REGULAR STORAGE SYSTEM AND METHOD FOR OPERATING THE SAME

专利摘要:
The invention relates to a shelf storage system (1, 52) with storage racks (7a, 7b), between which a rack aisle (8) extends and which have shelves (12) for loads (3) in superimposed shelf levels (11), and in the Shelf levels (11) along the rack aisle (8) extending guideways (14a, 14b) and along the guideways (14a, 14b) movable conveyor vehicle (4) for transporting the goods (3) and a load-lifting device (5; Transport of piece goods (3) and a conveyor vehicle lifting device (6; 54) for transporting the conveyor vehicle (4). On the shelf storage system can each comprise a Vorzonen conveyor on both shelf storage sites (9, 10). The transport vehicle lifting device (54) may also comprise a receiving device (61) with respective rails (62a, 62b) attached to the transport devices (55a, 55b), which are adjustable into a receiving position, in which the transport vehicle (4) is in a receiving position on the rails (62a, 62b) movable and in this between the superimposed shelf levels (11) is movable.
公开号:AT511140A1
申请号:T1652011
申请日:2011-02-08
公开日:2012-09-15
发明作者:
申请人:Tgw Mechanics Gmbh；
IPC主号:

专利说明:

> 5 17:11:51 08-02-2011
5 MO • «· ·« · B »· · · · * * · · ·« * * * * · · ·· * ···· «· * -1 -
The invention relates to a Regaliagersystem and a method for operating the same, as described in the preambles of claims 1, 9 and 16.
Regaliagerysteme are known from DE 20 2009 012 190 U1, US 2011/0008137 A1 and US 2011/0008138 A1, which a shelf storage with adjacent to each other arranged storage shelves, between which at least one rack aisle rselte from a first shelf extends to a second shelf storage side and which have shelves for loading goods in superimposed rack levels, and guideways running in the shelves along the rack aisle and at least one autonomous conveyor vehicle movable along the guideways for transporting the loads to the parking spaces and a conveyor lifting device arranged on one of the shelf supports for transporting the conveyor vehicle between the shelf levels.
EP 1 716 060 B1 and DE 10 2009 032 406 A1 disclose shelf storage systems in which on the first rack store side a load lifting device for transporting goods between the rack levels and on the second shelf storage side arranged a conveyor vehicle lifting device for transporting the conveyor vehicle between the rack levels are.
DE 10 2009 032 406 A1 further describes a conveyor vehicle lifting device, which independently of one another has lifting and lowering transport devices for transporting goods between the rack levels and a lifting and lowering receiving device for transporting the conveyor vehicle between the rack levels. The receiving device is formed by mounted on a lifting platform for the transport devices and opposing rails or on a independently of the transport devices on a stand-alone lifting frame mounted rails. N2011 / 01400 08/02 2011 DI 17:09 ISE / RM NR 8668] ®005 17:12:04 08-02-2011 6/40 17:12:04 08-02-2011 6/40 s -2-
The invention has for its object to provide a shelf storage system and a method for operating the same, which can still be easily designed with increasing efficiency and is characterized by high availability.
The object of the invention is solved by the features of claim 1. The advantage is that the provision of loading can be done on the first Vorzonen-conveyor technology and on the second Vorzonen conveyor and can be filled over several conveyor vehicles, the shelf storage against such known from the prior art shelf storage systems in a much shorter time with loading. Another advantage lies in the fact that in case of malfunction of a conveyor device in a Vorzone by the conveyor device in the other Vorzone still can be done loading the shelf storage.
According to the embodiment according to claim 2, the conveyor vehicle can be transported between the superimposed shelf levels and delivered to a shelf level defined by the controller or transported in a transfer or Übemahmestellung between conveyors and receiving goods from a first conveyor or delivered to a second conveyor , The receiving device can receive one or more conveyor vehicles from the respective shelf level and transport to any shelf level. This transport option now makes it possible to manage with a small number of Förderiahrzeugen.
As a rule, there is no need for loads to be requested from the storage rack at the same time on all rack levels or to be stored back in this rack.
According to the embodiment according to claim 3, it is possible that one or more loads can be manipulated via the conveying vehicle between the conveying devices in the second pre-zone. This functionality can be used especially for "rush jobs" with advantage. If according to a picking order a load is required, which is located on the conveyor for transporting loading goods, the conveyor vehicle is moved via the conveyor vehicle lifting device in a transfer or transfer position between the conveyors, so that one or more goods without input and Ausiagervorgang ( Provisioning process) are transferred directly from the conveyor for transporting loading goods on the conveyor vehicle and from there to the Fördervorrichturrg for the removal of cargo. As a result, transport routes for goods at "rush orders". The first pre-zone conveyor system and the rack storage system are also being optimized and relieved. Also N2011 / 01400 08/02 2011 DI 17:09 [SE / EM KR 86681 @ 006 5 17:12:23 08-02-2011 7/40
* ι «« -3- the number of deployment operations can be reduced by the conveyor vehicle, which has a positive effect on the maintenance and the life of the shelf storage system.
Due to the embodiment according to claim 4, the conveyor vehicle in the transfer or. Transfer position between the conveyors moved and the goods are reliably manipulated between the conveyor vehicle and the conveyors. Also, a very space-saving arrangement of the first Vorzonen-Fördertechnrk is achieved.
Another advantage is the development according to claim 5, since by the additional, stationary and a plurality of buffer spaces having buffer zone in front of the shelf warehouse cargoes, which are still stored in the shelf storage or outsourced from the shelf storage, can be temporarily stored temporarily. This buffer option now makes it possible to manage with a still small number of conveyor vehicles.
Due to the embodiment according to claim 6 load can be relocated simultaneously both between the first receiving device and a first buffer space and between the second receiving device and a second buffer space. Thus, a high turnover rate is achieved in Regaliagersystem. On the other hand, even in case of malfunction of a recording device by the other recording device, the feeding of the buffer zone still take place.
Different advantageous arrangements of the receiving devices for receiving the goods are described in claims 7, 8, 11 and 12. If the receiving devices or transport devices are mounted on a single mast, this is placed in front of the rack aisle between the conveying devices of the pre-zone conveyor, so that the available space is optimally utilized. If, however, the receiving devices or transport devices are each mounted on a mast, a redundant loading system for goods is created and also leads to a failure of a recording device due to malfunctions not to interrupt the loading of the puffing zone.
In principle, it is advantageous if two raisable and lowerable receiving devices or transport devices (FIGS. 1 to 8) are used, since if one of the receiving devices fails, the other of the receiving devices has a double function. N2011 / 01400 08/02 2011 TUE 17:09 SE '/ EM NR 86681 ®0Q7 • · t * 9 • t < «* ≪ • · · I «* * · i ·« «» «» »
-4 - can take over. For this purpose, it is only necessary that the conveying direction of the receiving devices or transport devices is reversible, as is possible by a reversible drive motor for the transport devices. Likewise, the conveying directions can also be reversed on the conveying devices in the first pre-zone conveying system (FIGS. 1 to 4) and / or on the conveying devices of the second pre-zone conveying device (FIGS. 5 to 8). Thus, a "functioning" recording device can now be used both for a storage process of goods as well as a removal process of goods or for a relocation process of goods between the conveyor vehicle and the receiving device. Accordingly, the conveying directions at the conveying devices in the first pre-zone conveying system (FIGS. 1 to 4) and / or at the conveying devices of the second pre-zone conveying system are also reversed. As a result, a sufficiently high availability of the shelf storage system is nevertheless possible even in the event of a fault.
The object of the invention is also achieved by the features and measures of claims 9 and 16. It is advantageous that compared to such known from the prior art hoisting vehicle lifting devices of the control technology as well as the mechanical complexity is significantly reduced by a reduced number of linear actuators. In this case, the transportation devices which are required anyway for the transport of the goods are used in addition to the attachment of the rails for the receiving device. By different control of the linear actuators for the transport devices can now be done on the one hand in asynchronous control the transport of goods independently in different shelves levels and on the other hand, with synchronous control the truck between the stacked shelves are implemented. In addition, in the Aufnahmeposltion of the conveyor vehicle, in which the conveyor vehicle is located on the rails between the arranged on both sides of the rack aisle transport devices, goods are promoted on the one hand between the respective transport device and the conveyor vehicle and on the other hand via the conveyor vehicle between the transport devices. Also, improved accessibility to the rack storage is made possible by the second shelf storage side, when the conveyor vehicle lifting device is arranged with the load-lifting device only on the first shelf storage side.
If the transport devices are formed with congestion zones, as described in claim 10, two, three or four cargoes can be picked up one after the other from each of these and in turn occasionally released. N2011 / 01400 08/02 2011 DI 17:09 [SE / EM NR 8668] @) 008 17:12:58 08-02-2011 9/40 5 17:12:58 08-02-2011 9 / 40 5
In each case, for example, by an accumulation conveyor, such as accumulation roller conveyor and the like. Formed.
The different control options of the lifting drives for the transport devices, as described in claims 13 and 14 allow on the one hand by synchronous control simultaneous vertical adjustment of the transport devices or rails, so that at least one conveyor vehicle can be added to the rails and implemented between the superimposed shelf levels, and on the other hand by asynchronous control, the simultaneous opposing vertical adjustment of the transport devices, so that goods can be relocated at the level of each shelf level and a transport plane. In the synchronous control of the linear actuators, the drive motors are electronically coupled and thus an exact horizontal leveling of the rails is achieved. Due to the asynchronous control of the hoist drives, the shelf storage system can be made even more efficient in terms of the seasons for the storage and retrieval of loads.
If a locking device is provided, as described in claim 15, the conveyor vehicle can be secured in its receiving position on the rails so that even with very dynamic adjustment movements of the transport devices there is no danger that the conveyor vehicle moves away from its secure receiving position. The conveyor vehicle can be kept secured both in the direction of travel and in the vertical direction. This enables trouble-free operation in the rack-mounted system.
For a better understanding of the invention, this will be explained in more detail with reference to the following figures.
In each case in a very schematically simplified representation:
Fig. 1 shows a first embodiment of a Regaliagersystems with a detailed view of the first Regaüagerseite, in a perspective view;
FIG. 2 shows a detail of the shelf support system according to FIG. 1 with a detailed view of the second shelf support side, in a perspective view; FIG.
3 shows an exemplary embodiment of a conveyor vehicle of the shelf support system according to FIGS. 1 and 5, in a perspective view; N2Q11 / 01400 08/02 2011 DI 17:09 [SE / EM NR 8668J @ 009 17:13:13 08-02-2011 10/40 • * · -6-
4 shows a detail of the shelf storage system according to FIG. 1 with the conveyor vehicle lifting device and the front zone conveyor system, in plan view;
5 shows a second embodiment of a shelf storage system, wherein a conveyor vehicle enters the receiving device, in a perspective view.
Fig. 6 is a load-lifting device and conveyor vehicle lifting device with
Transport devices in a takeover or transfer position for the goods;
Fig. 7 is a load-lifting device and conveyor vehicle lifting device with
Transport devices and the receiving device in a receiving position for a conveyor vehicle;
8 shows the shelf storage system according to FIG. 5 with the conveyor vehicle lifting device and the front zone conveyor system, in a perspective view.
By way of introduction, it should be noted that in the differently described embodiments, the same parts are provided with the same reference numerals or the same component names, wherein the disclosures contained in the entire description can be mutatis mutandis to the same parts with the same reference numerals or component names. Also, the location information chosen in the description, such as top, bottom, side, etc. related to the immediately described and illustrated figure and are to be transferred to the new situation mutatis mutandis when a change in position.
A first embodiment of a shelf storage system 1 is shown in FIGS. 4 to 4, which comprises a shelf storage 2 for goods 3, at least one self-propelled conveyor vehicle 4, a load-lifting device 5 and a conveyor lifting device 6. The shelf storage 2 has at a distance parallel arranged Lagerregaie 7a, 7b, between which a rack aisle 8, starting from a first shelf storage page 9 to a second shelf warehouse side 10 and which form in each of overlapping shelf levels 11 each side provided parking spaces 12 for the goods 3 , According to the embodiment shown, the storage shelves 7a, 7b in the shelf levels 11 each form adjacent and successively provided parking spaces 12 for the loads 3, so that two loads 3 can be stacked in the depth direction of the storage shelves 7a, 7b, hence a so-called "double depth". Storage is possible. On the other hand, it is N2011 / 01400 08/02 2011 DI 17:09 [SE / EM NR 8668J 0010
5 17:13:29 08-02-2011 11 MO «* ♦ · * · • ♦ · ♦ ♦ ♦ * · ♦ ·« «· 4 · · · ♦ ♦ * ♦ · · * · 4 ·· 4» » It is also possible for the storage racks 7a, 7b in the racking levels 11 to form pegs 12 for the loadings 3, which are provided next to each other only in a row, so that only one load 3 can be deposited in the depth direction of the storage racks 7a, 7b , therefore, a so-called .einfachtiefe " Storage is possible.
As can be seen in FIG. 1, the shelf storage system 1 on the first shelf support side 9 can additionally comprise a buffer zone which in each case has the shelf levels 11 of the storage racks 7a, 7b in a row of buffer spaces 13a, 13b for at least one load 3. The buffer pads 13a, 13b are each formed on a drivable conveyor track, for example a transport device, such as a Stauroltenbahn, Staugurtförderer and the like., The conveying direction is parallel to the rack aisle 8.
In each shelf level 11 extends along the rack aisle 8 from the first shelf support side 9 to the second shelf support side 10, a first guideway along which the conveyor vehicle 4 (shuttle) is guided movable to cargo 3, such as containers, cardboard, trays and the like to transport the parking spaces 12 respectively provided in the racking levels 11 of the storage racks 7a, 7b and to remove them from the parking spaces 12 respectively provided in the racking levels 11 of the storage racks 7a, 7b.
The first guideways in the racking levels 11 are each formed by horizontal rails 14a, 14b fastened to the storage racks 7a, 7b, each having a height guide track 15 and a respective lateral guideway 16.
If the buffer locations 13a, 13b are provided in front of each storage rack 7a, 7b on both sides of the rack aisle 8, second guideways are also provided in the first pre-zone of the rack storage 2 in each rack level 11 directly in the extension of the first guideways in the rack storage 2, so that the feeder vehicle 4 (shuttle) is also movable between the, at the level of the shelf levels 11 opposing buffer locations 13a, 13b is guided to transport goods 3 to the shelf levels 11 of the storage racks 7a, 7b respectively provided buffer locations 13a, 13b and of the in the rack levels 11 of the storage racks 7a, 7b respectively provided Pufferptätzen 13a, 13b abzutransportferen.
The second guideways in the shelf levels 11 are each formed by attached to the transport devices in the buffer zone horizontal rails 17a, 17b, each with a height guide track 18 and one side guide track 19. N2011 / 01400 08/02 2011 DI 17:09 [SE / EM NR 8668] 0011 25 17:13:46 08-02-2011 12/40
The rails 14a, 14b; 17a, 17b are for example U-profiles, C-profiles and dgi. The conveyor vehicle 4, as shown in more detail in Fig. 3, has drive wheels 20 and can be moved along the height guide tracks 15, 18 rolling. For lateral guidance of the conveyor vehicle 4, this is provided with Seitenfährungsorganen 21. For example, the Seitenfähmngsorgane 21 are formed by formed on the housing frame 22 of the Förderfahr-tool 4 parallel Fühngsanschlagflächen which between the Sertenführungsbahnen 16,19 of the rails 14a, 14b; 17a, 17b are positionable. The conveyor vehicle 4 is further equipped with a load-receiving device 46 for Einlage-tion / retrieval / rearrangement of one or simultaneously two Ladegütem 3, which comprises according to the embodiment shown by telescopic arms 47 and respectively arranged on these drivers 48. Such a load-bearing device 46 is known, for example, from US 2005/0095095 A1 or EP 0 647 575 A1, and can advantageously be used due to the compact construction of the telescopic arms 47 and the reliable mode of operation.
On the first shelf support side 9, the load-lifting device 5 is arranged in front of the shelf storage 2 at the front side, which, according to the embodiment shown, has holding devices 23a, 23b for piece goods 3 which can be raised and lowered independently of one another.
The receiving devices 23a, 23b each comprise a transporting device 24a, 24b with a conveying direction extending parallel to the rack aisle 8, the first transporting device 24a being mounted on a lifting frame 26a which is vertically adjustable via a first lifting drive 25a and a second conveying device 24b on a second lifting drive 26b vertically adjustable lifting frame 26b are constructed.
According to the embodiment shown, the first transport device 24a is mounted on a first mast 27a via the lifting frame 26a and the second transport device 24b is mounted on a second mast 27b via the lifting frame 26b. The mast 27a, 27b is provided with guides 28a, 28b, on which the lifting frames 26a, 26b rest with guide wheels 29a, 29b in a rollable manner.
The transport devices 24a, 24b are thus independently (decoupled) adjustable from one another between the shelf levels 11 and to the height level of each shelving level 11, so that loads 3, such as containers, cartons, trays and dgi., Between the transport devices 24a, 24b and buffer locations 13a , 13b can be promoted. Preferably, the transport devices 24a, 24b are each provided with a drivable conveyor track, such as an accumulation roller conveyor, accumulation belt conveyor and dgi. educated. It N2011 / 01400 08/02 2011 DT 17:09 [SE / FM NR 8668] ElO.12 25 25 13/40 17:14:03 08-02-2011
»* · * ·
proves to be advantageous if the transport devices 24a, 24b in the conveying direction one behind the other several cargo 3, preferably up to four cargoes 3 can accommodate.
One or more goods 3 can be transported by the transport device 24a, 24b to a single buffer space 13a, 13b in the shelf level 11 defined by a controller. Loading goods 3 can also be transported by the transport device 24a, 24b to a plurality of buffer locations 13a, 13b in different rack levels 11 defined by a controller. The transport devices 24a, 24b forms a separating device according to this embodiment.
On the other hand, the loads 3 can be picked up by the transport device 24a, 24b from a single buffer plate 13a, 13b, the transport device 24a, 24b initially being adjusted to the height level of a shelf level 11 defined by a controller, and then one or more load items 3 from the buffer space 13a , 13b are transported in the shelf level 11 to the transport device 24a, 24b. The transport devices of the buffer locations 13a, 13b forms a separating device according to this embodiment.
The goods 3 can also be picked up by the transport device 24a, 24b from buffer locations 13a, 13b in different rack levels 11. In this case, initially the transport device 24a, 24b adjusted to the first height level defined by a controller Regaiebene 11 and transported one or more goods 3 from the buffer space 13a, 13b on the transport device 24a, 24b and then the transport device 24a, 24b to that of a controller defined second height level of a re-gafebene 11 adjusted and transported one or more goods 3 from the buffer space 13a, 13b on the transport device 24a, 24b.
The transport devices 24a, 24b are thus independently (decoupled) adjustable from one another between the regatta levels 11 to the height level of each shelf level 11 and to the height level of a conveyor level 30, so that loads 3, such as containers, cardboard boxes, trays and the like., Also between the Transport devices 24a, 24b and a first Vorzonen conveyor can be promoted.
The first pre-zone conveyor follows the load-lifting device 5 and includes a first conveyor 31a and a second conveyor 31b which are mutually parallel with each other. The conveying devices 31a, 31b
N2011 / 014DO 08/02 2011 DI 17:09 [SE / EM NR 8668] @ 013 25
25 U MO 17:14:20 08-02-2011
Each of them is constituted by a driven conveyor such as a roller conveyor, belt conveyor and the like. The first conveying device 31a extends in the extension of the first storage rack 7a and the second conveying device 31b extends in the extension of the second storage rack 7b, wherein the conveyor devices 31a, 31b of the first pre-zone conveyor and the conveying devices of the buffer zone at least by the length of the transport devices 24a, 24b are arranged spaced apart, so that the transport devices 24a, 24b are each movable in their lowered on the conveyor plane 30 transfer or transfer position between the mutually facing end edges of the conveying devices. Since the clear distance between the Fördervorrichfungen 31 a, 31 b corresponds approximately to the width of the rack aisle 8, a very space-saving arrangement of the first Vorzonen conveyor is achieved.
In this case, via the first conveyor device 31a goods 3 are conveyed from the first pre-zone conveyor to the load-lifting device 5 and the second conveyor 31 b carries goods 3 from the load-lifting device 5 to the first pre-zone conveyor.
On the second shelf support side 10, the conveyor vehicle lifting device 6 (transfer device) is arranged in front of the shelf storage 2 at the front side, which has a liftable and lowerable receiving device 35 for the transport vehicle 4 according to the embodiment shown.
The receiving device 35 comprises a guide track which is constructed on a lift frame 36 which is vertically adjustable via a lifting drive 36. The guideway is mounted on the lifting frame 37 on a guide frame 38, softer on vertical frame parts 39a, 39b guides 40a, 40b, on which the lifting frame 37 with Fühngsrädern 41a, 41b rest unrolled.
The guideway comprises parallel to the rack aisle 8 at a mutual distance horizontally extending rails 42a, 42b, which are mounted on the lifting frame 37 and each form a height guide track 49 and side guide track 50. The rails 42a, 42b are, for example, U-profiles, C-profiles and the like. The conveyor vehicle 4 can be moved on the drive wheels 20 along the height guide tracks 49 rolling. For lateral guidance of the conveyor vehicle 4 serve the above-described side guide members 21 which are positioned between the side guideways 50 of the rails 42a, 42b. N2011 / Q1400 08/02 2011 DI 17:09 [SE / EM NR 8668] Sl014 25 17:14:37 08-02-2011 1 5/40
♦ # * I - 11 -
The conveying vehicle 4 (shuttle) can be moved by the conveying vehicle lifting device 6 between the racking levels 11 with or without load 3, such as containers, cartouches, trays and dgi. be implemented.
The receiving device 35 or guideway can be adjusted between the shelf levels 11 to the height level of each shelving level 11 and the height level of a conveyor technology level 43, so that loader 3 can be promoted between the receiving device 35 and a second Vorzonen conveyor.
The second pre-zone conveyor follows the hoist lift 6 and comprises a first conveyor 44a and a second conveyor 44b which are mutually parallel with each other. The stationary conveying devices 44a, 44b are each provided by a drivable conveying device, for example a roller conveyor, belt conveyor and dgi. educated. The first conveyor 44a extends in the extension of the first storage rack 7a and the second conveyor 44b extends in the extension of the second storage rack 7b. The clear distance between the conveying devices 44a, 44b arranged parallel to each other corresponds at least to the width of the receiving device 35, so that the receiving device 35 or guide track in their transfer position or transfer position lowered onto the conveyor plane 43 between the mutually facing longitudinal edges 45 of the conveying devices 44a, 44b are movable.
Since the clear distance between the conveying devices 44a, 44b corresponds approximately to the width of the rack aisle 8, a very space-saving arrangement of the second Vorzonen conveyor is achieved.
In this case, via the first conveying device 44a goods 3 are conveyed by the second pre-zone conveyor to the conveying vehicle lifting device 6 and conveyed via the second conveyor 44b cargo 3 from the conveying vehicle lifting device 6 to the second Vorzonen conveyor.
By means of the conveying vehicle lifting device 6, at least one conveying vehicle 4 can now be converted between the racking 11.
Now, if a load 3 within the Regaflagers 2, for example, for the purpose of La-gerverdichtung from a parking space 12 In the first shelf level 11 are relocated to a parking space 12 in the fourth shelf level 11, the conveyor vehicle 4 N2011 / 01400 08/02 2011 for the time being DI 17:09 [SE / EM NR 8668] El 0.15 * * * 4 25 17:14:53 08-02-2011 16/40 • »» * · ♦ · * ♦ · · · ♦ ** · «« - 12- taken to the Aufnahmevomchtung 35 and adjusted by this to the height defined by a level of the first shelf level 11, then moves the conveyor vehicle 4 along the guideways of the receiving device 35 in the Regalia ger 2 to the parking space 12 in the first shelf level 11. Once arrived there, the load 3 is removed from the storage rack 7a, 7b by means of a load pickup device 46 indicated schematically in FIG. 3 and transferred to the conveyor vehicle 4. Thereafter, the conveyor vehicle 4 moves with the load 3 along the guideways from the rack warehouse 2 on the receiving device 35. If the conveyor vehicle 4 with the load 3 on the receiving device 35 taken over, the conveyor vehicle 4 is adjusted to the level defined by a controller level of the fourth Regaiebene 11 , Thereafter, the conveyor vehicle 4 moves along the guideways of the receiving device 35 in the shelf storage 2 until in front of the parking space 12 in the fourth shelf level 11. There arrived, the load 3 is stored by the load carrier 4 in the storage rack 7a, 7b by the load receiving device 46.
If, on the other hand, a load 3 is to be stored out of the rack storage 2 according to a picking order, the conveying vehicle 4 is initially adjusted by the receiving device 35 to the height level of a shelf level 11 defined by a control unit. Thereafter, the conveyor vehicle 4 moves along the guideways of the receiving device 35 in the rack storage 2 to a parking space 12 in one of the shelf levels 11. There arrived, the load 3 is removed from the storage rack 7a, 7b by the load receiving device 46 and on the conveyor vehicle. 4 accepted. Thereafter, the Förderfahizeug 4 moves with the load 3 along the guideways from the shelf storage 2 on the receiving device 35. Was the conveyor vehicle 4 with the load 3 on the receiving device 35 Accepted, the Förderfahizeug 4 is transferred to the defined by a control conveyor plane 43 in the transfer or transfer position between the conveying devices 44a, 44b moves and transfer the load 3 on the conveyor 44b. For the transfer of the load 3, in turn, the load-receiving device 46 or a (not shown) separate from the forcicle 4 unloading device, such as a slide or belt transfer can be used.
According to the invention, it is provided that not only in the first pre-zone cargo 3 be provided on the conveyor device 31a, but also in the second pre-zone on the conveyor device 44a. N2011 / 01400 08/02 2011 DI 17:09 [SE / EM NR 8668J 2) 016 25 17:15:11 08-02-2011 17/40 * * »*» · • * · · »*
* * * I * * *. 4
* * * I * * «« «» ** · · - 13-
When a load 3 provided on the conveying device 44a is stored in the rack storage 2, the conveying vehicle 4 is initially moved by the receiving device 35 onto the conveying technology plane 43 defined by a control into the transfer or transfer position between the conveying devices 44a, 44b. Thereafter, the load 3 is taken from the conveyor 44b on the conveyor vehicle 4. To take over the load 3, in turn, the load-receiving device 46 or a (not shown) separate from the conveyor vehicle 4 loading device, such as a slider or belt transfer can be used.
If the load 3 was transferred to the conveyor vehicle 4, the conveyor vehicle 4 is adjusted by the receiving device 35 to the height level of a shelf level 11 defined by a controller. Thereafter, the conveyor vehicle 4 moves along the guideways of the receiving device 35 in the rack warehouse 2 to a free parking space 12 in one of the shelf levels 11. There arrived, by the load receiving device 46, the load 3 in the storage rack 7a, 7b on a front or rear Pitch 12 stored.
The loading and unloading device (not shown) separate from the conveying vehicle 4 as described above functions such that a first belt converter in the first conveying device 44a and a second belt converter in the second conveying device 44b are respectively integrated at the end or a first slider above the first conveying device 44a and a first slider above the second conveyor device 44b are each arranged at the end and allow a transverse displacement / transverse displacement of at least one load 3.
Otherwise, it is also possible, as shown in Fig. 4, that a load 3 not even stored in the storage rack 7a, 7b, if this is required immediately according to a picking order. This can be especially true for "rush orders". be the case. The controller usually also implements the function of a material flow computer. The controller is therefore known which goods 3 are where in the shelf storage system 1 and on the conveyor 44a.
If according to an order picking a load 3 is required, which is located on the conveyor 44a, the conveyor-conveyor system 6 is used to a conveyor vehicle 4 by the receiving device 35 to the defined by a control conveyor plane 43 in the transfer or transfer position between the conveyors 44a, 44b are moved, so that a load 3 without loading and unloading N2011 / 01400 08/02 2011 DT 17:09 [SE / EM NR 8668] 0017 25 17:15:28 08-02-2011 18 / 40
* * * · • · I I t - 14- gervorgang (Bereitsteilungsvorgang) is passed directly from the conveyor 44 a on the conveyor vehicle 4 on the conveyor 44 b. The conveying vehicle 4 accordingly forms a conveying path 51 between the conveying techniques 44a, 44b.
Thus, if a load 3 required for a picking order is still on the conveying device 44a and if, for example, an "egg order" is present, it is not necessary, in contrast to the prior art, for a load 3: i) to be prepared by the first pre-zone conveyor ii) taken directly on a conveyor vehicle 4 or outsourced from a rack warehouse 2 and taken on a conveyor vehicle 4, iii) conveyed through the rack warehouse 2 and iv) is delivered via the conveyor vehicle conveyor 6 to the second Vorzonen conveyor.
If several mobile conveyor vehicles 4 are provided in the shelf storage system 1, the number of conveyor vehicles 4 being lower than the number of shelf storage levels 11 and thus a transport vehicle lifting device 6 being required in order to be able to transfer the conveyor vehicles 4 between the shelf storage levels 11, and the provision takes place of goods 3 from the first pre-zone conveyor and second Vorzonen conveyor, the shelf storage 2 can be compared to such known from the prior art shelf storage systems in a much shorter time "filled". As a result, the efficiency of the shelf storage system 1 can be significantly increased.
A further advantage lies in the fact that in case of malfunction of one of the conveying devices 31a, 44a by the other of the conveying devices 31a, 44a still the feeding of the shelf storage 2 can take place. Preferably, a central conveyor system (not shown), such as a Roil conveyor, belt conveyor and the like, is provided, to which both conveying devices 31a, 44a are connected. The central conveyor system comprises a first discharge area, in which the conveyed goods 3 can be conveyed from the conveyor to the conveying device 31a by a first discharge device (not shown), and a second discharge area, in which the conveyed goods 3 are conveyed through a second discharge device (not shown) from the conveyor to the conveyor 44 a can be promoted. In this way, in the event of a malfunction on the conveying device 31a, a control signal can now be output from the control system. N2011 / 01400 08/02 2011 l 17:09 [SE / EM NR 8668] 0018 - 15- 17:15:44 08-02-2011 19 / 40 s • · are transmitted to the second discharge device, whereupon, over the duration of the malfunction, those goods 3 which should have been conveyed to the conveying device 31 a are conveyed onto the conveying device 44a.
In the jointly described Fig. 5 to Θ another embodiment of a shelf storage system 52 according to the invention is shown, which is the above-described Regaiia-ger 2 for goods 3, at least one conveyor vehicle 4 and optionally on the first Regaflagerseite 9 in each case also the shelf levels 11 of the storage racks 7a , 7b upstream arranged in rows buffer locations 13a, 13b for goods 3 comprises. Furthermore, the rack storage system 52 comprises a modified embodiment of a load lifting device 53.
In contrast to the above embodiment, the load-lifting device 53 also forms a conveying vehicle lifting device 54, both lifting devices 53, 54 being arranged on the front side in front of the shelf storage 2 on one of the shelf sides 9, 10.
The load-lifting device 53 comprises independently liftable and lowerable transport devices 55a, 55b (receiving devices) with a conveying direction extending parallel to the rack aisle δ. The first transport device 55a is mounted on a lifting frame 57a, which is vertically adjustable via a first lifting drive 56a, and the second conveying device 55b is constructed on a lifting frame 57b, which is vertically adjustable via a second lifting drive 56b. The lifting drives 56a, 56b each have electric drive motors.
The transport devices 55a, 55b are mounted on a single mast 58 via the lifting frames 57a, 57b. The mast 58 is provided with guides 59a, 59b, on which the lifting frames 57a, 57b rest with guide wheels 60a, 60b in a rollable manner.
According to another embodiment, however, the first transport device 55a is mounted on a first mast 58a via the lifting frame 57a and the second transport device 55b is mounted on a second mast 58b via the lifting frame 57b, like the arrangement InFIG. 1 shows.
The transport devices 55a, 55b are thus independently (decoupled) adjustable from one another between the rack levels 11 and to the height level of each rack level 11, so that loads 3, such as containers, cartons, trays and the like. Between the transport devices 55a, 55b and buffer locations 13a, 13b N2011 / 01400 08/02 2011 DI 17:09 [SE / EM NR 8688] © 019 - 16-> 5 17:16:00 08-02-2011 20/40 < «* * · You can. Preferably, the transport devices 55a, 55b are each formed by a drivable conveyor track, such as a accumulation roller conveyor, accumulation belt conveyor and the like. It also proves to be advantageous if the transport devices 55a, 55b can receive a plurality of goods 3, preferably up to four goods 3, one behind the other in the conveying direction.
One or more loads 3 may be transported by the transport device 55a, 55b to a single or multiple buffer locations 13a, 13b in the shelf level 11 defined by a controller, as described above. On the other hand, one or more loads 3 can be picked up by the transport device 55a, 55b from a single or multiple buffer locations 13a, 13b, as also described above.
The transport devices 55a, 55b are also adjustable to the height level of the conveying technology plane 30, so that goods 3, such as containers, cartons, trays and the like, can also be conveyed between the transport devices 55a, 55b and the described first pre-zone conveyor. In this case, via the first conveying device 31a, goods 3 are conveyed from the first pre-zone conveyor to the load-lifting device 53 and goods 3 are conveyed away from the load-lifting device 53 to the first pre-zone conveyor via the second conveying device 31b.
The conveying vehicle lifting device 54 (transfer device) has a lifting and lowering receiving device 61 for the conveying vehicle 4. Dib Aufnahmevorrichfung 61 is formed by each attached to the transport devices 55a, 55b and facing each other rails 62a, 62b, which are so on the transport devices 55a, 55b adjustable in a receiving position that the conveyor vehicle 4 in a receiving position on the rails 62a, 62b between the transport devices 55a, 55b is receivable.
The mutually spaced parallel extending rails 62a, 62b are secured to the opposing frame profiles 63a, 63b of the transporting devices 55a, 55b and form a respective height guide track 64a, 64b and side guide track 65a, 65b. The rails 62a, 62b are, for example, U-profiles, C-profiles and the like. The conveyor vehicle 4 can be moved on the drive wheels 20 along the height guide tracks 64a, 64b rolling. For lateral guidance of the conveyor vehicle 4 serve the above-described side guide members 21 which are positioned between the side guideways 64a, 64b of the rails 62a, 62b.
N2011 / 014QO 08/02 2011 DI 17:09 [SE / EM NR 8608] ®020 25 17:16:18 08-02-2011 21/40 - 17-
If the conveying vehicle 4 (shuttle) is to be transported to the height level of one of the rack levels 11 or to the height level of a conveying technology level 30, the transport devices 55a, 55b are initially moved relative to one another and the traveling rails 62a, 62b are brought into the receiving position in which the traveling rails 62a, 62b in a parallel to the transport plane 66 extending receiving plane opposite to each other and the conveyor vehicle 4 can move from one of the guideways in the rack storage 2 or the buffer zone in the receiving position on the rails 62a, 62b. By electrical synchronization of the linear actuators 56a, 56b, the transport devices 55a, 55b during the (synchronous and the same direction) vertical adjustment of the transport devices 55a, 55b held in the receiving position and the conveyor vehicle 4 (shuttle) with or without load 3, such as containers, cardboard , Trays and the like. Implemented between the shelf levels 11 and / or one of the shelf levels 11 and the conveyor plane 30.
In an advantageous embodiment of the invention, the conveyor vehicle 4 can be locked in its receiving position between the rails 62a, 62b by means of a locking device 67 (Fig. 3). The fixed device is preferably formed by an electromagnetic or electromechanical holding brake, which comprises the conveyor vehicle 4. For example, the drive motor of the traction drive from the conveyor vehicle 4 form the holding brake. As a result, the conveyor vehicle can be kept secured in its Aufnahmepositi-on the rails, so that even with very dynamic adjustment movements of the transport devices there is no danger that the conveyor vehicle moves away from its secure receiving position
It is also possible, as schematically indicated in FIG. 7, that the receiving device 61 has a locking device by means of which the conveyor vehicle 4 can be locked in its receiving position between the rails 62a, 62b. The locking device comprises, for example, in mutually engageable locking elements 68, 69, such as locking bolts and locking recesses. The locking element 68 (locking bolt) is mounted on the transport device 55a, 55b and adjustable relative to the conveying vehicle 4 via a drive (not shown). The locking element 69 (locking recess) is arranged on the conveyor vehicle 4. ΝΖ011 / 01400 08/02 2011 l 17:09 [SE / EM NR 86681 ®021 25 17:16:35 08-02-2011 22/40 25 17:16:35 08-02-2011 22/40 · * · t
18-
As can be seen from FIG. 5, with this embodiment of the load-lifting device 53 or conveying-vehicle lifting device 54 different storage processes (loading operations) for the load 3 into the rack 2 are possible.
The goods 3 are conveyed by the first conveyor 31a to the load-lifting device 53 and transferred to the first transport device 55a.
Subsequently, the loads 3 are conveyed by the first transport device 55a to the buffer zone and / or the conveyor vehicle 4,
In this case, one or more loads 3 can be transported by the transport device 55a in the buffer zone to a single buffer space 13a, 13b in the shelf level 11 defined by a controller. Loading goods 3 can also be transported individually by the transport device 55a to a plurality of buffer locations 13a, 13b in different controller compartments 11 defined by a controller. The transport devices 55a forms according to this embodiment a Vereinzeiungsvorrichtung. Thereafter, the intermediate stored on a buffer space 13a, 13b in the relevant shelf level 11 (at least one) load 3 is taken from the conveyed on this shelf level conveyor vehicle 4 4 and parked in this shelf level 11 by means of the load receiving device 36 on a free parking space 12. The storage of the load 3 in the storage rack 7a, 7b is carried out according to the chaotic storage principle.
If, on the other hand, a load 3 without intermediate storage in the buffer zone is to be stored directly in the rack storage 2, one or more loads 3 are taken over by the load receiving device 36 (FIG. 3) from the transport device 55a to the conveyor vehicle 4. Thereafter, the conveyor vehicle 4 is moved with the one or more load 3 via the receiving device 61 by synchronous vertical movement of the transport devices 55a, 55b in the computer defined shelf level 11, in softer the conveyor vehicle 4 along the rails 14a, 14b go to a free parking space 12 and there the goods or 3 by means of the load-receiving device 36 turns off.
If a plurality of conveyor vehicles 4 are used in the repository system 52, it is also possible for a second conveyor vehicle 4 from one of the other shelf levels 11 to be received by the receiving device 61 immediately after the transfer of a first conveyor vehicle 4 to the guideway in the relevant shelf level 11 by the receiving device 61 becomes. Afterwards during the vertical movement of the N2011 / 01400 08/02 2011 DI 17:09 [SE / EM NR 8668] ® | 022 25 17: 16.52 08-02-2011 23/40
• »• V I · · r» * Ψ · ♦ - 19-
Transport devices 55a, 55b in the shelf level defined by the computer 11 one or more loads 3 via the load receiving device 36 (FIG. 3) from the transport device 55a to the second Forderfahrzeug 4 taken over. As a result, an optimization of the charging process and thus an increase in the efficiency of the regai-bearing system 52 are achieved.
As can also be seen from FIG. 5, with this embodiment of the load-lifting device 53 or conveying-vehicle lifting device 54, different removal processes for the goods 3 from the rack storage 2 are possible.
The goods 3 can be conveyed from the storage rack 7a, 7b from the conveyor vehicle 4 into the buffer zone and / or to the load-lifting device 53 or conveyor vehicle lifting device 54.
In this case, one or more goods 3 are initially taken over by the load-receiving device 36 from a storage rack 7a, 7b on the conveyor vehicle 4 and this with the or the load 3 along the rails 14a, 14b moved in one of the Regaiebenen 11 in the buffer zone. Once there, one or more loads 3 can be parked by the conveyor vehicle 4 on a single free buffer space 13a, 13b in this shelf level 11 by means of the load receiving device 36. Also, by means of the load-receiving device 36, load items 3 can be isolated from the conveyor vehicle 4 in a plurality of free buffer locations 13a, 13b in different shelf levels 11 defined by a controller. The load-receiving device 36 forms according to this embodiment a separating device. Thereafter, one or more intermediately stored goods 3 are taken over by a Pufferpfatz 13 a, 13 b in the relevant shelf level 11 to the, reacted to this shelf level 11 conveyor vehicle 4 by means of the load receiving device 36. Meanwhile, the receiving device 61 is moved at the level of the guideway in the relevant shelf level 11, where the conveyor vehicle 4 is moved with the (at least one) load 3 in a receiving position on the rails 62a, 62b between the transport devices 55a, 55b. Subsequently, the transport devices 55a, 55b are lowered to the height level of the conveying technology plane 30, where the loaded or unloaded goods 3 are conveyed away from the transport device 55b onto the second conveying device 31b.
On the other hand, if one or more loads 3 without intermediate storage in the buffer zone are conveyed directly to the load-lifting device 53 or Förderfahrzeug-Hebevorrrchtung 54, for the time being one or more cargo 3 by means of the load N2011 / 01400 08/02 2011 DI 17:09 fSE / RM NR 8668] 0023 25 17:17:09 08-02-2011 24/40 • »· · t · *» »···« · «· * * · · ·» · · * · * · * * · Is taken over by a storage rack 7a, 7b on the conveyor vehicle 4 and this with the or the load 3 along the Running rails 14a. 14b in one of the shelf levels 11 in the direction of the load-lifting device 53 and conveyor vehicle lifting device 54 proceed. Meanwhile, the receiving device 61 is moved at the level of the guideway in the relevant shelf level 11, where the conveyor vehicle 4 is moved with the or the cargoes 3 in a receiving position on the rails 62a, 62b between the transport devices 55a, 55b. Thereafter, the transport devices 55a, 55b are adjusted synchronously to the height level of the conveying technology plane 30 and likewise the receiving device 61. Meanwhile, one or more goods 3 are removed by the load receiving device 36 from the conveyor vehicle 4 to the transport device 55b. If the transport devices 55a, 55b are located at the height level of the conveyor technology level 30, the load or loads 3 can be conveyed away from the load-lifting device 53 by the transport device 55b to the second conveyor 31b.
As can be seen from FIG. 8, with this embodiment of the load-lifting device 53 or conveying-vehicle lifting device 54, it is also possible to rearrange loading goods 3 between the first conveying device 31a, 31b or transport devices 55a, 55b.
If, according to a picking order, a load 3 located on the conveyor 31a is required, the load-lifting device 53 is used to position a hoisting vehicle 4 by the pick-up 61 in the receiving position between the conveyers 55a, 55b and the transporting devices 55a, 55b are moved to the conveyance engineering plane 30 defined by a controller in the transfer position relative to the conveyance devices 31a, 31b, so that a load 3 without loading and unloading operation (barking operation) directly from the conveyance device 31a the Transportvomchtung 55 a and from this on the conveyor vehicle 4 to the transport device 55 b is passed. The conveyor vehicle 4 thus forms a conveyor 70 between the transport devices 55a, 55b.
As a result, it is also possible for a load 3 not to be stored in the storage rack 7a, 7b at all if it is required immediately in accordance with a picking order. This may be the case in particular for "rush orders". As a result, transport routes for goods 3 in "rush orders". optimized. Likewise, the number of loading and unloading operations (provision operations) by the handling vehicle 4 can be reduced N2011 / 01400 08/02 2011 DI 17:09 [SE / EM NR 8668] ®024 25 17:17:27 08-02-2011 25 25/40
-21 -
what is positive effect on the maintenance and the service life of the shelf storage system 1. Otherwise, the same advantages apply as described above.
It should then be pointed out that for reasons of clarity in the shelf storage systems 1; 52 only one conveyor vehicle 4 is shown. Usually, however, in the shelf storage systems 1; 52 several conveyor vehicles 4 (shuttle), for example, for every three shelf levels 11 at least one conveyor vehicle 4 used.
The embodiments show possible embodiments of the shelf storage system 1, 52, it being noted at this point that the invention is not limited to the specifically illustrated embodiments thereof, but also various combinations of the individual embodiments are possible with each other and this variation possibility due to the teaching of technical Acting by objective invention in the skill of those working in this technical field is the expert.
So are all conceivable embodiments, which are possible by combinations of individual details of the illustrated and described embodiment variant, includes the scope of protection.
For the sake of order, it should finally be pointed out that for a better understanding of the structure of the order-picking system, these or their components have been shown partly unimported and / or enlarged and / or reduced in size.
Above all, the individual embodiments shown in FIGS. 1 to 8 can form the subject of independent solutions according to the invention. The relevant objects and solutions according to the invention can be found in the detailed descriptions of these figures. N2011 / 01400 08/02 2011 DI 17:09 [SE / EM NR 8668] ®025 17:18:39 08-02-2011 30/40
ft * * · ·
REFERENCE NUMBERS
Shelf storage system
bay warehouse
Load Carrier
Load Lifting Mechanism Lifting Truck Lifting Device
storage rack
aisle
Bay warehouse Page
Shelf stock side
rack plane
parking space
buffer space
Rail track height track
Side guideway Running track Elevating track Side guideway Drive wheel
Side guide body Body frame Close-up guid e Transporting device Lifting drive
lifting frame
Mast guide Guide wheel F □ rdertechnikeben e conveying device 41 guide wheel 42 running rail 43 conveyor plane 44 conveyor 45 longitudinal edge 46 load receiving device 47 telescopic arm 48 driver 49 Höherführungsbahn 50 side track 51 52 conveyor storage system 53 load lifting device 54 truck lifting device 55 transport device 56 lifting drive 57 lifting frame 58 mast 59 guide 60 guide wheel 61 receiving device 62 running rail 63 frame profile 64 height guide track 65 side guide track 66 transport plane 67 Feststelivorrichtung 68 locking element 69 locking element 70 conveying path
Carrier
Linear actuator
Lift frame guide frame
Frame part Guide N201 f / 01400 08/02 2011 DI 17:09 [SE / EM NR 86681 @ 1030

权利要求:
Claims (14)
[1]
25 17:17:40 08-02-2011 26/40

1. shelf storage system (1) with a shelf storage (2) with adjacently arranged storage shelves (7a, 7b), between which at least one rack aisle (8) from a first shelf storage side (Θ) to a second shelf storage side (10) and which in superimposed shelf levels (11) parking spaces (12) for goods (3), and in the shelf levels (11) along the rack aisle (8) extending guideways (14a, 14b) and at least one along the guideways (14a, 14b) movable , autonomous conveying vehicle (4) for transporting the load (3) to the parking spaces (12) and at least one arranged on the first shelf storage side (Θ) load-lifting device (5) for transporting piece goods (3) between the shelf levels (11 ) and one on the second shelf support side (10) arranged conveyor vehicle lifting device (6) for transporting the conveyor vehicle (4) between the shelf levels (11), characterized in that at the second en shelf storage side (10) further comprises a first conveyor (44a) for transporting loads (3) to the lifting device (6) and a second conveyor (44b) for the removal of cargo (3) from the lifting device (6) are arranged.
[2]
2. shelf storage system according to claim 1, characterized in that the För-derfahrzeug-Habevorrichtung (6) has a liftable and lowerable receiving device (35) for receiving at least one conveyor vehicle (4).
[3]
3. rack storage system according to claim 1 or 2, characterized in that the conveying vehicle (4) via the lifting device (6) between the conveying devices (44a, 44b) is movable such that the conveying vehicle (4) has a conveying path (51) between the conveying devices (44a, 44b) forms.
[4]
4. Regaiagersystem according to one of claims 1 to 3, characterized in that the conveying devices (44a, 44b) on both sides of the rack aisle (8) are arranged, wherein the first conveying device (44a) in the extension of the first N2011 / Q1 < ! D0 08/02 2011 E 17:09 [SE / EM NR 8668] ®026 17.17.54 08-02-2011 27/40 4 * * · «· * ··» -2- Storage shelves (7a) and the second conveyor (44b) extending in the extension of the second storage rack (7b).
[5]
5. shelf storage system according to claim 1, characterized in that on the first shelf storage side (9) in addition each shelf levels (11) of Lagerregaie (7a, 7b) upstream buffer locations (13a, 13b) are arranged for goods (3).
[6]
6. shelf storage system according to claim 1, characterized in that the load-lifting device (5) independently liftable and lowerable receiving devices (23, 23b), in particular transport devices (24a, 24b), for piece goods (3).
[7]
7. shelf lag system according to claim, characterized in that a first receiving device (23a) on a first lifting drive (25a) vertically adjustable lifting frame (26a) and a second receiving device (23b) on a second Hubantrreb (25b) vertically adjustable lifting frame (26b) are constructed, wherein the lifting frame (26a, 26b) on a single mast (27) are guided. Θ. Shelf storage system according to claim 6, characterized in that a first receiving device (23a) on a via a first lifting drive (25a) vertically adjustable lifting frame (26a) and a second receiving device (23b) on a via a second lifting drive (25b) vertically adjustable lifting frame ( 26b) are constructed, wherein the lifting frame (26a, 26b) respectively on a mast (27a, 27b) are guided.
[8]
9. shelf storage system (52) with a shelf storage (2) with adjacent arranged position shelves (7a, 7b), between which at least one rack aisle (6) from a first shelf support side (9) to a second shelf storage side (10) and which extends in superimposed shelves (11) parking spaces (12) for goods (3), and in the shelves (11) along the rack aisle (11) extending guideways (14a, 14b) and at least one along the guideways (14a, 14b) movable, autonomous conveying vehicle (4) for transporting the load (3) to the parking spaces (12) and a on one of the shelf storage sides (9, 10) arranged load-lifting device (53), which load-lifting device (53) independently N2011 / 01400 08th / 02 20.11 DI 17:09 [SE / EM NR 8668] © 027 25 17:18:09 08-02-2011 28/40 • · · · · · Ι1 + · I · -3- lifting and lowering transport devices (55a , 55b) for transporting piece goods (3) between the shelf levels (11) and a lifting and lowering receiving device (61) for transporting the conveyor vehicle (4) between the shelf levels (11), characterized in that the receiving device (61) respectively on the transport devices (55a, 55b) attached and facing each other rails (62a , 62b), wherein the rails (62a, 62b) with the transport devices (55a, 55b) are adjustable in a receiving position in which the conveyor vehicle (4) in a receiving position on the rails (62a, 62b) movable and in this between the superimposed shelf levels (11) is movable
[9]
10. Regaliagersystem according to claim 9, characterized in that the transport devices (55a, 55b) aufvveisen each in the conveying direction one behind the other congestion zones.
[10]
11. Shelf storage system according to claim 9, characterized in that a first transport device (55a) on a first lifting drive (56a) vertically adjustable lifting frame (57a) and a second transport device (55b) on a via a second lifting drive (56b) vertically adjustable lifting frame (57b) are constructed, wherein the lifting frame (57a, 57b) on a single mast (58) are guided.
[11]
12. rack storage system according to claim 9, characterized in that a first transport device (55 a) on a first lifting drive (56 a) vertically adjustable lifting frame (57 a) and a second transport device (55 b) on a second lifting drive (56 b) vertically adjustable lifting frame (57b) are constructed, wherein the lifting frame (57a, 57b) are each guided on a mast (27a, 27b).
[12]
13. Regaliagersystem according to claim 9, characterized in that the rails (62 a, 62 b) for transporting the conveyor vehicle (4) between the shelf levels (11) by synchronous electrical connection of the drive motors of the linear actuators (56 a, 56 b) held in the Aufnahmesteiiung and coupled relatively to the Regafebenen (11) are adjustable. N2011 / 01400 08/02 2011 DI 17:09 ISE / EM NR 8608] ®028 17:18:24 08-02-2011 29/40 17:18:24 08-02-2011 29/40 • »• · * · -Α ΛΑ. Shelf storage system according to claim 9, characterized in that the transport devices (55a, 55b) for transporting the load (3) between the shelf levels (11) by controlling the drive motors of the linear actuators (56a, 56b) independently and respectively relative to the rack levels (11 ) are adjustable.
[13]
15. shelf storage system according to claim 9, characterized in that the conveying vehicle (4) in its Aufnahmeposttion between the rails (62 a, 62 b) by means of a locking device (68, 69) is lockable.
[14]
16. A method for operating a shelf storage system (52) with a rack storage (2) with adjacent to each other arranged storage racks (7a, 7b), between which at least one rack aisle (8) from a first shelf storage side (9) to a second shelf storage side (10) and which in shelving planes (11) lying one above the other have parking spaces (12) for loading goods (3), and guideways (14a, 14b) running along the rack aisle (11) in the racking levels (11) and at least one along the guideways (14a, 14b) movable, autonomous conveying vehicle (4), wherein the load (3) conveyed by liftable and lowerable transport devices (55a, 55b) to RegaElager (2) and conveyed away from the shelf storage (2) and wherein the conveyor vehicle (4) via a Can be raised and lowered receiving device (61) transported between the shelf levels (11) and then in one of the Regaiebenen (11) along the guideways (14a, 14b) can move to at least one load (3) v pick up on a parking space (12) or store on a parking space (12), characterized in that the receiving device (61) each on the transport devices (55a, 55b) mounted and facing each other rails (62a, 62b) comprises, which with the transport devices (55a, 55b) are adjusted to a receiving position, in which the conveyor vehicle (4) in a Aufnahmeposttion on the rails (62a, 62b) moves and can be transported in this between the superimposed shelf levels (11). TGW Mechanics GmbH -vn Attorney at Law WSgeiWartner Rechtsanwalt GmbH N2011 / 01400 08/02 2011 DI 17:09 [SE / EM NR 8668] ®029

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引用文献:

---

公开号 | 申请日 | 公开日 | 申请人 | 专利标题

---

DE2107824A1|1971-02-18|1972-08-24|Siebau Siegener Stahlbauten Gmbh, 5910 Kreuztal|Loading device for shelving systems|

---

DE20211321U1|2001-07-26|2003-01-16|Knapp Logistik Automation|Shelf operating system, preferably in a picking system|

---

WO2005077788A1|2004-02-16|2005-08-25|Knapp Logistik Automation Gmbh|Method and system for operating a shelf in a commissioning system|

---

US20110008137A1|2008-09-03|2011-01-13|Dematic Gmbh|Automated three dimensional warehouse|

---

US20110008138A1|2008-10-27|2011-01-13|Dematic Gmbh|Transferring shuttle for three dimensional automated warehouse|

---

DE102009032406A1|2009-07-09|2011-01-13|Psb Intralogistics Gmbh|Rack storage system has storage rack with multiple adjacent shelves between which rack crankshaft gap extends from rack storage side to another rack storage side|WO2019086420A1|2017-10-30|2019-05-09|FB Industry Automation GmbH|Shelving system having a shuttle vehicle|

---

WO2019086413A1|2017-10-30|2019-05-09|FB Industry Automation GmbH|Shelving system having a shuttle vehicle|

---

WO2020113254A1|2018-12-07|2020-06-11|Tgw Mechanics Gmbh|Rack storage system comprising an improved load manipulation unit|

---

US11273979B2|2017-10-30|2022-03-15|FB Industry Automation GmbH|Shelving system having a shuttle vehicle|KR0183454B1|1993-10-07|1999-04-15|마스다 쇼오이치로오|Apparatus for transferring cargoes|

---

US6923612B2|2002-03-29|2005-08-02|TGW Transportgeräte GmbH & Co. KG|Load-handling system and telescopic arm therefor|

---

DE202009012490U1|2009-09-15|2010-01-07|Knapp Ag|System for storing and retrieving containers in or from a storage rack by means of a satellite vehicle|AU2015288140B2|2014-07-08|2019-11-07|Dematic Corp.|Lift configuration for carriage-based warehouse|

---

JP6591523B2|2014-07-11|2019-10-16|デマティック コープＤｅｍａｔｉｃ Ｃｏｒｐ．|Picking station with automatic warehouse|

---

CN106660704A|2014-08-04|2017-05-10|德马泰克公司|Order fulfillment technique|

---

AT516231B1|2014-09-05|2016-09-15|Tgw Mechanics Gmbh|Automated shelf storage system and method for safely operating the same|

---

AT516633A1|2014-12-18|2016-07-15|Tgw Logistics Group Gmbh|Bearing arrangement with improved energy balance between storage and retrieval units|

---

AU2016250517B2|2015-04-21|2021-01-21|Opex Corporation|Method and apparatus for storing or retrieving items|

---

AT516410B1|2015-04-22|2016-05-15|Tgw Mechanics Gmbh|Method for storing piece goods in a storage rack and storage system|

---

EP3444205A1|2015-05-29|2019-02-20|TGW Mechanics GmbH|Method for storing different piece goods in a storage rack|

---

CN105905499B|2016-05-26|2018-03-20|东莞市源晟仓储设备有限公司|Easily access commodity shelf system|

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NL2018520B1|2017-03-15|2018-09-24|Vanderlande Ind Bv|System and method for collecting containers for this purpose in accordance with instructions.|

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CN110342164B|2018-04-02|2021-09-03|北京京东乾石科技有限公司|Warehouse-out equipment and warehouse-out method|

---

CN109573435B|2018-12-04|2020-12-08|江苏鼎力重工集团有限公司|Stereoscopic warehouse system|

---

CN111284976A|2018-12-10|2020-06-16|上海宝群医疗科技有限公司|Storage device|

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DE102019102804A1|2019-02-05|2020-08-06|Dieter Jakob Klug|High-bay warehouse and method for operating a high-bay warehouse|

---

CN112936209B|2021-05-17|2021-08-06|河南氢枫能源技术有限公司|Horizontal hydrogen storage pressure vessel placing truss with lifting function|

法律状态:

优先权:

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申请号 | 申请日 | 专利标题

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AT1652011A|AT511140B1|2011-02-08|2011-02-08|REGULAR STORAGE SYSTEM AND METHOD FOR OPERATING THE SAME|AT1652011A| AT511140B1|2011-02-08|2011-02-08|REGULAR STORAGE SYSTEM AND METHOD FOR OPERATING THE SAME|

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ATA1006/2011A| AT511137B1|2011-02-08|2011-07-08|SHELF STORAGE SYSTEM AND METHOD OF OPERATING THE SAME|

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AT10042011A| AT511162A1|2011-02-08|2011-07-08|BAY WAREHOUSE SYSTEM|

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AT14052011A| AT511138B1|2011-02-08|2011-09-28|A SINGLE SHIELDING DEVICE FOR INCL. DISTRIBUTION OF CHARGES IN A BZW. FROM A REGULAR STORAGE|

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EP12712539.1A| EP2673217B1|2011-02-08|2012-02-07|Rack store system and method for operating it|

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PCT/AT2012/050019| WO2012106747A1|2011-02-08|2012-02-07|Single-level storage and retrieval unit for storing articles in a rack store and retrieving them therefrom|

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PCT/AT2012/050017| WO2012106745A1|2011-02-08|2012-02-07|Rack store system|

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EP12712541.7A| EP2673219B1|2011-02-08|2012-02-07|Rack store system and method for operating it|

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PCT/AT2012/050018| WO2012106746A1|2011-02-08|2012-02-07|Rack store system and method for operating it|

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PCT/AT2012/050016| WO2012106744A1|2011-02-08|2012-02-07|Rack store system and method for operating it|

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EP12712542.5A| EP2673220B1|2011-02-08|2012-02-07|Single-level storage and retrieval unit for storing articles in a rack store and retrieving them therefrom|

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EP12712540.9A| EP2673218B1|2011-02-08|2012-02-07|Rack store system|