WO2010071912A2 - Method for reloading or loading at least one loading unit - Google Patents

Abstract

The invention relates to a method and to a device for reloading or loading at least one loading unit (1, 2), particularly a container or a swap body, from and/or onto a railway car, preferably while traffic is stopped in a transshipment zone closed off for rail safety reasons, in particular under a contact wire. Before a train pulls in, at least one loading bridge (11), optionally having a loading unit (2), a moving unit (9) that can be displaced and is provided under the loading bridge (11) and has at least one arm (12), is provided in the region of the loading site parallel to the train direction. After the train has stopped, self-propelled accessory loading devices (7) comprising a raising and lower unit for moving the loading unit (1, 2) in the vertical direction are positioned, preferably in the region of the four lower corners of the loading unit (1, 2). The loading unit (1, 2) is loaded from the train onto the loading bridge (11) or from the loading bridge (11) onto the train using the accessory loading devices (7) and the moving unit (9). The invention further relates to a reloading or loading system for carrying out the method using the devices.

Description

 Method for reloading or loading at least one loading unit

The invention relates to a method for reloading or loading at least one loading unit, in particular a container or a swap body, from one and / or on a railroad car, preferably during a traffic stop in a railway safety-related envelope zone, in particular under the trolley wire. Furthermore, the invention also relates to a device for carrying out the method.

The current transport of goods has, despite computers, unrestricted telecommunications and the use of uniform handling units, such as containers or swap bodies, a serious vulnerability. If the transport medium has to be changed in the transport of goods, that is, if the loading unit has to be transhipped, for example from the ship to a railway or lorry (truck) or vice versa or from one wagon to another, enormous logistic problems have to be solved. Both the transport costs and the duration of the transport in their entirety are very much dependent on how these logistics problems are resolved.

Various components are already known for a technical system for loading and unloading standardized intermodal loading units from or onto a railroad car under the contact wire.

Thus, from the AT 502 700 B and the AT 502 634 B a Verladehilfseinrichtung and a mobile handling device known. With these Verladehilfseinrichtungen or with the cited in these documents method a quick transfer and loading of loading units is possible. This known arrangement consists of four identical Verladehilfseinrichtungen or luffing and a mobile loading machine. The lever lifts move autonomously on separate rails along the train. They follow the position specifications of a master computer, look for their functional position themselves and perform there as a cohort, the lifting movements. The lever lifts are complementarily complemented by the mobile sliding unit, which forms a temporary loading bridge between the upper edge of the cart and the lower edge of the loading unit from the functional position. On this temporary bridge moves a, when unloading empty and full on loading transfer pallet from the loading machine to the wagon. The lever lifts put the loading unit on the transfer pallet when unloading a train. The latter then moves horizontally across the bridge to the mobile loading machine, which picks up the transfer pallet and transfers it to further logistical processes. During the loading process, the lifting points lift the loading unit in its position above the loading platform of the carrier, lift it from its anchorages on the transfer pallet and place it - after the transfer pallet has returned to its original position - into the pins on the container carrier. The entire process can be automated and is thus suitable as a core function for a handling system.

An answer to the question of maximum performance is relatively easy: if it is possible to install a cohort of luffing points for each load unit on a train and set up a loading machine, then a train can be completed within the loading time of a handling of 2 minutes loading or unloading. For economic reasons and reasons of the infrastructure, however, it is not possible to provide the above equipment to each loading unit for a transhipment of a train. However, these theoretical data demonstrate the principle performance of the process and offer rail transport an extraordinary opportunity to increase its competitiveness.

Furthermore, there are serious weaknesses in handling or loading facilities in which a large number of load units to be handled. In current commercial systems, the freight cars must first be decoupled from the electric locomotive. Then a diesel locomotive is attached, this brings the container wagon to a track system, which has no overhead contact line. In this area then the loading takes place. The object of the invention is therefore to provide a method of the type mentioned above, on the one hand avoids the above disadvantages and on the other hand, an economical, so fast, efficient and cost-effective reloading or loading units allows, so that the weak points of freight transport can be eliminated can.

The object is achieved by the invention.

The method according to the invention is characterized in that, prior to the entry of a train, at least one loading bridge, optionally with a loading unit, is provided with a moveable sliding unit provided with at least one boom in the region of the loading point parallel to the pulling direction, after the train has stopped at the loading point self-propelled, a lifting and lowering device for the movement of the loading unit in the vertical direction having Verladehilfseinrichtungen, preferably be positioned in the four lower corners of the loading unit, the loading unit with the Verladehilfseinrichtungen and the sliding unit from the train to the dock leveler or is loaded from the loading bridge on the train. With the invention, it is possible for the first time, the automated technical system for loading and unloading standardized intermodal

To connect loading units to the road and logistics side technologies and processes with an economic compromise. The concept of the invention is based on the perspective of a route terminal in the form of an "intermodal node." Within this node, two zones are defined: a service zone and a loading zone In the loading zone, all automated operations on the track take place following mixed operating instructions, such as those of the train These include: the hold of the train on the loading track and the range of movement of the lifts, and the service zone also operates mobile loaders and other autonomously moving components of the material flow The factors for optimizing their operational data are, on the one hand, the time window for the duration of the deployment Train contents for unloading and loading as well as the number of loading units to be handled. As a result, the number of cohorts of loading equipment can be determined. The strategic provision of the loading units or the loading bridges and the continuous removal of the loading units from the transshipment zone thus significantly shortens the transhipment time, so that these systematic foundations result in novel railway services which immensely increase the competitiveness of freight transport by rail and the network license total increase in rail freight traffic.

Decisive for economic use, however, is the productivity achieved under the given boundary conditions and not just the maximum performance.

According to a particular feature of the invention, preferably at a reloading or loading only from a train side, before entering a train with at least one load unit to be imported loading bridge with a provided under the docking movable traversing unit with at least one boom and at least one to be exported loading unit on a further loading bridge in the loading area of the importing loading unit parallel to the pulling direction, the exporting loading unit but offset by a loading unit in Zugsrichtung, provided after the train stop are self-propelled at the loading point, a lifting and lowering device for Movement of the importing loading unit in the vertical direction having Verladehilfseinrichtungen, preferably in the area of the four lower corners of the loading unit, positioned, the importing loading unit is with the Verladehilfseinrichtungen and the sliding unit from the train to the Ladebr Then the loading bridge is transported with the loading unit by means of the movable displacement unit or a self-propelled repositioning vehicle to a terminal vehicle, which takes over the loading unit and transported to a storage location, and the movable displacement unit or the repositioning vehicle moves the load unit to be exported to the height of the current free position, the shift unit is under the Loading bridge positioned and the exporting loading unit is loaded on the train with the sliding unit and the loading equipment and then the empty dock leveler is positioned parallel to the next to be imported loading unit of the train and possibly repeats the above loading cycle. The serious advantage of this method is that the entire process can be automated, making it suitable for a highly efficient handling and loading system.

As with all automated industrial equipment with high fixed costs, the highest possible time efficiency - for example, according to a 24h / 365d scheme - is the key criterion for cost-effective operation. The fixed costs in this case are determined by two factors: a basic investment in the railway infrastructure and an investment in lifting devices and other modular parts of the plant, such as lifting devices, loading machines, and other components that can be integrated into an automatic operation.

Of course, an automatic loading of different sized loading units with a special computer program is possible. This computer program takes into account the order of the corresponding loading bridges and necessary empty spaces or empty wagons for the various containers.

Since, of course, in practice are not always fully loaded with load units trains, the invention is characterized according to a further feature that before entering a train with at least one cut-off for a load of a charging unit a loading bridge with a provided under the docking movable, Moving unit is provided with at least one boom and at least one to be exported loading unit in the area of the freestanding parallel to the pulling direction, after Zugshalt at the loading point self-propelled, a lifting and lowering device for the movement of the exporting loading unit in the vertical direction having loading accessories on both sides the train, in the area of the four lower corners of the loading unit, to be exported, provided on the loading bridge, loading unit with the sliding unit and the loading equipment is loaded onto the train from the dock leveler and the docking unit or repositioning vehicle optionally transports the empty dock leveler parallel to an importing loading unit of the train. It is of course within the scope of the invention, if only a payload or possibly a discharge of a charging unit should take place in an "intermodal node".

According to a further special feature of the invention, in a rationalization of the reloading or loading process, both the displacement unit and the repositioning vehicle, in particular simultaneously, in, preferably in an automatic, operation, wherein the displacement unit for Um- or Loading and repositioning vehicle may be used for the removal of the imported loading units or for the transport of the loading bridges. By this measure, the above procedure can be further shortened in terms of time.

According to a particular embodiment of the invention, the loading units are transported in at least one, preferably two superimposed loading levels on the loading-ground plane of the loading bridges via at least one, guided on a crane track, top spreader in the track direction. This gives the possibility on the sides, on which loading machines act, with cranes, also referred to as top spreader, to pick up the containers from above, move them and set them down again. This measure increases the flexibility of the handling terminal, since preferably can be operated simultaneously at different heights and increases the availability in case of failure.

According to a further embodiment of the invention, the loading units are transported transversely to the track direction in at least one loading plane via at least one, optionally movable, gantry crane, wherein the

If necessary, load units can be rotated by a maximum of 360 °. With such a gantry crane a crossing of the tracks is possible. This crossing of the tracks is especially advantageous when in a system for reloading or loading several main tracks are provided. This gantry crane makes it possible, for example, to move a container from the left transport track to the center or right and vice versa. This gantry crane is also able to rotate the containers around its own axis by 360 °. This possibility must be given, because for security reasons the doors of for example

Dangerous goods transports on the railway should not be accessible. For this reason, the containers are loaded door to door on the train. In order to accomplish this safety regulation, the possibility must be given for turning.

According to a development of the invention, the loading units to be exported are retrieved from a, preferably fully automatic, sorting and storage system in the loading cycle for loading and optionally the imported loading units in a, preferably fully automatic, sorting and storage system before their transfer into the further material flow to subsequent Resources buffered by rules. Within the entire transhipment process, the concrete location of the interface between automatic and manual operation determines as much as possible both the efficiency and the cost-effectiveness or the costs of a terminal. The higher the automated share, the higher the potential of this system. Therefore, the interface to the non-rail transport vehicles should be as close as possible to the end of the automated process chain from the perspective of the rail envelope. Such a fully automated sorting and storage system increases the efficiency enormously.

According to a particular embodiment of the invention, the loading or filling of the sorting and storage system is carried out with loading units by means of conventional, conventional means of transport or with one or a train forming repositioning vehicles. With this version, the interface between automatic and manual operation is given. However, it is also an object of the invention to provide a device for carrying out the method.

The device according to the invention is characterized in that provision is made for providing the exporting or temporary storage of the importing loading unit a loading bridge, which consists of a table-like frame, possibly with a central through hole for the sliding unit. Such a dock leveler is structurally very simple in construction and inexpensive to manufacture.

A further device according to the invention for carrying out the method is characterized in that the displacement unit is formed by a mobile handling device, wherein the transfer or loading movement of the loading unit via at least one positionable under the loading unit, movable plate and the plate as a loading device is formed, at least the

Base surface of the loading unit corresponds and in transport or rest position on a, on the side facing away from the loading surface of the loading device, provided base frame and / or a base plate and that at least one boom is provided between the loading device and the base frame or the base plate, on the base frame or on the

Arranged base plate and, preferably telescopically or swinging, perpendicular to the longitudinal side of the loading unit, is extensible and that the loading device on the boom in its longitudinal extent via a drive is movable. The sliding unit or loading machine called, consists of three components, namely an arrangement of two pivotable bridge girders with a displacement device, a transfer pallet and a structure with a rail-mounted chassis.

The two arms or bridge girders are mounted in the horizontal by 90 ° pivotable. They move between the two end positions "longitudinal attachment of the bridge to the construction of the loading machine" and "forming a bridge arch between the lower edge of the loading unit and the loading edge of the trolley". The two hydraulically operated counter bearings of Opposite loading equipment or lifts are the bridge piers. Their positioning is electronically controlled by sensors that monitor all potential points of failure and danger. This temporary bridge forms a very robust construction on which the transfer pallet can move. The transfer pallet also has the above-mentioned alignment pins for safe operation, with their load movement can run free at any time. The rail-guided vehicle moves on tracks and it positions itself independently at its loading position. Before starting the loading operation, it is fixed on the tracks by a hydraulic track clamp.

A further device according to the invention for carrying out the method is characterized in that a self-propelled transport machine, formed from two interconnected bogies, with a lifting device for lifting the loading bridge, the loading device and the loading unit is provided as a repositioning vehicle.

According to a further development of the device according to the invention, at least one top spreader, guided on a crane track in the track direction, is provided in at least one, preferably two loading planes above the loading ground plane, the crane track optionally being bent at one end, preferably up to an angle of 90 ° from the loading direction, is performed. As already shown, this gives the possibility on the sides, on which loaders act, to pick up the containers from above with top spreader, move them and put them down again. Due to the curved crane runway, the loading unit can be driven out of the immediate loading area and either stored temporarily or reloaded onto a vehicle. By arranging top spreaders at different heights, the flexibility of the handling terminal is immensely increased and the loading time is shortened, since several loading units can be transported simultaneously and independently of each other. According to a further embodiment of the invention, an optionally movable, gantry crane is provided, which transports at least one loading unit transversely to the track direction in at least one loading plane, wherein the loading unit is optionally rotatable by a maximum of 360 °. As already briefly mentioned, a transhipment terminal in question may comprise several main tracks, which are preferably guided in parallel. With such a gantry crane thus a crossing of the tracks is possible.

However, it is also within the scope of the object of the invention, a transfer or loading system for carrying out the method and in which the above-mentioned devices are used to create.

The transfer or loading system according to the invention for carrying out the method is characterized in that, preferably above the loading ground plane, a safety-related, virtual loading tunnel or a

Hall construction is provided, which has openings in the hall roof for the passage of the loading units and the hall roof preferably roofs two main tracks, four tracks for the loading equipment and three sorting tracks for the displacement unit. Since the method described above for loading and unloading is a completely autonomous and fully automatic process, certain safety regulations must be adhered to. The most important principle for fully automated systems is that access for people during operation is prohibited, so the system must be secured. In this case, the fuse is based on a hall construction because it has several advantages of working in an environmentally protected area. The first advantage that speaks for a hall, is in the sense of high availability to safely locate the position of the lift. The positioning of these takes place on an optical basis, which can be influenced by winter conditions such as snow, fog or heavy rain. These could lead to a mispositioning in the said conditions. It should also be possible to work with the top spreaders on the sides where loading machines act. Another requirement for a hall construction is that in the middle of the hall no Be allowed supports. To meet this requirement, this construction is preferably carried out as a suspended structure. This can be designed so that it can be clad with corrugated sheets to create a closed space. The entrance and the exit should be left open. Likewise, the hall roof must openings for the passage of the

Have charging units or the loading bridge. Of course, it is also conceivable that the crane runways are guided in the hall.

Furthermore, of course, any multi-lane of main tracks increases the capacity of a fully automatic loading and unloading terminal.

The invention will be explained in more detail with reference to exemplary embodiments, which are illustrated in the drawing.

Show it:

Fig. 1 is a schematic representation of a charging zone as part of an "intermodal

Node "

2 to FIG. 6 the individual loading steps, FIG. 7 a repositioning vehicle, FIG.

8 a loading bridge,

9 is a timing diagram for the loading zone,

10 shows a track arrangement for an "intermodal node"

11 shows schematically a transfer or loading installation with a top spreader, FIG. 12 shows schematically a transfer or loading installation with a gantry crane and FIG

Fig. 13 shows schematically a transfer or loading system with four loading levels.

According to FIG. 1, the loading zone is used in an "intermodal node" for reloading or loading at least one loading unit 1, 2, in particular a container or a swap body, from and / or onto a railroad car 3 in a transit-proof envelope section. The railway waggons 3 are not shown in this very simplified sketch and only indicated by the rectangle takes place during a service stop under the trolley 4 and only from a train side.

The train with the, or preferably several, to be imported loading unit 1 moves in the railway safety-technically completed envelope on a branching off from the main track other main track. During a service, the other main track is defined as loading track 5. Parallel to this loading track 5, the tracks 6 are provided for Verladehilfseinrichtungen 7. At least on one side of the loading track 5 runs a sorting track 8 for the to be exported loading units 2. On the sorting track 8 move a movable displacement unit 9 or a repositioning vehicle 10 About the sorting track 8 loading bridges 11 for the importing 1 or Exporting loading units 2 arranged. The loading bridge 11 has at least one, preferably two, arms 12 for displacing the loading unit 1, 2.

According to FIGS. 2 to 6, the method for loading and unloading a loading unit 1, 2 in a loading zone within an "intermodal node" is described in more detail:

According to FIG. 2, before entering a train with at least one loading unit 1 to be imported, a loading bridge 11 with a movable, shifting unit 9 provided under the loading bridge 11 and optionally at least one loading unit 2 to be exported on a further loading bridge 11 in the area of the loading point the importing loading unit 1 parallel to

Zugsrichtung, the exporting loading unit 2, however, offset by a loading unit 1 in the pulling direction, provided. After the train stop at the loading point self-propelled, a lifting and lowering device for the movement of the importing loading unit 1 in the vertical direction having Verladehilfseinrichtungen 7, preferably in the region of the four lower corners of the loading unit 1, positioned. The importing loading unit 1 is with the Verladehilfseinrichtungen 7 and the shift unit 9 from the train loaded onto the loading bridge 11. The movement of the loading unit 1 is indicated by the arrows 13.

According to FIG. 3, the loading bridge 11 with the imported loading unit 1 is subsequently transported by means of a self-propelled repositioning vehicle 10 to a terminal vehicle which takes over the loading unit 1 and transports it to a storage location. The shift unit 9 is driven under the loading bridge 11 for the exporting loading unit 2.

According to FIG. 4, the loading unit 2 to be exported is transported by the self-propelled repositioning vehicle 10 to the height of the now cleared area. The movable displacement unit 9 is moved.

According to FIG. 5, the displacement unit 9 is positioned below the charge bridge 11. The exporting loading unit 2 is loaded on the train with the shift unit 9 and the loading assistance devices 7. The movement of the loading unit 2 is indicated by the arrows 14.

According to FIG. 6, the empty cargo bridge 11 is then positioned parallel to the next loading unit 1 of the train to be imported and if necessary the above loading cycle is repeated.

Of course, this method for reloading or loading of at least one loading unit 1, 2 is also useful if, for example, only one loading unit 1, 2 is loaded or unloaded. In the case of a payload, before loading a train with at least one cut-off for a payload of an exporting loading unit 2, a loading bridge 11 with a moveable shift unit 9 provided under the dock leveler is provided parallel to the pulling direction in the region of the free position (FIG. 4). After the train stop self-propelled, a lifting and lowering device for the movement of the exporting loading unit 2 in the vertical direction having Verladehilfseinrichtungen 7 on both sides of the train, in the region of the four lower corners of the loading unit 2 positioned. The exporting, on the loading bridge 11 The loading unit 2 provided with the shifting unit 9 and the loading aids 7 is loaded onto the train by the loading bridge 11 (FIG. 5) and the shifting unit 9 or the repositioning vehicle 10 convey, if appropriate, the empty cargo bridge parallel to an importing one Loading unit 1 of the train (Fig. 6).

Analogously, the method according to FIGS. 1 to 3 is applicable when only one loading unit 1 is unloaded.

In a rationalization of the reloading or Verladevorganges are both the

Shift unit 9 and the repositioning vehicle 10 simultaneously in operation. In this case, the displacement unit 9 for reloading and the repositioning vehicle 10 can be used for the supply transport of the loading units 2 to be exported, the removal of the imported loading units 1 or for the transport of the loading bridges 11.

According to FIG. 7, a self-propelled transport machine, formed from two interconnected bogies 15, is provided as a repositioning vehicle 10.

According to FIG. 8, a loading bridge 11 is provided to provide the exporting 2 or for the temporary storage of the importing loading unit 1. This loading bridge 11 consists of a table-like frame that dominates the sorting track 8. Under this loading bridge 11, both the shift unit 9 as well as the repositioning vehicle 10 can be positioned. At the corners of the loading bridge 11 retaining pin 16 are provided for the corner fittings of the loading units 1, 2, the so-called container fittings.

The displacement unit 9 is formed from a mobile handling device, wherein the transfer or loading movement of the loading unit 1, 2 via at least one, under the loading unit 1, 2 positionable, movable plate and the plate is designed as a loading device. This plate is at least equal to Base surface of the loading unit 1, 2 and is arranged in the transport or rest position on a, on the side facing away from the loading surface of the loading device, provided base frame and / or a base plate. Between the loading device and the base frame or the base plate at least one arm is provided, which is arranged on the base frame or on the base plate and, preferably telescopically or swingable, perpendicular to the longitudinal side of the loading unit, can be extended. The loading device is movable on the boom in its longitudinal extent via a drive. A very similar displacement unit 9 is known from the already cited AT 502 634 B.

The arms 12 are mounted on the sliding unit 9 and are also activated by this. For example, when loading, they lift the transfer pallet together with the loading unit 1, 2 out of the loading bridge 11, swing out the outriggers 12, they are supported and the container can be moved.

In order to further increase the rationality of such an "intermodal node", the loading units 2 to be exported are retrieved from a, preferably fully automatic, sorting and storage system between the service zone and the interface to driver-operated transport vehicles in the loading cycle for loading. Replenishment of the sorting and storage system with loading units by means of conventional, conventional means of transport.

As stated above, such terminals will be optimized according to the criteria of railway approval and economy. According to FIG. 9, the factors for optimization on the one hand are the time window for the duration of the train content T ₁ for unloading and loading and the number of loading units 1, 2 to be handled. As a result, the number of cohorts of loading aids 7 can be determined. As a result of the strategic provision of the loading units 2 or the loading bridges 11 in the time T ₂ and the continuous removal of the loading units 1 from the handling zone, the reloading time is substantially shortened, so that they are replaced by these systematic basis, new train services are being created which will increase the competitiveness of rail freight transport immensely. Times 1 ₃ and 1 ₄ reflect the entry and exit times of the train. The individual sequences correspond to the individual trains for loading.

According to FIG. 10, in the event that several cohorts of loading aids 7 are in use for the purpose of increasing the loading capacity during a defined period of service, another feed track 17 with track connections is used for their integration into the material flow parallel to the sorting track 8 18 are provided for sorting track 8.

In order to shorten the residence times of a container goods train during the loading or unloading process, a fully automatic system is sought, which dominates the envelope under the contact wire.

A first step in achieving this goal is shown in FIG. In the transfer or loading system shown schematically are two main tracks as loading tracks 5, which lie under the trolley wire 4 and parallel to each loading track 5 tracks 6 are provided for the Verladehilfseinrichtungen 7 on both sides. The outermost track strands and the midway between the two loading tracks 5 provided strand are the sorter 8. On the sorting track 8 move the movable shift unit 9 or the repositioning vehicle 10. About the sorting track 8, the loading bridges 11 for the imported 1 or exporting loading units 2 arranged. In this transfer or loading system can be loaded on both sides of the loading track 5. This loading level is referred to below as the loading ground plane 24.

In order to be able to transport the loading units 1, 2 predominantly parallel to the track direction over the sorter track 8, at least one, preferably two superimposed loading planes above the loading ground plane 24, has at least one crane track 19 in the track direction guided, Topspreader 20 provided. With this Topspreader 20 can the Loading units 1, 2 taken from above, transported horizontally and set down again.

The crane runway 19 is optionally guided bent at one end, preferably up to an angle of 90 °, out of the loading direction. Due to the curved crane track 19, the loading unit 1, 2 are driven out of the immediate loading area and either stored or transferred to a vehicle. By arranging Topspreadem 20 at different heights, the flexibility of the handling terminal is immensely increased and also shortens the loading time, since several loading units 1, 2 can be transported simultaneously.

The crane runway 19 with the Topspreader 20 can for a load capacity of 40 1 as

Double-girder bridge crane be executed.

Another variation to achieve the above object is shown in FIG.

In the illustrated Um- or loading system are again two

Main tracks as loading tracks 5, which lie under the contact wire 4 and parallel to each loading track 5 bilateral tracks 6 are provided for the loading accessories 7. The outermost tracks as well as the middle between the two

Ladegleisen 5 provided strand are the sorting tracks. 8

In order to now be able to transport the loading units 1, 2 predominantly transversely to the track direction via one or more tracks 5, 6, 8, a gantry crane 22 is provided, which in a loading plane a loading unit 1, 2 transverse to the track direction can transport. This gantry crane 22 is designed such that it can turn a loading unit 1, 2 optionally 360 °. Of course, this gantry crane 22 can also be moved.

Since handling is a completely autonomous process, certain safety regulations must be adhered to. The most important principle for fully automated systems is that access for people during operation is prohibited, so the system must be secured become. In this case, the fuse is based on a hall construction 23, since there are several advantages of working in an environmentally protected area. The first advantage that speaks for a hall is finding the position of the loading aids 7. The positioning of these takes place on an optical basis, which can be influenced by winter conditions such as snow, fog or heavy rain. These could lead to a mispositioning in the said conditions. In addition, the possibility is given, on the one hand to work with Topspreadern 20 and / or with the gantry crane 22. These measures increase the flexibility of the transshipment terminal, because at different heights - as will be explained later - can be worked simultaneously. Another requirement for a hall structure 23 is that it must not be a pillar in the middle of the hall. To meet this requirement, this is optionally carried out as a suspended structure. This can be designed so that it can be clad with corrugated sheets to create a closed space. The entrance and the exit should be left open. Further, recesses or openings 24 for passage of the loading units 1, 2 are optionally provided in the roof.

In Fig. 13, a transfer or loading system with four loading levels is shown schematically, with such a handling or loading system is fully automated. Four different loading levels are defined in this handling or loading system. The first level is defined as the loading ground plane 24, which is at the same level as the loading aids 7. In this loading ground plane 24, the displacement of the unloaded loading units 1, 2 is ensured by means of the mobile repositioning vehicles 10. Must now one

Loading unit 1, 2 are lifted over another, the other three loading levels are used. In the second loading level 25, three top spreaders 20 move, these are each mounted above the sorting track 8. These cranes are able to grip a loading unit 1, 2 from above and to move them parallel to the transport direction of the repositioning vehicle 10. In the third loading level 26, three top spreaders 20 likewise move above the lower three. With the second and third loading level 25, 26, the flexibility of the terminal is increased. Three loading units 1, 2 can be moved simultaneously or be moved. In the fourth loading level 27 is a transport for crossing the tracks instead. This gantry crane 22 is mainly used to change the loading track 5. The gantry crane 22 allows, for example, a loading unit 1, 2 from the left loading track 5 to the center or rights to move and vice versa. This gantry crane 22 is also able to rotate the load units 1, 2 about its own axis by 360 °. This possibility must be given, since for security reasons the doors of dangerous goods transports on the course should not be accessible. For this reason, containers are loaded door to door on the train. In order to accomplish this safety regulation, the possibility must be given for turning. The fourth loading level 27 may not be the same as the other three over the entire length available, but only set up at certain points, depending on what requirements are placed on the terminal. Since the complete planning of a handling or loading system is modular, the fourth loading level 27 can also be provided as often as desired. All cranes, such as Topspreader 20 and gantry crane 22 should be able to lift load units 1, 2 with 36 t weight.

The hall construction 23 can also be seen as a virtual loading tunnel, the logistics processes provided in this transfer or loading installation being processed by software.

Claims

claims:

1. A method for reloading or loading of at least one loading unit, in particular a container or a swap body, from one and / or on a railroad car, preferably during a traffic stop in a railway safety-related envelope zone, in particular under the contact wire, characterized in that before the retraction of a train at least one loading bridge (11), optionally with a loading unit (2), with a provided under the loading bridge (11) movable, displacement unit (9) with at least one boom (12) in the region of the loading point parallel to the pulling direction is provided after the train stop at the loading station self-propelled, a lifting and lowering device for the movement of the loading unit (1, 2) in the vertical direction,

Loading aid (7), preferably in the region of the four lower corners of the loading unit (1, 2), are positioned, the loading unit (1, 2) with the Verladehilfseinrichtungen (7) and the displacement unit (9) from the train to the loading bridge ( 11) or loaded onto the train from the loading bridge (11).

2. The method according to claim 1, characterized in that, preferably in a reloading or loading only from a train side, before entering a train with at least one to be imported charging unit (1) a loading bridge (11) with a below the dock leveler (11 11) provided movable, displacement unit (9) with at least one boom (12) and at least one exporting loading unit (2) on a further loading bridge (11) in the loading point of the importing loading unit (1) parallel to the pulling direction, the exporting Loading unit (2) but offset by a loading unit (1) in Zugsrichtung, is provided, after the train stop at the loading point self-propelled, a lifting and lowering device for the movement of the importing loading unit (1) in the vertical direction, Verladehilfseinrichtungen (7), preferably in the region of the four lower corners of the loading unit (1, 2) are positioned, the importing loading unit (1) with the Verladehilfseinrichtungen (7) and the displacement unit (9) from the train to the loading bridge (1 1) is loaded, then that the loading bridge (1 1) with the loading unit (1) by means of the movable displacement unit (9) or a self-propelled repositioning vehicle (10) to a terminal vehicle, which takes over the loading unit (1) and transported to a storage location, transported, and the movable displacement unit (9) or the repositioning vehicle (10) conveys the loading unit (2) to be exported to the height of the now vacant space, the displacement unit (9) below the loading bridge (1 1) is positioned and the exporting loading unit (2) is loaded on the train with the displacement unit (9) and the Verladehilfseinrichtungen (7) and then the vacant loading bridge e (1 1) parallel to the next one to be imported

Loading unit (1) of the train is positioned and optionally above loading cycle is repeated.

3. The method according to claim 1, characterized in that, preferably in a transfer or loading only from a train side, before entering a train with at least one cut-off for a load of a loading unit (2) a loading bridge (11) with a lower the loading bridge (11) provided movable, displacement unit (9) with at least one boom (12) and at least one to be exported loading unit (2) in the region of the free position parallel to the pulling direction is provided, after the train stop at the loading point self-propelled, one Lifting and lowering device for the movement of the exporting loading unit (2) in the vertical direction, Verladehilfseinrichtungen (7) on both sides of the train, in the region of the four lower corners of the loading unit (2) are positioned to be exported, on the loading bridge (1 1) provided, loading unit (2) with the sliding unit (9) and the Verladehilfseinrichtungen (7) from the loading bridge (1 1) on the train ver and the displacement unit (9) or the repositioning Vehicle (10) optionally transported the empty dock leveler (11) parallel to an importing loading unit (1) of the train.

4. The method according to claim 2 or 3, characterized in that in a rationalization of the reloading or Verladevorganges both the shifting

Unit (9) and the repositioning vehicle (10), in particular simultaneously, are in, preferably in an automatic, operation, wherein the shifting unit (9) for reloading and the repositioning vehicle (10) for the removal of the imported loading units (1) or for the transport of the loading bridges (11) are used.

5. The method according to one or more of claims 1 to 4, characterized in that the loading units (1, 2) in at least one, preferably two loading levels (25, 26) on the loading ground plane

(24) via at least one, on a crane runway (19) out, top spreader (20) are transported in the track direction.

6. The method according to one or more of claims 1 to 5, characterized in that the loading units (1, 2) in at least one loading

Level (27) via at least one, optionally movable, gantry crane (22) are transported transversely to the track direction, wherein the loading units (1, 2) optionally rotated by a maximum of 360 °.

7. The method according to one or more of claims 1 to 6, characterized in that the to be exported loading units (2) from a, preferably fully automatic, sorting and storage system are retrieved in the loading cycle for loading and that optionally the imported loading units (1) be buffered in a, preferably fully automatic, sorting and storage system prior to their transfer in the further flow of material to subsequent resources according to rules.

8. The method according to claim 7, characterized in that the loading or filling of the sorting and storage system with loading units (1, 2) by means of conventional, conventional means of transport or with one or a group or a train forming repositioning vehicles (10 ) he follows.

9. Device for carrying out the method according to one or more of claims 1 to 8, characterized in that for providing the exporting (2) or for temporary storage of the importing loading unit (1) a loading bridge (11) is provided which consists of a table-like Frame exists.

10. Device for carrying out the method according to one or more of claims 1 to 8 and 9, characterized in that the displacement unit (9) is formed from a mobile handling device, wherein the transfer or loading movement of the loading unit (1, 2 ) via at least one, under the loading unit (1, 2) positionable, movable plate and the plate is designed as a loading device, at least the base of the loading unit (1, 2) corresponds and in transport or rest position on one, on the At least one boom (12) is provided between the loading device and the base frame or the base plate, which arranged on the base frame or on the base plate and the, preferably telescopically or swung out, perpendicular to the longitudinal side of the loading unit (1, 2), is extendable and that the loading device on the boom (12) in its longitudinal extent via a drive is movable.

11. Device for carrying out the method according to one or more of claims 1 to 8 and 9 or 10, characterized in that as a repositioning vehicle (10) a self-propelled transport machine, formed from two interconnected bogies (15), with a Lifting device for lifting the loading bridge (11), the loading device and the loading unit (1, 2) is provided.

12. Device for carrying out the method according to one or more of claims 1 to 8 and one or more of claims 9 to 11, characterized in that in at least one, preferably two superimposed loading levels (25, 26) on the loading Ground plane (24) of the loading bridges (11) at least one, on a crane track (19) guided in the track direction, top spreader (20) is provided, wherein the crane runway (19) optionally bent at one end, preferably up to an angle of 90 ° the Verladegleisrichtung, is guided.

13. Device for carrying out the method according to one or more of claims 1 to 8 and one or more of claims 9 to 12, characterized in that a, optionally movable, gantry crane

(22) is provided which transports in at least one loading plane (27) at least one loading unit (1, 2) transversely to the track direction, wherein the loading unit (1, 2) is optionally rotatable by a maximum of 360 °.

14. transshipment or loading system for carrying out the method according to one or more of claims 1 to 8 and one or more of claims 9 to 13, characterized in that, preferably above the loading ground plane (24), a safety-related, virtual Verladetunnel or a hall construction (23) is provided which has in the hall roof openings (24) for the passage of the loading units (1, 2) and the hall roof preferably two main tracks (5), four tracks (6) for the Verladehilfseinrichtungen (7) and three sorting tracks (8) for the displacement unit (9) roofed.