KR101702109B1 - System for measuring panel power of panel board - Google Patents

Abstract

The present invention relates to a system for measuring panel power of a panel board. To this end, according to an embodiment of the present invention, the system for measuring panel power of a panel board comprises: a lead-in line voltage transformation unit for receiving three-phase voltage of a lead-in line of a three-phase circuit of a panel of a panel board, and reducing the voltage at a first setting ratio; and a power measurement unit of one or more branch lines for receiving the three-phase voltage reduced from the lead-in line voltage transformation unit, and measuring power and a power factor on each of one or more branch lines from three phases measured in one or more branch lines branched from the lead-in line or three phases reduced at a second setting ratio in single-phase current or single-phase current.

Description

[0001] SYSTEM FOR MEASURING PANEL POWER OF PANEL BOARD [0002]

More particularly, the present invention relates to a power panel panel power measuring system, in particular, a three-phase voltage of a lead-in line is drawn into a branch line of a three-phase circuit so that only three- Panel panel power measuring system capable of easily measuring the power consumption of a panel panel.

The matters described in the background section are intended to enhance the understanding of the background of the invention and may include matters not previously known to those skilled in the art.

1 is a block diagram of a conventional distribution panel power measuring system. Referring to FIG. 1, a distribution panel power measuring system includes an overcurrent breaker 10, current sensors 20a, 20b, and 20c, and a measurement unit 30. Although not shown in FIG. 1 for the sake of convenience, at least one branch line may be connected to the lead line.

The panel board has a three-phase circuit consisting of A-phase, B-phase and C-phase. The overcurrent circuit breaker 10 of the three-phase circuit blocks the overcurrent flowing in the three-phase circuit, and the current sensors 20a, 20b and 20c measure the current flowing in the three-phase circuit. The measuring unit 30 measures the voltage and current flowing through the three-phase circuit, and measures the three-phase voltage of the input / output line and receives the three-phase current signal measured by the current sensors 20a, 20b and 20c.

Such a conventional distribution panel power measuring system has a problem in that the three-phase power of the branch line must be measured by directly measuring the three-phase voltage and the three-phase current in the branch line of the distribution panel three-phase circuit.

Alternatively, the sampled digital data of the voltage signal of the incoming line may be transmitted to the measuring device of the branch line by serial communication. In this case, in order to improve the accuracy, not only the number of times of measurement must be large, but also the communication amount of the incoming line and the branch line increases, which lowers the communication speed and becomes vulnerable to external noise.

In the following prior art documents, the three-phase circuit of the panel board is introduced, but these problems are not solved. The case of single phase is similar.

Korean Patent Registration No. 10-0817891 (Mar. 24, 2008) Korean Patent Registration No. 10-1228530 (2013.01.25) Korean Patent Registration No. 10-0705246 (Apr. 2, 2007)

In order to solve the problems of the prior art described above, the present invention provides a three-phase or three-phase current of a branch line by directly receiving a voltage signal of an incoming line without directly measuring a three- Which can measure the power and the power factor of the branch line simply by measuring the power and the power factor of the branch line.

Further, according to the present invention, it is not necessary to directly measure the voltage in the branch line, and the three-phase power can be measured quickly and accurately without using communication means vulnerable to degradation of communication speed and external noise.

The power distribution panel panel power measuring system according to an embodiment of the present invention includes an incoming line voltage modifying unit that receives a three-phase voltage of an incoming line of a three-phase circuit of a panel board and downs the voltage at a first set ratio; Phase voltage from the input line voltage transformer, and the voltage of the three-phase or single-phase voltage measured in at least one branch line branched at the lead-in line is lowered to a second set ratio And at least one branch line power meter for measuring power and power factor for each of the at least one branch line from the three-phase or single-phase current.

Here, the lead-in line voltage modifying unit includes: a voltage input unit connected to the lead-in line of the three-phase circuit of the distribution panel and receiving the three-phase voltage of the lead-in line; A voltage modifying unit for reducing the three-phase voltage input to the voltage input unit to a first set ratio; And a voltage signal output unit for outputting the reduced three-phase voltage from the voltage modifying unit.

Also, the branch line power measuring unit may include at least one current input unit connected to at least one branch line of the three-phase circuit of the distribution panel panel, for measuring the three-phase or single-phase current in the branch line and lowering the current to a second setting ratio; A step-down voltage input unit receiving a three-phase voltage that has been reduced by the voltage transforming unit; An analog / digital (A / D) converting unit for converting the three-phase or single-phase current lowered by the current input unit and the three-phase voltage input from the step-down voltage input unit into a digital signal; And a power calculator for calculating the three-phase power and the power factor from the three-phase or single-phase current and three-phase voltage converted by the A / D converter.

Further, the incoming line voltage modifying section includes a first communication processing section, the branch line power measuring section includes a second communication processing section, and the first communication processing section and the second communication processing section are connected by communication.

Each of the second communication processing units included in at least one branch line power measurement unit is connected by communication.

According to the present invention, it is possible to directly receive the voltage signal of the incoming line without directly measuring the three-phase voltage at the branch line of the panel board three-phase circuit and to measure only the current of the three- And the like can be easily measured.

Further, according to the present invention, it is not necessary to directly measure the three-phase voltage in the branch line, and the power or the power factor can be measured quickly and accurately irrespective of the decrease in the communication speed and the noise from the outside.

1 is a block diagram of a conventional distribution panel power measuring system.
2 is a configuration diagram of a distribution panel power measuring system according to an embodiment of the present invention.
3 is a detailed configuration diagram of Fig.

Brief Description of the Drawings The advantages and features of the present invention, and how to accomplish them, will become apparent with reference to the embodiments described hereinafter with reference to the accompanying drawings. However, the present invention is not limited to the embodiments described below, but may be embodied in various forms. It is to be understood that both the foregoing general description and the following detailed description of the present invention are exemplary and explanatory and are intended to provide further explanation only as the invention may make thedetails of the invention rather than limit the scope of the invention to those skilled in the art. Only.

2 is a configuration diagram of a distribution panel power measuring system according to an embodiment of the present invention. Referring to FIG. 2, a three-phase circuit composed of an A-phase, a B-phase, and a C-phase is installed in a distribution board panel. The branch line overcurrent circuit breaker 400 and the branch line power measurer 500 are connected to the branch line of the three-phase circuit, Respectively. The branch line power measuring unit 500 is at least one. In FIG. 2, the branch line power measuring unit 500 is installed on the right side of the lead-in line, but it may be installed on the left side.

The power operation system 600 may be connected to the lead-line voltage transformer 300. At this time, the power operation system 300 stores and analyzes various data related to the measured power of the lead-in line and the branch line of the distribution panel. The operator can manage the current, voltage, power, power factor, frequency, and power amount of the distribution panel through the power management system 600 and establish a power plan.

The incoming line overcurrent interrupter 100 blocks the overcurrent of the incoming line and the overcurrent line breaker 400 of the branch line interrupts the overcurrent of the branch line. For example, the incoming line overcurrent circuit breaker 100 cuts off the current if the rated current of the incoming line is 5A, and the current exceeding 5A flows. The overcurrent cutoff method can use the principle that the fuse blows when the overcurrent flows.

The incoming line voltage modifying unit 300 receives the three-phase voltage of the incoming line of the three-phase circuit of the panel board and downs the voltage at a first set ratio. For example, when the first setting ratio is 0.01, if the three-phase voltage supplied to the lead-in line is 380 V, the three-phase voltage supplied to the branch line is 3.8 V. Although not shown in FIG. 2 for the sake of convenience, the incoming line current modifying unit is not shown separately from the incoming line voltage modifying unit 300. However, the three-phase or single-phase current denatured in the incoming line current modifying unit and the three- Power and the like can be calculated. At this time, a power calculation unit of the incoming line is additionally provided. The three-phase power of the incoming line is stored in the power operating system 600.

The branch-line power measuring unit 500 receives at least one of the three-phase voltage that has been stepped down from the incoming line voltage modifying unit 300 and receives the three-phase voltage that has been measured in at least one branch line branched from the incoming line The three-phase power for each of the at least one branch line is measured from the three-phase current lowered from the three-phase current to the second set ratio. For example, when the second setting ratio is 0.0005, if the current flowing through the branch line is 50A, the current used in the measurement is 0.025A. The measurement of the three-phase power will be described in detail in FIG. 3 which will be described later.

3 is a detailed configuration diagram of Fig. Referring to FIG. 3, the incoming line voltage modifying unit 300 includes a voltage input unit 310, a voltage modifying unit 320, a voltage signal output unit 330, and a first communication processing unit 340.

The voltage input unit 310 is connected to the lead-in line of the three-phase circuit of the panel board, and receives the three-phase voltage of the lead-in line.

The voltage modifying unit 320 reduces the three-phase voltage input to the voltage input unit 310 to a first set ratio. Specifically, the voltage modifying unit 320 includes a voltage transformer (VT) or a shunt registor for a meter. The voltage transformer for the instrument lowers the three-phase current input to the voltage input unit 310 to a first set ratio, and the second set ratio is the ratio of the primary winding to the secondary winding of the transformer for the instrument. The resistance for partial pressure is a ratio by the ratio of the resistance value.

The voltage signal output unit 330 outputs the reduced three-phase voltage from the voltage modifying unit 320.

The branch line power measuring unit 500 includes a power input unit 510, a step-down voltage input unit 520, an A / D converter 530, a power calculator 540, a current transformer CT And a second communication processing unit.

At least one current input unit 510 is connected to at least one branch line of the three-phase or single-phase circuit of the distribution panel, and the three-phase current is received at the branch line and lowered to the second setting ratio. Specifically, the current input unit 510 includes a current transformer (CT). The instrumental current transformer lowers the current of the three-phase or single-phase of the branch line to the second set ratio, and the second set ratio is the ratio of the primary and secondary windings of the instrumental current transformers 500a, 500b and 500c. For example, when the second setting ratio is 2000: 1, when the three-phase current flowing in the branch line is 50A, the instrumental current transformers 500a, 500b, and 500c lower the three-phase or single-phase current to 0.025A.

The step-down voltage input unit 520 receives the three-phase voltage that has been stepped down by the voltage modifying unit 320 of the incoming line voltage modifying unit 300 through the voltage signal output unit 330. At this time, the three-phase or single-phase current of the branch line is directly received while the voltage signal of the incoming line is directly measured without directly measuring the three-phase voltage in the branch line, and the power calculator 540 measures the power and power factor of the branch line So that it can be measured. The signal connecting line between the incoming line voltage modifying unit 300 and the step-down voltage input unit 520 is for transmitting an analog signal of a three-phase voltage that has been stepped down by the first set ratio, and removes the influence of external noise A shielded cable may be used.

The A / D converter 530 converts the three-phase current lowered by the current input unit 510 and the three-phase voltage input from the step-down voltage input unit 520 into a digital signal.

The power computing unit 540 computes three-phase power from the three-phase current and the three-phase voltage converted by the A / D converter 530. At this time, the three-phase power is calculated as shown in Equation (1) when the three line-to-line voltages and line currents are in equilibrium.

[Equation 1]

P: Power [W]

V: Line voltage [V]

I: Line current [A]

: 역률

: Power factor

The second communication processing unit 550 processes communication between the input line and other branch lines. That is, each of the second communication processing units 550 included in at least one branch line power measuring unit 340 is connected by communication. In addition, the first communication processing unit 340 and the second communication processing unit 550 are connected by communication.

As described above, since the three-phase power measured in at least one branch line is calculated from the three-phase voltage that has been reduced in the incoming line modification unit 300 and the three-phase current measured in the branching line power measurement unit 500, It is not necessary to directly measure the three-phase power in the branch line, and the three-phase power can be measured quickly and accurately irrespective of the decrease in the communication speed and the noise from the outside.

In addition, the voltage signal output unit 330 of the incoming line voltage modifying unit 300 detects only the three-phase voltage, but the current input unit 510 of the branch line power measuring unit 500 detects both the single- There is a difference.

While the present invention has been described in connection with what is presently considered to be practical exemplary embodiments, it is to be understood that the invention is not limited to the disclosed embodiments, but, on the contrary, is intended to cover various modifications and equivalent arrangements included within the spirit and scope of the appended claims. It is understandable. Accordingly, the true scope of the present invention should be determined by the appended claims.

100: In-line over-current circuit breaker
300: incoming line measuring section
400: Branch line overcurrent breaker
500: branch line power measuring section

Claims (5)

An incoming line voltage modifying unit for receiving the three-phase voltage of the incoming line of the three-phase circuit of the distribution panel and for reducing the voltage at a first set ratio; And
Wherein the step-down voltage is applied from the input line voltage modifying part to the stepped down three-phase voltage and from the three-phase or single-phase current measured in at least one branch line branched at the lead- At least one branch line power measuring unit for measuring a power and a power factor for each of said at least one branch line from a true three-phase or single-
Lt; / RTI >
Wherein the incoming line voltage modifying unit comprises:
A voltage input unit connected to a lead line of a three-phase circuit of the distribution panel and receiving a three-phase voltage of the lead line;
A voltage modifying unit for reducing the three-phase voltage input to the voltage input unit to a first set ratio; And
A voltage signal output unit for outputting a three-phase voltage that is stepped down by the voltage modifying unit,
Lt; / RTI >
Wherein the branch line power measuring unit comprises:
At least one branch line connected to at least one branch line of the three-phase circuit of the distribution panel, the current input unit for measuring a three-phase or single-phase current at the branch line and lowering the current to a second setting ratio;
A step-down voltage input unit receiving the three-phase voltage that is lowered by the voltage modifying unit;
An analog / digital (A / D) converting unit for converting a three-phase or single-phase current lowered by the current input unit and a three-phase voltage inputted from the step-down voltage input unit into a digital signal; And
A power calculator for calculating the power and the power factor from the three-phase or single-phase current converted by the A / D converter and the three-
And a power meter for measuring the power of the panel panel. delete delete The method according to claim 1,
Wherein the branch line power measuring unit includes a second communication processing unit and the first communication processing unit and the second communication processing unit are connected by communication. Measuring system. 5. The method of claim 4,
Wherein each of the second communication processing units included in the at least one branch line power measuring unit is connected by communication.

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