KR101113693B1 - Hybrid mobile floating port - Google Patents

Abstract

The present invention relates to a floating hybrid mobile harbor installed so as to unload container cargo away from the pier without docking the vessel to the pier in the port, the crane is installed offshore from the pier, the crane can unload container cargo A floating port having an eyepiece to which the vessel is docked; And a container transportation unit docked at the floating port and movable between the floating port and the wharf for transporting the container cargo.

Floating Hybrid Mobile Port, Floating Port, Container Transport Unit

Description

Floating hybrid mobile harbor {HYBRID MOBILE FLOATING PORT}

The present invention relates to a floating hybrid mobile harbor, and more particularly, to a floating hybrid mobile harbor installed so as to unload container cargo away from the pier without docking the vessel to the pier in the port.

The competitiveness of goods depends not only on the rapid production of goods, but also on the rapid movement of goods and the smooth supply to consumers. Among the means of transportation of goods, maritime transportation by ship uses less energy than other means of transportation and the transportation cost is low, so much of the international trade uses maritime transportation.

Recently, ships used for maritime transportation such as container ships have become larger in size, which is to secure economic feasibility by increasing the volume of ships transported. This requires ports with mooring and unloading facilities that can dock large vessels. However, not only are there many ports at home and abroad that can dock large container ships, but the construction of these ports requires a lot of expenses. In addition, a large site is required for the construction of a port, and in addition, a large land and ancillary facilities for storing many containers are required. Recently, due to environmental problems, the installation of large ports has become more difficult.

On the other hand, as the volume of container ports increases, roads near the ports cause traffic jams, and trailers moving to far distances cause major damage to highways and national roads, causing huge costs to the state or local organizations.

The problem to be solved by the present invention is to provide a floating hybrid mobile harbor that can unload a large amount of cargo more quickly by berthing the large vessels at sea without berthing to the pier in the harbor, a limited space.

In addition, it is to provide a floating hybrid mobile harbor that can handle the logistics more efficiently by docking the container cargo by docking a large vessel around a small port that does not have a container dock.

In addition, the cargo unit can be unloaded simultaneously through a transportation unit that shuttles between the mobile port and the docks of the port, thereby improving the handling capacity of the cargo and reducing the transport distance of the large vessels, thereby reducing the unloading cost. It is to provide a hybrid mobile port.

Floating hybrid mobile port according to the present invention to solve the above problems,

A floating port installed on the sea away from the pier and having an eyepiece for docking a vessel and a vessel capable of unloading container cargo; And a container transportation unit docked at the floating port and movable between the floating port and the wharf for transporting the container cargo.

In addition, the floating hybrid mobile harbor according to the present invention is installed on the sea off the pier, a crane that can unload container cargo and formed concave to unload container cargo from both sides in the longitudinal direction of the docked ship A floating port having an eyepiece; And a container transportation unit docked at the floating port and movable between the floating port and the wharf for transporting the container cargo.

Here, the floating port may further include at least one transport unit eyepiece having a shape corresponding to the container transport unit.

In addition, the eyepiece may be provided with an eyepiece for docking the vessel to the floating port.

In addition, the inner eyepiece may be provided with an eyepiece for docking the vessel to the floating port, the eyepiece may be extendable in the width direction of the inner eyepiece.

In addition, the inner eyepiece is adjustable in the width direction or the longitudinal direction.

In addition, the floating port may be provided with a container loading station for storing the container cargo.

In addition, the floating port may further include a bottom gate and a side gate to seal the inner eyepiece.

In addition, the floating port is made up of a plurality of sections to reduce the bending loads caused by tidal currents, the plurality of sections may be connected by a flexible joint.

In addition, the floating port may further include a plurality of flexible supports thereunder to reduce the bending load caused by the tidal flow.

In addition, the floating port may further include a stabilizer capable of maintaining an equilibrium state.

In addition, the floating port may further include a flotation system capable of maintaining a constant height regardless of the weight of the loaded container cargo.

In addition, the floating port may further comprise a slab on which the container cargo to be transported is placed.

In addition, the container transport unit may further include a propulsion device.

In addition, when the container transport unit is docked at the dock, container freight can be transported through the transport means.

Through the floating hybrid mobile port according to the present invention can obtain the following effects.

First, by docking a large vessel in a hybrid mobile harbor at sea without docking a dock in a confined space, a large amount of cargo can be unloaded more quickly.

Second, through this hybrid mobile port, it is possible to unload container cargo by docking a large vessel around a small port that does not have a container-only dock, so that logistics can be processed more efficiently.

Third, the cargo unit can be unloaded in multiple times through the transport unit that shuttles between the hybrid mobile port and the docks of the port, and it can reduce the unloading cost by improving the handling capacity of the cargo and reducing the travel distance of large ships. have.

Hereinafter, with reference to the accompanying drawings will be described in detail a preferred embodiment according to the present invention, but the present invention is not limited thereto. In addition, the terms or words used in the present specification and claims are consistent with the technical spirit of the present invention on the basis of the principle that the inventor can appropriately define the concept of the term in order to explain the invention in the best way. It must be interpreted as meaning and concept.

The present invention is a system capable of unloading container cargo, as shown in Figure 1 is a floating hybrid mobile harbor 100 consisting of a floating port 10 and a container transport unit 20. Floating "hybrid" mobile harbors have a "movable" container transport unit 20 between the wharf and the floating port, and a floating port 10 (as will be described below) generally located fixed at sea. The floating port may be composed of a plurality of movable sections, so that the floating port is selectively movable).

1 and 2 are exemplary views of the floating hybrid mobile harbor according to the present invention. Referring to FIG. 1, the floating port 10 according to a preferred embodiment of the present invention may be installed in a fixed state or floating state at sea away from the pier 1. The floating port 10 has an eyepiece 12 provided with a crane 11 capable of unloading container cargo c and an eyepiece 13 for berthing the vessel. The crane 11 is movably installed on the crane rail to access a plurality of eyepieces 12 located in the floating port 10. The eyepiece portion 12 is provided along the side of the floating port 10, it is possible to berthing several vessels at the same time. The eyepiece device 13 provided in the eyepiece part 12 is not particularly limited as long as it is a device capable of reliably docking the floating port 10.

Meanwhile, the floating port 10 is provided with a container loading station 19 for storing container cargo, which is loaded onto the land through the pier 1 of the container cargo dropped from the ship s. Rather than being transported cargo, it serves as a warehouse for container cargo to be shipped to another ship (s) docked in a hybrid mobile harbor. That is, the hybrid mobile harbor 100 according to the present invention may be provided with a separate container loading station 19, through which it can additionally play a role as a distribution warehouse as an intermediate stopover of container cargo.

The floating port 10 has at least one transport unit eyepiece which is docked with a container transport unit 20 reciprocating between the dock and the floating port for transporting unloaded container cargo to the dock or loading container cargo from the dock into the vessel. (14) is provided. The transport unit eyepiece 14 is configured in a form corresponding to the shape of the container transport unit 20, wherein the mooring means known as a mooring device (not shown) capable of connecting the container transport unit 20 ( Connection devices such as ropes), rigid clamps, and the like. 1 and 2 are exemplary views, although one transport unit eyepiece 14 is shown, one or more transport unit eyepieces 14 may be installed in the floating port 10, and several docked here. By the container transport unit 20 of the cargo can be carried more quickly.

In addition, the floating port 10 may include a stabilizer 16 that can maintain equilibrium to minimize the effects on algae. Floating port 10 has a large size that can be docked a plurality of ships, because it can have stability by itself, but can further improve the dynamic stability performance by adjusting the angle of the stabilizer (16), etc. have.

In addition, the floating port 10 includes a flotation system 17 installed on both sides of the stabilizer 16. The floatation system 17 is provided with a valve, and by using this valve to adjust the amount of water in the tank, the floating port 10 can be kept at a constant height at all times even in the weight variation of the loaded container cargo.

3 (a) and 3 (b) is a view showing a specific configuration of the floating port 10 for reducing the bending deformation caused by the algae. The floating port 10 may be configured by combining a plurality of movable sections 30 as shown in FIG. 3, each of which may be connected to each other by a flexible joint 31. Accordingly, the bending load of the floating port 30 by tidal currents such as high waves can be minimized by a plurality of sections and absorbed by the flexible joint 31 connecting them. As another example, as shown in FIG. 3B, a plurality of flexible supports 32 may be installed below the floating port 10 to minimize bending loads caused by tidal currents. Furthermore, the two methods described above may be combined to form the floating port 10. That is, the plurality of flexible supports 32 may be installed below the plurality of sections 30 connected to each other by the flexible joint 31 to further reduce the influence of the algae.

2 is a view showing another preferred embodiment of the floating hybrid mobile harbor (100 ') according to the present invention. The difference from the hybrid mobile harbor shown in FIG. 1 is that the vessel can be docked at the inner eyepiece 12 'formed into the interior of the floating port 10' so that container cargo can be unloaded on both sides of the vessel in the longitudinal direction. to be. That is, the container cargo loaded on the ship through the inner eyepiece 12 'can be unloaded with twice the efficiency. In addition, the inner eyepiece 12 'is provided with an eyepiece 13' extendable in the width direction (indicated by both arrows in FIG. 2) of the inner eyepiece so as to safely dock the vessel having various sizes (widths). It is. In addition, the side portions 12'x and 12'y forming the inner eyepiece are adjustablely installed by using an adjusting device such as a hydraulic cylinder, so that the length and width of the inner eyepiece 12 'are docked. Adjustable to size

Meanwhile, the floating port 10 'may be provided with a bottom gate 18a and a side gate 18b for sealing the bottom surface and the open side of the inner eyepiece 12', respectively, through which the inner eyepiece ( Ships docked at 12 ') can be docked more safely from external birds. The bottom gate 18a is also adjustablely installed to adjust the depth of the inner eyepiece. When the inner eyepiece 12 ′ is sealed using the bottom gate and the side gate, pressure adjustment holes or valves may be installed in the bottom gate and the side gate to absorb or alleviate the pressure difference between the inside and the outside.

The container transport unit 20 has a size that can be docked to the transport unit eyepiece 14 of the floating port 10, a plurality of container transport unit 20 by moving continuously between the dock and the floating port container cargo Can be carried continuously. The container transport unit 20 will reciprocate between the pier 1 and the floating port 10 via a self-propelled device 21 such as a propeller, hovercraft, or hydrofoil. In addition, the container transport unit 20 may be moved by using a tugboat, a chain connected to a pier, a wire, a rope, or an auxiliary means such as a rail system installed underwater.

The container transport unit 20 is not equipped with a container cargo unloading crane, and has a compact and simplified structure so as to easily dock in a dock at a relatively low water level. In addition, the container transport unit 20 may be provided with a floatation device 22 to maintain a constant height at all times even in the weight fluctuations of the shipped container cargo.

On the floating port 10 it may be provided with a slab 50 on which the container cargo to be conveyed is placed. Container cargo unloaded from the ship via the crane (c) can be placed on a separate dedicated transport aid, such as the slab 50 directly, without a separate reloading operation, the slab 50 is directly floating port (10) Since moving to the container transport unit 20 docked in the), the transportation of container cargo can be further faster.

The container cargo, which has been shipped on the container transportation unit 20, is moved toward the pier, and another container transportation unit 20 is docked at the transportation unit eyepiece 14 of the floating port 10 to continue the container cargo. Conveying work is done. In this way, the size of the container transport unit can be reduced in size and simplified, so that the container cargo unloaded in the floating port can be quickly carried to the pier, or the container cargo can be loaded onto the ship from the pier.

Container cargo on the container transport unit 20 docked at the pier 1 may be transported to the pier continuously at high speed as shown in FIG. 4. In this case, the wharf 1 may be provided with a connection device 40 for smooth connection with the container transport unit 20. If necessary, the height of the container transport unit 20 and the height of the pier 1 can be equally adjusted using the flotation device 22. Then, using a vehicle 41 such as a locomotive 41x, a conveyor belt 41y or a truck 41z, it is possible to transport the container cargo on the container transport unit at high speed on land. In this case, the unloading auxiliary equipment such as a railroad track (railroad track) can be installed.

As such, since the compact and simplified container transport unit 20 can be docked at the dock to continuously unload container cargo, the transport speed and the transport volume of the container cargo can be greatly increased. Even in the case of loading the container cargo from the wharf (1) to the vessel (s), it is a matter of course to increase the transport speed and the amount of transportation through the reverse process as described above.

Although the present invention has been described with reference to the embodiments shown in the drawings, this is merely exemplary and will be understood by those skilled in the art that various modifications and embodiments can be made therefrom. Therefore, the disclosed embodiments should be considered in an illustrative rather than a restrictive sense. The scope of the present invention is shown not in the above description but in the claims, and all differences within the equivalent scope will be construed as being included in the present invention.

1 is a view showing a floating hybrid mobile harbor according to the present invention.

2 is a view showing a modification of the floating hybrid mobile harbor according to the present invention.

3 is a view showing the configuration of the floating port according to the present invention.

4 is a view showing a state of transporting container cargo from the container transport unit to the wharf according to the invention.

Claims (16)

delete delete delete delete A floating port installed on the sea away from the pier and having a crane capable of unloading the container cargo and an inner eyepiece formed concave to unload the container cargo from both sides in the longitudinal direction of the docked vessel; And The floating hybrid mobile harbor comprising: a container transport unit which can be docked in the floating port, and is movable between the floating port and the wharf for transporting the container cargo. The inner eyepiece is provided with an eyepiece for docking the vessel to the floating port, the eyepiece is extendable in the width direction of the inner eyepiece, Said inner eyepiece is a floating hybrid mobile harbor, characterized in that each eyepiece is provided to be movable in the width direction or the longitudinal direction in accordance with the size of the vessel. delete delete The method according to claim 5, The inner eyepiece is provided with a bottom gate for sealing the bottom surface, and a side gate for sealing the open side, The bottom gate is a floating hybrid mobile harbor, characterized in that provided with a structure that can adjust the depth of the inner eyepiece. delete The method according to claim 8, The floating port consists of a plurality of sections to reduce bending loads caused by tidal currents, the plurality of sections being connected by a flexible joint, The floating port is a floating hybrid mobile harbor, characterized in that the plurality of flexible support that is independently movable with respect to each other on the bottom surface of the floating port is supported continuously above the water surface. delete The method according to claim 10, The floating port is a floating hybrid mobile harbor, characterized in that it further comprises a stabilizer capable of maintaining an equilibrium state. The method according to claim 10, The floating port is a floating hybrid mobile harbor, characterized in that it further comprises a flotation system that can maintain a constant height regardless of the weight of the loaded container cargo. The method according to claim 10, The floating port further comprises a slab on which the container cargo to be transported is placed. Claim 15 was abandoned upon payment of a registration fee. The method according to claim 10, The container transport unit is a floating hybrid mobile harbor further comprises a propulsion device. Claim 16 was abandoned upon payment of a setup registration fee. The method according to claim 10, Floating hybrid mobile port characterized in that the container cargo is transported through the transport means when the container transport unit is docked to the dock.

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