KR20180025560A - Power distribution system of reefer container ship and power distribution method thereof - Google Patents

Abstract

The present invention relates to a power distribution system of a reefer container ship which uses power supplied from other feeders to stably distribute power to a plurality of reefer containers provided in a reefer container ship even though any one feeder among a plurality of feeders is broken, and a method thereof. According to one embodiment of the present invention, the power distribution system of a reefer container ship having a plurality of reefer containers comprises: a main switchboard which has a plurality of feeders for distributing power supplied from a plurality of generators to the plurality of reefer containers; and a plurality of main distribution boards which receive power from each of the plurality of feeders and supply the power to the plurality of reefer containers. A feeder among the plurality of feeders is connected to any one main distribution board among the plurality of main distribution boards connected to other feeders, and at least one main distribution board among the plurality of main distribution boards is mutually connected to the plurality of main distribution boards connected to other feeders.

Description

BACKGROUND OF THE INVENTION 1. Field of the Invention [0001] The present invention relates to a power distribution system for a refrigerated container ship,

The present invention relates to a power distribution system for a refrigerator container line and a method thereof, and more particularly, to a power distribution system for a refrigerator container having a plurality of freezers provided in a freezer container line using electric power supplied from another feeder even if any one of the plurality of feeders fails. And more particularly, to a power distribution system and method for a refrigerator container that can distribute electric power stably to a container.

In general, container ships are ocean-going vessels designed to transport cargo containers of standardized size and ship and transport a number of containers with cargoes below decks and on decks.

In a container line, a refrigeration container or a refrigeration container (hereinafter referred to as a 'refrigeration container') is provided in which a refrigeration facility is installed in order to maintain the freshness of a cargo by supplying cold air when the cargo stored in the container is affected by temperature .

A freezing container is used when the cargo stored in the freezer is frozen or stored below the freezing point of the frozen meat, fish or other objects.

Such a refrigeration container supplies electric power of the container line to the refrigeration equipment installed in each refrigeration container to keep the temperature inside the container constant.

The conventional container wiring system is constructed such that the main distribution panels for freezing can be individually supplied to the first main distribution panel and the second main distribution panel so that they are not connected between the freezing main distribution panels or between the first and second main distribution panels The stability of the power supply to all the refrigeration containers connected to the equipment or the first and second main switchboards when the switchboard fails is deteriorated. If power is not supplied to the refrigerated container, it may cause the refrigeration product and competitiveness to deteriorate.

Korean Patent Laid-Open Publication No. 2015-0120635 (Oct. 27, 2015) "Power Supply for Container Ship"

It is an object of the present invention to provide a refrigerator which can reliably distribute electric power to a plurality of refrigeration containers provided on a refrigeration container line by using electric power supplied from another feeder even if any one of the plurality of feeders fails, Power distribution system and method therefor.

According to an aspect of the present invention, there is provided a power distribution system for a refrigeration container ship having a plurality of refrigeration containers, comprising: a plurality of feeders for distributing electric power supplied from a plurality of generators to the plurality of refrigeration containers; A main switch board having a main switch board; And a plurality of main distribution boards for receiving power from the plurality of feeders and supplying the power to the plurality of refrigeration containers, wherein one of the plurality of feeders is connected to one of the plurality of main distribution boards Wherein at least one main distribution panel of the plurality of main distribution panels is interconnected with a plurality of main distribution panels connected to other feeders.

In a power distribution system of a refrigerator container line according to an embodiment of the present invention, a connection line may be provided between a main distribution panel connected to the other feeder and a main distribution panel connected to the other feeder and a neighboring main distribution panel.

The power distribution system of the refrigerator container line according to an embodiment of the present invention may further include a plurality of sub distribution boards that receive power from the plurality of main distribution boards and supply power to a predetermined refrigeration container among the plurality of refrigeration containers .

The main switch board may include a bus tie installed between the plurality of generators, and a switch installed on the bus tie.

According to another embodiment of the present invention, there is provided a power distribution method for a refrigerator container line for distributing electric power to a plurality of refrigerator containers provided in a refrigerator container line, comprising the steps of: distributing electric power supplied from a plurality of generators to the plurality of refrigerator containers; A main switch board having a plurality of feeders; And a plurality of main distribution boards for receiving power from the plurality of feeders and supplying the power to the plurality of refrigeration containers, wherein one of the plurality of feeders is connected to one of the plurality of main distribution boards Wherein at least one main distribution panel of the plurality of main distribution panels is interconnected with a plurality of main distribution panels connected to other feeders, and the distribution panel is connected to one of the plurality of feeders, At least one main distribution panel of a plurality of main distribution panels connected to the other feeder, and a main distribution panel for distributing electric power through the distribution line of the other feeder when the distribution line of at least one of the lines fails, Wherein the power of the freezer container is supplied to the freezer container.

The method of distributing power of a refrigerator container line according to another embodiment of the present invention is characterized in that one of the plurality of main distribution boards connected to the failed one feeder in the event of failure of one of the feeders of the plurality of feeders, And the other main distribution panel of the plurality of main distribution panels connected to the failed feeder is supplied with power from the one main distribution panel through the distribution line of the other feeder, The other one of the plurality of main distribution boards connected to one failed feeder can receive power from one of the plurality of main distribution boards connected to the other feeder.

If any of the distribution lines of the plurality of distribution lines fails, the main distribution panel connected to the failed distribution line can receive power from the main distribution panel connected to the other feeder.

According to the embodiment of the present invention, it is possible to stably distribute electric power to the plurality of refrigeration containers provided in the refrigeration container line by using the electric power supplied from the other feeder even if any one of the feeders fails . Accordingly, the refrigeration state of the cargo stored in the refrigeration container can be stably maintained.

1 is a view for explaining a power distribution system of a refrigerator container line according to an embodiment of the present invention;
FIG. 2 is a view for explaining a power distribution method of a freezer container line when the second feeder shown in FIG. 1 fails;
FIG. 3 is a view for explaining a power distribution method of a freezer container line when the first feeder shown in FIG. 1 fails;
FIG. 4 is a view for explaining a power distribution method of a refrigerator container line when a second power distribution line fails in a plurality of power distribution lines provided in the second feeder shown in FIG. 1; and
FIG. 5 is a view for explaining a power distribution method of a freezer container line when a first power distribution line fails in a plurality of power distribution lines provided in the second feeder shown in FIG. 1;

Hereinafter, preferred embodiments of the present invention will be described in detail with reference to the accompanying drawings.

1 is a view for explaining a power distribution system of a refrigerator container line according to an embodiment of the present invention.

Referring to FIG. 1, the power distribution system of a refrigerator container line according to the present invention includes a plurality of generators DG1 to DG4, a plurality of generators DG1 to DG4, A main switch board (10) having a plurality of feeders for distributing electric power to equipment, a plurality of main distribution boards connected to the plurality of feeders, and a plurality of main distribution boards And a plurality of auxiliary distribution panels to be supplied.

The plurality of feeders are a first feeder 12 and a second feeder 14 that are respectively supplied with electric power generated from a plurality of generators DG1 to DG4. Here, the power is distributed to the refrigeration equipment of the refrigeration container provided in the refrigeration container line through the two feeders. However, the present invention is not limited to this, The logarithm and the number of feeders can be determined.

The first feeder 12 is supplied with power generated by the first and second generators G1 and G2 and the second feeder 14 supplies power generated by the third and fourth generators G3 and G4. Receive.

A first power generation panel (not shown) for supplying electric power produced by the first and second generators G1 and G2 between the first feeder 12 and the second feeder 14, more specifically, And a bus tie 19 is provided between the second power generation panel 18 for supplying power generated by the third and fourth generators G3 and G4 to the second feeder 14 Respectively. The bus tie 19 is provided with a switch S for connection or short-circuit between the first power generation panel 16 and the second power generation panel 18. [

The switch S provided on the bus tie 19 is connected to the power distributing lines DL1 and DL2 provided for the first feeder 12 or the second feeder 14, To DL3 are broken, and if not, they are closed.

The first feeder 12 supplies electric power through a plurality of power distribution lines DL1 to DL3. The power supply to the main distribution panel connected to the plurality of power distribution lanes DL1 to DL3 can be controlled through the switches respectively provided in the plurality of power distribution lines DL1 to DL3.

The first power distribution line DL1 of the plurality of power distribution lines DL1 to DL3 is connected to the first main distribution panel 221 of the plurality of main distribution panels connected to the first feeder 12, DL2 are connected to a second main distribution panel 222 of a plurality of main distribution panels connected to the first feeder 12 and a third power distribution line DL3 is connected to a plurality of main distribution panels 1, the third main distribution board 243 is connected to any one of the main distribution boards.

The first to third main distribution boards 221, 222 and 223 can receive power through a plurality of main distribution boards connected to the second feeder 17 in addition to the first to third power distribution lines DL1 to DL3 Lt; / RTI >

That is, the first main distribution panel 221 receives power from the first feeder 12 through the first power distribution line DL1 during normal operation and receives power from the first feeder 12 or the first power distribution line DL1) is supplied with power from any one of a plurality of main distribution boards connected to the second feeder 14, here, the first main distribution board 241.

The second main distribution panel 222 is supplied with power from the first feeder 12 via the second power distribution line DL2 and is connected to the second power distribution line DL2 And is supplied with power from a third main distribution panel 223 disposed adjacent to the second main distribution panel 222 and connected to the power distribution line of the second feeder 14 in the event of failure. Here, although the second main distribution panel 222 is described as being disposed adjacent to the third main distribution panel 223 and connected to the power distribution line of the second feeder 14, the power is supplied from the third main distribution panel 223 connected to the second feeder 14 For example, from the second main distribution panel 242 among the plurality of main distribution panels.

A connection line CL is provided between the second main distribution panel 222 and the third main distribution panel 223 so that the second main distribution panel 222 is connected to the third main distribution panel 223 or the third main distribution panel 223 To the second main distribution panel 223.

The third main distribution board 223 is connected to the third power distribution line DL3 of the first to third power distribution lines DL1 to DL3 of the second feeder 14 during normal operation, The power is supplied from the second main distribution panel 222 that is supplied with power through the third power distribution line DL3 of the first power distribution line DL2 and the third main distribution panel 223 disposed adjacent to the third power distribution line 223 when the second feeder 14 fails, CL).

Hereinafter, the first to third main distribution boards 241, 242 and 243 connected to the second feeder 14 will be described.

The second feeder 14 also supplies power through a plurality of power distribution lines DL1 to DL3. The power supply to the main distribution panel connected to the plurality of power distribution lanes DL1 to DL3 can be controlled through the switches respectively provided in the plurality of power distribution lines DL1 to DL3.

The first power distribution line DL1 of the plurality of power distribution lines DL1 to DL3 is connected to the first main distribution board 241 of the plurality of main distribution boards connected to the second feeder 14, DL2 are connected to a second main distribution panel 242 of a plurality of main distribution panels connected to the second feeder 14 and a third power distribution line DL3 is connected to a plurality of main distribution panels 242 connected to the first feeder 12, The third main distribution board 223 is connected to any one of the main distribution boards.

The first to third main distribution boards 241, 242 and 243 can receive power through a plurality of main distribution boards connected to the first feeder 12 in addition to the first to third power distribution lines DL1 to DL3 Lt; / RTI >

That is, the first main distribution board 241 receives power from the second feeder 14 via the first power distribution line DL1 during normal operation and receives power from the first power distribution line DL1) is supplied with power from any one of a plurality of main distribution boards connected to the first feeder 12, here, the first main distribution board 221.

The second main power distribution board 242 is supplied with power from the second feeder 14 via the second power distribution line DL2 and is connected to the second power distribution line DL2 And is supplied with power from a third main distribution board (243) disposed adjacent to the second main distribution board (242) and connected to the power distribution line of the first feeder (12). Although the second main distribution panel 242 is described as being supplied with power from the third main distribution panel 243 connected to the power distribution line of the first feeder 12 in this embodiment, the second main distribution panel 242 is connected to the first feeder 12 For example, the second main distribution panel 222, from among the plurality of main distribution panels.

A connection line CL is provided between the second main distribution panel 242 and the third main distribution panel 243 so that the second main distribution panel 242 is connected to the third main distribution panel 243 or the third main distribution panel 243 ) To the second main distribution board 243.

The third main distribution board 243 is connected to the third power distribution line DL3 of the first to third power distribution lines DL1 to DL3 of the first feeder 12 during normal operation, The above described connection line is supplied from the second main distribution board 242 which is supplied with electric power through the third power distribution line DL3 of the first main distribution board 241 and which is disposed adjacent to the third main distribution board 243 when the first feeder 12 fails, Power is supplied through.

The first to third power distribution lines (12, 14) connected to the first and second feeders (12, 14) during the failure, abnormal operation or maintenance of the first feeder 12 or the second feeder 14 DL1, DL2, DL3, DL4, DL5, DL6, DL7, DL6, DL7, DL6, DL7, DL6, The power distribution system can be constructed economically from the viewpoint of ship operation.

The first to third main distribution boards 221, 222 and 223 connected to the first feeder 12 are connected to the first to third sub distribution boards 321, 322 and 323, respectively. The first to third sub distribution boards 321, 322 and 323 receive electric power from the first to third main distribution boards 221, 222 and 223, respectively, and supply power to the refrigerating apparatuses of the freezing con- densers .

The first to third main distribution boards 241, 242 and 243 connected to the second feeder 14 are also connected to the first to third sub distribution boards 341, 342 and 343, respectively. The first to third sub distribution boards 341, 342 and 343 receive electric power from the first to third main distribution boards 241, 242 and 243, respectively, and supply electric power to the predetermined refrigerating apparatuses .

The first to third main distribution boards 221, 222 and 223 connected to the first feeder 12 and the first to third main distribution boards 241, 242 and 243 connected to the second feeder 14 described above Each of the switches has a plurality of switches, and on / off of the switches is controlled under the control of the main switch board 10. [

When the first feeder 12 and the second feeder 14 are in normal operation, the first main distribution panel 221 connected to the first feeder 12 is connected to the first power distribution line DL1 of the first feeder 12 The second main distribution panel 222 receives power through the first power distribution line DL2 of the first feeder 12 and the third main distribution panel 223 receives power through the second feeder 14, The main switchboard 10 controls a plurality of switches in the first to third main distribution boards 221, 222 and 223 so as to receive power through the third power distribution line DL3 of the second feeder 14, The first main distribution board 241 connected to the second feeder 14 is supplied with power through the first power distribution line DL1 of the second feeder 14 and the second main distribution board 242 receives power through the first power distribution line DL2 of the second feeder 14, And the third main distribution panel 243 receives power through the third power distribution line DL3 of the first feeder 12 so that the main switchboard 10 is supplied with power through the first distribution line DL2, Third to third Distribution boards (241, 242, 243) controls the plurality of switches within.

The failure of the first feeder 12 or the second feeder 14 and the failure of the power distribution line of at least one of the first to third power distribution lines DL1 to DL3 cause the first and second feeders 12, The first main distribution boards 221 and 241 of the first and second feeders 12 and 14 are supplied through the main distribution boards of the other feeders and the second main distribution boards 222 and 242 of the first and second feeders 12 and 14 and the third main distribution boards 223, 243 are connected to the first to third main distribution boards 221, 222, 223 connected to the first feeder 12 and the first to third main distribution boards 221, 222, 223 connected to the second feeder 14, 3 main distribution boards 241, 242, and 243.

The reference numerals T1, T2, and T3 denote transformers.

Hereinafter, a power distribution method of the refrigeration container line will be described.

Fig. 2 is a view for explaining a power distribution method of a freezer container line when the second feeder fails in the first and second feeders.

2, the first main distribution panel 241 connected to the second feeder 14 is connected to the first main distribution panel 221 connected to the first feeder 12 at the time of failure of the second feeder 14, Power is supplied. The first main distribution panel 241 can stably supply power to the refrigeration equipment of the preset refrigeration container through the power supplied through the first main distribution panel 221 of the first feeder 12. [

The third main distribution board 243 is supplied with electric power through the third power distribution line DL3 of the first feeder 12 which operates normally. The third main distribution panel 243 can also stably supply power to the refrigeration equipment of the preset freezing container.

The second main distribution board 242 receives the power of the third main distribution board 243 disposed adjacent thereto via the connection line CL. The second main distribution panel 242 can also stably supply electric power to the refrigeration equipment of the preset freezing container.

The first and second main distribution boards 221 and 222 of the first through third main distribution boards 221 and 222 and the first and second main distribution boards 221 and 222 connected to the normally operating first feeder 12 are connected to the first and second main feeders 221 and 222, 2 power distribution lines DL1 and DL2 and the third main distribution panel 223 receives power from the second main distribution panel 223 adjacent to the third main distribution panel 223 due to the failure of the second feeder 14, And power is supplied from the distribution board 222 via the connection line CL.

Accordingly, even when the second feeder 14 fails, abnormality, or maintenance, all the power can be supplied to the refrigeration equipment of the refrigeration container provided in the refrigeration container line, so that the refrigeration state of the refrigeration container can be stably maintained.

FIG. 3 is a view for explaining a power distribution method of a freezing container line when the first feeder fails in the first and second feeders. FIG.

3, when the first feeder 12 fails, the first main distribution board 221 connected to the first feeder 12 is connected to the first main distribution board 241 connected to the second feeder 14 Power is supplied. The first main distribution board 221 can stably supply power to the refrigeration equipment of the preset freezing container through the power supplied through the first main distribution board 241 of the second feeder 14. [

The third main distribution panel 223 is supplied with power through the third power distribution line DL3 of the second feeder 14 which operates normally. The third main distribution panel 223 can also stably supply power to the refrigeration equipment of the preset freezing container.

The second main distribution panel 222 receives the power of the third main distribution panel 223 disposed adjacent thereto through the connection line CL. The second main distribution panel 222 can also stably supply power to the refrigeration equipment of the preset freezing container.

The first and second main distribution boards 241 and 242 of the first through third main distribution boards 241 and 242 connected to the normally operating second feeder 14 are connected to the first and second main feeders 241 and 242 of the second feeder 14, Power distribution lines DL1 and DL2 and the third main distribution board 243 receives power from the second main distribution board 242 through the connection line CL due to the failure of the first feeder 14 Power is supplied.

2 and 3, even when the first feeder 12 or the second feeder 14 fails, power can be supplied to the main distribution board connected to the failed feeder, and power can be supplied from the main distribution board to the auxiliary distribution board Therefore, it is possible to completely supply electric power to all the refrigeration containers of the refrigeration container line.

4 illustrates a power distribution method of the freezer container line when the second power distribution line DL2 of the first to third power distribution lines DL1 to DL3 of the second feeder 14 among the first and second feeders fails And FIG.

The second main feeder 14 is connected to the second feeder 14 when the second power distribution line DL2 of the first to third power distribution lines DL1 to DL3 of the second feeder 14 fails, The distribution board 242 can not receive power through the second power distribution line DL2 but receives power from the third main distribution board 243 disposed adjacent thereto through the connection line CL. At this time, the third main distribution panel 243 supplies electric power to the refrigeration facility of the preset freezing container, supplies the electric power to the second sub distribution panel 343, and supplies the power to the second main distribution panel 242 And controls the switch connected to the second main distribution panel 242 so as to supply electric power.

The first and third main distribution boards 241 and 243 besides the second main distribution board 242 connected to the second feeder 14 follow the power distribution method in normal operation. The first main distribution panel 241 supplies and distributes power through the first power distribution line DL1 of the second feeder 14 and the third main distribution panel 242 distributes power to the first feeder 12, The switches in the first and third main distribution boards 241 and 243 are controlled to supply and distribute power through the third power distribution line DL3.

The first to third main distribution boards 221, 222, and 223 connected to the first feeder 12 follow the power distribution method in normal operation. The first main distributor 221 supplies and distributes power through the first power distribution line DL1 of the first feeder 12 and the second main distribution panel 222 distributes power to the first feeder 12 And the third main distribution panel 232 distributes power through the second power distribution line DL2 and distributes power through the third power distribution line DL3 of the second feeder 14, The board 10 controls the first to third main distribution boards 221, 222 and 223.

5 illustrates a power distribution method of a freezer container line at the time of failure of the first power distribution line DL1 among the first to third power distribution lines DL1 to DL3 of the second feeder 14 among the first and second feeders And FIG.

5, when the first power distribution line DL1 of the first to third power distribution lines DL1 to DL3 of the second feeder 14 is in a failure state, The distribution board 241 receives power from the first main distribution board 221 connected to the first feeder 12. At this time, the first main distribution board 241 supplies power to the refrigeration equipment of the refrigeration container preset by the power supplied from the first main distribution board 22 of the first feeder 12, and the first auxiliary distribution board 341, And controls the switch in the first main distribution board 241 so as to supply the predetermined power to the first main distribution board 241. [

In addition to the first main distribution board 241 connected to the second feeder 14, the remaining second and third main distribution boards 242 and 243 follow the power distribution method during normal operation. The second main power distribution panel 242 supplies and distributes power through the second power distribution line DL2 of the second feeder 14 and the third main distribution panel 242 distributes power to the first feeder 12, The switches in the second and third main distribution boards 242 and 243 are controlled so as to supply and distribute power through the third power distribution line DL3 of the second power distribution line DL3.

The first to third main distribution boards 221, 222, and 223 connected to the first feeder 12 follow the power distribution method in normal operation.

4 and 5, any one of the first to third power distribution lines DL1 to DL3 of the second feeder 14 is malfunctioning. The first to third power distributions of the first feeder 12 Power is supplied to at least one of the first to third main distribution boards 241, 242 and 243 of the second feeder 12 even when the lines DL1 to D13 are broken, And the third main distribution boards 222 and 223.

With such a power distribution system of the refrigeration container line, power supply to the refrigeration container provided in the refrigeration container line can be maintained even if any one of the feeders fails or any power distribution line of the plurality of feeders fails, The frozen state can be maintained.

The invention being thus described, it will be obvious that the same way may be varied in many ways. Such modifications are intended to be within the spirit and scope of the invention as defined by the appended claims.

10: main switch board 12, 14: first and second feeders
16, 18: first and second power generation panels 19: bus tie
221, 241: first main distribution panel 222, 242: second main distribution panel
223, 243: third main distribution board 321, 341: first auxiliary distribution board
322, 342: second sub distribution panel 323, 343: third sub distribution panel

Claims (7)

1. A power distribution system for a refrigeration container line having a plurality of refrigeration containers,
A main switch board having a plurality of feeders for distributing electric power supplied from a plurality of generators to the plurality of refrigeration containers; And
And a plurality of main distribution boards for receiving electric power from the plurality of feeders and supplying the electric power to the plurality of refrigeration containers,
Wherein one of the plurality of feeders is connected to one of the plurality of main distribution boards connected to the other feeder, and at least one of the plurality of main distribution boards is interconnected with a plurality of main distribution boards connected to the other feeders And the power distribution system of the refrigerator container line. The method according to claim 1,
Wherein a connection line is provided between a main distribution panel connected to the other feeder and a main distribution panel disposed adjacent to the main distribution panel connected to the other feeder. The method according to claim 1 or 2,
Further comprising a plurality of sub distribution boards for receiving electric power from the plurality of main distribution boards and supplying electric power to predetermined ones of the plurality of refrigeration containers. The method according to claim 1,
Wherein the main switch board includes a bus tie installed between the plurality of generators, and a switch installed in the bus tie. 1. A power distribution method for a refrigeration container line for distributing electric power to a plurality of refrigeration containers provided in a refrigeration container line,
A main switch board having a plurality of feeders for distributing electric power supplied from a plurality of generators to the plurality of refrigeration containers; And
And a plurality of main distribution boards for receiving electric power from the plurality of feeders and supplying the electric power to the plurality of refrigeration containers,
Wherein one of the plurality of feeders is connected to one of the plurality of main distribution boards connected to the other feeder, and at least one of the plurality of main distribution boards is interconnected with a plurality of main distribution boards connected to the other feeders In addition,
At least one of the plurality of feeders, or at least one of the plurality of feeders, or a plurality of main distribution boards connected to the other feeders when at least one of the distribution lines provided in the plurality of feeders fails, and Wherein power is supplied through a main distribution panel that receives power distribution through the distribution lines of the other feeders. The method of claim 5,
One main distribution board among a plurality of main distribution boards connected to the failed one feeder in the event of failure of one of the plurality of feeders receives power through the distribution line of the other feeder and is connected to the failed one feeder Wherein one of the plurality of main distribution boards receives power supplied through the distribution line of the other feeder from the one main distribution board and receives power from another one of the plurality of main distribution boards connected to the failed feeder, Is supplied with power from one of the plurality of main distribution boards connected to the other feeder. The method of claim 5,
Wherein when one of the plurality of distribution lines fails, the main distribution panel connected to the failed distribution line receives power from the main distribution panel connected to the other feeder.

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