CN214084657U - Port ballast water receiving facility shore-through transfer device - Google Patents

Abstract

The utility model discloses a harbour ballast water is received facility and is led to bank device of plugging into, accept facility, bank base pre-buried piping system, bank base quick-operation joint, plug into hose, boats and ships and lead to bank quick-operation joint, boats and ships ballast water pipe system, boats and ships ballast tank including the ballast water harbour. The utility model has the advantages that: the port transfer facility can meet the normal ballast and unloading requirements of the ship and does not interfere other equipment of the ship; the connecting pipe system is resistant to pressure of 10bar, light in weight and convenient to retract; the port transfer facility has a function of sucking large-flow ballast water and ensures that a connecting pipe system is convenient to rapidly assemble and disassemble; the port transfer facility should be able to adapt to the offshore environmental conditions and not affect the crew/vessel safety; the port transfer facility can process ballast water with lower turbidity and ensure that sludge generated by filtering and discharging sewage can be properly processed, and zero pollution emission is realized; the port transfer facility has the characteristics of simple operation, reliable operation and convenient maintenance.

Description

Port ballast water receiving facility shore-through transfer device

Technical Field

The utility model relates to a device of plugging into bank, specifically be a device of plugging into bank of harbour ballast water receiving facilities belongs to harbour ship ballast water treatment technical field.

Background

When the ship leaves the port without load, a certain amount of ballast water needs to be ballasted to a ballast tank so as to ensure that the ship can sail normally, stably and safely; when the ship arrives to load, a certain amount of ballast water needs to be discharged so as to load more cargoes. Ballast water, whether ballasted or discharged, generally requires disinfection and inactivation treatment according to ballast water convention requirements. So, in the ballasting, de-ballasting mode, a port receiving facility generally provides two services:

a. ship unloading water treatment service: this situation usually provides a discharge treatment service for the ship arriving at the port, ensuring that the ship discharge water is discharged up to standard;

b. ship ballast water inlet treatment service: this situation is typical for ships that are going to leave a port and need to be ballasted, and since they do not have BWMS installed, ballast treatment by means of an externally movable BWMS is required to ensure discharge to the destination port.

Ballast water port service facilities may also be divided into two types according to installation methods:

a. installing a container type BWMS on a movable truck in a port area to provide service for ships berthing at a dock;

b. the container type BWMS is installed on the barge and can flexibly move in a certain sea area, and the ship can provide service for ships which are berthed outside ports and in anchor sea areas on the barge.

In summary, the ballast water treatment port service is: in the harbor or offshore mode, ocean vessels with or without installed BWMS systems are provided with ballast water pressure loading and unloading treatment and discharge services for ships in harbor or anchor areas by means of container trucks, container barges, standard interfaced BWMS, harbor ballast water treatment plants and other service modes, so that the aims of controlling marine aquatic organism propagation, biological invasion, ecological pollution and the like are achieved. Simultaneously, also can reduce the formation of under-deck deposit, reach purposes such as water resource optimization utilizes, on the basis of this, this application provides a harbour ballast water receiving facilities device of refuting that leads to the bank.

SUMMERY OF THE UTILITY MODEL

The utility model aims at providing a harbour ballast water receiving facilities device of refuting that leads to bank for the solution problem just.

The utility model discloses a following technical scheme realizes above-mentioned purpose: a port ballast water receiving facility shore connection transfer device comprises a ballast water port receiving facility and a ship ballast tank; the utility model discloses a ship ballast water pipeline system, including ballast water harbour, ship ballast tank, ship, shore base pre-buried piping system, pipeline one end and the ballast water harbour of bank base pre-buried piping system are accepted the facility and are connected through bank base quick-operation joint, the pipeline other end of bank base pre-buried piping system is connected with the hose of refuting through bank base quick-operation joint, the hose of refuting is connected through the pipeline one end of ship logical bank quick-operation joint with ship ballast water pipeline system, the pipeline other end and the ship ballast tank of ship ballast water pipeline system are linked together.

As a further aspect of the present invention: the transferring hose is a high-pressure light composite rubber infusion tube, and the transferring hose can resist pressure of 10 bar.

As a further aspect of the present invention: the ballast water port receiving facility can process ballast water with lower turbidity and ensure that sludge generated by filtering and discharging sewage is properly processed.

As a further aspect of the present invention: and the shore-based quick connector and the ship shore-accessing quick connector are both provided with standard shore-accessing quick connectors.

As a further aspect of the present invention: the ship ballast water pipeline is arranged on a deck of the ship ballast tank, and a ballast pump outlet pipeline of the ship ballast tank leads to a ship shore connection quick joint on the deck.

As a further aspect of the present invention: the pipeline of the shore-based embedded pipeline system and the pipeline of the ship ballast water pipeline system are both made of special alloy materials, and the connecting ends of the shore-based embedded pipeline system, the ship ballast water pipeline system and the transfer hose have a self-locking function.

As a further aspect of the present invention: the shore-based quick connector and the ship shore-through quick connector can be divided into A, B, C type connectors with flux, wherein the type A is a straight connector, and the flux is 200-1000 m 3/h; the type B is a three-way joint, and the flux is 1000-2000 m 3/; the type C is a four-way joint, and the flux is 2000-3000 m 3/h.

The utility model has the advantages that: this harbour ballast water receives facility and leads to bank device of transferring into refute reasonable in design:

1) the port transfer facility can meet the normal ballast and unloading requirements of the ship and does not interfere other equipment of the ship;

2) the ship and the port receiving facilities are both provided with standard shore connection interfaces so as to realize the connection between the ship and the port receiving facilities. The high-pressure rubber infusion tube is generally in pipeline butt joint with a ship; the connecting pipe system is resistant to pressure of 10bar, light in weight and convenient to retract;

3) the port transfer facility has a function of sucking large-flow ballast water and ensures that a connecting pipe system is convenient to rapidly assemble and disassemble;

4) the port transfer facility should be able to adapt to the offshore environmental conditions and not affect the crew/vessel safety;

5) the port transfer facility can process ballast water with lower turbidity and ensure that sludge generated by filtering and discharging sewage can be properly processed, and zero pollution emission is realized;

6) the port transfer facility has the characteristics of simple operation, reliable operation and convenient maintenance.

Drawings

FIG. 1 is a schematic view of the present invention;

fig. 2 is a schematic view of the quick coupling of the present invention.

In the figure: 1. the ship ballast water port receiving facility comprises 2 a shore-based pre-buried pipeline system, 3 a shore-based quick connector, 4 a transfer hose, 5 a ship shore-through quick connector, 6 a ship ballast water pipeline system and 7 and a ship ballast tank.

Detailed Description

The technical solutions in the embodiments of the present invention will be described clearly and completely with reference to the accompanying drawings in the embodiments of the present invention, and it is obvious that the described embodiments are only some embodiments of the present invention, not all embodiments. Based on the embodiments in the present invention, all other embodiments obtained by a person skilled in the art without creative work belong to the protection scope of the present invention.

Referring to fig. 1-2, a port ballast water receiving facility shore connection transfer device includes a ballast water port receiving facility 1 and a ship ballast tank 7; the utility model discloses a ship ballast water system, including ballast water harbor, ship ballast tank, ship and ballast water harbor, the ballast water harbor is accepted facility 1 and is set up in harbour pier department, ship ballast tank 7 is located ocean-going vessel, the ballast water harbor is accepted and is provided with bank base pre-buried piping system 2 between facility 1 and the ship ballast tank 7, bank base pre-buried piping system 2 is located harbour pier department, the pipeline one end of bank base pre-buried piping system 2 is accepted facility 1 with the ballast water harbor and is connected through bank base quick-operation joint 3, the pipeline other end of bank base pre-buried piping system 2 is connected with the hose 4 of plugging into through bank base quick-operation joint 3, the hose 4 of plugging into is connected with the pipeline one end of ship ballast water system 6 through ship logical bank quick-operation joint 5, the pipeline other end and the ship ballast tank 7 of ship ballast water system 6 are linked together.

Further, in the embodiment of the present invention, the refute hose 4 is a high-pressure light composite rubber infusion tube, and the refute hose 4 is pressure-resistant 10bar, light in weight, and is convenient to be retracted.

Further, in the embodiment of the utility model provides an in, ballast water harbour is accepted facility 1 and can is handled the lower ballast water of turbidity to guarantee to properly handle the mud that the filtration blowdown produced, accomplish to pollute the zero release.

Further, in the embodiment of the utility model provides an in, bank base quick-operation joint 3 and boats and ships lead to shore quick-operation joint 5 and all are equipped with the standard and lead to shore quick-operation joint to in realize the high-speed joint hose 4 of refuting.

Further, in the embodiment of the utility model provides an in, ship ballast water pipe system 6 is for setting up on the deck at ship ballast tank 7, and the ballast pump outlet piping system of ship ballast tank 7 causes the on-board boats and ships to lead to bank quick-operation joint 5 department, because the hose 4 bore of refuting is great, and bend radius is great, can't directly spread the hose 4 of refuting and spread to boats and ships bottom cabin and ballast pump outlet connection, can make the ballast water just can be refuted smoothly to harbour and accept the facility through setting up on the deck.

Further, in the embodiment of the utility model provides an in, bank base pre-buried piping 2 and boats and ships ballast water piping 6's pipeline are to adopt special alloy material to make, and bank base pre-buried piping 2 and boats and ships ballast water piping 6 and the link of refuting hose 4 have self-locking function, and intensity is high, and light in weight dismantles convenient and fast, still can guarantee that the hose during operation can not disjointed, leak simultaneously.

Further, in the embodiment of the present invention, the shore-based quick coupling 3 and the ship shore-through quick coupling 5 can be divided into A, B, C type flux couplings, wherein the type a is a straight coupling, and the flux is 200-1000 m 3/h; the type B is a three-way joint, and the flux is 1000-2000 m 3/; the type C is a four-way joint, the flux is 2000-3000 m3/h, and joints with different fluxes can be configured according to different ships, so that the applicability of the connector is enhanced.

The working principle is as follows: when the device for receiving the ballast water at the port and transferring the ship to the shore is used, in order to avoid a port machine running road, a shore-based embedded pipe system 2 is embedded underground in a port unloading operation area and is provided with a shore-based quick connector 3, so that the device 1 for receiving the ballast water at the port and a transferring hose 4 can be connected conveniently. Meanwhile, the ship shore connection quick joint 5 is also provided with the same quick joint so as to be convenient for quickly connecting the transfer hose 4. Because the transfer hose 4 bore is great, and bending radius is great, can't directly lay the transfer hose 4 and put to the ship bottom cabin and be connected with the ballast pump outlet, the ship need lead to the bank joint that leads to on the deck with the ballast pump outlet piping. So that the ballast water can be smoothly transferred to the ballast water harbor receiving facility 1.

It is obvious to a person skilled in the art that the invention is not restricted to details of the above-described exemplary embodiments, but that it can be implemented in other specific forms without departing from the spirit or essential characteristics of the invention. The present embodiments are therefore to be considered in all respects as illustrative and not restrictive, the scope of the invention being indicated by the appended claims rather than by the foregoing description, and all changes which come within the meaning and range of equivalency of the claims are therefore intended to be embraced therein. Any reference sign in a claim should not be construed as limiting the claim concerned.

Furthermore, it should be understood that although the present description refers to embodiments, not every embodiment may contain only a single embodiment, and such description is for clarity only, and those skilled in the art should integrate the description, and the embodiments may be combined as appropriate to form other embodiments understood by those skilled in the art.

Claims (7)

1. A port ballast water receiving facility shore connection transfer device comprises a ballast water port receiving facility (1) and a ship ballast tank (7); the method is characterized in that: the ballast water port receiving facility (1) is arranged at a port wharf, the ship ballast tank (7) is positioned on an ocean vessel, a shore-based pre-buried pipe system (2) is arranged between the ballast water port receiving facility (1) and the ship ballast tank (7), the shore-based embedded pipe system (2) is positioned at a port wharf, one end of a pipeline of the shore-based embedded pipe system (2) is connected with a ballast water port receiving facility (1) through a shore-based quick connector (3), the other end of the pipeline of the shore-based embedded pipeline system (2) is connected with a transfer hose (4) through a shore-based quick connector (3), the transfer hose (4) is connected with one end of a pipeline of a ship ballast water system (6) through a ship shore connection quick joint (5), the other end of the pipeline of the ship ballast water system (6) is communicated with a ship ballast tank (7).

2. The port ballast water receiving facility shore connection transfer device of claim 1, wherein: the transferring hose (4) is a composite rubber infusion tube, and the transferring hose (4) resists pressure of 10 bar.

3. The port ballast water receiving facility shore connection transfer device of claim 1, wherein: the ballast water port receiving facility (1) can process ballast water with lower turbidity and ensure that sludge generated by filtering and discharging sewage is properly processed.

4. The port ballast water receiving facility shore connection transfer device of claim 1, wherein: and the shore-based quick connector (3) and the ship shore connection quick connector (5) are both provided with standard shore connection quick connectors.

5. The port ballast water receiving facility shore connection transfer device of claim 1, wherein: the ship ballast water system (6) is arranged on a deck of the ship ballast tank (7), and a ballast pump outlet pipe system of the ship ballast tank (7) is led to a ship shore connection quick joint (5) on the deck.

6. The port ballast water receiving facility shore connection transfer device of claim 1, wherein: the pipeline of the shore-based embedded pipeline system (2) and the pipeline of the ship ballast water pipeline system (6) are both made of special alloy materials, and the connecting ends of the shore-based embedded pipeline system (2), the ship ballast water pipeline system (6) and the transfer hose (4) have a self-locking function.

7. The port ballast water receiving facility shore connection transfer device of claim 1, wherein: the shore-based quick connector (3) and the ship shore-through quick connector (5) can be divided into A, B, C type flux connectors, wherein the type A is a straight connector, and the flux is 200-1000 m 3/h; the type B is a three-way joint, and the flux is 1000-2000 m 3/; the type C is a four-way joint.

Images