CN210735627U - Water-land-water efficient transfer system of container - Google Patents
Water-land-water efficient transfer system of container Download PDFInfo
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- CN210735627U CN210735627U CN201921205659.5U CN201921205659U CN210735627U CN 210735627 U CN210735627 U CN 210735627U CN 201921205659 U CN201921205659 U CN 201921205659U CN 210735627 U CN210735627 U CN 210735627U
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Abstract
The application relates to the field of container transportation, in particular to an efficient water-land-water transfer system and method for a container; the system comprises at least two water transport lines, wherein at least one transfer station is arranged on the shore of any one water transport line, and at least one shore crane is arranged at any transfer station; a suspended single-rail transportation line is arranged between transfer stations of different water transportation lines, a plurality of independent motor cars are arranged in groups in the suspended single-rail transportation line, and a carrier is hung below the motor cars; the suspension type monorail transport line is provided with a receiving and dispatching section of a container, and the shore bridge crane is provided with a transfer platform with a conveying function; one end of the transfer platform is connected to the shore bridge crane, and the other end of the transfer platform extends to the lower part of the transceiving section; the scheme of the application is used for improving the efficiency of the whole transfer of the container.
Description
Technical Field
The application relates to the field of container transportation, in particular to an efficient water-land-water transfer system and method for a container.
Background
Water lines are commonly used for transporting containers carrying large quantities of cargo, including sea, inland and lake water lines. In the transportation process of the existing marine water transportation line, the situation that a continental bridge needs to be crossed is inevitable; hydro-junction facilities such as dams, reservoirs and the like are often arranged in inland river and lake water transportation lines for achieving the purposes of traffic, power generation, water storage, irrigation and the like. Whether it is a continental bridge or a hydro-junction facility, it will produce a blocking effect for the transportation of water transportation lines. The measures typically taken for these water-line barrier facilities are as follows:
land bridge: the container is transported by the way of full-line sea transportation by bypassing the continental bridges or by the way of transporting the container integrally through the land.
Hydro-junction facilities: the container is transported integrally by land, such as ground road transportation or railway line transportation.
Disclosure of Invention
The invention aims to provide the water-land-water efficient transfer system and the method for the container, which can improve the transfer efficiency, reduce the transfer cost, adapt to various weather conditions and various complex terrains, do not cause the transfer pressure to the existing ground and road traffic and reduce the probability of traffic accidents.
The time cost, the labor cost and the fuel cost of the conventional full-line marine transportation mode are high.
The existing ground road line transportation can transport the container integrally, although the mode can preset the matching of the access frequency of the automobile and the lifting frequency of the shore crane, the ground road line transportation is often limited by the weather condition and the ground traffic condition, the access frequency of the automobile and the lifting frequency of the shore crane cannot be synchronized, and the transportation efficiency is low. Moreover, the integral transportation of the container generates little pressure on the ground road traffic with heavy traffic demands, and traffic accidents are easily caused at the same time.
In the water-land-water transfer, a traditional railway transfer mode is adopted, which is not influenced by weather conditions and ground traffic conditions, but the traditional railway is usually multi-train combined transfer, so a plurality of containers are usually transferred to a ground transfer device through a shore bridge crane, and then the containers are transferred into the multi-train through the ground transfer device; the multi-row train intermodal transportation and ground transfer can cause the problem of stacking containers, so the efficiency of the conventional railway transportation mode is still low. Need still set up the container yard with the help of ground transfer device in, cause the construction cost higher.
In addition, the track system of the traditional railway causes larger turning radius, and usually adopts straight line operation, so that the flexibility of the traditional railway line is not enough during construction, and the line site selection is usually not selected at the position close to a port or a wharf and the like, or is not directly built in the port or the wharf; the transshipment station of containers such as harbour, pier is inside more container of can stacking usually, and place space itself is little, if with traditional railway line construction to the transshipment station in, then need great place just can satisfy the planning of circuit, these all are the increase to the construction cost.
In addition, even if the conventional railway line is built at a position far away from the transfer station, the conventional railway line usually plans a longer railway line to transfer the container to the next transfer station, that is, the distance between adjacent transfer stations is usually far, which is mainly due to the poor turning radius and climbing capability of the conventional railway line, so that the flexibility of the conventional railway line is not enough.
Referring to fig. 1, fig. 1 illustrates a conventional unilateral process of transferring containers by conventional road transportation or conventional railway transportation, i.e., transferring containers from a water transportation line to a ground road transportation line or a conventional railway transportation line. In the transportation mode shown in fig. 1, not only a quay crane but also a yard, a straddle carrier, a lifting device, and the like are installed in the container ship, the railway transportation line, and the road transportation line.
The scheme provided by the invention is beneficial to solving the problems in the existing water-land-water transportation mode, and in order to solve the technical problems, the following scheme of the first aspect is provided:
the application provides an efficient water-land-water transfer system of a container, which comprises at least two water transport lines, wherein at least one transfer station is arranged on the shore of any one water transport line, and at least one shore bridge crane is arranged at any transfer station;
a suspended single-rail transportation line is arranged between transfer stations of different water transportation lines, a plurality of independent motor cars are arranged in groups in the suspended single-rail transportation line, and a carrier is hung below the motor cars;
the suspension type monorail transport line is provided with a receiving and dispatching section of a container, and the shore bridge crane is provided with a transfer platform with a conveying function; one end of the transfer platform is connected to the shore bridge crane, and the other end of the transfer platform extends to the lower part of the transceiving section;
the transfer platform is provided with at least two receiving and dispatching positions of the container, namely a first receiving and dispatching position and a second receiving and dispatching position, the first receiving and dispatching position is correspondingly matched with the position of a quay crane for lowering or grabbing the container, and the second receiving and dispatching position is correspondingly matched with the position of a carrier below a bullet train of the receiving and dispatching section; and the carrier below the bullet train of the receiving and dispatching section loads the container positioned at the second receiving and dispatching position or unloads the container to the second receiving and dispatching position.
The scheme of the first aspect provided by the present application also provides a preferable scheme that any one or a combination of several of the following is combined.
Optionally, the receiving and dispatching position of the transfer platform is correspondingly matched with the positions of two containers which are placed or grabbed by the shore bridge crane at one time.
Optionally, the overhead monorail transport line comprises a track beam and a support member; the motor cars run along the track beam, and the supporting piece is used for supporting the track beam.
Optionally, the shore crane is located between the transceiver section and the container ship.
Optionally, there is water conservancy transportation separation facility at the interval between the different water transportation lines, water conservancy transportation separation facility includes any one in hydro-junction facility or continental bridge.
Optionally, a lifting device is arranged between the carrier and the bullet train, the carrier is provided with a gripping device for the container, the suspended monorail transport line is provided with a driving device, and the driving device drives the lifting device and the gripping device; alternatively, the first and second electrodes may be,
the transfer platform is provided with a lifting device at a receiving and dispatching position corresponding to a carrier position below the bullet train matched with the receiving and dispatching section, the transfer platform is provided with a driving device, the driving device drives the lifting device to lift, and the carrier is provided with a gripping device for a container.
Optionally, one or two carriers are hung under any motor car.
Optionally, be provided with a plurality of suspension type single track transport lines more than two between the transfer station of different water route, parallel arrangement, crisscross setting from top to bottom or switch connection setting between a plurality of suspension type single track transport lines.
Optionally, the motor train inlet and outlet frequency of the suspension type monorail transport line, the lifting frequency of the shore bridge crane and the transport frequency of the transfer platform are correspondingly matched.
Optionally, the transfer platform is matched with the transfer trolley through a rotating roller or a transfer rail to realize a transfer function.
The application also provides an efficient water-land-water transfer method for a container, which adopts the efficient water-land-water transfer system for the container, and comprises the following operation steps:
1) a shore crane lifts a container from a container ship of any water transport line, the container is lifted to a first transceiving position of a transfer platform, and the transfer platform transmits the container from the first transceiving position to a second transceiving position;
2) loading containers in a second receiving and dispatching position by a carrier below the motor cars of the receiving and dispatching section of the suspended monorail transportation line, and transferring the containers among transfer stations of different water transportation lines along the suspended monorail transportation line by the motor cars;
3) the carrier of the receiving and dispatching section unloads the container to a second receiving and dispatching position of a transfer platform in another water transportation line, the transfer platform transfers the container from the second receiving and dispatching position to the first receiving and dispatching position, and the shore bridge crane hoists the container to a container ship.
According to the water-land-water efficient transfer system for the container, at least one transfer station is arranged between a first water transportation line and a second water transportation line on the shore, and at least one shore crane is arranged at the transfer station; this bank bridge crane sets up the transfer platform that has transfer function, and the one end of this transfer platform is connected in bank bridge crane, and the other end extends to the below of receiving and dispatching section. In addition, a suspended monorail transportation line is arranged between transfer stations of different water transportation lines, when containers need to be transferred between the different water transportation lines, the containers are lifted from a cargo ship by a shore bridge crane, then the containers are lifted by the shore bridge crane and placed on a first receiving and dispatching position of a transfer platform, the transfer platform has a conveying function and can convey the containers to a second receiving and dispatching position of the transfer platform in time, and after a carrier hung below a bullet train loads the containers, the containers are conveyed to a receiving and dispatching section of another water transportation line by the suspended monorail transportation line; and conversely, the container is timely and effectively transmitted from the second transceiving position to the first transceiving position through the transmission function of the transfer platform.
According to the water-land-water efficient transfer system and method for the container, a suspension type single-rail transportation line is arranged between transfer stations of different water transportation lines, the suspension type single-rail transportation line runs motor cars which are independently arranged, and a carrier is hung below the motor cars; through the preset of the corresponding positions among the suspended monorail transportation line, the shore crane and the transfer platform thereof, the container loaded with a large number of articles can be quickly and effectively transferred among different water transportation lines. The suspended monorail transport line is provided with independent motor train unit operation, the position of a quayside crane for lowering or grabbing a container corresponds to a first receiving and dispatching position of a transfer platform, and a second receiving and dispatching position of the transfer platform corresponds to a carrier position below a motor train of a receiving and dispatching section matched with the suspended monorail transport line; under such setting, the obtained transfer system can realize that the containers on the container ship are directly hoisted to the lower part of the suspension type monorail transportation line through the transfer platform of the shore crane.
According to the scheme, a suspension type monorail transportation line is adopted at first, the suspension type monorail transportation line is different from highway line transportation, and the influence of ground traffic conditions, weather conditions and terrain conditions is small. And the mutual position relation setting between the receiving and dispatching position of carrier, transfer platform and the bank bridge hoist in this application scheme, can be effective and timely in the at utmost transport away the container, reduce the production that the condition was piled up to the container, avoid the construction development design requirement that present transfer station need build the container yard. Although the transportation design of the suspended monorail transportation line in the scheme of the application uses the transfer function of the transfer platform, the method has obvious advantages compared with the existing traditional integral transportation mode of the container, such as road transportation or railway transportation. Compared with road transportation, the influence of ground traffic conditions, weather conditions and terrain conditions is small; compared with the traditional railway transportation, as shown in fig. 1, the traditional railway transportation is operated in a continuous train, the turning radius of the railway is small, the climbing capability is low, and the railway line is not suitable for being directly built in a transfer station; the container lifted by the shore crane needs to load most of bullet trains which are continuously arranged and then transfer between different water transportation lines, and the container lifted by the shore crane needs to be firstly transferred to a storage yard for placement and then transferred to a railway line by a straddle carrier in a centralized way. Such a transfer mode is cumbersome in steps and significantly inefficient. The scheme of the application adopts the motor cars which are independently arranged and the corresponding suspension type monorail transportation lines, and utilizes the specific position design between the transfer platform which is arranged on the shore crane self and the suspension type monorail transportation lines to timely and effectively transport the containers which need to be transported between the suspension type monorail transportation lines and the shore crane, thereby reducing the construction requirements of a yard, simultaneously reducing the middle transportation steps of a straddle carrier and improving the transportation efficiency.
Drawings
FIG. 1 is a schematic illustration of a conventional single sided process of existing road transport, conventional rail transport transshipment containers;
FIG. 2 is a side view of an efficient water-land-water transfer system for containers according to an embodiment of the present disclosure;
FIG. 3 is a top view of an efficient water-land-water transfer system for containers according to an embodiment of the present disclosure;
FIG. 4 is a schematic structural diagram of a shore crane provided in an embodiment of the present application;
FIG. 5 is an enlarged view of the transfer platform of FIG. 4;
fig. 6 is a schematic view of a portion of the staging platform of fig. 5.
Detailed Description
The present invention will be described with reference to the accompanying drawings and embodiments.
Referring to fig. 2 and 3, fig. 2 is a side view of an efficient water-land-water transfer system for a container according to an embodiment of the present disclosure, and fig. 3 is a top view of the efficient water-land-water transfer system for a container according to an embodiment of the present disclosure. As shown in fig. 2 and 3, the water-land-water efficient transfer system of the container includes:
at least two water transportation lines 1, the bank of arbitrary water transportation line sets up at least one transfer station 13, and arbitrary transfer station is provided with at least one bank bridge crane 2. A suspended monorail transportation line 4 is arranged between transfer stations of different water transportation lines, the suspended monorail transportation line 4 runs into a plurality of motor cars 5 which are arranged in an independent group, and a carrier 7 for carrying a container 6 is hung below the motor cars 5.
The rail transit line 4 is provided with a receiving and dispatching section 8 of a container 6, and the shore bridge crane 2 is provided with a transfer platform 11 with a transfer function; the transfer function can be realized by a plurality of rotating rollers arranged in the transfer platform 11, or a transfer track and a transfer trolley 9 traveling along the transfer track are arranged on the transfer platform; in the former method, the rotating rollers can be conveyed along one conveying direction, and in the latter method, in order to ensure that the conveying trolley does not fall off the transfer platform, the conveying trolley needs to be switched between two conveying directions along the conveying track.
One end of the transfer platform 11 is connected to the shore bridge crane 2, and the other end extends to the lower part of the transceiving section 8; the transfer platform 11 is provided with at least two receiving and dispatching positions of the container, namely a first receiving and dispatching position and a second receiving and dispatching position, the first receiving and dispatching position is correspondingly matched with the position where the quayside crane descends or grabs the container, and the second receiving and dispatching position is correspondingly matched with the position of a carrier below the bullet train of the receiving and dispatching section.
According to the technical scheme, when containers 6 need to be transferred among different water transportation lines, the containers 6 are lifted from a cargo ship through a shore crane 2, then the containers 6 are transferred to a transfer platform 11 through the shore crane 2, the transfer platform 11 has a transfer function, one end of the transfer platform is connected to the shore crane 2, the other end of the transfer platform extends to the lower part of a receiving and dispatching section 8, and the containers 6 can be timely transferred to a second receiving and dispatching position of the transfer platform through the transfer function of the transfer platform 11; then the motor car 5 hangs the carrier 7 to the container 6; after the carrier 7 is firmly connected with the container 6, the carrier 7 hung below the bullet train 5 loads the container 6, and then the container 6 is carried to a receiving and dispatching section 8 in a transfer station of another water transportation line through the suspended monorail transportation line 4. In another water transportation line, the carrier 7 of the bullet train 5 lowers the container 6 to the first receiving and dispatching position A of the transfer platform 11, the container 6 is transferred to the second receiving and dispatching position B of the transfer platform through the transfer function of the transfer platform 9, and the shore bridge crane lifts the container from the receiving and dispatching positions and lifts the container 6 to the container ship of the water transportation line.
In the technical scheme of the embodiment of the invention, as the water-land-water efficient transfer system of the container 6 is provided with the transfer stations at the shore of different water transportation lines respectively, the suspended monorail transportation line 4 is arranged between the transfer stations, and the container 6 is transported between the transfer stations of different water transportation lines through the suspended monorail transportation line 4, the container 6 loaded with goods can be directly suspended and transported to the transfer station of another water transportation line from the transfer station of any water transportation line, the situation that the container carried by the container ship is firstly suspended and transported to a straddle carrier and loaded at the wharf, then the straddle carrier is used for transferring the container in a yard to a road or a railway transportation system, and then the transfer between different water transportation lines is carried out through the conventional railway and the road in the prior art is not needed, the steps of the integral transfer mode of the container are complicated, the efficiency is low.
In the prior art, the water-land-water transfer mode of the road or the railway generally adopts one-to-one receiving when the straddle carrier receives the container 6, and also adopts one-to-one transferring when the straddle carrier transfers the container 6, and the design of the yard is added, so that not only is the efficiency low, but also the construction requirement and the construction cost of a transfer station are higher.
As shown in fig. 4, 5 and 6, one end of the transfer platform 11 is fixedly connected with the upright post 14 of the shore crane. The transfer platform 11 may be provided with a plurality of rotating rollers inside, or the transfer platform 11 may be provided with a conveying rail 15 on the surface thereof, and a conveying trolley 9 is provided along the conveying rail 15. Both the two modes and the modes possible in the prior art can realize the transmission function of the transfer platform.
As a preferred embodiment in the present application, as shown in fig. 2, the receiving and dispatching positions of the transfer platform 11 may be correspondingly matched with the positions of two containers sequentially lowered or grabbed by the shore bridge crane; with such an arrangement, the transfer platform can be used for simultaneously receiving and transporting two containers 6 which are arranged left and right or front and back and are lifted by the shore crane 2 at one time. Such setting can effectively realize bank bridge crane and can transfer simultaneously or snatch two containers 6, further improvement container 6's the transportation efficiency.
As shown in fig. 2, a plurality of transfer trolleys 3 can be arranged at any transfer station to solve the problem of transferring the containers in an emergency, such as the problem of transferring faults of a suspended monorail transportation line and the like.
In addition, as a preferred embodiment, as shown in fig. 2, the rail transit line 4 in the present embodiment includes a rail beam 401 and a support 402; the plurality of motor cars 5 travel along the track beam 401, and the support 402 is used for supporting the track beam 401. The support 402 supports the rail beam 401 so as to ensure that several railcars 5 can travel smoothly along the rail beam 401 in the air.
In addition, a shore crane 2 is located between the transceiving section 8 and the container ship 10. The shore crane 2 is arranged between the receiving and dispatching section 8 and the container ship 10, so that the containers 6 on the container ship 10 can be stably lifted to the transfer platform below the receiving and dispatching section 8, and the containers can be lifted by the carrier.
In the embodiment of the present application, the loading of containers by carriers under the railcars of the pick-and-place section of the overhead monorail transportation line can be realized in various ways, such as the following two ways: a lifting device is arranged between the carrier and the bullet train, the carrier is provided with a gripping device for a container, the suspension type monorail transport line is provided with a driving device, and the driving device drives the lifting device and the gripping device; or the transfer platform is provided with a lifting device at the receiving and dispatching position corresponding to the position of the carrier below the bullet train matched with the receiving and dispatching section, the transfer platform is provided with a driving device, the driving device drives the lifting device to lift, and the carrier is provided with a gripping device for the container.
Among the two modes, one mode is that the carrier lifts and lowers to grab the container, and the other mode is that the container is lifted and lowered through the lifting device of the transfer platform, so that the container can be grabbed and fixed by the carrier.
In addition to the above two modes, the present application may also adopt other multiple modes or structural designs to realize the loading and unloading steps of the container by the carrier, for example, a lifting driving device is arranged outside the second receiving and dispatching position, and after the container is transferred to the second receiving and dispatching position, the lifting driving device lifts the container to the carrier to grab the fixed position, and vice versa. In addition, the gripping device of the carrier can be provided with a lifting function, so that the lifting step can be completed only when the gripping device of the carrier is used for loading or unloading the container, the lifting stroke of the gripping device is not required to be too long, and the transfer efficiency can be further improved.
As shown in fig. 3, in the water-land-water efficient transportation system of containers for which the rail transit line 4 is suitable, water conservancy transportation blocking facilities are spaced between different water transportation lines, and the water conservancy transportation blocking facilities include any one of hydro-junction facilities or continental bridges. Wherein, the hydro-junction facility comprises any one of a reservoir or a dam.
As shown in fig. 2, one or two containers 6 are suspended and carried under any one of the motor cars 5.
The containers 6 in the embodiment can adopt two sizes which are conventionally used, and for the containers 6 with 20 feet, the motor cars 5 can be hung two at a time; for a 40 foot container 6, the cars 5 can be hung one at a time.
In addition, as a preferred embodiment, as shown in fig. 1 and 3, two or more than two suspension type monorail transport lines 12, such as 1201 and 1202 shown in the figure, are arranged between different water transport lines in the embodiment of the present application, and the two or more than two suspension type monorail transport lines 12 can be arranged in parallel, staggered up and down or connected at switch points.
By arranging the plurality of suspended monorail transportation lines 12 with two or more than two suspension monorail transportation lines, the operations of receiving the containers 6 and sending the containers 6 between different water transportation lines can be simultaneously performed, so that the receiving and sending efficiency of goods between different water transportation lines is ensured, and the requirements of busy water transportation lines are met.
As a preferred embodiment, the train entering and exiting frequency of the rail transit line 4, the lifting frequency of the shore bridge crane 2 and the transmission frequency of the transfer platform 9 in the embodiment shown in fig. 1, 2 and 3 are the same; under the arrangement, the transfer stations such as ports and wharfs can realize high-efficiency transfer efficiency without arranging a transfer yard of the containers 6 on the basis of the theoretical design of the construction.
The container land-water efficient transfer method provided by the embodiment of the invention can adopt the container land-water efficient transfer system provided by any one of the embodiments, and the container land-water efficient transfer method comprises the following operation steps:
s110: the quayside crane 2 lifts a container 6 from a container ship 10 of any water transportation line, transfers the container 6 to a first transceiving position of a transfer platform 11, and the transfer platform 11 transfers the container 6 from the first transceiving position A to a second transceiving position B;
s120: loading the containers 6 at the second receiving and dispatching position B through a carrier 7 below the motor train of a receiving and dispatching section 8 of the suspension type monorail transportation line, and transferring the containers among transfer stations of different water transportation lines along the suspension type monorail transportation line through the motor train;
s130: the carrier 7 of the transceiving section 8 unloads the container 6 to a second transceiving position B of a transfer platform in another water transportation line, the transfer platform 11 transfers the container 6 from the second transceiving position B to the first transceiving position a, and the shore bridge crane 2 hoists the container 6 to the container ship 10.
According to the efficient water-land-water transfer method for the container, the transfer stations are arranged on the sides of the different water transport lines, the rail transportation lines 4 are arranged among the transfer stations, and the container 6 is transported among the transfer stations of the different water transport lines through the rail transportation lines 4, so that the container 6 loaded with goods can be directly hung and transported from the transfer station of any one water transport line to the transfer station of the other water transport line.
The same and similar parts among the various embodiments in the specification of the present application may be referred to each other. Especially, for the system and terminal embodiments, since the method therein is basically similar to the method embodiments, the description is relatively simple, and the relevant points can be referred to the description in the method embodiments.
It is noted that, in this document, relational terms such as "first" and "second," and the like, may be used solely to distinguish one entity or action from another entity or action without necessarily requiring or implying any actual such relationship or order between such entities or actions. Also, the terms "comprises," "comprising," or any other variation thereof, are intended to cover a non-exclusive inclusion, such that a process, method, article, or apparatus that comprises a list of elements does not include only those elements but may include other elements not expressly listed or inherent to such process, method, article, or apparatus. Without further limitation, an element defined by the phrase "comprising an … …" does not exclude the presence of other identical elements in a process, method, article, or apparatus that comprises the element.
Of course, the above description is not limited to the above examples, and technical features that are not described in this application may be implemented by or using the prior art, and are not described herein again; the above embodiments and drawings are only for illustrating the technical solutions of the present application and not for limiting the present application, and the present application is only described in detail with reference to the preferred embodiments instead, it should be understood by those skilled in the art that changes, modifications, additions or substitutions within the spirit and scope of the present application may be made by those skilled in the art without departing from the spirit of the present application, and the scope of the claims of the present application should also be covered.
Claims (9)
1. An efficient water-land-water transfer system for containers, characterized in that: the system comprises at least two water transport lines, wherein at least one transfer station is arranged on the shore of any one water transport line, and at least one shore crane is arranged at any transfer station;
a suspended single-rail transportation line is arranged between transfer stations of different water transportation lines, a plurality of independent motor cars are arranged in groups in the suspended single-rail transportation line, and a carrier is hung below the motor cars;
the suspension type monorail transport line is provided with a receiving and dispatching section of a container, and the shore bridge crane is provided with a transfer platform with a conveying function; one end of the transfer platform is connected to the shore bridge crane, and the other end of the transfer platform extends to the lower part of the transceiving section;
the transfer platform is provided with at least two receiving and dispatching positions of the container, namely a first receiving and dispatching position and a second receiving and dispatching position, the first receiving and dispatching position is correspondingly matched with the position of a quay crane for lowering or grabbing the container, and the second receiving and dispatching position is correspondingly matched with the position of a carrier below a bullet train of the receiving and dispatching section; and the carrier below the bullet train of the receiving and dispatching section loads the container positioned at the second receiving and dispatching position or unloads the container to the second receiving and dispatching position.
2. An efficient hydro-land-hydro transfer system for containers as claimed in claim 1 wherein: the receiving and dispatching positions of the transfer platform are correspondingly matched with the positions of two containers which are placed or grabbed by the shore bridge crane at one time.
3. An efficient hydro-land-hydro transfer system for containers as claimed in claim 1 wherein: the suspended monorail transportation line comprises a track beam and a support piece; the motor cars run along the track beam, and the supporting piece is used for supporting the track beam.
4. An efficient hydro-land-hydro transfer system for containers as claimed in claim 1 wherein: the shore crane is located between the transceiver section and the container ship.
5. An efficient hydro-land-hydro transfer system for containers as claimed in claim 1 wherein: the interval has water conservancy transportation separation facility between the different water transportation lines, water conservancy transportation separation facility includes any one in hydro-junction facility or the continental bridge.
6. An efficient hydro-land-hydro transfer system for containers as claimed in claim 1 wherein: a lifting device is arranged between the carrier and the bullet train, the carrier is provided with a gripping device for a container, the suspension type monorail transport line is provided with a driving device, and the driving device drives the lifting device and the gripping device; alternatively, the first and second electrodes may be,
the transfer platform is provided with a lifting device at a receiving and dispatching position corresponding to a carrier position below the bullet train matched with the receiving and dispatching section, the transfer platform is provided with a driving device, the driving device drives the lifting device to lift, and the carrier is provided with a gripping device for a container.
7. An efficient hydro-land-hydro transfer system for containers as claimed in claim 1 wherein: one or two carriers are hung under any motor car.
8. An efficient hydro-land-hydro transfer system for containers as claimed in claim 1 wherein: be provided with a plurality of suspension type single track transport lines more than two between the transfer station of different water transportation lines, parallel arrangement, crisscross setting from top to bottom or switch connection setting between a plurality of suspension type single track transport lines.
9. An efficient hydro-land-hydro transfer system for containers as claimed in claim 1 wherein: the motor car in-out frequency of the suspension type monorail transport line, the lifting frequency of the shore bridge crane and the transport frequency of the transfer platform are correspondingly matched.
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| CN201921205659.5U CN210735627U (en) | 2019-07-29 | 2019-07-29 | Water-land-water efficient transfer system of container |
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| CN113233330A (en) * | 2021-05-17 | 2021-08-10 | 三一海洋重工有限公司 | Container allocation and transportation method and container allocation and transportation system |
| CN113602826A (en) * | 2021-07-22 | 2021-11-05 | 中车长江运输设备集团有限公司 | Rail-bridge integrated rapid transit system and dam-turning transportation system |
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| Publication number | Priority date | Publication date | Assignee | Title |
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| CN110304469A (en) * | 2019-07-29 | 2019-10-08 | 武汉新丝路快铁物流有限公司 | A kind of efficient movement system of water-land-water and method of container |
| CN112794107A (en) * | 2020-12-28 | 2021-05-14 | 中铁武汉勘察设计院有限公司 | Direct-taking continuous loading and unloading operation system and method for container molten iron combined transport vehicle and ship |
| CN113233330A (en) * | 2021-05-17 | 2021-08-10 | 三一海洋重工有限公司 | Container allocation and transportation method and container allocation and transportation system |
| CN113233330B (en) * | 2021-05-17 | 2024-04-12 | 三一海洋重工有限公司 | Container transferring method and container transferring system |
| CN113602826A (en) * | 2021-07-22 | 2021-11-05 | 中车长江运输设备集团有限公司 | Rail-bridge integrated rapid transit system and dam-turning transportation system |
| CN113602826B (en) * | 2021-07-22 | 2022-11-15 | 中车长江运输设备集团有限公司 | Rail-bridge integrated rapid transit system and dam-turning transportation system |
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