CA2233505A1 - Automated storage and retrieval system for palletless dairy cases - Google Patents
Automated storage and retrieval system for palletless dairy cases Download PDFInfo
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- CA2233505A1 CA2233505A1 CA 2233505 CA2233505A CA2233505A1 CA 2233505 A1 CA2233505 A1 CA 2233505A1 CA 2233505 CA2233505 CA 2233505 CA 2233505 A CA2233505 A CA 2233505A CA 2233505 A1 CA2233505 A1 CA 2233505A1
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- storage
- support rails
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- articles
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- B—PERFORMING OPERATIONS; TRANSPORTING
- B65—CONVEYING; PACKING; STORING; HANDLING THIN OR FILAMENTARY MATERIAL
- B65G—TRANSPORT OR STORAGE DEVICES, e.g. CONVEYORS FOR LOADING OR TIPPING, SHOP CONVEYOR SYSTEMS OR PNEUMATIC TUBE CONVEYORS
- B65G1/00—Storing articles, individually or in orderly arrangement, in warehouses or magazines
- B65G1/02—Storage devices
- B65G1/04—Storage devices mechanical
- B65G1/0407—Storage devices mechanical using stacker cranes
- B65G1/0414—Storage devices mechanical using stacker cranes provided with satellite cars adapted to travel in storage racks
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- B—PERFORMING OPERATIONS; TRANSPORTING
- B65—CONVEYING; PACKING; STORING; HANDLING THIN OR FILAMENTARY MATERIAL
- B65G—TRANSPORT OR STORAGE DEVICES, e.g. CONVEYORS FOR LOADING OR TIPPING, SHOP CONVEYOR SYSTEMS OR PNEUMATIC TUBE CONVEYORS
- B65G2201/00—Indexing codes relating to handling devices, e.g. conveyors, characterised by the type of product or load being conveyed or handled
- B65G2201/02—Articles
- B65G2201/0202—Agricultural and processed food products
- B65G2201/0211—Fruits and vegetables
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- Engineering & Computer Science (AREA)
- Mechanical Engineering (AREA)
- Warehouses Or Storage Devices (AREA)
Abstract
An automated storage system for receiving, storing, and returning dairy cases (31) stored without pallets. Specifically, the automated storage system comprises an article transporter (5) which includes a shuttle (7) that deposits and retrieves dairy cases stored in storage lanes (8) of a storage rack (2) and a rail system (9) for supporting the shuttle and dairy cases stored thereon. One or more shuttles may be used in the automated storage and retrieval system and are coupled via a shuttle bridge (67). The rail system includes two or more outer support rails and two or more inner support rails for supporting the shuttle and dairy cases. The bottom flange of the rail system has a "drip pan" style to contain leakage from the dairy cases. This "drip pan" design allows personnel to walk inside the storage lanes safely.
Description
CA 02233~0S 1998-03-30 W O 98104482 PCTrUS97/13123 AUI'Ol~I~TED STORAGE AND RETRIEVAL SYSTEM
FOR PALLETLl~S DAIRY CASES
TECHNICAL FIELD
This invention is generally directed to the field of automated storage 5 systems and more particularly to an automated system for receiving, storing and returning palletless dairy cases from storage racks.
BACKGROUND
Warehouse storage of goods and articles has been known for many years. Due to the large amounts of goods that can be stored inside of a 10 warehouse, attempts have been made to create various systems and methods to track warehouse inventory and effectively retrieve particular goods from the warehouse to satisfy customer orders or ful~lll other needs such as storage and retrieval of goods in a cargo vessel. Traditionally, manpower was used to store goods in a warehouse type, multi-level system of racks and to locate and 15 retrieve specific items stored therein.
The warehousing of goods soon became more sophisticated, in that, goods were being stored in multi-level racks that stretched beyond the reach of persons standing on the ground level. With this new storing scheme, elevating equipment, such as, forklifts were needed to elevate the manpower 20 to the desired level of the warehouse rack to store or retrieve the goods nee~e~l, for example, to fill the orders of awaiting customers. The problem with this traditional warehouse operation is that many personnel were needed to operate warehouses having high storage capacities. In addition, human error CA 02233~0~ l998-03-30 resulted in goods being stored in and ~etrieved from the wrong location in the warehouse which could be costly for a company to correct. Warehouse designers attempted to use elevators to overcome the problem of storing and retrieving multi-level stacks of goods, however, certain problems still limited S warehouse production and operation. These include the limited amount of weight that one person could lift.
The industry has recognized that, in order to increase warehouse production and efficiency, an improved retrieval and storage system would be necessary to reduce the human element. By using robots and other m~chines 10 to reduce the amount o~ m~n~ labor required, a higher volume of goods could be stored or retrieved in less time and/or with less cost.
One attempt to automate storage and retrieval for w-arëhouse applications is disclosed in U.S. Patent No. 4,971,507 to Wegglaar which discloses a storage system wherein a carriage extendable from a fork-lift truck moves 15 within rails provided in a multi-tiered rack to deposi~ or retrieve palletized goods. The carriage is able to access each level of the multi-tiered rack using a vertically extending mast on the fork-lift truck. Due to the limited extensionof the mast, however, the height of the storage rack must be restricted. In addition, the system requires a person to control and operate the fork-lift truck 20 and carriage.
A further means of automating warehouse storage and retrieval is found in U.S. Patent No. 3,~24,300 to Hilger et al. which discloses a shuttle car usedto transfer an article from one station to another by a mechanism which has a CA 02233~0~ l998-03-30 WO 98A)4482 PCT/US97/13123 vertically movable bed portion and may be elevated to pick-up an article or load and lowered to deposit the same article or load.
Other automated storage and retrieval systems used in warehouse environments include U.S. Patent No. 5,333,982 to Tanizawa which teaches a S plurality of electrically driven cargo carriers that mn on multi-level routes disposed one over another between two rows of opposing assemblies of cargo storage shelves and U.S. Patent No. 4,395,181 to Loomer which discloses an automated storage system comprising a vehicle for transporting loaded pallets within a plurality of tracks that form a storage rack. The disclosed vehicle in 10 Loomer comprises extendable lift mech~ni~m~ for elevating pallets above the level of the tracks during vehicle traversal and for lowering the pallets onto support surfaces formed on the tracks for storage.
The problem with the automated systems disclosed in Loomer, Tanizawa et al. and Hilger et al. is that each system uses a separate cargo carner or 15 shuttle for each level of a storage rack resulting in a large number of required shuttles for effective operation. Due to their complexity, these types of systems are costly to manufacture, operate and m~int~in In addition, if one or more of the cars employed in the above systems breaks down, the warehouse operator would have to m~nll~lly access the goods serviced by that 20 vehicle.
An improvement on the above automated systems is found in U.S
Patent No. 5,379,229 to Parsons et al. which discloses an automated storage and retrieval system having a single storage transport able to access different tiers of a multi-tiered storage raclc to deposit or retrieve objects stored therein CA 02233~0~ l998-03-30 WO 98/04482 PCTtUS97/13123 The system, however, is limited to depositing and retrieving small objects and does not include the type of supports required for manipulating large cases of goods or articles normally stored on a pallet.
U.S. Patent No. 3,817,406 to Sawada et al., U.S. Patent No. 4,252,217 to Benjamin, and U.S. Patent No. 4,459,078 to Chiantella et al. disclose automated warehousing systems that employ a crane device in combination with a movable shuttle that is able to access each level of a storage rac~. The designs of these automated warehousing systems do not require the amount of manpower n--cess~ry to operate effectively the Wegglaar system discussed above. ~3enjamin, however, does require an operator to control the disclosed crane device. Moreover, all of the above-noted systems appear to be limited in the amount of goods that can be transported in a single "run."
In view of the above ~evices and their limitations, there remains a need for an automated storage and retrieval system that is not restricted to one movable shuttle per tier and is capable of transporting a large amount of goods from a single tier. To f~ilit~te the ability to transport large loads, there is a further need for a rail system that can accommodate multiple shuttles and can be used as a "drip pan" to collect any leakage from the goods stored on the multi-tiered storage rack.
A system design that improves upon the references cited above is provided in International Application No. PCT/EP95/00738 filed on March 1, 1995 to Upmeyer which shows a pallet shelf system having multiple tiers and comprising supporting and running guides for supporting pallets thereon and a pallet transporting car movable within the supporting and running guides for CA 02233~0~ 1998-03-30 WO 98/~4482 PCT/IJS97/13123 depositing and retrieving palletized goods. In an alternative embodiment of Upmeyer, the supporting and running guides form a running tub to provide air circulation to the palletized goods, such as perishable fruit. Two pallet transporting cars may be coupled together in the Upmeyer system for 5 movement within two adjacent channels formed by a pair of touching inner support rails for supporting a single pallet and for forming the inner guides for the coupled pallet transporting cars.
Although the Upmeyer system improves upon the systems discussed above, the inventor of the present invention has identified a need in the 10 industry for an automated storage system that is able to receive, store and retrieve high volumes of goods efficiently without the need for pallets. Palletsare cumbersome and take up space within the warehouse that can otherwise be used effectively. For example, when articles are completely removed or "picked" from a pallet, the pallet must be m~nrl~lly moved to a designated 15 return lane for later usage. The time needed to manipulate pallets decreases the efficiency of warehouse operation. Furtherrnore, pallets add to system installation costs and pallets may break and re~uire replacement which adds still further to the cost of m~int~ining warehouse operation. In addition, thereis a need for a support rail design that acts as a "drip pan" to collect leakage20 from stored goods such as dairy cases. Finally, there is still a need for an automated storage system wherein multiple shuttles may be used to facilitate transporting loads of varying sizes whether palletized or not.
CA 02233~0~ 1998-03-30 SUMMARY OF THE INVENTION
It is an object of the present invention to provide an improved automated storage system that receives, stores and returns articles without requiring the use of pallets.
5It is also an object of the present invention to provide an improved automated storage system for use in a warehouse environment that elimin~tes the need to m~n~l~lly manipulate pallets upon removing articles stored thereon.
It is a further object of the present invention to provide an improved, compact automated storage system having a support rail design that is able to 10support articles, such as dairy products, in storage without requiring the use of pallets.
It is again an object of the present invention to provide an automated storage system that achieves one or more of the above objects and also provides a rail design that collects leakage from articles, such as dairy 15products, supported thereon.
It is also an object of the present invention to provide an improved automated storage system that achieves one or more of the above objects and also provides a support rail design that is able to guide a shuttle movable within the support rail design for receiving, storing and retrieving cases of 20goods supported thereon.
It is another object of the present invention to provide an improved automated storage system having a palletless support rail design and including multiple transporting shuttles connected together to retrieve or deposit loads of varying sizes within the automated storage system.
CA 02233~0~ 1998-03-30 It is further another object of the present invention to provide an improved automated storage system that achieves one or more of the above objects and also provides a~ ~rticle transporter for vertically and horizontallymoving the multiple transporting shuttles between different levels and sections S of a storage rack to facilitate palletless article storage.
A still more speci~ic object of the subject invention is to provide a compact automated storage system having multiple storage lanes and including a set of support rails located within each storage lane, wherein the set includes a pair of outer support rails for providing vertical support to articles located in 10 stored positions within the storage lane and at least one pair of inner support rails for providing additional vertical support to the stored articles, and wherein the pair of inner support rails are spaced, respectively, from the outer supportrails by a distance sufficient to allow a transported shuttle to pass therebetween when transporting an article along the storage lane, and wherein inner support 15 rails are spaced apart by a substantial horizontal distance to provide distributed support to articles stored directly on the rails, whereby the storage system canprovide undergirding support that is adequately distributed to accommodate palletless articles.
These and other objects are achieved by a compact automated storage 20 system for receiving, storing and ~ -g palletless articles comprising a storage rack having a rigid support framework containing a plurality of open ended storage lanes having a cross sectional extent sufficient to allow the palletless articles to be conveyed into and out of the storage lanes. The open ends of the storage lanes are generally positioned adjacent a shelving pathway CA 02233~0~ l998-03-30 WO 98/04482 PCTtUS97/13123 extending along the storage rack. An article transporter is movable within the shelving pathway between loading/unloading stations in which the article transporter is alignable with corresponding open ends of the storage lanes.
Moreover, the article transporter includes at least one shuttle for moving an 5 article along a storage lane when the article transporter is aligned with the open end of the storage lane and for moving an article into and out of a stored position within the storage lane. The automated storage system further includes a plurality of support rail sets mounted on the support ~ramework, respectively, within the plurality of open ended storage !anes, each support rail 10 set including a pair of outer support rails for providing vertical support toarticles located in stored positions within the corresponding storage lane and at least one pair of inner support rails for providing additional vertical support to the articles. The pair of inner support rails are spaced, respectively, from the outer support rails by a distance sufficient to allow the shuttle to pass 15 therebetween when transporting an article along the storage lane. The inner support rails are spaced apart by a substantial horizontal distance to provide distributed support to articles stored directly on the rails, whereby the storage system can provide undel~ir~ lg support that is adequately distributed to accommodate palletless articles. The support rails also allows palleted articles20 to be triple supported to limit the deflection of the pallets and thus, increase their useful life.
In addition to the above features, the automated storage system further includes at least one bridge which connects at least two of the inner support rails and provides a support platform for supporting palletless articles stored CA 02233~0~ 1998-03-30 WO ~ PCT/US97/13123 thereon. A shuttle bridge may further be provided to connect two or more shuttles together for travelling along respective storage lanes. The shuttle bridge provides an electrical connection between the shuttles travelling within respective storage lane to provide power and other special control features.
The outer support rails and inner support rails of the support rail set are spaced apart in a manner that facilitates the storage of at least two twenty-four quart dairy cases stored side-by-side on the support rail supported without an undergirding pallet; two sixteen quart cases stored side-by-side on the support rail with or without an undergirding pallet; and articles supported by a pallet conforming with the standards of the Grocery Manufacturers Association (GMA).
In an alternative embodiment, the automated storage system may include support rail sets comprising at least two troughs forrned from galvanized steel in which one or more shuttles are movable. The support rail sets have lip portions at their side edges for guiding the dairy cases as they are moved within the storage lanes and for supporting palletless articles. This embodiment of the present invention further includes a sprinkler system positioned adjacent to the outer support rails for spraying down the trough.
The sprinkler system includes a washdown pipe and nozzle which are activated to removes leakage from the palletless articles that seep onto the troughs. The leakage is forced towards a drip pan outlet which guides the leakage to a designated area for removal. In addition, a bridge support is provided to further support palletless articles stored thereon.
In operation, the automated storage system retrieves and deposits an article using the multiple shuttles which move along the support rails until they locate a load to be moved. At this time, the multiple shuttles activate a chain conveyor included on the shuttles for engaging the article to be moved and 5 conveys or removes the article from the shuttle bed. The multiple shuttles then move within the rail system toward or away from the article transporter, dependin~ on the desired function. Once the article is on the article transporter it is carried to a de~ign~terl location in the warehouse for removal.
CA 02233~0~ 1998-03-30 BRIEF DESCRIPTION OF THE DRAWINGS
Fig. 1 shows a perspective view of the present invention used in a warehouse environment in accordance with the preferred embodiment;
Fig. 2 shows a front elevational view of the warehouse storage racks 5 and rail design used for supporting stacked goods in accordance with the preferred embodiment of the present invention;
Fig. 3a shows a m~gnified front elevational view of the rail design in the preferred embodiment of the present invention for supporting dairy cases without a pallet;
1~ Fig. 3b shows a m~gnified front elevational view of the rail design ofthe preferred embodiment of the present invention for supporting dairy cases with a pallet;
Fig. 3c shows a rr ~gnified front elevational view of the rail design of the preferred embodiment of the present invention for supporting stacl~able goods with a Grocery Manufacturers Association (GMA) pallet;
Fig. 4a shows a side elevational view of a shuttle in accordance with the preferred embodiment of the present invention;
Fig. 4b shows a plan view of two shuttles coupled together in accordance with the pl~relled embodiment of the present invention;
Fig. Sa shows a front elevational view of a distance "X" between the center rails of the ~U~)I)Ol(, rail system and two shuttles coupled together in accordance with the preferred embodiment of the present invention;
CA 02233~0~ l998-03-30 Fig 5b shows a front elevational view of a distance "X"' between the center rails of the support rail system and two shuttles coupled together in accordance with an alternative embodiment of the present invention;
Fig. Sc shows a front elevational view of the center rails of the support 5 rail system in an abutting relationship and two shuttles coupled together in accordance with an alternative embodiment of the present invention;
Fig. 6a shows a fr~nt elevational view of supporting guide rails forming a trough and having a sprinkler system for cleaning the trough periodically in accordance with an alternative embodiment of the present invention;
Fig. 6b shows a front elevational view of a storage rack having support rails with drip pans attached thereto in accordance wi~ an ~lt~ tive embodiment of the present invention;
Fig. 7 shows a front elevational view of the support rail system in a warehouse environment with dairy cases stacked thereon and two shuttles 15 coupled together in accordance with the preferred embodiment of the present invention; and Fig. 8 shows a side elevational view of the shuttlc carrying dairy cases thereon in accordance with the preferred embodiment of the present invention.
CA 02233~0~ l998-03-30 DETAILED DESCRIPTION OF THE PREFERRl~D EMBOD~MENT
Fig. 1 illustrates the preferred embodiment of the present invention which includes an automated storage and retrieval system 1 that is suitable for storing and retrieving articles, such as in a warehouse or other environments.
5 While Figure 1 illustrates a warehouse environment having palletized goods, the invention has particular utility when used to store and retneve articles, such as dairy cases, or other types of cases that are palletless. The embodiment illustrating dairy case storage is discussed in further detail with regard to Figures 2, 3a-c, 5a-c, and 7. One skilled in the art should recognize, however, 10 that the present invention may be used in any environment where automated storage and retrieval is desired for goods stored with or without pallets.
In Figure 1, automated storage system 1 is shown to include a storage rack formed from a rigid framework cont~ining a~ stacked array of generally aligned storage lanes within which articles may be received, stored and 15 retrieved. The storage system further includes an article transporter 5, and a pair of shuttles 7, carried by the transporter 5 to an applup~iate storage lane where the shuttles are adapted to deposit and retrieve articles. Within each storage lane are a set of support rails 9 upon which the articles are verticallysupported during storage. As will be explained more thoroughly below, the 20 arrangement of these support rails serves the crucial function of guiding shuttle 7 and providing distributed undergirding support to the stored articles in a waythat permits the elimin~tion of the need to use pallets in certain circumstances.
When pallets are used, the support rails provide triple support to limit the deflection of the pallets and thus, increase their useful life.
CA 02233~0~ 1998-03-30 The transporting shuttles are guided by support rails 9 to travel beneath the stored articles and to lift the articles out of contact with the support rails so that they may be carried to and from the transporter 5. The pair of shuttles are subst~n~i~lly spaced apart within at least some of the storage lanes of the 5 storage racks This arrangement is an important feature of the subject invention because it allows palletless articles, such as, dairy cases, to be stored side-by-side in an extremely compact and cost effective m~nner. The arrangement also promotes storage and retrieval of such palletless articles by allowing the support rails to provide distributed support for the stored articles 10 laterally across the lower surface of the palletless articles.
More specifically, automated storage system 1 utilizes a storage rack 2 having a rigid support framework 6 cont~ining a plurality of open ended storage lanes 8 which f~cilit~te the conveyance of palletless articles therein and there~ . The open ends of the storage lanes 8 are generally positioned 15 adjacent a shelving pathway extending along the storage rack 2.
Article transporter 5 is movable along a track 3 for guiding article transporter S along the shelving pathway extending between storage racks 2, as shown in Figure 1, and is further guided by an uppermost rail 11 on which article transporter 5 is movably attached by rollers 4 which engage rail 11 to 20 align itself with the corresponding open ends of the storage lanes 8 for depositing and retrieving stored goods. Article transporter 5 includes two vertically ext~-n-ling masts 13 which rigidly attach to a lower base member 15 that is parallel to guide rail 3. Lower base member 15 directly engages and is propelled along rail guide 3 via motors 17 which are mounted to the lower CA 02233~0~ 1998-03-30 base member and arranged to prope} transporter 5 horizontally in either direction by being rotationally linked to a support roller, not illustrated, which engages track 3. Additional support for article transporter 5 is provided by guide support bars 19 which help to secure masts 13 onto lower base member 5 15. The masts of the article transporter form a unitary, rigid structure, preferably ~ormed from metal but is suf~lciently lightweight to allow easy mobility along the storage racks.
An elevator structure 21 is positioned between and movably supported by masts 13 for movement among vertically spaced loading and unloading 1(~ stations generally aligned with the open ends of the various storage lanes 8.
The elevator structure includes a rectangular frame 23 and multiple arms 25 which support a pair of shuttles 7 discussed in still more detail below. Elevator structure 21 extends vertically to each tier of storage racks 2. Since this entire system is automated through computerized control, article transporter 5 is able 15 to locate a stack of dairy cases or a pallet that has been identified and recorded into an external computer system (not shown). Article transporter 5 is guided by comm~n~ls generated by the external computer system to the a~prv~liate storage lane for depositing or retrieving an identified stack of dairy cases stored in a lane. A multitude of article transporters may be used ~imlllt~neously 20 in a warehouse environment to facilitate a large or small amount of storage and retrieval as desired by the warehouse operator.
Shuttle 7, described more thoroughly below, provides a means for placing and retrieving articles within each storage lane. In particular, shuttle7 is carried on horizontally extending arms 25 of the article transporter 5 while CA 02233~0~ l998-03-30 WO 98/04482 PCT/U~97/13123 article transporter 5 is locating the desired storage lane 8 in storage rack 2.
Once the article transporter S has reached the loading/unloading station alignedwith the open end of the desired storage lane, shuttle 7 is activated and rolls towards the identified dairy cases for retrieval. Upon retrieving the stacked dairy cases, shuttle 7 returns back to arms 25 where the dairy cases are transported on article transporter 5 to a designated location in the warehouse for removal.
Figure 2 shows a front plan view of the set of support rails 9, associated with each storage lane, which are shown supporting stacked articles, in 10 particular, dairy cases 31. As can be seen from Figure 2, storage rack 2 includes four tiers, however, it may have more or less tiers depending on the amount of storage space desired. Dairy cases 31 are shown as stored in storage lanes 8 of the top three tiers of this ~ack structure and are sectioned accordingly. Each tier is sectioned so that one set of stacked dairy cases 31 and 15 one or more sets of support rails 9 are provided in each section. In this embodiment, an operator or worker is able to safely work on the ground floor of the warehouse below the stacked dairy cases and support rails 9. On the firsttier, directly above the oper~tor or worker, a gravity flow conveyor 27 is provided for rolling or moving the stacked dair,v cases 31 off of the article 20 transporter 5 shown in Figure 1. The gravity ~low conveyor 27 includes rollers or wheels and is declined to allow gravity to move a stack of dairy cases in a predefined direction.
Dairy cases 31, illustrated in Figure 2, are stacked side by side and six high in each storage lane 8. Depending on the con~lguration of the storage rack CA 02233~0~ 1998-03-30 structure, more rows of dairy cases may be added or removed and the dairy cases may be stacked higher or lower than six depending on the desired storage arrangement. In such a case that an additional row or rows are added to the stacked dairy cases shown in Figure 2, additional sets of support rails 9 would 5 be needed and additional shuttles 7, shown in Figure 1, would be added to facilitate removing the increased load. This feature would provide added versatility in retrieving and storing palletless and palletized goods. The ability of the present invention to remove and deposit a large volume of dairy cases at one time further increases warehouse operation efficiency. Thus, a 10 warehouse is able to satisfy a customer's order, for example, in a very efficient manner using the present invention. This feature of adding or removing automated storage components is a much needed improvement over the conventional systems noted in the Background section discussed supra.
Figures 3a, 3b and 3c show different storage configurations lltili7e-l with 15 the present invention. Figure 3a shows the preferred embodiment of the present invention by illustrating a fragmented view of dairy cases 31 resting on supportrails 9. In this embodiment, twenty four quart dairy cases are stored on supportrails 9 without a pallet. As shown in these figures, 3a-3c support rails 9 include outer support rails 30 and inner support rails 32. The outer support rails 20 include an upper lip portion 34 and a lower lip portion 38 which extend inward towards inner support rails 32. Rigidly attached to the upper portion of outer support rails 30 is an outer lip ~tt~rhment 33 which extends horizontally outward for a preflP,terminPd distance and tapers upward at its ends. Outer lip attachment 33 prevents dairy cases 31 from sliding off of support rails 9 as the WO 98/04482 P~ l/u~iy7ll3l23 dairy cases are moved within the storage lanes. In addition, the automated storage system is designed to withstand reasonable amounts of seismic activity.
In particular, outer lip ~tt~chment 33 prevents the dairy cases from vibrating off of support rails 9 during an earthquake. Moreover, outer lip ~tt~chment 33 S contains any leakage from the dairy cases stored thereon in so that the storage lanes may be subsequently cleaned.
Inner support rails 32 are positioned between outer support rails 9 and include an upper lip portion 39 and a lower lip portion 40 which extend outward towards the outer support rails 30. The inner support rails provide 10 support for various types of loads, such as dairy cases in the preferred embodiment, and other similar palletless or palletized loads. Both the outer support rails and inner support rails are m~n~lf~ct~-red from a rigid material such as galvanized steel.
Inner support rails 32 are spaced, respectively from outer support rails 15 30 by a distance sufficient to allow shuttle 7 to pass therebetween when transporting an article along a storage lane. The inner support rails are further spaced apart by a subst~nti~l horizontal ~ t~n~e to provide distributed support to dairy cases stored directly on the rails.
A bridge 65 is used to connect at least two of the inner support rails and 20 provides a support platform for supporting palletless articles stored thereon.
The bridge will be discussed in greater detail with respect to Figure 5 below.
Figure 3b shows an alternative embodiment of the present invention for storing sixteen and/or twenty four quart dairy cases 35 on support rails 9. The present invention is fiesip,n~l to store dairy cases, such as sixteen and twenty-CA 02233~0~ 1998-03-30 four quart dairy cases, directly on support rails 9 without the need for an undergirding pal}et. Although Figure 3b illustrates these types of dairy cases used with a pallet, the preferred embodiment of the present invention allows for palletless storage.
Referring now to Figure 3b, pallet 36 provides additional support for smaller dairy cases that are stacked on support rails 9. The pallet used in thisembodiment is smaller and easier to manipulate than the conventional Grocery Manufacturers Association (GMA) pallet used in the industry. As can be seen in Figure 3b, outer lip ~tt~hment 33 guides pallet 36 along the storage lanes and prevents the pallet from sliding or vibrating off of support rails 9 during seismic activity.
In a further alternative embodiment shown in Figure 3c, a GMA pallet 37 is used and stored on support rails 9. The GMA pallet 37 is a large, standard industry pallet (measuring, generally, 48" x 4~" x 5.5") and is conventionally used with forklifts to manipulate st~k~l goods stored thereon.
Because many warehouses still use the GMA pallet, the present invention has been designed to facilitate the GMA pallet design shown. Hence, automated storage system 1 provides a warehouse with a wide range of versatility with regard to product storage.
The design of Figure 3a is more pl~rel~ble in the industry because the use of pallets adds an ~ln(le~irable element to storage operation. The conventional GMA pallet 37 shown in Figure 3c tends to take up space and adds to the overall operation cost of the warehouse. For example, when articles are completely removed or "picked" from a pallet, the pallet must be WO 98/04482 PCT/US97/13~23 manually moved to a designated return lane for later usage. The time needed to manipulate pallets decreases the efficiency of warehouse operation. By storing the cases directly on the support rails, the warehouse operator can reduce the amount of storage space needed and does not have to worry about maintaining a fresh inventory of pallets. In addition, pallets can break and require replacement which adds to the cost of maintaining warehouse operation.
The lateral distances between the inner support rails of each support rail set arranged beneath each palletless article may range between five and fifty percent of the lateral distance between one outer support rail and its respective inner support rail to provide a variety of storage con~lgurations. The preferreddistance with respect to the lateral distance between the inner support rails ofone support rail set is three and seven-eighths inches. The preferred distance with respect to the lateral distance between one outer rail and its respective inner rail is seventeen inches. These distances, however, may vary depending on the desired storage con~lguration.
Figure 4a shows a side elevational view of shuttle 7 in accordance with the preferred embodiment of the present invention. The type of shuttle depicted herein is described and illustrated in International Application No.
PCT/EP95/00738 filed on March 1, 1995 to Upmeyer. An appropriate type of shuttle is m~nllf~tured by WESTFALIA-WST-SYSTEMTECHNIK GMBH
& CO. KG, Industriestrasse 11, D-33829 Borgholzhausen, Gerrnany, and sold under the trademark SATELLITE(~). Shuttle 7 is controlled through a ca~le 42 which is linked to article transporter 5. As stated above, information with CA 02233~0~ l998-03-30 regard to the storage and retrieval of dairy cases is sent f}om an external computer system (not shown) to the article transporter 5. This command information is trans~erred to shuttle 7 via cable 42 to accomplish a desired task. Shuttle 7 also receives its power through cable 42.
As shown in Figure 4a, shuttle 7 includes a series of wheels 41 which move shuttle 7 along support rails 9 as shown in Figures 5a-Sc discussed below. Wheels 41 allow forward and backward movement along support rails 9 for the storage and retrieval process. Chain conveying wheels 43 are positioned along the sides of shuttle 7 to engage chain 45 for lifting and depositing dairy cases. Rail brush wheel 44 is provided to clean support rails 9 as the shuttle moves therein. The shuttle further includes horizontal side wheels 47 which help to guide and center the shuttle by engaging the inner surface of the support rails. Upper side wheels 49 are also employed ~or this purpose.
Figure 4b illustrates a side fragmented view of two shuttles employed in the present invention. Shuttle 7 includes a propulsion motor ~1 for controlling wheels 41 and rail brush wheel 44 and a chain conveying motor ~2 for controlling chain conveying wheels 43. Both motors are powered through cable 42 and can operate in forward or reverse as desired for movement of shuttle 7 within support rails 9 or to lift or deposit a load.
As shown in Figure 4b, the shuttles are coupled together using a shuttle bridge 67 which is electrically conductive and rigidly attaches two or more shuttles together such that each shuttle moves with respect to the other. The CA 02233~0~ 1998-03-30 shuttle bridge is shorter than the length of the shuttles and rides above bridge65 during shuttle operation.
Shuttle bridge 67 contacts electrical connectors ~3 on each shut~le so that the shuttles are electrically connected. This allows power and control information supplied to one shuttle via cable 42 to be supplied to other shuttles through shuttle bridge 67. Additional shuttles may be used in connection with the two shuttles of Figure 4b should the storage lanes be designed with sufficient width and additional inner support rails be added. Such additional shuttles could be added or removed from the system as needed.
~0 Alternatively, a shuttle may be used independently within each storagelane without being coupled to other shuttles via shuttle ~ridge 67. In this embodiment, the shuttles do not have to move in unison to store or retrieve palletless articles. This embodiment, however, requires each shuttle to be powered and controlled independently through a separate cable 42. The 15 ~Ler~ ed embodiment only requires one cable 42 for powering and controlling multiple shuttles.
Figures Sa, Sb and Sc illustrate two shuttles 7 within support rails 9.
These figures are provided to illustrate different embodiments of the present invention where the ~ t~nce between the inner support rails 32 is increased or 20 decreased depending on the environrnent in which the automated storage system is used. In each embodiment, the shuttles 7 are shown from different perspectives. The left shuttle illustrates a front view of its chain conveyer components as discussed with regard to Figures 4a and 4b. The right shuttle illustrates a front view of its propulsion components as also discussed in .
CA 02233~0~ 1998-03-30 WO 98/04482 PCTIUS97tl3123 reference to Figures 4a and 4b. In the present invention, only the lateral distances between the rails are changed to accommodate various storage configurations and not the dimensions of the shuttle.
As a ~urther note, Figure 5a has been labeled completely to show the 5 components discussed above. The same labels are purposely excluded from Figures ~b and Sc since these identifled components are common to all three figures. Also common to Figures 5a-5c are bridge 65 and shuttle bridge 67 which includes downwardly extending lip portions 75 and 77 for connecting the shuttles. The horizontal section of bridge 65 covers the upper lip portions 10 of the inner support rails 32 as shown in the figures.
The distance denoted by "X" in Figure 5a represents the distance between inner support rails 32. This distance is significant, in that, these rails may be moved inwardly or outwardly to provide distributed vertical support and facilitate different types of cartons or goods stored thereon. For example, 15 when the inner support rails are positioned in close proximity to one anotherand covered by a bridge 65 that is relatively short in width the support rails 9may accommodate certain types of dairy cases or other loads which do not require a large center support, such as larger sized dairy cases. These types ofloads may include certain palletized loads where the pallet could simply rest 20 on the upper lip of the outer support rails as well as the flat upper surface of bridge 65. This design allows the pallets to be triple supported to limit deflection of the pallet and increase its useful life.
Figure ~b shows a larger distance "X"' between inner support rails 32 and is the preferred rail design for the present invention. This support rail WO 98/~4482 PCT/US97/13123 design has a longer upper bridge surface which covers the inner support rails 32 and also has a wide enough distance "X"' to facilitate the storing and retrieval of dairy cases preferably twenty-~our quarts in size. Because of the distance between outer support rails 30 and bridge 65, this rail design providesS adequate support for dairy cases having a twenty-four quart capacity. This rail design, however, also facilitates other palletized and palletless load configurations which may be stored on outer support rails 30 and inner support rails 32 via bridge 65.
Figure 5c shows another alternative embodiment of support rails 9 10 wherein inner support rails 32 are in an abutting relationship with one another.
Thus, there is no distance "X" or "X"' between the two inner support rails and bridge 65 covering the upper lip portions of inner support rails 32 is shortenedin length with respect to the above embodiments: In this design the surface area of the bridge is much smaller, thus, accornmodating further types of lS palletized and palletless loads. In addition, bridge 6~ may further be lengthened to accommodate sixteen quart dairy cases or other similar sized cases that are stored on support rails 9 without an undergirding pallet. One skilled in the art should recognize that the rail design system of the present invention may be configured in any manner which would facilitate the storage 20 of any palletized and palletless load.
Figures 6a and 6b are directed to an alternative embodiment of the present invention wherein the support rails are designed to collect leakage, if any, from the dairy cases stored thereon and remove the leakage from the support rails to a predetermined location.
CA 02233~0~ l998-03-30 Referring to Figure 6a, rail system 81 includes a double trough 82 and bridge support 84 manufactured and folded from one piece of galvanized steel.
This rail design facilitates the storage of dairy cases 31 thereon but further allows any spillage collected in the trough to be washed away using a sprinkler 5 system 83. Sprinkler system 83 includes a set of washdown pipes and nozzles for spraying down the troughs of rail system 81 either continuously or at predetermined intervals. Alternatively, rail system 81 may be cleaned manually by having personnel use the shuttles to position themselves at strategic locations on the storage racks to spray down the troughs.
The troughs are able to drain via drip pan outlet 85 shown in Figure 6b.
This drip pan outlet 85 is attached to the storage racks-and is positioned at anangle to allow the dairy case leakage to drain off into a designated area. An advantage of this embodiment is that personnel working under the storage racks will not be subjected to dairy case spillage. In essence, this embodiment of the present invention m~in~in:~ the cleanliness of the environment in which automated storage system 1 is used and provides the user witn an effective means of storing dairy cases as well as providing "self-cleaning" functionality for the warehouse facility. ln addition, the "drip pan" design of rail system 81allows personnel to walk inside the storage lanes safely.
The operation of the present invention in the preferred embodiment will now be described in detail referring to Figures 7 and 8. To retrieve a stack of dairy cases, shuttle 7 is activated via cable 42, shown in Figures 4a and 4b, while resting in the arms of article transporter 5 shown in Figure 1. Shuttle 7 begins to move along support rails 9 until the desired load is located. Upon CA 02233~0~ 1998-03-30 locating the desired load, chain 45 of shuttle 7 is activated and engages the desired load. The top plane of shuttle 7 is slightly curved to allow chain 45 toeffectively "grab" the dairy cases and pull them onto the shuttle surface7 as shown in Figure 8. The shuttle moves in the opposite direction of the chains 5 in a synchronized fashion and at the same speed to lift the dairy cases off ofthe support rails. Once the load is centered, the chains deactivate and the shuttle returns to the article transporter. For depositing a load, the method isreversed, in that, the load is carried by the shuttle to a specified location onstorage racks 2 where the load is to be deposited. At this point, chain 45 is 10 again activated and the load is "rolled off" by the conveying chain of the shuttle platform while the shuttle moves in the opposite direction of the chainsin a synchronized fashion. After depositing the load, shuttle returns to articletransporter 5.
While the invention has been described with reference to the 15 aforementioned embodiments, it should be appreciated by those skilled in the art that the invention may be practiced other~vise than as specifically described herein without departing from the spirit and scope of the invention. It is therefore understood that the spirit and scope of the invention be limited only by the appended claims.
FOR PALLETLl~S DAIRY CASES
TECHNICAL FIELD
This invention is generally directed to the field of automated storage 5 systems and more particularly to an automated system for receiving, storing and returning palletless dairy cases from storage racks.
BACKGROUND
Warehouse storage of goods and articles has been known for many years. Due to the large amounts of goods that can be stored inside of a 10 warehouse, attempts have been made to create various systems and methods to track warehouse inventory and effectively retrieve particular goods from the warehouse to satisfy customer orders or ful~lll other needs such as storage and retrieval of goods in a cargo vessel. Traditionally, manpower was used to store goods in a warehouse type, multi-level system of racks and to locate and 15 retrieve specific items stored therein.
The warehousing of goods soon became more sophisticated, in that, goods were being stored in multi-level racks that stretched beyond the reach of persons standing on the ground level. With this new storing scheme, elevating equipment, such as, forklifts were needed to elevate the manpower 20 to the desired level of the warehouse rack to store or retrieve the goods nee~e~l, for example, to fill the orders of awaiting customers. The problem with this traditional warehouse operation is that many personnel were needed to operate warehouses having high storage capacities. In addition, human error CA 02233~0~ l998-03-30 resulted in goods being stored in and ~etrieved from the wrong location in the warehouse which could be costly for a company to correct. Warehouse designers attempted to use elevators to overcome the problem of storing and retrieving multi-level stacks of goods, however, certain problems still limited S warehouse production and operation. These include the limited amount of weight that one person could lift.
The industry has recognized that, in order to increase warehouse production and efficiency, an improved retrieval and storage system would be necessary to reduce the human element. By using robots and other m~chines 10 to reduce the amount o~ m~n~ labor required, a higher volume of goods could be stored or retrieved in less time and/or with less cost.
One attempt to automate storage and retrieval for w-arëhouse applications is disclosed in U.S. Patent No. 4,971,507 to Wegglaar which discloses a storage system wherein a carriage extendable from a fork-lift truck moves 15 within rails provided in a multi-tiered rack to deposi~ or retrieve palletized goods. The carriage is able to access each level of the multi-tiered rack using a vertically extending mast on the fork-lift truck. Due to the limited extensionof the mast, however, the height of the storage rack must be restricted. In addition, the system requires a person to control and operate the fork-lift truck 20 and carriage.
A further means of automating warehouse storage and retrieval is found in U.S. Patent No. 3,~24,300 to Hilger et al. which discloses a shuttle car usedto transfer an article from one station to another by a mechanism which has a CA 02233~0~ l998-03-30 WO 98A)4482 PCT/US97/13123 vertically movable bed portion and may be elevated to pick-up an article or load and lowered to deposit the same article or load.
Other automated storage and retrieval systems used in warehouse environments include U.S. Patent No. 5,333,982 to Tanizawa which teaches a S plurality of electrically driven cargo carriers that mn on multi-level routes disposed one over another between two rows of opposing assemblies of cargo storage shelves and U.S. Patent No. 4,395,181 to Loomer which discloses an automated storage system comprising a vehicle for transporting loaded pallets within a plurality of tracks that form a storage rack. The disclosed vehicle in 10 Loomer comprises extendable lift mech~ni~m~ for elevating pallets above the level of the tracks during vehicle traversal and for lowering the pallets onto support surfaces formed on the tracks for storage.
The problem with the automated systems disclosed in Loomer, Tanizawa et al. and Hilger et al. is that each system uses a separate cargo carner or 15 shuttle for each level of a storage rack resulting in a large number of required shuttles for effective operation. Due to their complexity, these types of systems are costly to manufacture, operate and m~int~in In addition, if one or more of the cars employed in the above systems breaks down, the warehouse operator would have to m~nll~lly access the goods serviced by that 20 vehicle.
An improvement on the above automated systems is found in U.S
Patent No. 5,379,229 to Parsons et al. which discloses an automated storage and retrieval system having a single storage transport able to access different tiers of a multi-tiered storage raclc to deposit or retrieve objects stored therein CA 02233~0~ l998-03-30 WO 98/04482 PCTtUS97/13123 The system, however, is limited to depositing and retrieving small objects and does not include the type of supports required for manipulating large cases of goods or articles normally stored on a pallet.
U.S. Patent No. 3,817,406 to Sawada et al., U.S. Patent No. 4,252,217 to Benjamin, and U.S. Patent No. 4,459,078 to Chiantella et al. disclose automated warehousing systems that employ a crane device in combination with a movable shuttle that is able to access each level of a storage rac~. The designs of these automated warehousing systems do not require the amount of manpower n--cess~ry to operate effectively the Wegglaar system discussed above. ~3enjamin, however, does require an operator to control the disclosed crane device. Moreover, all of the above-noted systems appear to be limited in the amount of goods that can be transported in a single "run."
In view of the above ~evices and their limitations, there remains a need for an automated storage and retrieval system that is not restricted to one movable shuttle per tier and is capable of transporting a large amount of goods from a single tier. To f~ilit~te the ability to transport large loads, there is a further need for a rail system that can accommodate multiple shuttles and can be used as a "drip pan" to collect any leakage from the goods stored on the multi-tiered storage rack.
A system design that improves upon the references cited above is provided in International Application No. PCT/EP95/00738 filed on March 1, 1995 to Upmeyer which shows a pallet shelf system having multiple tiers and comprising supporting and running guides for supporting pallets thereon and a pallet transporting car movable within the supporting and running guides for CA 02233~0~ 1998-03-30 WO 98/~4482 PCT/IJS97/13123 depositing and retrieving palletized goods. In an alternative embodiment of Upmeyer, the supporting and running guides form a running tub to provide air circulation to the palletized goods, such as perishable fruit. Two pallet transporting cars may be coupled together in the Upmeyer system for 5 movement within two adjacent channels formed by a pair of touching inner support rails for supporting a single pallet and for forming the inner guides for the coupled pallet transporting cars.
Although the Upmeyer system improves upon the systems discussed above, the inventor of the present invention has identified a need in the 10 industry for an automated storage system that is able to receive, store and retrieve high volumes of goods efficiently without the need for pallets. Palletsare cumbersome and take up space within the warehouse that can otherwise be used effectively. For example, when articles are completely removed or "picked" from a pallet, the pallet must be m~nrl~lly moved to a designated 15 return lane for later usage. The time needed to manipulate pallets decreases the efficiency of warehouse operation. Furtherrnore, pallets add to system installation costs and pallets may break and re~uire replacement which adds still further to the cost of m~int~ining warehouse operation. In addition, thereis a need for a support rail design that acts as a "drip pan" to collect leakage20 from stored goods such as dairy cases. Finally, there is still a need for an automated storage system wherein multiple shuttles may be used to facilitate transporting loads of varying sizes whether palletized or not.
CA 02233~0~ 1998-03-30 SUMMARY OF THE INVENTION
It is an object of the present invention to provide an improved automated storage system that receives, stores and returns articles without requiring the use of pallets.
5It is also an object of the present invention to provide an improved automated storage system for use in a warehouse environment that elimin~tes the need to m~n~l~lly manipulate pallets upon removing articles stored thereon.
It is a further object of the present invention to provide an improved, compact automated storage system having a support rail design that is able to 10support articles, such as dairy products, in storage without requiring the use of pallets.
It is again an object of the present invention to provide an automated storage system that achieves one or more of the above objects and also provides a rail design that collects leakage from articles, such as dairy 15products, supported thereon.
It is also an object of the present invention to provide an improved automated storage system that achieves one or more of the above objects and also provides a support rail design that is able to guide a shuttle movable within the support rail design for receiving, storing and retrieving cases of 20goods supported thereon.
It is another object of the present invention to provide an improved automated storage system having a palletless support rail design and including multiple transporting shuttles connected together to retrieve or deposit loads of varying sizes within the automated storage system.
CA 02233~0~ 1998-03-30 It is further another object of the present invention to provide an improved automated storage system that achieves one or more of the above objects and also provides a~ ~rticle transporter for vertically and horizontallymoving the multiple transporting shuttles between different levels and sections S of a storage rack to facilitate palletless article storage.
A still more speci~ic object of the subject invention is to provide a compact automated storage system having multiple storage lanes and including a set of support rails located within each storage lane, wherein the set includes a pair of outer support rails for providing vertical support to articles located in 10 stored positions within the storage lane and at least one pair of inner support rails for providing additional vertical support to the stored articles, and wherein the pair of inner support rails are spaced, respectively, from the outer supportrails by a distance sufficient to allow a transported shuttle to pass therebetween when transporting an article along the storage lane, and wherein inner support 15 rails are spaced apart by a substantial horizontal distance to provide distributed support to articles stored directly on the rails, whereby the storage system canprovide undergirding support that is adequately distributed to accommodate palletless articles.
These and other objects are achieved by a compact automated storage 20 system for receiving, storing and ~ -g palletless articles comprising a storage rack having a rigid support framework containing a plurality of open ended storage lanes having a cross sectional extent sufficient to allow the palletless articles to be conveyed into and out of the storage lanes. The open ends of the storage lanes are generally positioned adjacent a shelving pathway CA 02233~0~ l998-03-30 WO 98/04482 PCTtUS97/13123 extending along the storage rack. An article transporter is movable within the shelving pathway between loading/unloading stations in which the article transporter is alignable with corresponding open ends of the storage lanes.
Moreover, the article transporter includes at least one shuttle for moving an 5 article along a storage lane when the article transporter is aligned with the open end of the storage lane and for moving an article into and out of a stored position within the storage lane. The automated storage system further includes a plurality of support rail sets mounted on the support ~ramework, respectively, within the plurality of open ended storage !anes, each support rail 10 set including a pair of outer support rails for providing vertical support toarticles located in stored positions within the corresponding storage lane and at least one pair of inner support rails for providing additional vertical support to the articles. The pair of inner support rails are spaced, respectively, from the outer support rails by a distance sufficient to allow the shuttle to pass 15 therebetween when transporting an article along the storage lane. The inner support rails are spaced apart by a substantial horizontal distance to provide distributed support to articles stored directly on the rails, whereby the storage system can provide undel~ir~ lg support that is adequately distributed to accommodate palletless articles. The support rails also allows palleted articles20 to be triple supported to limit the deflection of the pallets and thus, increase their useful life.
In addition to the above features, the automated storage system further includes at least one bridge which connects at least two of the inner support rails and provides a support platform for supporting palletless articles stored CA 02233~0~ 1998-03-30 WO ~ PCT/US97/13123 thereon. A shuttle bridge may further be provided to connect two or more shuttles together for travelling along respective storage lanes. The shuttle bridge provides an electrical connection between the shuttles travelling within respective storage lane to provide power and other special control features.
The outer support rails and inner support rails of the support rail set are spaced apart in a manner that facilitates the storage of at least two twenty-four quart dairy cases stored side-by-side on the support rail supported without an undergirding pallet; two sixteen quart cases stored side-by-side on the support rail with or without an undergirding pallet; and articles supported by a pallet conforming with the standards of the Grocery Manufacturers Association (GMA).
In an alternative embodiment, the automated storage system may include support rail sets comprising at least two troughs forrned from galvanized steel in which one or more shuttles are movable. The support rail sets have lip portions at their side edges for guiding the dairy cases as they are moved within the storage lanes and for supporting palletless articles. This embodiment of the present invention further includes a sprinkler system positioned adjacent to the outer support rails for spraying down the trough.
The sprinkler system includes a washdown pipe and nozzle which are activated to removes leakage from the palletless articles that seep onto the troughs. The leakage is forced towards a drip pan outlet which guides the leakage to a designated area for removal. In addition, a bridge support is provided to further support palletless articles stored thereon.
In operation, the automated storage system retrieves and deposits an article using the multiple shuttles which move along the support rails until they locate a load to be moved. At this time, the multiple shuttles activate a chain conveyor included on the shuttles for engaging the article to be moved and 5 conveys or removes the article from the shuttle bed. The multiple shuttles then move within the rail system toward or away from the article transporter, dependin~ on the desired function. Once the article is on the article transporter it is carried to a de~ign~terl location in the warehouse for removal.
CA 02233~0~ 1998-03-30 BRIEF DESCRIPTION OF THE DRAWINGS
Fig. 1 shows a perspective view of the present invention used in a warehouse environment in accordance with the preferred embodiment;
Fig. 2 shows a front elevational view of the warehouse storage racks 5 and rail design used for supporting stacked goods in accordance with the preferred embodiment of the present invention;
Fig. 3a shows a m~gnified front elevational view of the rail design in the preferred embodiment of the present invention for supporting dairy cases without a pallet;
1~ Fig. 3b shows a m~gnified front elevational view of the rail design ofthe preferred embodiment of the present invention for supporting dairy cases with a pallet;
Fig. 3c shows a rr ~gnified front elevational view of the rail design of the preferred embodiment of the present invention for supporting stacl~able goods with a Grocery Manufacturers Association (GMA) pallet;
Fig. 4a shows a side elevational view of a shuttle in accordance with the preferred embodiment of the present invention;
Fig. 4b shows a plan view of two shuttles coupled together in accordance with the pl~relled embodiment of the present invention;
Fig. Sa shows a front elevational view of a distance "X" between the center rails of the ~U~)I)Ol(, rail system and two shuttles coupled together in accordance with the preferred embodiment of the present invention;
CA 02233~0~ l998-03-30 Fig 5b shows a front elevational view of a distance "X"' between the center rails of the support rail system and two shuttles coupled together in accordance with an alternative embodiment of the present invention;
Fig. Sc shows a front elevational view of the center rails of the support 5 rail system in an abutting relationship and two shuttles coupled together in accordance with an alternative embodiment of the present invention;
Fig. 6a shows a fr~nt elevational view of supporting guide rails forming a trough and having a sprinkler system for cleaning the trough periodically in accordance with an alternative embodiment of the present invention;
Fig. 6b shows a front elevational view of a storage rack having support rails with drip pans attached thereto in accordance wi~ an ~lt~ tive embodiment of the present invention;
Fig. 7 shows a front elevational view of the support rail system in a warehouse environment with dairy cases stacked thereon and two shuttles 15 coupled together in accordance with the preferred embodiment of the present invention; and Fig. 8 shows a side elevational view of the shuttlc carrying dairy cases thereon in accordance with the preferred embodiment of the present invention.
CA 02233~0~ l998-03-30 DETAILED DESCRIPTION OF THE PREFERRl~D EMBOD~MENT
Fig. 1 illustrates the preferred embodiment of the present invention which includes an automated storage and retrieval system 1 that is suitable for storing and retrieving articles, such as in a warehouse or other environments.
5 While Figure 1 illustrates a warehouse environment having palletized goods, the invention has particular utility when used to store and retneve articles, such as dairy cases, or other types of cases that are palletless. The embodiment illustrating dairy case storage is discussed in further detail with regard to Figures 2, 3a-c, 5a-c, and 7. One skilled in the art should recognize, however, 10 that the present invention may be used in any environment where automated storage and retrieval is desired for goods stored with or without pallets.
In Figure 1, automated storage system 1 is shown to include a storage rack formed from a rigid framework cont~ining a~ stacked array of generally aligned storage lanes within which articles may be received, stored and 15 retrieved. The storage system further includes an article transporter 5, and a pair of shuttles 7, carried by the transporter 5 to an applup~iate storage lane where the shuttles are adapted to deposit and retrieve articles. Within each storage lane are a set of support rails 9 upon which the articles are verticallysupported during storage. As will be explained more thoroughly below, the 20 arrangement of these support rails serves the crucial function of guiding shuttle 7 and providing distributed undergirding support to the stored articles in a waythat permits the elimin~tion of the need to use pallets in certain circumstances.
When pallets are used, the support rails provide triple support to limit the deflection of the pallets and thus, increase their useful life.
CA 02233~0~ 1998-03-30 The transporting shuttles are guided by support rails 9 to travel beneath the stored articles and to lift the articles out of contact with the support rails so that they may be carried to and from the transporter 5. The pair of shuttles are subst~n~i~lly spaced apart within at least some of the storage lanes of the 5 storage racks This arrangement is an important feature of the subject invention because it allows palletless articles, such as, dairy cases, to be stored side-by-side in an extremely compact and cost effective m~nner. The arrangement also promotes storage and retrieval of such palletless articles by allowing the support rails to provide distributed support for the stored articles 10 laterally across the lower surface of the palletless articles.
More specifically, automated storage system 1 utilizes a storage rack 2 having a rigid support framework 6 cont~ining a plurality of open ended storage lanes 8 which f~cilit~te the conveyance of palletless articles therein and there~ . The open ends of the storage lanes 8 are generally positioned 15 adjacent a shelving pathway extending along the storage rack 2.
Article transporter 5 is movable along a track 3 for guiding article transporter S along the shelving pathway extending between storage racks 2, as shown in Figure 1, and is further guided by an uppermost rail 11 on which article transporter 5 is movably attached by rollers 4 which engage rail 11 to 20 align itself with the corresponding open ends of the storage lanes 8 for depositing and retrieving stored goods. Article transporter 5 includes two vertically ext~-n-ling masts 13 which rigidly attach to a lower base member 15 that is parallel to guide rail 3. Lower base member 15 directly engages and is propelled along rail guide 3 via motors 17 which are mounted to the lower CA 02233~0~ 1998-03-30 base member and arranged to prope} transporter 5 horizontally in either direction by being rotationally linked to a support roller, not illustrated, which engages track 3. Additional support for article transporter 5 is provided by guide support bars 19 which help to secure masts 13 onto lower base member 5 15. The masts of the article transporter form a unitary, rigid structure, preferably ~ormed from metal but is suf~lciently lightweight to allow easy mobility along the storage racks.
An elevator structure 21 is positioned between and movably supported by masts 13 for movement among vertically spaced loading and unloading 1(~ stations generally aligned with the open ends of the various storage lanes 8.
The elevator structure includes a rectangular frame 23 and multiple arms 25 which support a pair of shuttles 7 discussed in still more detail below. Elevator structure 21 extends vertically to each tier of storage racks 2. Since this entire system is automated through computerized control, article transporter 5 is able 15 to locate a stack of dairy cases or a pallet that has been identified and recorded into an external computer system (not shown). Article transporter 5 is guided by comm~n~ls generated by the external computer system to the a~prv~liate storage lane for depositing or retrieving an identified stack of dairy cases stored in a lane. A multitude of article transporters may be used ~imlllt~neously 20 in a warehouse environment to facilitate a large or small amount of storage and retrieval as desired by the warehouse operator.
Shuttle 7, described more thoroughly below, provides a means for placing and retrieving articles within each storage lane. In particular, shuttle7 is carried on horizontally extending arms 25 of the article transporter 5 while CA 02233~0~ l998-03-30 WO 98/04482 PCT/U~97/13123 article transporter 5 is locating the desired storage lane 8 in storage rack 2.
Once the article transporter S has reached the loading/unloading station alignedwith the open end of the desired storage lane, shuttle 7 is activated and rolls towards the identified dairy cases for retrieval. Upon retrieving the stacked dairy cases, shuttle 7 returns back to arms 25 where the dairy cases are transported on article transporter 5 to a designated location in the warehouse for removal.
Figure 2 shows a front plan view of the set of support rails 9, associated with each storage lane, which are shown supporting stacked articles, in 10 particular, dairy cases 31. As can be seen from Figure 2, storage rack 2 includes four tiers, however, it may have more or less tiers depending on the amount of storage space desired. Dairy cases 31 are shown as stored in storage lanes 8 of the top three tiers of this ~ack structure and are sectioned accordingly. Each tier is sectioned so that one set of stacked dairy cases 31 and 15 one or more sets of support rails 9 are provided in each section. In this embodiment, an operator or worker is able to safely work on the ground floor of the warehouse below the stacked dairy cases and support rails 9. On the firsttier, directly above the oper~tor or worker, a gravity flow conveyor 27 is provided for rolling or moving the stacked dair,v cases 31 off of the article 20 transporter 5 shown in Figure 1. The gravity ~low conveyor 27 includes rollers or wheels and is declined to allow gravity to move a stack of dairy cases in a predefined direction.
Dairy cases 31, illustrated in Figure 2, are stacked side by side and six high in each storage lane 8. Depending on the con~lguration of the storage rack CA 02233~0~ 1998-03-30 structure, more rows of dairy cases may be added or removed and the dairy cases may be stacked higher or lower than six depending on the desired storage arrangement. In such a case that an additional row or rows are added to the stacked dairy cases shown in Figure 2, additional sets of support rails 9 would 5 be needed and additional shuttles 7, shown in Figure 1, would be added to facilitate removing the increased load. This feature would provide added versatility in retrieving and storing palletless and palletized goods. The ability of the present invention to remove and deposit a large volume of dairy cases at one time further increases warehouse operation efficiency. Thus, a 10 warehouse is able to satisfy a customer's order, for example, in a very efficient manner using the present invention. This feature of adding or removing automated storage components is a much needed improvement over the conventional systems noted in the Background section discussed supra.
Figures 3a, 3b and 3c show different storage configurations lltili7e-l with 15 the present invention. Figure 3a shows the preferred embodiment of the present invention by illustrating a fragmented view of dairy cases 31 resting on supportrails 9. In this embodiment, twenty four quart dairy cases are stored on supportrails 9 without a pallet. As shown in these figures, 3a-3c support rails 9 include outer support rails 30 and inner support rails 32. The outer support rails 20 include an upper lip portion 34 and a lower lip portion 38 which extend inward towards inner support rails 32. Rigidly attached to the upper portion of outer support rails 30 is an outer lip ~tt~rhment 33 which extends horizontally outward for a preflP,terminPd distance and tapers upward at its ends. Outer lip attachment 33 prevents dairy cases 31 from sliding off of support rails 9 as the WO 98/04482 P~ l/u~iy7ll3l23 dairy cases are moved within the storage lanes. In addition, the automated storage system is designed to withstand reasonable amounts of seismic activity.
In particular, outer lip ~tt~chment 33 prevents the dairy cases from vibrating off of support rails 9 during an earthquake. Moreover, outer lip ~tt~chment 33 S contains any leakage from the dairy cases stored thereon in so that the storage lanes may be subsequently cleaned.
Inner support rails 32 are positioned between outer support rails 9 and include an upper lip portion 39 and a lower lip portion 40 which extend outward towards the outer support rails 30. The inner support rails provide 10 support for various types of loads, such as dairy cases in the preferred embodiment, and other similar palletless or palletized loads. Both the outer support rails and inner support rails are m~n~lf~ct~-red from a rigid material such as galvanized steel.
Inner support rails 32 are spaced, respectively from outer support rails 15 30 by a distance sufficient to allow shuttle 7 to pass therebetween when transporting an article along a storage lane. The inner support rails are further spaced apart by a subst~nti~l horizontal ~ t~n~e to provide distributed support to dairy cases stored directly on the rails.
A bridge 65 is used to connect at least two of the inner support rails and 20 provides a support platform for supporting palletless articles stored thereon.
The bridge will be discussed in greater detail with respect to Figure 5 below.
Figure 3b shows an alternative embodiment of the present invention for storing sixteen and/or twenty four quart dairy cases 35 on support rails 9. The present invention is fiesip,n~l to store dairy cases, such as sixteen and twenty-CA 02233~0~ 1998-03-30 four quart dairy cases, directly on support rails 9 without the need for an undergirding pal}et. Although Figure 3b illustrates these types of dairy cases used with a pallet, the preferred embodiment of the present invention allows for palletless storage.
Referring now to Figure 3b, pallet 36 provides additional support for smaller dairy cases that are stacked on support rails 9. The pallet used in thisembodiment is smaller and easier to manipulate than the conventional Grocery Manufacturers Association (GMA) pallet used in the industry. As can be seen in Figure 3b, outer lip ~tt~hment 33 guides pallet 36 along the storage lanes and prevents the pallet from sliding or vibrating off of support rails 9 during seismic activity.
In a further alternative embodiment shown in Figure 3c, a GMA pallet 37 is used and stored on support rails 9. The GMA pallet 37 is a large, standard industry pallet (measuring, generally, 48" x 4~" x 5.5") and is conventionally used with forklifts to manipulate st~k~l goods stored thereon.
Because many warehouses still use the GMA pallet, the present invention has been designed to facilitate the GMA pallet design shown. Hence, automated storage system 1 provides a warehouse with a wide range of versatility with regard to product storage.
The design of Figure 3a is more pl~rel~ble in the industry because the use of pallets adds an ~ln(le~irable element to storage operation. The conventional GMA pallet 37 shown in Figure 3c tends to take up space and adds to the overall operation cost of the warehouse. For example, when articles are completely removed or "picked" from a pallet, the pallet must be WO 98/04482 PCT/US97/13~23 manually moved to a designated return lane for later usage. The time needed to manipulate pallets decreases the efficiency of warehouse operation. By storing the cases directly on the support rails, the warehouse operator can reduce the amount of storage space needed and does not have to worry about maintaining a fresh inventory of pallets. In addition, pallets can break and require replacement which adds to the cost of maintaining warehouse operation.
The lateral distances between the inner support rails of each support rail set arranged beneath each palletless article may range between five and fifty percent of the lateral distance between one outer support rail and its respective inner support rail to provide a variety of storage con~lgurations. The preferreddistance with respect to the lateral distance between the inner support rails ofone support rail set is three and seven-eighths inches. The preferred distance with respect to the lateral distance between one outer rail and its respective inner rail is seventeen inches. These distances, however, may vary depending on the desired storage con~lguration.
Figure 4a shows a side elevational view of shuttle 7 in accordance with the preferred embodiment of the present invention. The type of shuttle depicted herein is described and illustrated in International Application No.
PCT/EP95/00738 filed on March 1, 1995 to Upmeyer. An appropriate type of shuttle is m~nllf~tured by WESTFALIA-WST-SYSTEMTECHNIK GMBH
& CO. KG, Industriestrasse 11, D-33829 Borgholzhausen, Gerrnany, and sold under the trademark SATELLITE(~). Shuttle 7 is controlled through a ca~le 42 which is linked to article transporter 5. As stated above, information with CA 02233~0~ l998-03-30 regard to the storage and retrieval of dairy cases is sent f}om an external computer system (not shown) to the article transporter 5. This command information is trans~erred to shuttle 7 via cable 42 to accomplish a desired task. Shuttle 7 also receives its power through cable 42.
As shown in Figure 4a, shuttle 7 includes a series of wheels 41 which move shuttle 7 along support rails 9 as shown in Figures 5a-Sc discussed below. Wheels 41 allow forward and backward movement along support rails 9 for the storage and retrieval process. Chain conveying wheels 43 are positioned along the sides of shuttle 7 to engage chain 45 for lifting and depositing dairy cases. Rail brush wheel 44 is provided to clean support rails 9 as the shuttle moves therein. The shuttle further includes horizontal side wheels 47 which help to guide and center the shuttle by engaging the inner surface of the support rails. Upper side wheels 49 are also employed ~or this purpose.
Figure 4b illustrates a side fragmented view of two shuttles employed in the present invention. Shuttle 7 includes a propulsion motor ~1 for controlling wheels 41 and rail brush wheel 44 and a chain conveying motor ~2 for controlling chain conveying wheels 43. Both motors are powered through cable 42 and can operate in forward or reverse as desired for movement of shuttle 7 within support rails 9 or to lift or deposit a load.
As shown in Figure 4b, the shuttles are coupled together using a shuttle bridge 67 which is electrically conductive and rigidly attaches two or more shuttles together such that each shuttle moves with respect to the other. The CA 02233~0~ 1998-03-30 shuttle bridge is shorter than the length of the shuttles and rides above bridge65 during shuttle operation.
Shuttle bridge 67 contacts electrical connectors ~3 on each shut~le so that the shuttles are electrically connected. This allows power and control information supplied to one shuttle via cable 42 to be supplied to other shuttles through shuttle bridge 67. Additional shuttles may be used in connection with the two shuttles of Figure 4b should the storage lanes be designed with sufficient width and additional inner support rails be added. Such additional shuttles could be added or removed from the system as needed.
~0 Alternatively, a shuttle may be used independently within each storagelane without being coupled to other shuttles via shuttle ~ridge 67. In this embodiment, the shuttles do not have to move in unison to store or retrieve palletless articles. This embodiment, however, requires each shuttle to be powered and controlled independently through a separate cable 42. The 15 ~Ler~ ed embodiment only requires one cable 42 for powering and controlling multiple shuttles.
Figures Sa, Sb and Sc illustrate two shuttles 7 within support rails 9.
These figures are provided to illustrate different embodiments of the present invention where the ~ t~nce between the inner support rails 32 is increased or 20 decreased depending on the environrnent in which the automated storage system is used. In each embodiment, the shuttles 7 are shown from different perspectives. The left shuttle illustrates a front view of its chain conveyer components as discussed with regard to Figures 4a and 4b. The right shuttle illustrates a front view of its propulsion components as also discussed in .
CA 02233~0~ 1998-03-30 WO 98/04482 PCTIUS97tl3123 reference to Figures 4a and 4b. In the present invention, only the lateral distances between the rails are changed to accommodate various storage configurations and not the dimensions of the shuttle.
As a ~urther note, Figure 5a has been labeled completely to show the 5 components discussed above. The same labels are purposely excluded from Figures ~b and Sc since these identifled components are common to all three figures. Also common to Figures 5a-5c are bridge 65 and shuttle bridge 67 which includes downwardly extending lip portions 75 and 77 for connecting the shuttles. The horizontal section of bridge 65 covers the upper lip portions 10 of the inner support rails 32 as shown in the figures.
The distance denoted by "X" in Figure 5a represents the distance between inner support rails 32. This distance is significant, in that, these rails may be moved inwardly or outwardly to provide distributed vertical support and facilitate different types of cartons or goods stored thereon. For example, 15 when the inner support rails are positioned in close proximity to one anotherand covered by a bridge 65 that is relatively short in width the support rails 9may accommodate certain types of dairy cases or other loads which do not require a large center support, such as larger sized dairy cases. These types ofloads may include certain palletized loads where the pallet could simply rest 20 on the upper lip of the outer support rails as well as the flat upper surface of bridge 65. This design allows the pallets to be triple supported to limit deflection of the pallet and increase its useful life.
Figure ~b shows a larger distance "X"' between inner support rails 32 and is the preferred rail design for the present invention. This support rail WO 98/~4482 PCT/US97/13123 design has a longer upper bridge surface which covers the inner support rails 32 and also has a wide enough distance "X"' to facilitate the storing and retrieval of dairy cases preferably twenty-~our quarts in size. Because of the distance between outer support rails 30 and bridge 65, this rail design providesS adequate support for dairy cases having a twenty-four quart capacity. This rail design, however, also facilitates other palletized and palletless load configurations which may be stored on outer support rails 30 and inner support rails 32 via bridge 65.
Figure 5c shows another alternative embodiment of support rails 9 10 wherein inner support rails 32 are in an abutting relationship with one another.
Thus, there is no distance "X" or "X"' between the two inner support rails and bridge 65 covering the upper lip portions of inner support rails 32 is shortenedin length with respect to the above embodiments: In this design the surface area of the bridge is much smaller, thus, accornmodating further types of lS palletized and palletless loads. In addition, bridge 6~ may further be lengthened to accommodate sixteen quart dairy cases or other similar sized cases that are stored on support rails 9 without an undergirding pallet. One skilled in the art should recognize that the rail design system of the present invention may be configured in any manner which would facilitate the storage 20 of any palletized and palletless load.
Figures 6a and 6b are directed to an alternative embodiment of the present invention wherein the support rails are designed to collect leakage, if any, from the dairy cases stored thereon and remove the leakage from the support rails to a predetermined location.
CA 02233~0~ l998-03-30 Referring to Figure 6a, rail system 81 includes a double trough 82 and bridge support 84 manufactured and folded from one piece of galvanized steel.
This rail design facilitates the storage of dairy cases 31 thereon but further allows any spillage collected in the trough to be washed away using a sprinkler 5 system 83. Sprinkler system 83 includes a set of washdown pipes and nozzles for spraying down the troughs of rail system 81 either continuously or at predetermined intervals. Alternatively, rail system 81 may be cleaned manually by having personnel use the shuttles to position themselves at strategic locations on the storage racks to spray down the troughs.
The troughs are able to drain via drip pan outlet 85 shown in Figure 6b.
This drip pan outlet 85 is attached to the storage racks-and is positioned at anangle to allow the dairy case leakage to drain off into a designated area. An advantage of this embodiment is that personnel working under the storage racks will not be subjected to dairy case spillage. In essence, this embodiment of the present invention m~in~in:~ the cleanliness of the environment in which automated storage system 1 is used and provides the user witn an effective means of storing dairy cases as well as providing "self-cleaning" functionality for the warehouse facility. ln addition, the "drip pan" design of rail system 81allows personnel to walk inside the storage lanes safely.
The operation of the present invention in the preferred embodiment will now be described in detail referring to Figures 7 and 8. To retrieve a stack of dairy cases, shuttle 7 is activated via cable 42, shown in Figures 4a and 4b, while resting in the arms of article transporter 5 shown in Figure 1. Shuttle 7 begins to move along support rails 9 until the desired load is located. Upon CA 02233~0~ 1998-03-30 locating the desired load, chain 45 of shuttle 7 is activated and engages the desired load. The top plane of shuttle 7 is slightly curved to allow chain 45 toeffectively "grab" the dairy cases and pull them onto the shuttle surface7 as shown in Figure 8. The shuttle moves in the opposite direction of the chains 5 in a synchronized fashion and at the same speed to lift the dairy cases off ofthe support rails. Once the load is centered, the chains deactivate and the shuttle returns to the article transporter. For depositing a load, the method isreversed, in that, the load is carried by the shuttle to a specified location onstorage racks 2 where the load is to be deposited. At this point, chain 45 is 10 again activated and the load is "rolled off" by the conveying chain of the shuttle platform while the shuttle moves in the opposite direction of the chainsin a synchronized fashion. After depositing the load, shuttle returns to articletransporter 5.
While the invention has been described with reference to the 15 aforementioned embodiments, it should be appreciated by those skilled in the art that the invention may be practiced other~vise than as specifically described herein without departing from the spirit and scope of the invention. It is therefore understood that the spirit and scope of the invention be limited only by the appended claims.
Claims
WHAT IS CLAIMED IS:
1. A compact automated storage system for receiving, storing and returning palletless articles, comprising:
a storage rack having a rigid support framework containing a plurality of open ended storage lanes having a cross sectional extent sufficient to allow the palletless articles to be conveyed into and out of said storage lanes, said open ends of said storage lanes being generally positioned adjacent a shelving pathway extending along said storage rack;
an article transporter, movable within said shelving pathway, between loading/unloading stations in which said article transporter is alignable with corresponding open ends of said storage lanes, said article transporter including at least one shuttle means for moving an article along a storage lane when said article transporter is aligned with the open end of said storage lane and for vertically moving an article into and out of a stored position within said storage lane; and a plurality of support rail sets mounted on said support framework, respectively, within said plurality of open ended storage lanes, each said support rail set including a pair of outer support rails for providing vertical support to articles located in stored positions within the corresponding said storage lane and at least one pair of inner support rails for providing additional vertical support to said articles, said pair of inner support rails being spaced, respectively, from said outer support rails by a distance sufficient to allow said shuttle means to pass therebetween when transporting an article along said storage lane, said inner support rails being spaced apart by a substantial horizontal distance to provide distributed support to articles stored directly on said rails, whereby said storage system can provide undergirding support that is adequately distributed to accommodate palletless articles.
2. The system of claim 1 further comprising a bridge means which connects at least two of said inner support rails and provides a support platform for supporting palletless articles stored thereon.
3. The system of claim 1 wherein said outer support rails and said inner support rails of said support rail set are spaced apart in a manner that facilitates the storage of at least one of the following:
at least two twenty-four quart dairy cases stored side-by-side on said support rail set supported without an undergirding pallet;
at least two sixteen quart cases stored side-by-side on said support rail set; and articles supported by a pallet conforming with the standards of the Grocery Manufacturers Association.
4. The system of claim 3 wherein said at least two sixteen quart cases are supported with an undergirding pallet.
5. The system of claim 1 wherein the horizontal distance between said inner support rails ranges from 0.5 inches to 5.0 inches.
6. The system of claim 1 wherein said outer support rails include an upper lip portion and a lower lip portion which extend inward towards said inner support rails.
7. The system of claim 1 wherein said inner support rails include an upper lip portion and a lower lip portion which extend outward towards said outer support rails.
8. The system of claim 1 wherein said support rail sets comprise at least two troughs formed from galvanized steel in which said shuttle means is movable, said support rail sets having lip portions at its side edges for preventing the palletless articles from sliding and vibrating off of said support rail sets.
9. The system of claim 8 wherein said automated storage system further includes a sprinkler means positioned adjacent to said outer support rails for spraying down the trough, said sprinkler means including a washdown pipe and nozzle.
10. The system of claim 6 wherein said outer support rails include an outer lip attachment that is rigidly attached to the upper portion of said outer support rails for preventing the palletless articles from sliding and vibrating off of said support rail sets.
11. The system of claim 1 wherein the lateral distance between the inner support rails of each support rail set arranged beneath each palletless article is between five and fifty percent of the lateral distance between one outer support rail and its respective inner support rail.
12. A compact automated storage system for receiving, storing and returning palletless articles, comprising:
a storage rack having a rigid support framework containing a plurality of open ended storage lanes having a cross sectional extent sufficient to allow the palletless articles to be conveyed into and out of said storage lanes;
a plurality of support rail sets mounted on said support framework, respectively, within said plurality of open ended storage lanes, each said support rail set including a pair of outer support rails for providing vertical support to articles located in stored positions within the corresponding said storage lane and at least one pair of inner support rails for providing additional vertical support to said articles, said pair of inner support rails being spaced, respectively, from said outer support rails by a distance sufficient to define channels therebetween, said inner support rails being spaced apart by a substantial horizontal distance to provide distributed support to articles stored directly on said rails; and at least two shuttle means adapted to pass through the pair channels formed by each said support rail set for moving an article along a corresponding storage lane, whereby said at least two shuttle means may be moved in unison to retrieve, store and return palletless articles simultaneously.
13. The system of claim 12 further comprising a bridge means which connects at least two of said inner support rails and provides a support platform for supporting palletless articles stored thereon.
14. The system of claim 12 wherein said outer support rails and said inner support rails of said support rail set are spaced apart in a manner that facilitates the storage of at least one of the following:
at least two twenty-four quart dairy cases stored side-by-side on said support rail set supported without an undergirding pallet;
at least two sixteen quart cases stored side-by-side on said support rail set; and articles supported by a pallet conforming with the standards of the Grocery Manufacturers Association.
15. The system of claim 14 wherein said at least two sixteen quart cases are supported with an undergirding pallet.
16. The system of claim 12 wherein the horizontal distance between said inner support rails ranges from 0.5 inches to 5.0 inches.
17. The system of claim 12 wherein said outer support rails include an upper lip portion and a lower lip portion which extend inward towards said inner support rails.
18. The system of claim 12 wherein said inner support rails include an upper lip portion and a lower lip portion which extend outward towards said outer support rails.
19. The system of claim 12 wherein said support rail sets comprise at least two troughs formed from galvanized steel in which said shuttle means is movable, said support rail sets having lip portions at its side edges for preventing the palletless articles from sliding and vibrating off of said support rail sets.
20. The system of claim 19 wherein said automated storage system further includes a sprinkler means positioned adjacent to said outer support rails for spraying down the trough, said sprinkler means including a washdown pipe and nozzle.
21. The system of claim 17 wherein said outer support rails include an outer lip attachment that is rigidly attached to the upper portion of said outer support rails for preventing the palletless articles from sliding and vibrating off of said support rail sets.
22. The system of claim 12 wherein the lateral distance between the inner support rails of each support rail set arranged beneath each palletless article is between five and fifty percent of the lateral distance between one outer support rail and its respective inner support rail.
23. A compact automated storage system for receiving, storing and returning articles, comprising:
a storage rack having a multi-tiered rigid support framework containing a plurality of open ended storage lanes having a cross-sectional extent sufficient to allow the articles to be conveyed into and out of said storage lanes, said open ends of said storage lanes being generally positioned adjacent a shelving pathway extending along said storage rack, said framework further including a drip pan means rigidly attached to an end of at least one of said storage lanes, said drip pan means being inclined with respect to said storage lanes;
an article transporter, movable within said shelving pathway, between loading/unloading stations in which said article transporter is alignable with corresponding open ends of said storage lanes, said article transporter including a plurality of shuttle means for moving an article along a storage lane when said article transporter is aligned with the open end of said storage lane and for vertically moving an article to and from any tier of the multi-tiered framework;
a support rail means mounted on said support framework, respectively, within said plurality of open ended storage lanes, each of said support rail means is formed to include at least two troughs having a pair of outer support rails for providing vertical support to articles located in stored positions within the corresponding said storage lane and at least one pair of inner support railsfor providing additional vertical support to said articles, said outer support rails and said inner support rails being continuously connected by bottom portions which extend the length of said outer support rails and said inner support rails, said pair of inner support rails being spaced, respectively, from said outer support rails by a distance sufficient to allow said shuttle means to pass therebetween when transporting an article along said storage lane, said inner support rails being spaced apart by a substantial horizontal distance to providedistributed support to articles stored directly on said rails; and a cleaning means connected to said rigid framework and positioned adjacent said support rail means to clean said support rail means as desired, wherein said cleaning means may be used to remove any leakage from said articles trapped in said troughs.
24. The system of claim 23 wherein said support rail means further includes a bridge support which connects at least two of said inner support rails and provides a support platform for supporting articles stored thereon.
26. The system of claim 23 wherein said support rail means is formed from a single piece of galvanized steel.
27. The system of claim 23 wherein said outer support rails and said inner support rails of said support rail means are spaced apart in a manner thatfacilitates the storage of at least one of the following:
at least two twenty-four quart dairy cases stored side-by-side on said support rail set supported without an undergirding pallet;
at least two sixteen quart cases stored side-by-side on said support rail set; and articles supported by a pallet conforming with the standards of the Grocery Manufacturers Association.
28. The system of claim 27 wherein said at least two sixteen quart cases are supported with an undergirding pallet.
29. The system of claim 23 wherein the horizontal distance between said inner support rails ranges from 0.5 inches to 5.0 inches.
30. The system of claim 23 wherein said cleaning means includes a washdown pipe and a nozzle, 31. The system of claim 23 wherein the lateral distance between the inner support rails of each support rail set arranged beneath each palletless article is between five and fifty percent of the lateral distance between one outer support rail and its respective inner support rail.
31. A compact automated storage system for receiving, storing and returning articles, comprising:
a storage rack having a rigid support framework containing a plurality of open ended storage lanes having a cross sectional extent sufficient to allow the articles to be conveyed into and out of said storage lanes, said open ends of said storage lanes being generally positioned adjacent a shelving pathway extending along said storage rack;
an article transporting means, movable within said shelving pathway, between loading/unloading stations in which said article transporting means is alignable with corresponding open ends of said storage lanes, said article transporting means including a plurality of shuttles for moving an article alonga storage lane when said article transporting means is aligned with the open end of said storage lane and for vertically moving an article into and out of a stored position within said storage lane;
a plurality of support rail sets mounted on said support framework, respectively, within said plurality of open ended storage lanes, each said support rail set including a pair of outer support rails for providing vertical support to articles located in stored positions within the corresponding said storage lane and at least one pair of inner support rails for providing additional vertical support to said articles, said pair of inner support rails being spaced, respectively, from said outer support rails by a distance sufficient to allow said shuttle means to pass therebetween when transporting an article along said storage lane, said inner support rails being spaced apart by a substantial horizontal distance to provide distributed support to articles stored directly on said rails; and a bridge means extending between said inner support rails for providing a support platform for said articles stored thereon.
32. The system of claim 31 wherein said outer support rails and said inner support rails of said support rail set are spaced apart in a manner that facilitates the storage of at least one of the following:
at least two twenty-four quart dairy cases stored side-by-side on said support rail set supported without an undergirding pallet;
at least two sixteen quart cases stored side-by-side on said support rail set; and articles supported by a pallet conforming with the standards of the Grocery Manufacturers Association.
33. The system of claim 32 wherein said at least two sixteen quart cases are supported with an undergirding pallet.
34. The system of claim 31 wherein the horizontal distance between said inner support rails ranges from 0.5 inches to 5.0 inches.
35. The system of claim 31 wherein said outer support rails include an upper lip portion and a lower lip portion which extend inward towards said inner support rails.
36. The system of claim 31 wherein said inner support rails include an upper lip portion and a lower lip portion which extend outward towards said outer support rails.
37. The system of claim 31 wherein said support rail sets comprise at least two troughs formed from galvanized steel in which said shuttle means is movable, said support rail sets having lip portions at its side edges for preventing the palletless articles from sliding and vibrating off of said support rail sets.
38. The system of claim 37 wherein said automated storage system, further includes a sprinkler means positioned adjacent to said outer support rails for spraying down the trough, said sprinkler means including a washdown pipe and nozzle.
39. The system of claim 35 wherein said outer support rails include an outer lip attachment that is rigidly attached to the upper portion of said outer support rails for preventing the palletless articles from sliding and vibrating off of said support rail sets.
40. The system of claim 31 wherein the lateral distance between the inner support rails of each support rail set arranged beneath each palletless article is between five and fifty percent of the lateral distance between one outer support rail and its respective inner support rail.
1. A compact automated storage system for receiving, storing and returning palletless articles, comprising:
a storage rack having a rigid support framework containing a plurality of open ended storage lanes having a cross sectional extent sufficient to allow the palletless articles to be conveyed into and out of said storage lanes, said open ends of said storage lanes being generally positioned adjacent a shelving pathway extending along said storage rack;
an article transporter, movable within said shelving pathway, between loading/unloading stations in which said article transporter is alignable with corresponding open ends of said storage lanes, said article transporter including at least one shuttle means for moving an article along a storage lane when said article transporter is aligned with the open end of said storage lane and for vertically moving an article into and out of a stored position within said storage lane; and a plurality of support rail sets mounted on said support framework, respectively, within said plurality of open ended storage lanes, each said support rail set including a pair of outer support rails for providing vertical support to articles located in stored positions within the corresponding said storage lane and at least one pair of inner support rails for providing additional vertical support to said articles, said pair of inner support rails being spaced, respectively, from said outer support rails by a distance sufficient to allow said shuttle means to pass therebetween when transporting an article along said storage lane, said inner support rails being spaced apart by a substantial horizontal distance to provide distributed support to articles stored directly on said rails, whereby said storage system can provide undergirding support that is adequately distributed to accommodate palletless articles.
2. The system of claim 1 further comprising a bridge means which connects at least two of said inner support rails and provides a support platform for supporting palletless articles stored thereon.
3. The system of claim 1 wherein said outer support rails and said inner support rails of said support rail set are spaced apart in a manner that facilitates the storage of at least one of the following:
at least two twenty-four quart dairy cases stored side-by-side on said support rail set supported without an undergirding pallet;
at least two sixteen quart cases stored side-by-side on said support rail set; and articles supported by a pallet conforming with the standards of the Grocery Manufacturers Association.
4. The system of claim 3 wherein said at least two sixteen quart cases are supported with an undergirding pallet.
5. The system of claim 1 wherein the horizontal distance between said inner support rails ranges from 0.5 inches to 5.0 inches.
6. The system of claim 1 wherein said outer support rails include an upper lip portion and a lower lip portion which extend inward towards said inner support rails.
7. The system of claim 1 wherein said inner support rails include an upper lip portion and a lower lip portion which extend outward towards said outer support rails.
8. The system of claim 1 wherein said support rail sets comprise at least two troughs formed from galvanized steel in which said shuttle means is movable, said support rail sets having lip portions at its side edges for preventing the palletless articles from sliding and vibrating off of said support rail sets.
9. The system of claim 8 wherein said automated storage system further includes a sprinkler means positioned adjacent to said outer support rails for spraying down the trough, said sprinkler means including a washdown pipe and nozzle.
10. The system of claim 6 wherein said outer support rails include an outer lip attachment that is rigidly attached to the upper portion of said outer support rails for preventing the palletless articles from sliding and vibrating off of said support rail sets.
11. The system of claim 1 wherein the lateral distance between the inner support rails of each support rail set arranged beneath each palletless article is between five and fifty percent of the lateral distance between one outer support rail and its respective inner support rail.
12. A compact automated storage system for receiving, storing and returning palletless articles, comprising:
a storage rack having a rigid support framework containing a plurality of open ended storage lanes having a cross sectional extent sufficient to allow the palletless articles to be conveyed into and out of said storage lanes;
a plurality of support rail sets mounted on said support framework, respectively, within said plurality of open ended storage lanes, each said support rail set including a pair of outer support rails for providing vertical support to articles located in stored positions within the corresponding said storage lane and at least one pair of inner support rails for providing additional vertical support to said articles, said pair of inner support rails being spaced, respectively, from said outer support rails by a distance sufficient to define channels therebetween, said inner support rails being spaced apart by a substantial horizontal distance to provide distributed support to articles stored directly on said rails; and at least two shuttle means adapted to pass through the pair channels formed by each said support rail set for moving an article along a corresponding storage lane, whereby said at least two shuttle means may be moved in unison to retrieve, store and return palletless articles simultaneously.
13. The system of claim 12 further comprising a bridge means which connects at least two of said inner support rails and provides a support platform for supporting palletless articles stored thereon.
14. The system of claim 12 wherein said outer support rails and said inner support rails of said support rail set are spaced apart in a manner that facilitates the storage of at least one of the following:
at least two twenty-four quart dairy cases stored side-by-side on said support rail set supported without an undergirding pallet;
at least two sixteen quart cases stored side-by-side on said support rail set; and articles supported by a pallet conforming with the standards of the Grocery Manufacturers Association.
15. The system of claim 14 wherein said at least two sixteen quart cases are supported with an undergirding pallet.
16. The system of claim 12 wherein the horizontal distance between said inner support rails ranges from 0.5 inches to 5.0 inches.
17. The system of claim 12 wherein said outer support rails include an upper lip portion and a lower lip portion which extend inward towards said inner support rails.
18. The system of claim 12 wherein said inner support rails include an upper lip portion and a lower lip portion which extend outward towards said outer support rails.
19. The system of claim 12 wherein said support rail sets comprise at least two troughs formed from galvanized steel in which said shuttle means is movable, said support rail sets having lip portions at its side edges for preventing the palletless articles from sliding and vibrating off of said support rail sets.
20. The system of claim 19 wherein said automated storage system further includes a sprinkler means positioned adjacent to said outer support rails for spraying down the trough, said sprinkler means including a washdown pipe and nozzle.
21. The system of claim 17 wherein said outer support rails include an outer lip attachment that is rigidly attached to the upper portion of said outer support rails for preventing the palletless articles from sliding and vibrating off of said support rail sets.
22. The system of claim 12 wherein the lateral distance between the inner support rails of each support rail set arranged beneath each palletless article is between five and fifty percent of the lateral distance between one outer support rail and its respective inner support rail.
23. A compact automated storage system for receiving, storing and returning articles, comprising:
a storage rack having a multi-tiered rigid support framework containing a plurality of open ended storage lanes having a cross-sectional extent sufficient to allow the articles to be conveyed into and out of said storage lanes, said open ends of said storage lanes being generally positioned adjacent a shelving pathway extending along said storage rack, said framework further including a drip pan means rigidly attached to an end of at least one of said storage lanes, said drip pan means being inclined with respect to said storage lanes;
an article transporter, movable within said shelving pathway, between loading/unloading stations in which said article transporter is alignable with corresponding open ends of said storage lanes, said article transporter including a plurality of shuttle means for moving an article along a storage lane when said article transporter is aligned with the open end of said storage lane and for vertically moving an article to and from any tier of the multi-tiered framework;
a support rail means mounted on said support framework, respectively, within said plurality of open ended storage lanes, each of said support rail means is formed to include at least two troughs having a pair of outer support rails for providing vertical support to articles located in stored positions within the corresponding said storage lane and at least one pair of inner support railsfor providing additional vertical support to said articles, said outer support rails and said inner support rails being continuously connected by bottom portions which extend the length of said outer support rails and said inner support rails, said pair of inner support rails being spaced, respectively, from said outer support rails by a distance sufficient to allow said shuttle means to pass therebetween when transporting an article along said storage lane, said inner support rails being spaced apart by a substantial horizontal distance to providedistributed support to articles stored directly on said rails; and a cleaning means connected to said rigid framework and positioned adjacent said support rail means to clean said support rail means as desired, wherein said cleaning means may be used to remove any leakage from said articles trapped in said troughs.
24. The system of claim 23 wherein said support rail means further includes a bridge support which connects at least two of said inner support rails and provides a support platform for supporting articles stored thereon.
26. The system of claim 23 wherein said support rail means is formed from a single piece of galvanized steel.
27. The system of claim 23 wherein said outer support rails and said inner support rails of said support rail means are spaced apart in a manner thatfacilitates the storage of at least one of the following:
at least two twenty-four quart dairy cases stored side-by-side on said support rail set supported without an undergirding pallet;
at least two sixteen quart cases stored side-by-side on said support rail set; and articles supported by a pallet conforming with the standards of the Grocery Manufacturers Association.
28. The system of claim 27 wherein said at least two sixteen quart cases are supported with an undergirding pallet.
29. The system of claim 23 wherein the horizontal distance between said inner support rails ranges from 0.5 inches to 5.0 inches.
30. The system of claim 23 wherein said cleaning means includes a washdown pipe and a nozzle, 31. The system of claim 23 wherein the lateral distance between the inner support rails of each support rail set arranged beneath each palletless article is between five and fifty percent of the lateral distance between one outer support rail and its respective inner support rail.
31. A compact automated storage system for receiving, storing and returning articles, comprising:
a storage rack having a rigid support framework containing a plurality of open ended storage lanes having a cross sectional extent sufficient to allow the articles to be conveyed into and out of said storage lanes, said open ends of said storage lanes being generally positioned adjacent a shelving pathway extending along said storage rack;
an article transporting means, movable within said shelving pathway, between loading/unloading stations in which said article transporting means is alignable with corresponding open ends of said storage lanes, said article transporting means including a plurality of shuttles for moving an article alonga storage lane when said article transporting means is aligned with the open end of said storage lane and for vertically moving an article into and out of a stored position within said storage lane;
a plurality of support rail sets mounted on said support framework, respectively, within said plurality of open ended storage lanes, each said support rail set including a pair of outer support rails for providing vertical support to articles located in stored positions within the corresponding said storage lane and at least one pair of inner support rails for providing additional vertical support to said articles, said pair of inner support rails being spaced, respectively, from said outer support rails by a distance sufficient to allow said shuttle means to pass therebetween when transporting an article along said storage lane, said inner support rails being spaced apart by a substantial horizontal distance to provide distributed support to articles stored directly on said rails; and a bridge means extending between said inner support rails for providing a support platform for said articles stored thereon.
32. The system of claim 31 wherein said outer support rails and said inner support rails of said support rail set are spaced apart in a manner that facilitates the storage of at least one of the following:
at least two twenty-four quart dairy cases stored side-by-side on said support rail set supported without an undergirding pallet;
at least two sixteen quart cases stored side-by-side on said support rail set; and articles supported by a pallet conforming with the standards of the Grocery Manufacturers Association.
33. The system of claim 32 wherein said at least two sixteen quart cases are supported with an undergirding pallet.
34. The system of claim 31 wherein the horizontal distance between said inner support rails ranges from 0.5 inches to 5.0 inches.
35. The system of claim 31 wherein said outer support rails include an upper lip portion and a lower lip portion which extend inward towards said inner support rails.
36. The system of claim 31 wherein said inner support rails include an upper lip portion and a lower lip portion which extend outward towards said outer support rails.
37. The system of claim 31 wherein said support rail sets comprise at least two troughs formed from galvanized steel in which said shuttle means is movable, said support rail sets having lip portions at its side edges for preventing the palletless articles from sliding and vibrating off of said support rail sets.
38. The system of claim 37 wherein said automated storage system, further includes a sprinkler means positioned adjacent to said outer support rails for spraying down the trough, said sprinkler means including a washdown pipe and nozzle.
39. The system of claim 35 wherein said outer support rails include an outer lip attachment that is rigidly attached to the upper portion of said outer support rails for preventing the palletless articles from sliding and vibrating off of said support rail sets.
40. The system of claim 31 wherein the lateral distance between the inner support rails of each support rail set arranged beneath each palletless article is between five and fifty percent of the lateral distance between one outer support rail and its respective inner support rail.
Applications Claiming Priority (2)
Application Number | Priority Date | Filing Date | Title |
---|---|---|---|
US68909996A | 1996-07-30 | 1996-07-30 | |
US08/689,099 | 1996-07-30 |
Publications (1)
Publication Number | Publication Date |
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CA2233505A1 true CA2233505A1 (en) | 1998-02-05 |
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ID=24767038
Family Applications (1)
Application Number | Title | Priority Date | Filing Date |
---|---|---|---|
CA 2233505 Abandoned CA2233505A1 (en) | 1996-07-30 | 1997-07-28 | Automated storage and retrieval system for palletless dairy cases |
Country Status (2)
Country | Link |
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CA (1) | CA2233505A1 (en) |
WO (1) | WO1998004482A1 (en) |
Families Citing this family (8)
Publication number | Priority date | Publication date | Assignee | Title |
---|---|---|---|---|
DE102005047980A1 (en) * | 2005-10-06 | 2007-04-12 | Still Gmbh | shelving |
DE202006012648U1 (en) * | 2006-08-17 | 2007-12-27 | Westfalia Logistics Technologies Gmbh & Co. Kg | bearing arrangement |
NL1033799C2 (en) * | 2007-05-03 | 2008-11-10 | Scarabee Id B V | System and method for storing goods. |
DE102008022322B4 (en) * | 2008-04-30 | 2014-10-09 | SSI Schäfer AG | Lifting mechanism for a shuttle of a channel warehouse, as well as shuttle and shuttle channel storage |
NL2012299C2 (en) * | 2014-02-21 | 2015-08-25 | Vanderlande Ind Bv | SYSTEM FOR STORING PRODUCTS, METHOD FOR APPLYING SUCH A SYSTEM AND A CENTRAL CONTROL DEVICE THAT IS EQUIPPED TO BE ACTIVE IN SUCH A SYSTEM. |
EP3524543A1 (en) * | 2018-02-13 | 2019-08-14 | Logevo AB | Pre-mounted transport supporting unit for a storage system and method for assembling such a storage system |
EP3581522A1 (en) * | 2018-06-13 | 2019-12-18 | Logevo AB | Storage system and a pre-mounted transport supporting arrangement |
FI130972B1 (en) * | 2020-06-05 | 2024-06-25 | Dieffenbacher Panelboard Oy | Storage system to be used in chipboard, OSB, and MDF factories for storing board stacks in storage rows |
Family Cites Families (6)
Publication number | Priority date | Publication date | Assignee | Title |
---|---|---|---|---|
US4119208A (en) * | 1975-04-16 | 1978-10-10 | Norbert Karl Acker | Arrangement for the movement of objects within the deposit area of shelves |
US4830175A (en) * | 1987-09-25 | 1989-05-16 | Apv Glacier Industries, Inc. | Ice cream conveyor line cleaning system |
US4988251A (en) * | 1987-10-21 | 1991-01-29 | Interlake, Inc. | Multiple load storage rack structure |
US5184738A (en) * | 1991-06-07 | 1993-02-09 | Frazier Industrial Company | Storage rack systems |
US5368174A (en) * | 1992-08-07 | 1994-11-29 | Unr Industries, Inc. | Storage rack beam having surface enabling indicia at high or low elevation to be easily read |
US5605427A (en) * | 1993-07-06 | 1997-02-25 | Hammond; Theodore A. | Level gravity conveyor with gravity return of transfer units |
-
1997
- 1997-07-28 WO PCT/US1997/013123 patent/WO1998004482A1/en active Application Filing
- 1997-07-28 CA CA 2233505 patent/CA2233505A1/en not_active Abandoned
Also Published As
Publication number | Publication date |
---|---|
WO1998004482A1 (en) | 1998-02-05 |
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