KR20150045207A - Distribution board circuit selection apparatus and method - Google Patents

Abstract

The present invention relates to an apparatus and a method for selecting a distribution board circuit comprising: a storage unit which stores load values on respective circuits in a single phase voltage supply unit and a three phase voltage supply unit in the distribution board as well as current values supplied to respective pieces of equipment; an input unit which receives load values for a piece of equipment, which is to be added to, changed in, or removed from the distribution board, and a load value of the corresponding piece of equipment; and a controller which, when a piece of equipment receiving a single phase voltage is added, sequentially applies the load value inputted through the input unit to circuits, to which no load is connected, among all circuits in the single phase voltage supply unit, and searches for and provides the circuit which minimizes a phase balance. By using the present invention, an optimal circuit is selected by considering the phase balance when a load receiving a single phase voltage is added, changed, or removed, such that the load is distributed uniformly on respective phases.

Description

[0002] DISTRIBUTION BOARD CIRCUIT SELECTION APPARATUS AND METHOD [0003]

The present invention relates to an apparatus and method for selecting a distribution board circuit, and more particularly, to a distribution board that supplies power to a device that receives a single phase of 230 V or less, a distribution board circuit for selecting a circuit by considering a load value and a phase balance of the apparatus And a selection method.

In general, the ship is equipped with a general distribution system designed to meet the ship's size and power consumption.

The distribution system distributes the low-voltage electricity drawn from the generator of the ship to each load through a series of devices and prevents the overcurrent from flowing.

The present applicant has filed a patent application for a power supply device for a ship or a floating structure, a switchboard, and an electric equipment in many of the following Patent Documents 1 and 2.

The distribution board functions to supply power to equipment driven by a single-phase voltage of 230 V or less in a vessel supplied with three-phase power.

The International Electrotechnical Commission (IEC) has enacted the IEC standard to ensure the quality and safety of electrical and electronic products by standardizing electrical, electronic and related items to this standard.

Section 7.3.1 of IEC 61892-2 requires that the balance of each phase be kept within 15% of the load of the equipment.

In other words, if the phase balance of the shipboard panel using the three-phase three-wire wiring method is not met, a large amount of heat may be generated in a load-carrying electric wire, resulting in a risk of fire. Or burnout occurs.

Korean Patent Publication No. 10-2010-0114564 (published on October 26, 2010) Korean Utility Model Publication No. 20-2010-0004639 (published on May 7, 2010)

However, in the past, when a load was added to, removed from, or changed to a distribution board of a ship, the operator had to manually find a circuit with the lowest phase balance by adding a load to each circuit provided in the distribution board.

As described above, conventionally, phase balance must be reviewed every time a load is added, deleted, or changed. Therefore, time required for finding an optimal circuit by analyzing the equation setting and phase balance is unnecessarily increased, There is a problem that the accuracy is deteriorated due to the error.

SUMMARY OF THE INVENTION An object of the present invention is to solve the above problems and provide a panel circuit selection device and a selection method for selecting a circuit of a distribution panel in consideration of phase balance when a load is added, changed or deleted.

Another object of the present invention is to provide an apparatus and method for selecting a distribution board circuit that can prevent a failure or damage of a wire or a power supply system and a fire from occurring by selecting a circuit capable of optimizing phase balance.

In order to achieve the above-mentioned object, the apparatus for selecting a distribution board circuit according to the present invention comprises a storage unit for storing a load value for each circuit of a single-phase voltage supply unit and a three-phase voltage supply unit of a distribution board, Phase voltage supply unit is added, an input unit receiving a load value of the corresponding equipment, and an equipment receiving a single-phase voltage are added, the load value input through the input unit is loaded in the entire circuit of the single- And a controller for sequentially searching for a circuit having a minimum phase balance by providing a circuit having a minimum phase balance.

The control unit includes an upper phase balance calculating unit for calculating a phase balance when each of the circuits of the single-phase voltage distribution board is connected to each circuit to which loads are not connected, and an optimum circuit searching unit for searching an optimum circuit for calculating the calculated phase balance And the like.

Wherein the phase balance calculation unit calculates phase balance for each circuit according to the following equation (1).

...[수학식1]

&Quot; (1) "

Here, each of the phase combination capacitances (W) is the sum of the load powers connected to the circuit of each phase.

The present invention further includes a display unit for displaying an operating state of the ship panel circuit selecting device based on the control signal of the control unit, wherein the display unit displays the type and size of the cable connected to the distribution board, the number of each circuit, The load value of the equipment, the current value supplied to each equipment, and the optimum circuit searched are displayed on the screen.

According to another aspect of the present invention, there is provided a method of selecting a distribution board circuit comprising the steps of: (a) receiving a distribution board to add, change, or delete a device; (b) And (c) if it is determined that the load is a load driven by a single-phase voltage, the load value of the load is determined to be the load of the entire circuit of the single- And searching for and providing a circuit in which the phase balance is minimized.

The step (c) includes the steps of: (c1) calculating a phase balance by sequentially assigning a load load value to all circuits of the single-phase voltage supply unit, And (c2) searching for a circuit having the minimum phase balance calculated in the step (c2).

In the step (c1), the phase balance is calculated by calculating the sum of the load powers connected to the circuit of each phase, calculating each phase combination capacity, and calculating a difference between the maximum value and the minimum value among the calculated phase combination powers, , And the difference is calculated.

The step (c2) is characterized in that a predetermined number of circuits are provided according to a preset priority so that the phase balance is minimized.

The step (c) may further include: (c3) calculating and storing a current value supplied to a load connected to each circuit.

(D) searching for a number of a spare circuit to which a load is not connected among the entire circuits of the three-phase voltage supply unit, if the load is driven by receiving the three-phase voltage as a result of the inspection of the step (b) And further comprising:

The method may further include the step (e) of storing the load value of the load as the load value of the selected circuit if any one of the optimum circuit or the spare circuit number provided in the step (c) or .

As described above, according to the apparatus and method for selecting a distribution board circuit according to the present invention, an optimum circuit is selected in consideration of phase balance when adding, changing, or deleting a load to which a single-phase voltage is supplied, Can be distributed.

That is, according to the present invention, in the case of adding a device receiving a single phase voltage, a load value of the device is input to add to each circuit to which the device is not connected, and the phase balance for each circuit is calculated. It is possible to provide a circuit that becomes a semiconductor device.

Thus, according to the present invention, the loads are uniformly connected to the respective phases of the distribution board to optimize the optimum phase balance, thereby eliminating overheating of the electric wires caused by uneven phase balance, And burn-out can be prevented.

Further, according to the present invention, it is possible to remarkably reduce the time required for circuit selection in consideration of phase balance, thereby reducing time and human costs and optimizing the phase balance.

1 is an internal configuration diagram of a general shipboard distribution board,
Fig. 2 is an exemplary view of the shipboard panel shown in Fig. 1 and loads connected thereto; Fig.
3 is a block diagram of an apparatus for selecting a ship panel circuit according to a preferred embodiment of the present invention;
FIG. 4 is a flowchart illustrating a method of selecting a ship panel circuit selecting apparatus according to a preferred embodiment of the present invention.

DETAILED DESCRIPTION OF THE PREFERRED EMBODIMENTS A preferred embodiment of the present invention will now be described in detail with reference to the accompanying drawings.

In the present embodiment, a three-phase three-wire shipboard panel that supplies a single-phase voltage and three-phase voltage to each equipment provided on a ship is described. However, the present invention is not limited to ships, and may be applied to offshore structures or land- It should be noted that the present invention can be applied to a distribution board of various distribution methods.

Fig. 1 is an internal configuration diagram of a general shipboard distribution board, Fig. 2 is an illustration of a shipboard distribution board shown in Fig. 1, and loads connected thereto.

As shown in Figs. 1 and 2, a ship distribution board 10 is installed at each layer of the ship and locally, and is connected to a distributor (not shown) for distributing the high pressure supplied from the generator, And distributes it to each equipment.

To this end, the shipboard panel 10 includes a single-phase voltage supply unit 11 for supplying a single-phase voltage to equipment receiving a single-phase voltage from the equipment provided on the ship, and a three-phase voltage supply unit 11 for supplying three- And may include a supply unit 12.

The single-phase voltage supply unit 11 and the three-phase voltage supply unit 12 include a plurality of circuits 13 and 15 to which cables connected to respective equipments of the ship, which are supplied with single-phase voltage or three-phase voltage, And three-phase breakers 14 and 16 for automatically shutting off the current when an abnormal state such as a disconnection occurs.

Here, each equipment is supplied with power of about 230 V or less from each phase combination of the shipboard distribution board 10, that is, the combination of L1-L2, L2-L3 and L3-L1 phases.

In the present invention, phase balance is calculated using the capacity of each phase combination when a load is added, changed or deleted, and a circuit at a position where the phase balance is minimum is selected to add, change or delete the load, It prevents the power supply system from malfunctioning and burning by eliminating the risk of overheating and fire caused by unbalanced wires.

3 is a block diagram of an apparatus for selecting a ship panel circuit according to a preferred embodiment of the present invention.

3, the ship panel circuit selecting apparatus 20 according to the preferred embodiment of the present invention includes a single-phase voltage supply unit 11 and three-phase voltage supply unit 12 of the marine distribution board 10, A storage unit 21 for storing the star load value and a current value supplied to each equipment, a distribution board 10 for adding, changing or deleting equipment, an input unit 22 for receiving a load value of the equipment, The input load value is sequentially substituted into the circuit 13 in a state in which the load is unconnected among all the circuits 13 of the single-phase voltage supply unit 11 provided in the selected distribution board 10 to search for a circuit with the minimum phase balance And a control unit 23 for providing a control signal.

In addition, the ship panel circuit selecting apparatus 20 according to the preferred embodiment of the present invention further includes a display unit 24 for displaying the operating state of the ship panel circuit selecting apparatus 20 in accordance with the control signal of the controller 23 can do.

The storage unit 21 stores a control program for controlling the operation of the ship panel circuit selecting device 20 and stores a load value connected to each of the circuits 13 and 15 provided in the distribution board 10, Store the value.

The input unit 22 functions to receive various commands for operating the shipboard panel circuit shipyard 20.

The input unit 22 is provided with a keyboard, a mouse, and a touch pad, and receives the input values of the distribution board 10 and the corresponding equipment to add, change, or delete the equipment.

When the distribution board 10 to be added, changed or deleted is selected, the control unit 23 checks whether the device is a device receiving a single-phase voltage or a device receiving a three-phase voltage, It is possible to search and provide the circuits 13 and 15 to which the equipment is to be connected.

For example, in the case of adding a single-phase voltage-supplied equipment, the control unit 23 controls the operation of the single-phase voltage distribution board 11 when the equipment is connected to each of the circuits 13, An image balance calculating unit 25 for calculating a phase balance and an optimum circuit searching unit 26 for searching for an optimum circuit in which the calculated phase balance is minimized.

That is, the control unit 23 substitutes the load value of the corresponding equipment into each of the circuits 13 to which loads are not connected, and outputs the phase values L1, L2, L3 ) So that the load is evenly distributed.

For this purpose, the phase balance calculator 25 can calculate phase balance for each circuit according to the following equation (1).

Here, each of the phase combination capacitances W consists of the sum of the load powers connected to the circuit of each phase.

The closer the phase balance is to "0", the better the combination becomes the optimal state in which the load is evenly distributed to each phase combination.

Therefore, in this embodiment, the optimum circuit searching unit 26 sets the circuit 13 having the smallest phase balance value for each circuit 13 in a predetermined number, for example, three circuits 13 as an optimum circuit You can search.

The display unit 24 displays the type and size of the cable connected to each distribution board 10, the number of each circuit 13, the load value of equipment connected to each circuit 13, and the current value supplied to each equipment And the optimum circuit searched by the control unit 23 can be displayed.

On the other hand, in the case of adding a device supplied with a three-phase voltage, since the loads are uniformly distributed to the phases L1, L2 and L3, the control section 23 searches the number of the spare circuit 15 .

As described above, in the case of adding a device receiving a single-phase voltage, the present invention calculates the phase balance for each circuit by inputting the load value of the equipment to be added to each circuit to which the equipment is not connected, A circuit can be provided.

Accordingly, the present invention relates to a power distributing system for a power distribution system, which uniformly connects loads to each phase of a distribution board to adjust an optimum phase balance, thereby eliminating the risk of overheating of the electric wires and the topic caused by uneven phase balance, Can be prevented.

Next, referring to FIG. 4, a method of selecting an apparatus for selecting a ship panel circuit according to a preferred embodiment of the present invention will be described in detail.

4 is a flow chart for explaining steps of a method for selecting a ship panel circuit selecting apparatus according to a preferred embodiment of the present invention.

In step S10 of FIG. 4, the input section 22 of the ship panel circuit selection device 20 receives the distribution panel 10 to which a load is to be added from the manager.

Then, the control unit 23 checks whether the corresponding equipment is a load receiving a single-phase voltage (S12).

If it is determined in step S12 that the load is a single-phase voltage, the control unit 23 controls the input unit 22 to receive the load value of the load.

When the load value of the load is input through the input unit 22 in step S14, the phase balance calculation unit 25 of the control unit 23 calculates the phase balance of the respective circuits 13 connected to the loads among all the circuits 13 provided in the distribution board 10 (S16). ≪ tb > < / TABLE >

At this time, the phase balance calculator 25 calculates the sum of the load powers connected to the circuit 13 of each phase, calculates each phase combination capacity, and then calculates the difference between the maximum value and the minimum value of each phase combination capacity, The phase balance can be calculated by dividing by the average value of the capacity.

In step S18, the optimum circuit searching section 26 searches for the circuit 13 having the smallest phase balance value for each circuit 13.

Then, based on the control signal from the control unit 23, the display unit 24 displays three searched circuits on the screen according to the priority set to minimize the phase balance (S20).

On the other hand, if it is determined in step S12 that the load is a three-phase voltage, the control unit 23 controls the input unit 22 to receive the load value of the load to be added from the manager.

When the load value of the load is input through the input unit 22 (S24), the optimum circuit searching unit 26 of the control unit 23 determines whether the load is not connected The number of the spare circuit 15 is retrieved (S24).

Then, the display unit 24 displays the searched spare circuit number on the screen according to the control signal of the control unit 23 (S26).

In step S28, the administrator operates the input unit 22 to select any one of the three circuits searched in step S20 or to select any one of the searched circuit numbers in step S26, and the control unit 23 controls the selected circuit 13 and 15, and stores the load value of the added load in the storage unit 21.

On the other hand, the control unit 23 may calculate the current supplied to the load added in the process of adding the load, and control the storage unit 21 to store the calculated current.

Through the above-described process, the present invention can distribute the load evenly to each phase by selecting an optimum circuit in consideration of phase balance when adding, changing, or deleting a load supplied with a single-phase voltage.

Although the invention made by the present inventors has been described concretely with reference to the above embodiments, the present invention is not limited to the above embodiments, and it goes without saying that various changes can be made without departing from the gist of the present invention.

In the above-described embodiment, the three-phase three-wire type distribution board for supplying the single-phase voltage and the three-phase voltage to the respective equipments provided on the ship has been described. However, the present invention is not limited to ships, The present invention can be modified so as to be applied to the distribution boards of various distribution systems provided.

In the above embodiment, the case where the load is added is described. However, the present invention may be applied not only to the addition of the load but also to the case of deleting or changing the load, so as to optimize the phase balance.

The present invention is applied to an apparatus and method for selecting a distribution board circuit that distributes a load evenly to each phase by selecting an optimal circuit in consideration of phase balance when a load supplied with a single-phase voltage is added, changed, or deleted.

10: Shipboard panel 11: Single-phase voltage supply
12: three-phase voltage supply unit 13,15:
14: Single phase breaker 16: Three phase breaker
20: Ship panel circuit selection device
21: storage unit 22: input unit
23: control unit 24:
25: phase balance calculation unit 26: optimum circuit search unit

Claims (11)

A storage unit for storing a load value of each circuit of the single-phase voltage supply unit and the three-phase voltage supply unit of the distribution board and a current value supplied to each equipment,
A distribution board for adding, changing or deleting equipment, an input unit for receiving a load value of the equipment,
In the case of adding a single phase voltage supplying device, a load value input through the input unit is sequentially substituted in all circuits of the single-phase voltage supplying unit to a load-unconnected circuit, And a control unit for controlling the switching of the distribution board. The apparatus of claim 1, wherein the control unit
A phase balance calculator for calculating a phase balance when the corresponding equipment is connected to each circuit to which loads are not connected among the entire circuits of the single-phase voltage distribution board, and
And an optimum circuit searching section for searching for an optimum circuit in which the calculated phase balance is minimized. The apparatus of claim 2, wherein the phase balance calculator
And calculates a phase balance for each circuit according to the following equation (1).

&Quot; (1) "
Here, each of the phase combination capacitances (W) is the sum of the load powers connected to the circuit of each phase. 4. The method according to any one of claims 1 to 3,
Further comprising a display section for displaying an operation state of the ship panel circuit selection device based on a control signal of the control section,
The display unit displays on the screen the type and size of the cable connected to the distribution board, the number of each circuit, the load value of the equipment connected to each circuit, the current value supplied to each equipment, and the optimum circuit searched. Device. (a) receiving a panel board to add, change or delete equipment;
(b) checking whether the equipment is a load driven by receiving a single-phase voltage,
(c) If the load in the step (b) is a load driven by a single-phase voltage, the load value of the load is sequentially substituted in the circuit of the unconnected load among the entire circuits of the single- And searching for and providing a circuit that becomes the minimum. 6. The method of claim 5, wherein step (c)
(c1) calculating the phase balance by sequentially substituting the load value of the load into the circuit in a state in which the load is unconnected among all the circuits of the single-phase voltage supply unit, and
(c2) searching for and providing a circuit having the phase balance calculated in the step (c2) to be minimum. The method according to claim 6,
In the step (c1), the phase balance is calculated by calculating the sum of the load powers connected to the circuit of each phase, calculating each phase combination capacity, and calculating a difference between the maximum value and the minimum value among the calculated phase combination powers, Of the distribution board circuit. The method according to claim 6,
Wherein the step (c2) provides a predetermined number of circuits according to a preset priority so that the phase balance is minimized. The method according to claim 6,
Wherein the step (c) further comprises: (c3) calculating and storing a current value supplied to a load connected to each circuit. 10. The method according to any one of claims 5 to 9,
(d) searching the number of the spare circuit to which the load is not connected among all the circuits of the three-phase voltage supply unit, if the load is driven by receiving the three-phase voltage as a result of the inspection in the step (b) Wherein the circuit board is a circuit board. 11. The method of claim 10,
(e) storing the load value of the load as the load value of the selected circuit if any one of the optimum circuit or the spare circuit number provided in the step (c) or step (d) is selected Of the circuit board.

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