|Publication number||US3687312 A|
|Publication date||Aug 29, 1972|
|Filing date||Jun 8, 1970|
|Priority date||Jun 8, 1970|
|Publication number||US 3687312 A, US 3687312A, US-A-3687312, US3687312 A, US3687312A|
|Inventors||Weir Stanley M|
|Original Assignee||Weir Stanley M|
|Export Citation||BiBTeX, EndNote, RefMan|
|Patent Citations (3), Referenced by (23), Classifications (5)|
|External Links: USPTO, USPTO Assignment, Espacenet|
PATENTDAuszs 1912 3.687.312
snm 1 or 4 INVENTOR STANLEY M. wElR 'e 'Vga ATTORNEYS PTENTDAucas 1912 3.687312 snm a nr a IIS-ZA INVENTOR,
STANLEY M. WEIR uu@ m a e.
ATTORNEYS wAREHoUsING SYSTEM This application is a division of U.S. application Ser. No. 810,415 filed Nov. 19, 1968 now U.S. Pat. No. 3,533,498 which is a division of U.S. application Ser. No. 697,942, filed Jan. l5, 1968 now U.S. Pat. No. 3,447,699.
BACKGROUND OF THE INVENTION This invention relates to warehouse equipment, and particularly to power-driven warehouse equipment which facilitates selection and sorting of articles of commerce in containers destined for different consumer outlets.
Receipt by a main warehouse facility of a multiplicity of orders from a multiplicity of stores requires that orders must be filled with specified goods ordered by each store. An approach presently used is for warehouseman to walk up and down the aisles between the racks of slots and pick the individual items that have been ordered by a retail store, loading these items onto a push cart. But such a process requires many man-hours because each clerk picks all of the goods destined for a single order one order at a time.
A more efficient method of filling such multiplicity of orders would be to provide one warehouseman with the means for selecting during a single pass through the warehouse aisle all of the commodities ordered by a batch or group of stores. Accordingly, it is one of the principal objects of the present invention to provide warehouse equipment that, in conjunction with a predetermined program which lists the commodities to be supplied to a group of stores, may be operated by a warehouseman to permit selection and transport of the ordered merchandise for a group of consumer outlets or stores.
The function of selection of goods from individual storage slots or compartments in the main warehouse facility is generally effected at a point that is remote from the shipping or loading area at which the goods specified by various orders are assembled and loaded into trucks destined for the separate outlets. Accordingly, it is another object of the invention to provide a mobile vehicle which may range up and down the aisles of a main warehouse facility and transfer selected containers of merchandise onto a transport system which will deliver the selected containers an automatic sorting mechanism for further delivery to selected loading areas.
In order that selected containers of merchandise delivered to a sorter be segregated into appropriate groups for transport to designated outlets, it is essential that such containers be identified as to their destination. Accordingly it is still further object of the invention to provide, in conjunction with a motorized vehicle, means by which the selected containers are labeled in correlation with the program that dictates selection and destination of the containers.
It is, of course, desirable that warehousing equipment be designed to permit a single individual to handle a maximum number of containers in a given work interval. Accordingly, it is another object of the invention to provide a motorized vehicle capable of carrying a workman along with the containers selected so as to minimize fatigue of the warehouseman and increase his productivity.
Containers such as cartons and cases of merchandise are frequently palletized and handled with forklift trucks. Such pallets are conventionally stacked in rack slots or compartments and containers are selected directly from the pallets. Accordingly, it is yet another object of the invention to provide a place on the motorized vehicle on which empty pallets may be stacked as they are emptied during the selection process.
The invention possesses other objects and features of advantage, some of which, with the foregoing, will become apparent from the following description and the drawings. It is to be understood, however, that the invention is not limited to the embodiment illustrated and described, as it may be embodied in various forms within the scope of the appended claims.
SUMMARY OF THE INVENTION In terms of broad inclusion, the invention comprises a warehousing system and apparatus therefor to facilitate the storage, selection, sorting and loading of merchandise destined for a multiplicity of consumer outlets or stores. In its simplest aspect, articles of merchandise packed in containers are stored in rack slots arranged in spaced rows. The slots are approximately as high as a man may conveniently reach, and
BRIEF DESCRIPTION OF THE DRAWINGS FIG. 1 is a schematic perspective view illustrating the warehousing system and apparatus of the invention.
FIG. 2A is a side elevation in enlarged scale illustrating the rear portion of the motorized vehicle of the present invention and a pallet cart attached to the vehicle.
FIG. 2B is a side elevation in enlarged scale illustrating the front portion of the motorized vehicle.
FIG. 3 is a rear view of the vehicle illustrated in FIG. 2A, the view being taken looking in the direction of arrows 3-,3 of FIG. 2A.
FIG. 4 is a plan view of the central or main section of the vehicle in relation to the transport mechanism for carrying the selected merchandise to a sorting zone, the
view being taken looking downwardly in the direction of arrows 4-4 of FIG. 2B.
DESCRIPTION OF THE PREFERRED EMBODIMENT The warehousing of merchandise for an interim pending distribution to retail outlets involves many different problems. One of these problems is the necessity to maintain a perpetual inventory indicating the goods on hand and their location within the warehouse. Another problem involves the size of order received at the warehouse facility, and the size of order likely to be shipped from the warehouse facility to retail outlets. In
some instances, merchandise is received in the warehouse on pallets and is shipped from the warehouse on pallets, the quantities being such that offloading individual containers from the pallet is unnecessary. In other instances, merchandise must be offloaded from pallets, stacked in individual bins, and then picked for reshipment as individual containers upon appropriate order from a consumer outlet. The flow of merchandise within the warehouse facility must be arranged so that outgoing merchandise is not confused or mixed with incoming merchandise, and arranged further so that selection of merchandise may be accurately and rapidly made from storage. Where a commodity is received in pallet-sized loads, but is invariably shipped out in individual containers, it is necessary to arrange the warehousing system so that individual containers may be picked from pallet-sized loads.
Referring specifically to FIG. 1, there is provided a warehousing system and apparatus for handling merchandise stored in a warehouse, comprising a main storage section designated generally by the numeral 2, and made up of a pair of longitudinally extending and parallel storage racks 3 and 4 spaced apart as shown, with each rack preferably formed by a plurality of superposed tiers. Each rack is conveniently fabricated from structural iron and includes upright members 6 and 7, secured together adjacent their lower ends by a transversely extending rail 8, and secured together at their upper ends by a transversely extending rail 9. An intermediate rail 11 connects the vertical members 6 and 7, and extends across the space between the racks to tie the two racks together. Longitudinal stringers 12 connecting the upper ends of the upright members 6 and 7 extend the full length of the racks and connect opposite ends thereof. Vertically spaced between the stringers 12 and the floor on which the racks are supported are auxiliary longitudinal stringers 13, each of which extends between adjacent upright members 7, and pairs of which serve to support opposite ends of roller conveyors 14 which extend transversely through each rack from front to back.
As indicated in FIG. 1, each of the roller conveyors 14 is inclined toward the front of each rack so that containers of merchandise 16 placed thereon will be caused to move down the incline into position at the forward end of each rack. To facilitate filling of the roller conveyors 14, each of the racks is adapted to be filled from the rear and for this purpose an auxiliary storage area designated generally by the numeral 17 is provided closely adjacent the rear side of each of the main storage racks 3 and 4. Each storage area 17 is provided with an upright auxiliary storage rack constituting a framework 18, formed from structural iron and including vertical, transverse and longitudinal members secured together to form a rigid structure. Intermediate its top and bottom, the auxiliary rack is divided into compartments by transverse rails 19, within which compartments are positioned and supported pallets 2l loaded with containers 22.
Loading of the compartments or slots in each of the main racks is facilitated, especially in the upper tiers, by flooring in the form of a catwalk 23 connected to the floor by ladder 24. lt will thus be seen that with the auxiliary racks filled with palletized containers, a
warehouseman may walk along the catwalk, remove containers from the pallets, and load the roller conveyors in the adjacent main racks. In this manner, the roller conveyors are maintained full for facility of selection of various merchandise from the front side of each slot. It will, of course, be apparent that each of the slots contained in the main racks is indexed to that only merchandise scheduled to be stored in a specific slot is placed in pallet-sized loads in the adjacent auxiliary storage racks 18.
With each of the slots filled with a predetermined type of merchandise, it is only necessary for a warehouseman to range up and down the aisle in front of or between the two main racks and make his selection of merchandise ordered by consumer outlets. As previously discussed, this may be effected by a warehouseman taking each individual order and selecting from the bins the type and quantities of merchandise indicated by the order. This procedure would ordinarily require that the warehouseman range up and down the aisle, first traversing the aisle in one direction and then traversing the aisle in the opposite direction, in order to effect filling of the order. Obviously, such procedure is time consuming and wasteful and to be avoided if possible.
A more efficient method of selection is to arrange the orders in sequence of merchandise corresponding to the sequence in which the designated merchandise is stored in the slots. According to this method the warehouseman would be required to make only one pass along the aisle and select from either rack whatever merchandise was indicated. This single order would ordinarily be collected on a pallet carried by a cart or pallet truck for delivery to the loading area for placement in the appropriate truck for transport to its proper destination. The next order would be filled in substantially the same manner. lt will thus be apparent that such method of handling merchandise is also timeconsuming and wasteful and is susceptible of introducing errors into the selection process and in loading it on a wrong truck, thus resulting in a given order of merchandise being delivered to the wrong store or consumer outlet.
A much more efficient method is to batch orders such that the warehouseman selects orders for a group of stores on one pass through the warehouse stock. The apparatus for carrying out this method is illustrated in FIG. 1, and includes the arrangement of specific merchandise in predetermined slots, arranged in a predetermined sequence. Disposed between the main racks 3 and 4 is a trackway 26, conveniently supported on the opposed uprights 7 or on the supporting floor when the trackway is associated with the lowermost tier of racks, and supported in a similar manner on the uprights 7 in conjunction with the transversely extending Stringer l 1 when the trackway 26 is supported in association with the tier next above the ground floor and in association with succeeding tiers. The trackway is preferably of narrow gauge and extends the full length of the main racks so that a mobile order selection vehicle, designated generally by the numeral 27, may move longitudinally along the trackway adjacent the fronts of the main racks. The trackway is preferably fabricated from structural iron in the form of opposed channels, with the depth of the channels being such that a longitudinally extending main conveyor belt 28 may be disposed between the channels for operation in cooperation with the mobile vehicle in a manner which will hereinafter be explained in greater detail.
As indicated in FIG. 1, the trackway, with the enclosed conveyor belt, extends the full length of the main racks and terminates at 29 in operative association with a transition conveyor 31 traveling in the same direction as the main conveyor belt, and adapted to receive thereon containers carried by the main conveyor belt. The transition conveyor operates on conjunction with an elevator mechanism designated generally by the numeral 32, and constituting in general the type of elevator mechanism described and claimed in co-pending application Ser. No. 530,057 assigned to the assignee of the instant invention. For details of construction, reference is made to such copending application, the description of the elevator mechanism being included herein by reference.
In brief, the elevator mechanism comprises upper and lower pairs of sprockets driven by appropriate means and carrying endless chains on which at spaced intervals are secured a plurality of platforms 33 formed in the nature of parallel tines which are spaced apart and retained in a horizontal attitude at all times. The spaced tines of the platform 33 follow the movement of the chains while being maintained in a substantially horizontal plane by cam followers, and are moved upwardly through the spaces between support bars 34 onto which the transition conveyor 31 delivers containers. Thus, a container supported on the bars 34 will be elevated by a platform 33 rising from beneath it, and will be carried upwardly to be deposited on a transition platform 36, the individual rollers of which are power driven to move the container onto an adjacent conveyor belt 37 which terminates in operative association with a main transport conveyor 38 as Shown. As explained in said application Ser. No. 530,057, a gate mechanism is disposed at the entrance to the elevator and is actuated by the elevator to coordinate the movement of the articles onto the elevator with the upward movement of the platform 33 of the elevator.
The main transport conveyor preferably extends the entire length of the main racks, and terminates at an appropriate sorting area not shown herein but explained and illustrated in detail in the copending application noted above. lt will thus be seen that the elevator mechanism at each end of each aisle is susceptible of elevating onto the main transport conveyor containers selected from both upper and lower tiers of both main racks 3 and 4, thus minimizing the amount of equipment required to handle a given amount of merchandise.
Referring to FIGS. 2, 3, and 4, it will there be seen that the mobile vehicle 27 is comprised of a metal framework including longitudinal side rails 41, conveniently in the form of channels turned inwardly toward each other, and rigidly secured at opposite ends by cross members 42. Mobility to the vehicle is provided by pairs of wheels 43 journaled at each opposite end of the channel frame members on appropriate brackets 44. The wheels are preferably flanged as indicated best in FIG. 3 with the flange extending below the top surface of the longitudinal rails forming the trackway. Attached to each of channels 41 are a plurality of gussets 46, the outer ends of which are joined by longitudinally extending angle bars 47. Supported on the angle bars and intermediate longitudinally extending rails 41 is a workdeck 48, conveniently of plywood, on which a warehouseman may stand during selection of merchandise and operation of the vehicle. A guardrail 49 attached to the rear of the vehicle provides a measure of safety for the warehouseman riding on the workdeck.
The workdeck extends forward to about the midpoint of the frame defined by the rails 4l and 42. Supported on the forward end portions of the rails 41 is a rigid and upright framework 52 formed by vertical angle iron members 53 extending upwardly from the frame and connected at their upper ends by rearwardly extending angle iron members 54. Truss-type angle bars 56 and 57 having their upper ends rigidly welded to the rails 54 and their lower ends welded to the members of the frame lend rigidity to the framework. Extending transversely across the rails 54 and supported by the framework is a horizontal workplate or table 58 which forms a work surface provided with a plurality of freely rotatable ball bearings 59 as shown. The work table is preferably positioned with respect to the workdeck 48 so that a warehouseman standing on the workdeck may conveniently remove containers from the adjacent main racks and place them on the work table to be rollably supported thereon by the roller bearings 59. As shown best in FIG. 4, the work table is generally U- shaped with forward portions 61 and 62 spaced apart a distance corresponding to the width of the trackway 26 as shown. The portions 61 and 62 of the table 58 are joined together by a crosspiece 63, also provided with balls on which a container may be rollably supported.
Pivotally supported on the framework 52 adjacent the crosspiece 63 of the work table 58 is a light roller conveyor 64, preferably fabricated from aluminum, and inclined so that its lower end portion 66 is suspended above the conveyor belt 28. The roller conveyor is supported in this suspended position by one or more support posts 67 adjustable to vary the height of the forward or lower end portion 66 of the roller conveyor. It will thus be seen that containers placed by the warehouseman on the work table 58 may be moved across the table, oriented in a desired position and pushed onto the roller conveyor 64 so that they are transferred onto the moving conveyor belt 28.
Selection of merchandise is effected in accordance with the method described and claimed in my co-pending application Ser. No. 530,057 assigned to the same assignee as the present invention. As there described in greater detail, orders for merchandise received at the main warehousing facility from a multiplicity of ordering outlets are coded in terms of the type of merchandise required, the quantity required and its ultimate destination. Such information is programmed and processed through an appropriate computer which correlates the information at very high speed and causes it to be printed on individual labels correlated in terms of type, quantity and destination, and arranged on a tape made up of backing strip on which labels are removably secured in single file array. In one arrangement, the indicia indicating the type and number of articles to be picked are man-readable, while the destination of the article is in machine-readable indicia.
The labels are arranged on each strip in correlation to the sequence in which the merchandise is stored in individual slots in the main warehousing facility. Such tape of successive labels is then loaded into an appropriate feed mechanism on the side of a housing 69 of a labelling machine 70 which is illustrated and described in much greater detail in my above noted copending application, included herein by reference. The tape of labels is fed upwardly to successively position each label behind an aperture 71 in a plate 72 mounted in fixed position alongside conveyor 64. As each package passes aperture 7 l, a pusher foot is actuated to push the label through the aperture and press it against the package.
The label, that is next behind the label adjacent aperture 71, is illuminated and its indicia is projected onto a screen 73 by a projection mechanism which is generally indicated by numeral 74. Thus, the operator can read the indicia telling him the type of article he is to pick next and the number of articles of that type that must still be picked.
Placement of the selected container on the work table 58 enables the warehouseman to properly orient the container and transfer the container onto the inclined roller conveyor 64 in an appropriate attitude for passage past the labeling machine 70. The labeling machine also works in conjunction with the tape so that the label, which was projected for viewing by the operator to initiate the selection of the container, is caused to be impressed and adhered to the side of the container selected while a spring-loaded presser bar 64A urges the package against the side plate 72. As mentioned above and as described in my aboveidentified co-pending application, each of the labels is also coded with machine-readable infomation capable of being read electronically at the sorting area in order to activate a diverting mechanism which will divert each individual container to a predetermined chute (not shown) associated with a particular destination or retail outlet.
Movement of the vehicle 27 along the trackway 26 is effected electrically through the use of a motor 75, connected through a gear box 76 with the front pair of wheels 43. A chain 74 conveniently connects the wheels 43 to the drive shaft extending from gear box 76. The motor is preferably a direct-current drive motor reversible so as to permit back-and-forth motion of the vehicle 27. Control of the motor is effected by the warehouseman by means of manipulating a handle 77, journaled on the framework 52 and connected by a link 78 with an appropriate control mechanism 79, linked through appropriate switch means 81 with the motor. As indicated in FIG. 2B, movement of the control handle 77 upwardly into the R position will effect reverse movement of the vehicle, whereas movement of the control handle 77 downwardly into the F position will effect forward movement of the vehicle. A neutral position N is also provided. Power to the motor is derived by means of a cable 82 (FIG. 3) arranged to wrap about a spring-loaded take-up reel 83 journaled on the framework 52 on appropriate gusset plates 84.
The main conveyor belt 28 onto which the containers are transferred from the roller conveyor 64 is preferably journaled at each opposite end on appropriate drums 86, with the belt being tensioned by take-up rollers 87. The upper and lower reaches of the conveyor belt are supported at intervals therealong by appropriate rollers 88.
Where containers of merchandise are stacked in the warehousing facility on pallets, and selection is made directly from pallet loads, it frequently happens that when all of the containers have been removed from a pallet, the pallet must be disposed of in order that another pallet load may be placed in the rack. To facilitate such removal, a pallet cart designated generally by the numeral 91 is provided, as illustrated best in FIG. 2A. The pallet cart is preferably formed with a frame 92, supporting front and rear pairs of wheels 93, and during use is coupled to the rear end of the mobile jitney by a hitch 94. An appropriate floor or wooden framework 96 is provided to support the pallets 97 above the wheels 93. It will thus be seen that as the warehouseman progresses down as aisle selecting containers of merchandise, when he encounters a pallet that has been off-loaded completely, it is a simple matter for him to lift the pallet out of the compartment and place it on the trailer 91, thus enabling placement of another pallet loaded with containers within the compartment.
From the foregoing description it will be evident that the present invention provides a simple effective system for processing articles in a warehouse. The disposition of the auxiliary storage racks in spaced relation from the rear of the primary storage rack provides an aisle in which workers can operate in replenishing the racks.
Although the best mode contemplated for carrying out the present invention has been herein shown and described, it will apparent that modification and variation may be made without departing from what is regarded to be the subject matter of the invention as set forth in the appended claims.
I claim as my invention:
1. In a warehousing system including a main storage area and an auxiliary storage area, the combination comprising: an elongated main storage rack in the main storage area comprising a fixed framework having open front and back sides formed by longitudinally extending vertically spaced stringers and defining compartments proportioned to accommodate individual articles in single file end-to-end array; conveyor means extending transversely between front and back sides, the end of the conveyor means supported on the front side being at a level lower than the end of the conveyor means supported on the back side so that the conveyor means lies inclined downwardly toward the front side; an elongated auxiliary storage rack in the auxiliary storage area spaced from the back side of the main storage rack, the auxiliary rack including a plurality of compartments defining slots which are open front and back and are proportioned to receive pallet loads of articles, means including a floor defining an unobstructed passageway between the open front side of said auxiliary rack and the open back side of said main rack, whereby a warehouseman working in the passageway between said main and auxiliary storage racks may remove articles from a pallet load on the auxiliary storage rack and deposit them in desired end-to-end array in the main storage rack, and means defining an rack and the front side of each auxiliary storage rack being provided with a plurality of vertically spaced support floors for use by a warehouseman in servicing the tiers of opposed racks.
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|U.S. Classification||414/267, 414/276|