time, only the upper arm 51b is in the shelf 15 and the lower arm 51a is not in the shelf 15.
As a method of mounting the case 5 on the transfer table 57, since the transfer table 57 is inserted below the case 5 as described above, it is not necessary to provide a drive mechanism such as a belt conveyor on the transfer table 57, and therefore the thickness can be reduced. Has been realized. Further, there is an advantage that the case 5 to be picked does not slide strongly on the case 5 below it.
Instead of inserting the transfer table 57 under the case 5, the case 5 may be placed on the transfer table 57 by moving the suction pad 59 to the front side with respect to the transfer table 57.
 図7に示すように、移載テーブル57をスカラアーム51側に引き込むと共に、吸着パッド59を移載テーブル57に対してスカラアーム51側に移動させる。
 図8及び図9に示すように、スカラアーム51を折りたたむことで、小ケース5Aを昇降台37a側に引き込む。このとき、スペーサ60によって、下アーム51aと移載テーブル57の干渉を防ぐことができる。
As shown in FIG. 7, the transfer table 57 is pulled toward the SCARA arm 51 side, and the suction pad 59 is moved toward the SCARA arm 51 side with respect to the transfer table 57.
As shown in FIGS. 8 and 9, by folding the SCARA arm 51, the small case 5A is pulled toward the lift table 37a. At this time, the spacer 60 can prevent the lower arm 51a and the transfer table 57 from interfering with each other.
 (5-2)払い出し動作
 続いて、昇降台37aを出庫コンベヤ17に対応する位置まで昇降させる。
 図10に示すように、移載テーブル57を第1ラック11側に移動させる。
 図11及び図12に示すように、旋回装置53を旋回することで、移載テーブル57の前端を第2ラック13側に向ける。
 図13に示すように、小ケース5Aを保持したまま、移載テーブル57を第2ラック13側に移動させる。
(5-2) Dispensing Operation Subsequently, the elevating table 37a is moved up and down to a position corresponding to the delivery conveyor 17.
As shown in FIG. 10, the transfer table 57 is moved to the first rack 11 side.
As shown in FIGS. 11 and 12, by swiveling the swivel device 53, the front end of the transfer table 57 is directed to the second rack 13 side.
As shown in FIG. 13, the transfer table 57 is moved to the second rack 13 side while holding the small case 5A.
 図14及び図15に示すように、吸着パッド59及び移載テーブル57を第2ラック13側に移動させる。
 図16に示すように、さらに吸着パッド59を移載テーブル57に対して移動させさらに吸着を解除することで、小ケース5Aを出庫コンベヤ17の上に払い出す。
As shown in FIGS. 14 and 15, the suction pad 59 and the transfer table 57 are moved to the second rack 13 side.
As shown in FIG. 16, the suction pad 59 is further moved with respect to the transfer table 57 to further release the suction, whereby the small case 5A is discharged onto the delivery conveyor 17.
2.実施形態の特徴
 上記実施形態は以下のようにも説明可能である。
 ピッキング装置41(移載装置の一例)は、棚15(棚の一例)に段積みされたケース5(荷物の一例)を移載するための装置であって、昇降台37a(基部の一例)と、下アーム51a(下アームの一例)と、上アーム51b(上アームの一例)と、移載テーブル57(移載テーブルの一例)と、吸着パッド59(吸着パッドの一例)とを備えている。
 下アーム51aは、昇降台37aに対して鉛直軸中心に旋回可能に取り付けられている。
 上アーム51bは、下アーム51aに対して鉛直軸中心に旋回可能に取り付けられている。
 移載テーブル57は、上アーム51bの先端側下部に、水平方向に進退可能にかつ鉛直軸中心に旋回可能に取り付けられている。
 吸着パッド59は、移載テーブル57の先端側において上アーム51bと側面視で重複する高さ位置に、進退可能かつ上下移動可能に取り付けられている。
2. Features of Embodiments The above embodiments can also be described as follows.
The picking device 41 (an example of a transfer device) is a device for transferring the cases 5 (an example of luggage) stacked on the shelf 15 (an example of a shelf), and is a lifting platform 37a (an example of a base). A lower arm 51a (an example of a lower arm), an upper arm 51b (an example of an upper arm), a transfer table 57 (an example of a transfer table), and a suction pad 59 (an example of a suction pad). There is.
The lower arm 51a is attached to the lifting platform 37a so as to be rotatable about a vertical axis.
The upper arm 51b is attached to the lower arm 51a so as to be rotatable about the vertical axis.
The transfer table 57 is attached to the lower portion of the upper arm 51b on the front end side so as to be capable of advancing and retracting in the horizontal direction and pivotable about the vertical axis.
The suction pad 59 is attached to the tip end side of the transfer table 57 at a height position overlapping the upper arm 51b in a side view so as to be movable back and forth and vertically movable.
 この装置では、上アーム51bの下部に移載テーブル57を取り付け、上アーム51bと重複する高さに吸着パッド59を備えることにより、ケース5を取り出す際に第1ラック11内に挿入する部分の厚みを減らすことができる。 In this device, the transfer table 57 is attached to the lower portion of the upper arm 51b, and the suction pad 59 is provided at a height overlapping with the upper arm 51b, so that the portion to be inserted into the first rack 11 when the case 5 is taken out. The thickness can be reduced.
3.他の実施形態
 以上、本発明の複数の実施形態について説明したが、本発明は上記実施形態に限定されるものではなく、発明の要旨を逸脱しない範囲で種々の変更が可能である。特に、本明細書に書かれた複数の実施形態及び変形例は必要に応じて任意に組み合せ可能である。
 前記実施形態では移載装置は自動倉庫のスタッカクレーンに設けられていたが、他の種類の搬送車又は固定位置に設けられていてもよい。
3. Other Embodiments A plurality of embodiments of the present invention have been described above, but the present invention is not limited to the above embodiments, and various modifications can be made without departing from the gist of the invention. In particular, the plurality of embodiments and modifications described in this specification can be arbitrarily combined as needed.
Although the transfer device is provided in the stacker crane of the automated warehouse in the above-described embodiment, it may be provided in another type of transport vehicle or a fixed position.
 スタッカクレーンの種類は特に限定されない。1台の昇降台が設けられたスタッカクレーンにも本発明を適用できる。
 前記実施形態では、ピッキング動作及び払い出し動作の対象は1つのケースであったが、上記2つの動作の対象は複数のケースであってもよい。
 前記実施形態では出庫コンベヤは1段であったが、複数段でもよい。
The type of stacker crane is not particularly limited. The present invention can also be applied to a stacker crane provided with one lifting platform.
In the above-described embodiment, the picking operation and the payout operation are performed in one case, but the two operations may be performed in a plurality of cases.
Although the delivery conveyor has one stage in the above embodiment, it may have a plurality of stages.
 前記実施形態では移載テーブルが第2方向に十分長いので、最も奥にあるケースをピッキングするときにも、スカラアームの下アームはラック内に入る必要が無かった。変形例として、移載テーブルが前記実施形態のものより第2方向に短くしてもよい。その場合は、例えば、手前側の荷物を取る時には下アームをラック内に入れなくてもよいが、奥側の荷物を取るときには下アームをラック内に入れることになる。
 前記実施形態ではスカラアームにおいて下アームと上アームの間にスペーサが設けられていた。変形例として、スペーサを設けなくてもよい。
In the above-described embodiment, since the transfer table is sufficiently long in the second direction, it is not necessary for the lower arm of the SCARA arm to enter the rack even when picking the innermost case. As a modification, the transfer table may be shorter in the second direction than that of the above embodiment. In that case, for example, the lower arm does not have to be put in the rack when the front side luggage is taken, but the lower arm is put in the rack when the far side luggage is taken.
In the above-described embodiment, the SCARA arm is provided with the spacer between the lower arm and the upper arm. As a modification, the spacer may not be provided.
 本発明は、段積みされた荷物を移載する移載装置に広く適用できる。 The present invention can be widely applied to a transfer device for transferring stacked loads.
1   :自動倉庫システム
3   :パレット
5   :ケース
11  :第1ラック
13  :第2ラック
15  :棚
16  :パレットステーション
17  :出庫コンベヤ
19  :走行レーン
21  :パレットクレーン
23  :ケースクレーン
25  :走行装置
27  :昇降装置
29  :移載装置
35  :走行装置
37  :昇降装置
37a :昇降台
41  :ピッキング装置
51  :スカラアーム
51a :下アーム
51b :上アーム
53  :旋回装置
57  :移載テーブル
59  :吸着パッド
60  :スペーサ
71  :コントローラ
81  :アーム駆動装置
82  :移載テーブル駆動装置
83  :吸引装置
84  :吸着パッド駆動装置
1: Automatic warehouse system 3: Pallet 5: Case 11: First rack 13: Second rack 15: Shelf 16: Pallet station 17: Outgoing conveyor 19: Travel lane 21: Pallet crane 23: Case crane 25: Traveling device 27: Lifting device 29: Transfer device 35: Traveling device 37: Lifting device 37a: Lifting platform 41: Picking device 51: Scala arm 51a: Lower arm 51b: Upper arm 53: Revolving device 57: Transfer table 59: Suction pad 60: Spacer 71: Controller 81: Arm drive device 82: Transfer table drive device 83: Suction device 84: Suction pad drive device

Claims (8)

  1.  棚に段積みされた荷物を移載するための装置であって、
     基部と、
     前記基部に対して鉛直軸中心に旋回可能に取り付けられた下アームと、
     前記下アームに対して鉛直軸中心に旋回可能に取り付けられた上アームと、
     前記上アームの先端側下部に、水平方向に進退可能にかつ鉛直軸中心に旋回可能に取り付けられた移載テーブルと、
     前記移載テーブルの先端側において前記上アームと側面視で重複する高さ位置に、進退可能かつ上下移動可能に取り付けられた吸着パッドと、
    を備えた移載装置。
    A device for transferring luggage stacked on a shelf,
    The base,
    A lower arm attached to the base so as to be pivotable about a vertical axis,
    An upper arm attached to the lower arm so as to be rotatable about the vertical axis,
    A transfer table attached to the lower end of the upper arm on the tip side so as to be capable of advancing and retracting in the horizontal direction and pivotable about the vertical axis;
    A suction pad attached to the tip end side of the transfer table at a height position overlapping with the upper arm in a side view so as to be movable back and forth and vertically movable.
    Transfer device equipped with.
  2.  前記下アーム、前記上アーム、前記移載テーブル、及び前記吸着パッドを制御するコントローラをさらに備え、
     前記コントローラは、
     前記吸着パッドを前進させ、荷物に吸着させ、該荷物を持ち上げ、
     前記移載テーブルを前進させることで該荷物の下にある隙間に差し込み、前記移載テーブルをさらに前進させることで前記移載テーブルの上に前記荷物を載せる、動作を行う、請求項1に記載の移載装置。
    Further comprising a controller for controlling the lower arm, the upper arm, the transfer table, and the suction pad,
    The controller is
    Advancing the suction pad, adsorbing to the luggage, lifting the luggage,
    2. The operation of advancing the transfer table to insert it into a gap below the luggage, and further advancing the transfer table to place the luggage on the transfer table. Transfer device.
  3.  前記下アームと前記上アームとの間に設けられた、前記移載テーブルの上下方向寸法よりも長い上下方向寸法を有するスペーサをさらに備える、請求項1に記載の移載装置。 The transfer device according to claim 1, further comprising a spacer provided between the lower arm and the upper arm, the spacer having a vertical dimension that is longer than a vertical dimension of the transfer table.
  4.  前記下アームと前記上アームとの間に設けられた、前記移載テーブルの上下方向寸法よりも長い上下方向寸法を有するスペーサをさらに備える、請求項2に記載の移載装置。 The transfer device according to claim 2, further comprising a spacer provided between the lower arm and the upper arm, the spacer having a vertical dimension longer than a vertical dimension of the transfer table.
  5.  前記移載テーブルの上を移載方向に移動可能に支持された第1パッド支持部材と、
     前記第1パッド支持部材に対して上下方向に移動可能であり、前記吸着パッドを支持する第2パッド支持部材と、をさらに備える、請求項1に記載の移載装置。
    A first pad support member movably supported on the transfer table in the transfer direction;
    The transfer device according to claim 1, further comprising a second pad support member that is vertically movable with respect to the first pad support member and supports the suction pad.
  6.  前記移載テーブルの上を移載方向に移動可能に支持された第1パッド支持部材と、
     前記第1パッド支持部材に対して上下方向に移動可能であり、前記吸着パッドを支持する第2パッド支持部材と、をさらに備える、請求項2に記載の移載装置。
    A first pad support member movably supported on the transfer table in the transfer direction;
    The transfer device according to claim 2, further comprising a second pad support member that is vertically movable with respect to the first pad support member and supports the suction pad.
  7.  前記移載テーブルの上を移載方向に移動可能に支持された第1パッド支持部材と、
     前記第1パッド支持部材に対して上下方向に移動可能であり、前記吸着パッドを支持する第2パッド支持部材と、をさらに備える、請求項3に記載の移載装置。
    A first pad support member movably supported on the transfer table in the transfer direction;
    The transfer device according to claim 3, further comprising a second pad support member that is vertically movable with respect to the first pad support member and supports the suction pad.
  8.  前記移載テーブルの上を移載方向に移動可能に支持された第1パッド支持部材と、
     前記第1パッド支持部材に対して上下方向に移動可能であり、前記吸着パッドを支持する第2パッド支持部材と、をさらに備える、請求項4に記載の移載装置。
    A first pad support member movably supported on the transfer table in the transfer direction;
    The transfer device according to claim 4, further comprising a second pad support member that is vertically movable with respect to the first pad support member and supports the suction pad.
PCT/JP2019/032485 2019-01-28 2019-08-20 Transfer apparatus WO2020158019A1 (en)

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JPS6343358B2 (en) * 1979-04-10 1988-08-30 Siemens Ag
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JP2003060010A (en) * 2001-08-08 2003-02-28 Tokyo Electron Ltd Substrate conveyance apparatus and substrate treatment system
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