KR20120033196A - Apparatus and method for searching watt-hour meter - Google Patents

Abstract

PURPOSE: A watt-hour meter search apparatus and a method thereof are provided to apply a pulse signal of an impulse shape to a zero cross point of a commercial AC power source, thereby minimizing influences to an existing power system. CONSTITUTION: A zero-crossing detection part(122) detects a pattern formed by a zero cross point of a commercial AC power source on one side of a power system. A pulse generation part(123) applies a pulse signal to the commercial AC power source from the one side of the power system corresponding to a time point when the zero cross point is generated. A current sensor part(131) senses a current signal of a commercial AC power source in a watt-hour meter of the power system. A signal comparator(134) determines a detection state of the pulse signal in the current signal sensed from the current sensor part.

Description

Apparatus and method for searching watt-hour meter}

The present invention relates to a power meter searching apparatus and method. In particular, the present invention relates to an electricity meter searching apparatus and method capable of searching for the correct electricity meter of each generation without power failure of the power system.

An electricity meter is an instrument that measures and records the total amount of power used over a period of time.

In a multi-family house such as a villa, a plurality of electricity meters of each generation are collectively placed at a predetermined same position of the multi-family house. Therefore, a large number of inconsistencies occur between the generation indicated on the electricity meter and the generation connected to the actual electricity meter. At this time, in order to search for the electricity meter connected to each household, one person repeatedly performs the on / off circuit breaker of the household, and the other proceeds to check the electricity meter.

In order to solve the above problems, an object of the present invention is to search for the correct electricity meter of each generation without power failure of the power system.

In addition, an object of the present invention is to apply an impulse pulse signal to the zero cross point of the commercial AC power supply, to minimize the influence on the existing power system. In particular, an object of the present invention is to minimize the side effects in the existing power system by applying a current pulse signal over the time point of the zero cross point of the commercial AC power supply and the phase of the commercial AC power supply decreases.

In order to achieve the above object, a watt-hour meter searching apparatus according to the present invention includes: a zero crossing detection unit detecting a pattern in which a zero cross point of a commercial AC power source appears on one side of a power system; A pulse generator for applying a pulse signal to the commercial AC power at one side of the power system in response to the time when the zero cross point appears; A current sensor unit for sensing the current of the commercial AC power in the electricity meter of the power system; And a signal comparator configured to determine whether the pulse signal generated by the pulse generator is detected in the current signal sensed by the current sensor unit.

In this case, when the pulse signal detected by the pulse generator in the signal comparison unit may further include an output unit for the user to recognize that the pulse signal is detected.

At this time, the zero crossing detection unit detects a pattern in which the zero cross point appears in the R phase, the S phase, and the T phase of the commercial AC power supply, and the pulse generator is the R phase, the S phase, and the commercial AC power supply. The pulse signal may be applied in correspondence to a time point at which the zero cross point appears in each of the T phases.

At this time, the application of the pulse signal by the pulse generator to the R phase is made for a first time, and the application of the pulse signal by the pulse generator to the S phase is after the first time. In the second time, the application of the pulse signal by the pulse generator to the T phase may be performed for a third time after the second time.

At this time, there may be a rest time during which the pulse generator does not operate between the first time and the second time and between the second time and the third time.

In this case, the current sensor unit senses a current for each of the R phase, the S phase and the T phase of the commercial AC power supply, the signal comparison unit is the R phase, the S phase and the T phase of the commercial AC power supply It may be determined whether the pulse signal is detected for each phase.

In this case, the output unit may allow the user to recognize that the pulse signal is detected in each of the R phase, the S phase and the T phase.

At this time, the commercial AC power supply is 100 V _AC In the case of from 250 V _AC , the voltage detector may further include a zero crossing detector, a pulse generator, a current sensor, and a signal comparator.

In this case, the current sensor unit may further include a voltage control amplifier for sensing and outputting the current signal to a voltage signal, amplifying the voltage signal to transfer to the signal comparison unit.

In this case, the pulse generator and the current sensor may further include a reference signal input unit for inputting a reference signal for synchronizing the timer.

At this time, the one side may be an outlet in a predetermined house.

In this case, the pulse signal may be a current pulse signal. The current pulse signal may be 30 A to 100 A.

In this case, the pulse generator may apply the pulse signal over a time when the zero cross point of the commercial AC power and the phase of the commercial AC power decrease.

In addition, to achieve the above object, a wattmeter searching method according to the present invention includes: detecting a pattern in which a zero cross point of a commercial AC power source appears on one side of a power system; Applying a pulse signal to the commercial AC power at one side of the power system in response to the time when the zero cross point appears; Sensing a current of the commercial AC power in the electricity meter of the power system; And determining whether the pulse signal applied from one side of the power system is detected from the voltage signal.

In this case, if it is determined that the pulse signal is detected, the method may further include displaying a detection result of the pulse signal.

At this time, in the step of detecting the pattern in which the zero cross point appears, the pattern in which the zero cross point appears in the R phase, S phase, and T phase of the commercial AC power supply, respectively, and in the step of applying the pulse signal, The pulse signal may be applied to a point in time where the zero cross point appears in each of the R phase, the S phase, and the T phase of the commercial AC power source.

At this time, the application of the pulse signal to the R phase is made for a first time, the application of the pulse signal to the S phase is made for a second time after a first time, and the The application of the pulse signal may be for a third time after the second time.

At this time, there may be an idle time in which the pulse signal does not occur between the first time and the second time and between the second time and the third time.

In this case, the sensing of the current in the electricity meter of the power system is performed by sensing current for each of the R phase, the S phase, and the T phase, and the detecting of the pulse signal comprises: It is possible to determine whether the pulse signal is detected for each of the phases, the S phase and the T phase.

In this case, the displaying of the detection result of the pulse signal may be displayed such that the user is distinguished that the pulse signal is detected in each of the R phase, the S phase, and the T phase.

At this time, the commercial AC power supply on one side of the power system is 100 V _AC In the case of from 250 V _AC , the detecting of the pattern of the zero cross point of the commercial AC power may be performed.

In this case, the pulse signal may be a current pulse signal.

In this case, in the applying of the pulse signal to the commercial AC power, the pulse signal may be applied over a time when the zero cross point of the commercial AC power and the phase of the commercial AC power decrease.

At this time, the one side may be an outlet in a predetermined house.

According to the present invention, it is possible to search for the correct electricity meter of each generation without power failure of the power system.

In addition, the present invention by applying an impulse pulse signal to the zero cross point of the commercial AC power source, it is possible to minimize the influence on the existing power system. In particular, by applying a current pulse signal over the point of zero cross point of the commercial AC power supply and the phase of the commercial AC power supply can be minimized side effects in the existing power system.

FIG. 1 is a diagram briefly illustrating a method for searching a power meter connected to each household using a power meter searching device according to an embodiment of the present invention.
2 is a block diagram showing the configuration of a power meter searching apparatus according to an embodiment of the present invention.
3 is a view for explaining generation of a pulse signal by the watt-hour meter searching apparatus according to an embodiment of the present invention.
4 is an operation flowchart for explaining a power meter searching method according to the present invention.

Hereinafter, the present invention will be described in detail with reference to the accompanying drawings. Here, the repeated description, well-known functions and configurations that may unnecessarily obscure the subject matter of the present invention, and detailed description of the configuration will be omitted. Embodiments of the present invention are provided to more completely describe the present invention to those skilled in the art. Accordingly, the shape and size of elements in the drawings may be exaggerated for clarity.

Hereinafter, a brief description will be given of a method for searching a power meter connected to each generation through a power meter searching device according to an embodiment of the present invention.

FIG. 1 is a diagram briefly illustrating a method for searching a power meter connected to each household using a power meter searching device according to an embodiment of the present invention.

Referring to FIG. 1, a multi-family house composed of a plurality of households 10, 20, 30, and 40 and a plurality of electricity meters 50, 60, 70, 80 connected 1: 1 to each household are shown. In addition, a plurality of electricity meters 50, 60, 70, 80 are collectively placed in one place. At this time, in order to easily determine whether the generation displayed on the electricity meter and the generation connected to the actual electricity meter are easily matched, the electricity meter searching device 100 according to the embodiment of the present invention may be used. That is, a pulse signal is generated by using the electricity meter search apparatus 100 at the outlet 10a of the first generation 10 that needs to be checked whether the electricity meter is properly installed. In addition, the power meter search apparatus 100 searches for a power meter in which a pulse signal is detected among the plurality of power meters 50, 60, 70, and 80. Accordingly, the electricity meter searching apparatus 100 according to the embodiment of the present invention may search for the correct electricity meters 50, 60, 70, and 80 connected to each generation 10, 20, 30, and 40 without power failure of the power system. .

Hereinafter, the configuration and operation of the electricity meter searching apparatus according to the embodiment of the present invention will be described in detail.

2 is a block diagram showing the configuration of a power meter searching apparatus according to an embodiment of the present invention. 3 is a view for explaining generation of a pulse signal by the watt-hour meter searching apparatus according to an embodiment of the present invention.

Referring to FIG. 2, the power meter searching apparatus 100 according to the embodiment of the present invention may include an input unit 110, a transmitter 120, a receiver 130, an output unit 140, and a controller 150. Can be.

The input unit 110 may include a reference signal input unit 111 and a sensitivity setting unit 112.

The reference signal input unit 111 is configured to input a reference signal for synchronizing timers of the transmitter 120 and the receiver 130 described later, in particular, the pulse generator 123 and the current sensor unit 131.

The sensitivity setting unit 112 may amplify the weak signal sensed by the receiver 130, in particular, the current sensor unit 131, or may prevent the noise from flowing into the current sensor unit 131. It is configured to allow user control.

The transmitter 120 may include a voltage detector 121, a zero crossing detector 122, and a pulse generator 123.

The voltage detector 121 has a commercial AC power supply of 100 V _AC When the _power supply is normally supplied within the range of from 250 V _AC to the _power meter search device 100, in particular, the configuration of the transmitter 120 and the receiver 130 may be configured to operate. That is, the voltage detector 121 may be formed such that the power meter searching device 100 does not operate when a commercial AC power is supplied with an abnormal power supply due to an overvoltage caused by a lightning strike or an error of a power system.

The zero crossing detection unit 122 detects a pattern in which a zero cross point of a commercial AC power source appears on one side of the power system. At this time, one side of the power system may be an outlet in the household. The zero cross point of the commercial AC power supply means a time point when the size of the commercial AC power supply becomes zero. The zero crossing detection unit 122 may detect a pattern in which zero cross points appear in each of the R phase, the S phase, and the T phase of the commercial AC power supply.

The pulse generator 123 applies a pulse signal to the commercial AC power source in response to the time point at which the zero cross point of the commercial AC power source appears. In this case, the pulse signal may be an impulse current pulse signal. The current pulse signal can be used to safely navigate the electricity meter without affecting other lines in the power system. In addition, the current pulse signal may have a maximum current of 30 A to 100 A. When the current pulse signal is less than 30 A, the current pulse signal is weak and it is difficult to detect the current pulse signal applied with the commercial AC power supply at the receiver 130 side. In addition, when the current pulse signal exceeds 100 A, there may be a risk of damage to the electronic device in the power system by the excessive current pulse signal. In addition, the pulse generator 123 may apply a current pulse signal at a time point at which the zero cross point of the commercial AC power source and the commercial AC power source are reduced, thereby minimizing side effects to the existing power system. In addition, the pulse generator 123 may apply a pulse signal corresponding to the time point at which the zero cross point appears in each of the R phase, the S phase, and the T phase of the commercial AC power supply.

Application of the pulse signal to the commercial AC power supply by the pulse generator 123 will be described in detail below with reference to FIG. 3. The dotted line graph in the graph of FIG. 3 is a commercial AC power supply graph of R phase, S phase, and T phase, respectively. In Figure 3 a current pulse signal can be seen that the zero cross-point R (Z _R), the cross-point (Z _S) and the zero occur in the impulse shape at the cross-point (Z _T) on the T of S on each zero. In addition, the pulse generator 123 may operate to apply the pulse signal to the R phase of the commercial AC power supply for an arbitrary first time. In addition, the pulse generator 123 may operate to apply the pulse signal to the S phase of the commercial AC power supply for a second time after the first time. In addition, the pulse generator 123 may operate to apply the pulse signal to the T phase of the commercial AC power supply for a third time after the second time. In this case, a pause time during which the pulse generator 123 does not operate may exist between the first time and the second time and between the second time and the third time. That is, the generation of the pulse signal by the pulse generator 123 may be controlled so that the redundant pulse signals of the R phase, the S phase, and the T phase by the pulse generator 123 are not applied during the idle time.

The receiver 130 may include a current sensor 131, a filter 132, a voltage controlled amplifier 133, and a signal comparator 134.

The current sensor unit 131 senses a current of a commercial AC power supply on the other side of the power system and converts the current into a voltage signal. At this time, the other side of the power system may be one of the wattmeter of a plurality of wattmeters. In addition, the current sensor unit 131 may sense a current for each of the R phase, the S phase, and the T phase of a commercial AC power source, and convert the current into a voltage signal.

The filter unit 132 may separate the low frequency band signal from the signal output from the current sensor unit 131 to detect an impulse pulse signal. That is, the filter unit 132 may be a high pass filter.

The voltage control amplifier 133 amplifies the voltage signal output from the current sensor unit 131 and the filter unit 132 and transfers the signal to the signal comparison unit 134 which will be described later. The voltage controlled amplifier 133 is a variable amplifier controlled by voltage. In addition, the voltage control amplifier 133 compensates for the weakened signal when the measurement position of the current sensor unit 131 is far from the transmitter 120. In addition, the voltage control amplifier 133 prevents noise from flowing into the receiver 130 when the measurement position of the current sensor unit 131 approaches the transmitter 120. The voltage control amplifier 133 may be adjusted by the control of the sensitivity setting unit 112 of the input unit 110.

The signal comparison unit 134 is a voltage signal output from the current sensor unit 131, the filter unit 132 and the voltage control amplifier 133, the pulse signal by the pulse generator 123 of the transmitter 120 Determine if it is detected. In addition, the signal comparison unit 134 may determine whether a pulse signal is detected for each of the R phase, the S phase, and the T phase of the commercial AC power supply.

The output unit 140 allows the user to recognize that the pulse signal has been detected when the pulse signal generated by the pulse generator 123 is detected in the receiver 130, particularly the signal comparator 134. In addition, the output unit 140 may be configured such that the user is distinguished that a pulse signal is detected in each of the R phase, the S phase, and the T phase.

The controller 150 controls the overall operations of the input unit 110, the transmitter 120, the receiver 130, and the output unit 140. In particular, the controller 150 may control the timers of the pulse generator 123 and the current sensor unit 131 to be synchronized through the reference signal by the reference signal input unit 111. Thereby, the pulse signal applied to the different phase with respect to a commercial AC power supply in the 1st time, 2nd time, and 3rd time, respectively, can distinguish and detect R phase, S phase, and T phase easily.

Hereinafter, a power meter searching method according to the present invention will be described.

4 is an operation flowchart for explaining a power meter searching method according to the present invention.

Referring to FIG. 4, in the power meter searching method according to the present invention, first, one side of a power system, that is, a transmitter of a power meter searching device is contacted to an outlet within a specific generation to be inspected, and the other side of the power system, that is, the receiver is connected to a specific power meter to be inspected. Contact (S610).

The AC power detected by the transmitter is within the commercial power range, that is, 100 V _AC It is detected whether or not to be within 250 V _AC (S620). At this time, when it is determined that the AC power detected by the transmitter is not normal, that is, the AC power is 100 V _AC If it is not within 250 V _AC , the operation of the whole wattmeter searching device is not performed. Then, when the AC power source is within the commercial power range again, the transmitter again makes contact with the outlet (S610).

In addition, the AC power detected by the transmitter is within the commercial power range, ie 100 V _AC. If present within the range of 250 V _AC , the transmitter detects a pattern of zero cross points of the AC power source (S630). At this time, the transmitter may detect a zero cross point pattern for each of the R phase, the S phase, and the T phase of the AC power source, that is, the commercial AC power source.

The transmitter applies a pulse signal to the commercial AC power at the time point at which the zero cross point of the commercial AC power appears. At this time, the pulse signal can be applied over a time when the zero cross point of the commercial AC power supply and the phase of the commercial AC power supply decrease. In this case, the pulse signal may be a current pulse signal. The current pulse signal may have a maximum current of 30 A to 100 A. In addition, the transmitter may apply a pulse signal to the zero cross points of the R phase, the S phase, and the T phase of the commercial AC power supply. In addition, the application of the pulse signal on the R phase can be made for any first time. In addition, the application of the pulse signal to the T phase may be performed for a second time after the first time. In addition, the application of the pulse signal to the S phase may be made for a third time after the second time. At this time, a pause time during which a pulse signal does not occur may be formed between the first time and the second time and between the second time and the third time.

In addition, the receiving unit senses a current signal at the other side of the power system, filters and amplifies the current signal, and converts the signal into a voltage signal (S650). In this case, in order to detect an impulse-type pulse signal from the received signal, the low frequency band signal may be filtered out. In this case, the receiver may amplify and control the voltage signal in order to overcome weakness of the signal or influx of noise due to a difference in distance between the transmitter and the receiver.

In addition, the receiver determines whether a pulse signal is detected in the received signal (S660). At this time, the receiver may determine whether a pulse signal is detected for each of the R phase, the S phase, and the T phase of the commercial AC power supply. At this time, if a pulse signal is not detected, the process returns to step S610 and contacts the receiver with another specific power meter.

In addition, if a pulse signal is detected at the receiver, the detection result of the pulse signal is displayed so that a user can recognize the signal (S670). At this time, the detection result of the pulse signal can be displayed so that the user is distinguished that the pulse signal is detected in each of the R phase, S phase and T phase.

As described above, the apparatus and method for searching for electricity meter according to the present invention is not limited to the configuration and method of the embodiments described as described above, but the embodiments are all of the embodiments so that various modifications can be made. Or some may be selectively combined.

100; An electricity meter inspection device 110; Input
120; A transmitter 130; Receiver
140; An output unit 150; Control

Claims (25)

A zero crossing detection unit detecting a pattern in which a zero cross point of a commercial AC power source appears at one side of the power system;
A pulse generator for applying a pulse signal from one side of the power system to the commercial AC power corresponding to the time point at which the zero cross point appears;
A current sensor configured to sense a current signal of the commercial AC power in the electricity meter of the power system; And
And a signal comparator for determining whether the pulse signal detected by the pulse generator is detected in the current signal sensed by the current sensor unit. The method according to claim 1,
And an output unit configured to allow a user to recognize that the pulse signal is detected when the pulse signal is detected by the pulse generator in the signal comparison unit. The method according to claim 2,
The zero crossing detection unit detects a pattern in which the zero cross point appears in R phase, S phase, and T phase of the commercial AC power supply,
And the pulse generator is configured to apply the pulse signal corresponding to the time point at which the zero cross point appears in each of the R phase, the S phase, and the T phase of the commercial AC power supply. The method according to claim 3,
Application of the pulse signal by the pulse generator to the R phase is made for a first time,
Application of the pulse signal by the pulse generator to the S phase is made for a second time after the first time,
The application of the wattmeter for the third phase after the second time is the application of the pulse signal by the pulse generator to the T phase. The method of claim 4,
The electricity meter searching device according to claim 1, wherein there is an idle time between the first time and the second time and between the second time and the third time. The method according to claim 3,
The current sensor unit senses a current signal for each of the R phase, the S phase and the T phase of the commercial AC power source,
And the signal comparison unit determines whether the pulse signal is detected for each of the R phase, the S phase, and the T phase of the commercial AC power supply. The method of claim 6,
And the output unit allows the user to recognize that the pulse signal is detected in each of the R phase, the S phase, and the T phase. The method according to claim 1,
The commercial AC power supply is 100 V _AC And a voltage detector configured to operate the zero crossing detector, the pulse generator, the current sensor, and the signal comparator when the voltage is 250 to 250 V _AC . The method according to claim 1,
The current sensor unit detects the current signal in the electricity meter of the power system and converts the voltage signal into a voltage signal, and outputs a voltage control amplifier for amplifying and transferring the voltage signal to the signal comparator. Device. The method according to claim 3,
And a reference signal input unit for inputting a reference signal for synchronizing the timer of the pulse generator and the current sensor unit. The method according to claim 1,
The one side is a power meter search device, characterized in that the outlet in a predetermined house. The method according to claim 1,
And the pulse signal is a current pulse signal. The method of claim 12,
The current pulse signal is 30 A to 100 A, the wattmeter search device, characterized in that. The method according to claim 1,
The pulse generator is
And applying the pulse signal over a time when the zero cross point of the commercial AC power supply and the phase of the commercial AC power supply decrease. Detecting a pattern at which a zero cross point of a commercial AC power supply appears at one side of the power system;
Applying a pulse signal to the commercial AC power at one side of the power system in response to the time when the zero cross point appears;
Sensing a current signal of the commercial AC power in the electricity meter of the power system; And
And determining whether the pulse signal applied from one side of the power system is detected from the sensed current signal. The method according to claim 15,
And if it is determined that the pulse signal has been detected, displaying the detection result of the pulse signal. The method according to claim 16,
In the detecting of the pattern in which the zero cross point appears, the patterns in which the zero cross point appears in R phase, S phase, and T phase of the commercial AC power supply are respectively detected.
In the step of applying the pulse signal, the power meter searching method characterized in that for applying the pulse signal corresponding to the time point that the zero cross point appears in each of the R phase, S phase and the T phase of the commercial AC power supply. . 18. The method of claim 17,
The application of the pulse signal to the R phase is made for a first time,
The application of the pulse signal to the S phase is made for a second time after the first time,
The applying of the pulse signal to the T phase is carried out for a third time after the second time. The method according to claim 18,
A power meter searching method, characterized in that a pause time during which the pulse signal does not occur is present between the first time and the second time and between the second time and the third time. 18. The method of claim 17,
The sensing of the current in the electricity meter of the power system may include sensing current for each of the R phase, the S phase, and the T phase,
The detecting of the pulse signal may include determining whether the pulse signal is detected for each of the R phase, the S phase, and the T phase. The method of claim 20,
The displaying of the detection result of the pulse signal may include displaying, by the user, the R phase, the S phase, and the T phase so that the pulse signal has been detected. The method according to claim 15,
The commercial AC power supply on one side of the power system is 100 V _AC And detecting a pattern in which the zero cross point of the commercial AC power source is displayed when the voltage is 250 V _AC to 250 V _AC . The method according to claim 15,
And the pulse signal is a current pulse signal. The method according to claim 15,
The applying of the pulse signal to the commercial AC power may include applying the pulse signal over a time when the zero cross point of the commercial AC power and the phase of the commercial AC power decrease. The method according to claim 15,
The one side is a power meter search method, characterized in that the outlet in a predetermined house.

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