CONTAINER TRANSPORTATION SYSTEM AND METHOD
A container transportation system including a plurality of containers configured to contain and protect freight in a marine environment and a vehicle configured to individually lift and transport each container and orient and place each container on a support surface. The system further includes a marine vessel having a deck with sufficient strength to support the vehicle when the vehicle is transporting a fully loaded one of the containers. The system also includes a ramp shaped to extend from an associated dock to the deck and having sufficient strength to support the vehicle when the vehicle is transporting a fully loaded one of the containers. The ramp has sufficient length such that an angle of inclination of the ramp suspended between the deck and the associated dock allows the vehicle to traverse the ramp without slipping. The vehicle is able to transport the containers from the associated dock, over the ramp, to desired locations on the deck for transportation by the marine vessel, and to remove the containers from the desired locations on the deck and transport the containers over the ramp to an associated dock.
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This application is a divisional of U.S. application Ser. No. 09/057,313 filed on Apr. 8, 1998, the entire contents of which are hereby incorporated by reference.
BACKGROUNDThe present invention relates to containerized freight transportation systems and methods and, more particularly, containerized freight transportation systems incorporating a marine vessel such as a barge.
Transportation of containerized freight has proven to be efficient and cost-effective when utilized in a marine environment. It is now quite common for barges and freighters, the latter more specifically named container ships, to transport containerized cargo. Typically, the cargo is first stowed within enclosed, sealable metal containers which are made in standardized lengths, such as 40 feet, and having standardized width and height dimensions. Once filled with cargo at a customer's location, the containers are sealed and transported by tractor trailer or rail to a marine terminal, where they are loaded upon a barge or container ship by container cranes.
Container cranes are relatively expensive, typically costing several million dollars each. Such cranes typically comprise an elevated bridge or superstructure mounted on rails set in the marine terminal. The bridge supports a boom which is sufficiently elevated to allow the marine vessel to be loaded or unloaded to sail and moor beneath it. The container crane includes a carriage movably mounted on the boom having a winch which lifts containers singly from the dock between the support legs of the superstructure, transports them to a desired position above the load deck of the vessel, then lowers the containers to a preselected location. Marine vessels loaded in this fashion typically transport containers stacked several containers high, or in greater stacks. Once the containers have been stacked on the load deck, they may be lashed into position by a series of cables which are attached to the deck. Containers stored below the weather deck of the marine vessel typically are secured in racks which are dimensioned to receive containers of a particular size.
A disadvantage with such a crane system for loading and unloading containers from a marine vessel is that such systems are quite expensive, require extensive site preparation, significant space for erection and significant wharf strength, and can handle only a single container at a time (although some marine terminals have more than one container crane on a set of tracks).
SUMMARYIn one embodiment the present invention is a container transportation system and method which can be used virtually at any marine terminal, requires minimal site preparation, and is relatively inexpensive to implement. The system includes a number of containers, each adapted to contain freight and protect it in a marine environment, a material transporting vehicle adapted to lift, transport, orient and place the containers on a support surface, a marine vessel having a container storage deck with sufficient strength to support the vehicle when the vehicle is transporting a fully loaded one of the containers, and a ramp shaped to extend from an associated dock or wharf to the deck and having sufficient strength to support the vehicle when the vehicle is transporting a fully loaded one of the containers.
In one embodiment, the containers are 53 feet long, 8.5 feet wide and 9.5 feet high and are constructed of aluminum in order to maximize their cargo capacity. Each container includes corner fittings on all eight corners of the container, and the containers are secured to the deck by semi-automatic twistlocks. Furthermore, twistlocks are used to secure the containers to each other in a stacked relation. Consequently, the need for cable lashings and other means of securement is eliminated. This elimination of lashings not only reduces the cost of materials required to secure the containers on the vessel, but greatly reduces the time required to load and unload containers.
The ramp may be sized to allow the vessel to be accessed by the vehicle in various tidal and load conditions. The ramp may include a pivotable foot which is inclined to provide a smooth transition to the ramp from the terminal, and a downwardly-extending lip which engages a rail on the deck of the vessel, to effect a secure, low profile construction.
The material transportation vehicle may be a reach stacker which is capable of securing a single container to the spreader attachment of a telescoping boom which includes an hydraulic pivot so that the container can be rotated and inclined, as well as raised and lowered. This multi-degree range of movement enables the reach stacker to lift containers from a storage position on the associated terminal, transport them over the ramp to the container storage deck, and then properly orient the containers to engage the deck mounted twistlocks and stack the containers.
The marine vessel may be a barge whose deck has been reinforced to support the weight of the reach stacker and container as it is being positioned on the deck. The beam to length ratio of the barge is selected to provide sufficient stability for the reach stacker to transport containers on the deck of the barge. The barge may have a pointed bow, which enables it to be towed at a greater speed for a given horsepower tug.
The method of the present invention may begin with the act of loading the containers aboard the marine vessel. After the barge has been moved alongside a wharf or terminal, the ramp is positioned to extend from the dock to the marine vessel. In one embodiment, the vessel is a barge having a single container storage deck and a continuous rail extending along the starboard edge of the deck. The ramp includes a downwardly-extending extension or lip that engages the rail and thereby secures the ramp at any desired location along the length of the vessel. The reach stacker secures a container from a truck chassis or railcar to its spreader attachment, then transports the container over the ramp to the storage deck of the associated barge. Once on the deck of the barge, the reach stacker transports the container to a preselected location on the deck. In this embodiment, this location includes twistlocks mounted in slots on the deck and positioned to receive the bottom corner fittings of the container. This process is repeated by the reach stacker until all of the desired containers have been loaded and secured aboard the marine vessel. When the marine vessel arrives at the destination port, the process is reversed, with the reach stacker removing the containers from the deck and either placing them in storage on the dock, or placing them on vehicles, such as tractor trailers.
Accordingly, the present invention may provide a container transportation system and method which is relatively inexpensive to implement; a container transportation system and method which does not require extensive terminal preparation; a container transportation system and method which can be carried out efficiently to minimize the turnaround time of a marine container transportation vessel; and a container transportation system and method which is reliable.
Other objects and advantages of the present invention will be apparent from the following description, the accompanying drawings and the appended claims.
BRIEF DESCRIPTION OF THE DRAWINGS
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The reach stacker 14 may be a conventional reach stacker, such as model DRD420-60S5 manufactured by Kalmar, and includes a telescopic boom 48 (see
The method of the invention is as follows: Containers 18 are delivered to a marine terminal or wharf 26 by tractor-trailer rigs, or by rail. The barge 12 is towed into position by a tow boat (not shown) adjacent to the marine terminal 26 and moored in location by conventional mooring lines. The invention 10 can be used in semi-improved terminals, or even in situations where the barge 12 is moored alongside pilings which are offshore. A reach stacker or mobile lifter is used to position the ramp 16 such that the extension 34 engages the longitudinal rail 36 of the barge 12. The ramp 16 may be positioned midway between each stack and multiple ramps 16 are used to minimize the need to move ramp 16. A single reach stacker 14 then lifts each individual container 18 from its location in the marine terminal 26 and transports it over the ramp 16 onto the cargo deck 20, where the reach stacker then places the container 18 on the deck 20 such that the corner castings 28 are secured to twistlocks 30 which are already secured within recesses (20A) on the deck in the stacking pattern. Subsequent containers 18 are first fitted with twistlocks 30 on their underside corner castings 28 just after the containers are lifted from their chasses on the terminal 26. All of such twistlocks 30 engage with the weight of the container 18 itself as the container is placed upon a container to form a stack 31.
The reach stacker 14 may transport the containers to locations on barge deck 20 directly adjacent to the ramp 16 to minimize maneuvering time. After the loading is complete, the ramp 16 is removed and the barge 12 is then secured to a tow boat which, after the barge has been cast off, tows the barge to its destination. In this loading process, the twistlocks 30 are the only mechanism required to secure the stacks 32 to the deck 20, and to secure the containers 18 to each other; no other lashings or cables of any kind are required. The pointed bow 24 of the barge 12 enables the tow boat to tow the barge at a relatively greater speed than conventional straight-bowed barges.
When the barge reaches its destination, it is moored to the adjacent wharf or dock 26, and the process is reversed. The ramp 16 is attached to the rail 36 of the deck 20, and the reach stacker removes the containers 18 one by one from the deck. The twistlocks 30 are tripped to release the containers 18 from engagement with each other an with the deck 20. A pole may be used to trip the twistlocks 30 on the second and third high containers 18 of a stack 31.
An advantage of the aforementioned system of the present invention is that it does not require expensive overhead cranes or elaborate site preparation; the method can be conducted at almost any location where a sufficient space is present to enable the ramp 16 to be firmly supported.
While the method and apparatus disclosed herein constitute various embodiments of the invention, the invention is not limited to this precise method and apparatus, and other methods and devices may be used without departing from the scope of the invention.
Claims
1. A container transportation system comprising:
- a plurality of containers configured to contain and protect freight in a marine environment;
- a vehicle configured to individually lift and transport each container and orient and place each container on a support surface;
- a marine vessel having a deck with sufficient strength to support said vehicle when said vehicle is transporting a fully loaded one of said containers; and
- a ramp shaped to extend from an associated dock to said deck and having sufficient strength to support said vehicle when said vehicle is transporting a fully loaded one of said containers, said ramp having sufficient length such that an angle of inclination of said ramp extending between said deck and the associated dock allows said vehicle to traverse said ramp without slipping, whereby said vehicle is able to transport said containers from the associated dock, over said ramp, to desired locations on said deck for further transportation by said marine vessel, and to remove said containers from said desired locations on said deck and transport said containers over said ramp to an associated dock.
2. The system of claim 1 wherein said deck and said containers are configured to be engaged by semiautomatic twistlocks, and wherein said system further includes a plurality of semiautomatic twistlocks connecting said containers to said deck at said desired locations.
3. The system of claim 2 wherein said containers are arranged in a vertical stack on said deck, and wherein the stacked container of a vertical stack are coupled together by twistlocks.
4. The system of claim 1 wherein said containers are arranged in at least one vertical stack including at least three containers.
5. The system of claim 1 wherein said ramp includes a main section and a foot pivotally attached to an end of said main section to contact an associated dock.
6. The system of claim 5 wherein said main section includes a downwardly depending lip attached to an end thereof opposite said foot; and said deck includes a longitudinally extending rail shaped to be engaged by said lip.
7. The system of claim 5 wherein said foot includes an upper surface having sufficient strength to support said vehicle carrying a loaded container and being inclined sufficiently to provide a smooth transition from said dock to said main section.
8. The system of claim 1 wherein said vessel has a beam at least about ¼ of its length to enable said vehicle to transport said containers on said deck without an undesired listing of said vessel.
9. The system of claim 1 wherein said containers are 53 feet in length, 8.5 feet in width and 9.5 feet in height and constructed of aluminum so as to maximize their cargo capacity.
10. The system of claim 9 wherein said containers are stacked on said deck in vertical stacks separated approximately 2 feet lengthwise and 3 inches widthwise.
11. The system of claim 1 wherein said vessel includes a pointed bow to improve the towing efficiency of said vessel.
12. The system of claim 1 wherein said vehicle is a reach stacker.
13. The system of claim 12 wherein said reach stacker includes a body portion and a gripping portion including a spreader attachment, said gripping portion being capable of being raised and lowered, rotated, and inclined relative to said body portion.
14. The system of claim 1 wherein the vehicle is carrying a fully loaded container and is positioned directly on said deck such that said deck supports said vehicle carrying said fully loaded container.
15. The system of claim 1 wherein said vehicle is configured to individually lift and transport each container at or adjacent to an upper edge thereof.
16. The system of claim 1 wherein said ramp extends from the dock to said deck, and wherein the vehicle is carrying a fully loaded container and is positioned directly on said ramp such that said ramp supports said vehicle carrying said fully loaded container.
17. The system of claim 1 wherein each container has a set of outer walls defining an inner volume.
18. A container transportation system comprising:
- a plurality of containers configured to contain and protect freight in a marine environment, said containers being further configured to be engaged by semiautomatic twistlocks;
- a reach stacker configured to lift, transport and orient said containers and place said containers on a support surface;
- a marine vessel having a container storage deck with sufficient strength to support said vehicle when said vehicle is transporting a fully loaded one of said containers, said deck being configured to be engaged by automatic twistlocks and including a longitudinally extending rail;
- a ramp shaped to extend from an associated dock to said deck and having sufficient strength to support said vehicle when said vehicle is transporting a fully loaded one of said containers, said ramp having sufficient length such that an angle of inclination of said ramp extending between said deck and an associated dock allows said vehicle to traverse said ramp without slipping, whereby said vehicle is able to transport said containers from an associated dock, over said ramp, to desired locations on said deck for further transportation by said marine vessel, and to remove said containers from said location on said deck and transport said containers over said ramp to an associated dock, said ramp including a main section, a foot pivotally attached to an end of said main section to contact an associated dock, and a downwardly depending lip attached to an end of said main section opposite said foot and shaped to engage said rail, said foot including an upper surface having sufficient strength to support said vehicle carrying a loaded container and being inclined sufficiently to provide a smooth transition from said dock to said main section; and
- a plurality of semiautomatic twistlocks connecting said containers to said deck at said desired locations, and connecting said containers to each other in vertical stacks;
- said vessel having a sufficient beam dimension to enable said vehicle to transport said containers on said deck without said vessel listing undesirably.
19. The system of claim 18 wherein said containers are 53 feet in length, 8.5 feet in width and 9.5 feet in height and constructed of aluminum to maximize their cargo capacity.
20. The system of claim 18 wherein said containers are stacked on said deck in vertical stacks separated approximately 2 feet lengthwise and 3 inches widthwise.
21. The system of claim 18 wherein said vessel includes a pointed bow.
22. The system of claim 18 wherein the vehicle is carrying a fully loaded container and is positioned directly on said deck such that said deck supports said vehicle carrying said fully loaded container.
23. The system of claim 18 wherein said ramp extends from an associated dock to said deck, and wherein the vehicle is carrying a fully loaded container and is positioned directly on said ramp such that said ramp supports said vehicle carrying said fully loaded container.
24. The system of claim 18 wherein said reach stacker includes a body portion and a gripping portion including a spreader attachment, said gripping portion being capable of being raised and lowered, rotated, and inclined relative to said body portion.
Type: Application
Filed: Jan 11, 2008
Publication Date: May 8, 2008
Applicant: TRAILER BRIDGE, INC. (Jacksonville, FL)
Inventors: John McCown (New York, NY), Malcom McLeon (New York, NY)
Application Number: 12/013,052
International Classification: B63B 27/00 (20060101);