KR101766403B1 - System for verifying and monitoring power saving apparatus and method thereof - Google Patents

Abstract

The present invention relates to a system for verifying and monitoring a power saving apparatus, which provides a result of performance evaluation and an abnormality of the power saving apparatus for reducing power consumed by various devices, the system comprising: a power distributing box including a cut-off part for supplying or cutting off power to a device in association with a power saving apparatus including the device operated on the basis of a predetermined power saving control signal and a control sensor controlling the operation of the device; and a management server for determining whether an abnormality has occurred in the device and the control sensor included in the power saving apparatus, wherein the power distribution box further includes a power measuring unit for measuring an amount of power used by the operation of the device and providing the measured amount to the management server, and the management server includes a communication module for receiving the power saving control signal from the power saving apparatus when the power saving apparatus operates in a power saving mode, and a performance evaluating unit for evaluating the performance of the power saving apparatus by using the received power saving control signal and amount of power used according to the operation of the device.

Description

TECHNICAL FIELD [0001] The present invention relates to a system for verifying and monitoring a power saving system,

The present invention relates to a verification and surveillance system, and more particularly, to a power saving system verification and monitoring system for providing an evaluation result of abnormality and a performance evaluation of a power saving system for reducing power consumed by various devices.

In recent years, a power saving system has been developed to reduce power consumption by controlling various devices that consume power in a home or a company to operate at optimum efficiency.

As an example of a power saving system applied to a lighting apparatus, a lighting apparatus is automatically turned off during the daytime, and a lighting apparatus is controlled by a control signal in which the lighting apparatus is automatically turned on at night and evening, A power saving system has been developed to prevent unnecessary power consumption in a situation where the ambient illumination is bright by controlling the lighting apparatus with the dimming control signal of adjusting the brightness of the lighting apparatus according to the ambient illuminance have.

2. Description of the Related Art A power saving system for operating a cooling / heating device by automatically changing a target temperature of a heating / cooling device in response to an operation of a cooling / heating device is developed.

The conventional power saving system has the following problems.

If the data of the lighting equipment or the heating / cooling equipment is not collected by the distribution box connected to the power saving system, it is necessary to distinguish whether the problem is due to the power off of the control sensor controlling various devices or unstable communication connection Appropriate measures may be taken.

However, since it is determined that an error has occurred in the control sensor even in a state where the power of the control sensor is simply turned off, there is a problem that the time of the moved worker is wasted to repair it.

In addition, currently, only the development of how to reduce the power consumption of devices in the home or company, that is, how to operate the power saving system is proceeding, and the constructed power saving system is not limited to the power saving data There is a lack of development of a technique capable of evaluating whether or not the device has a performance that meets the requirements of the present invention.

BACKGROUND ART [0002] The background art of the present invention is disclosed in Korean Patent Registration No. 10-1572627 (published on Nov. 23, 201, entitled "Power Saving System").

It is an object of the present invention to accurately determine whether a control sensor or a device is abnormal based on a communication state of a control sensor of the power saving system and an operation state of the device.

It is another object of the present invention to determine whether an accurate operation is performed according to each control signal when a power saving mode operation and a power saving mode are released.

Another object of the present invention is to evaluate the performance of the power saving system by comparing the target power saving amount based on the power saving control signal of the central control server and the accumulated power saving amount saved in the actual equipment based on the power saving control signal .

According to an embodiment of the present invention, there is provided a system for verifying and monitoring a power saving system, the system including: a power saving system including a device operating based on a predetermined power saving control signal and a control sensor controlling operation of the device; A distribution box including a blocking portion for supplying or blocking power to the device; And a control server for determining whether or not an abnormality has occurred in the device and the control sensor included in the power saving system, and the power distributing unit includes a power measuring unit for measuring the power consumption according to the operation of the device and providing the measured power to the management server Wherein the management server comprises: a communication module that receives the power saving control signal from the power saving system when the power saving system operates in a power saving mode; and a power management unit that uses the received power saving control signal and a power usage amount And a performance evaluation unit for evaluating the performance of the power saving system.

The method for verifying and monitoring a power saving system according to the present invention is characterized in that it is associated with a power saving system including a device that operates based on a preset cut-off dedicated control signal and a control sensor that controls the operation of the device, Determining whether the device included in the system and the control sensor are abnormal; Calculating an accumulated amount of power saving of the device according to a deviation between the original control signal and the step-down control signal when the device operates based on the step-down control signal; And evaluating the performance of the power saving system by comparing the time at which the device operates based on the power take-off control signal and the target power saving amount calculated using the power take-off control signal with the calculated accumulated power saving amount do.

According to the present invention, it is possible to accurately determine whether the control sensor or the device is abnormal based on the communication state of the control sensor of the power saving system and the operation state of the device, thereby determining subsequent actions necessary for normal operation of the power saving system.

In addition, according to the present invention, when the power saving mode operation and the power saving mode are released, it can be determined whether the correct operation is performed according to each control signal.

According to the present invention, the performance of the power saving system is evaluated by comparing the target power saving amount based on the power saving control signal of the central control server and the accumulated power saving amount saved in the actual device based on the corresponding power saving control signal, It is possible to verify the reliability of the power saving data provided to the user.

1 is a diagram illustrating a power saving system verification and monitoring system according to an embodiment of the present invention.
2 is a diagram specifically illustrating the configuration of a power measurement unit of a power saving system verification and monitoring system according to an embodiment of the present invention.
3 is a diagram specifically illustrating the configuration of a management server of a power saving system verification and monitoring system according to an embodiment of the present invention.
4 is a diagram illustrating a detailed process of a power saving system verification and monitoring method according to an embodiment of the present invention.
FIG. 5 is a diagram specifically illustrating a process for determining whether a power saving system of the power saving system verification and monitoring method according to FIG. 4 is abnormal.
FIG. 6 is a diagram specifically illustrating a process of evaluating the performance of the power saving system of the power saving system verification and monitoring method according to FIG.

It should be noted that, in the specification of the present invention, the same reference numerals as in the drawings denote the same elements, but they are numbered as much as possible even if they are shown in different drawings.

Meanwhile, the meaning of the terms described in the present specification should be understood as follows.

The word " first, "" second," and the like, used to distinguish one element from another, are to be understood to include plural representations unless the context clearly dictates otherwise. The scope of the right should not be limited by these terms.

It should be understood that the terms "comprises" or "having" does not preclude the presence or addition of one or more other features, integers, steps, operations, elements, components, or combinations thereof.

It should be understood that the term "at least one" includes all possible combinations from one or more related items. For example, the meaning of "at least one of the first item, the second item and the third item" means not only the first item, the second item, or the third item, but also the first item, the second item, Means a combination of all items that can be presented from two or more of them.

1 is a diagram illustrating a power saving system verification and monitoring system according to an embodiment of the present invention.

1, the power saving system verification and monitoring system according to an embodiment of the present invention includes a power distribution box 200 operating in conjunction with the power saving system 100, and a management server 300. As shown in FIG.

The power saving system 100 is a system for reducing the power consumed by various devices in the home or company. When the power saving mode is selected by the user, the various devices 120 are operated at optimal efficiency Thereby preventing unnecessary power consumption of various devices.

To this end, the power saving system 100 may include a control sensor 110, a device 120, a central control server 130, a gateway 140, and a hub 150.

The control sensor 110 controls the operation of the various devices 120 based on a predetermined control signal and includes a cooling device control sensor 111, a heating device control sensor 113, and a lighting device control sensor 115, Or the like.

The device 120 may be configured to operate under the control of the control sensor 110 and may include at least one of a cooling device 121, a heating device 123, and a lighting device 125.

Since the control sensor 110 and the device 120 according to the embodiment of the present invention are not limited to the above-described example, any device capable of operating in a power saving mode and a control sensor for controlling the power saving mode may be included.

An example of the predetermined cut-off dedicated control signal in the power save mode according to the embodiment of the present invention may be as follows.

When the power saving system 100 is applied to the cooling device 121 or the heating device 123, the power saving control signal drives the cooling device 121 or the heating device 123 for a predetermined time, The cooling device 121 or the heating device 123 can be set to drive the cooling device 121 or the heating device 123 with the optimum efficiency that can reduce the power consumption by stopping the driving of the cooling device 121 or the heating device 123. [ This corresponds to an example of a power-saving control signal for driving the cooling device 121 or the heating device 123, and the present invention is not limited thereto.

In the case of the lighting device 125, the step-down control signal may be adjusted to control the output of the lighting device 125 based on time or external brightness to drive the lighting device 125 with optimal efficiency to reduce power consumption Can be set. This corresponds to an example of a power-saving control signal for driving the lighting device 125, and the present invention is not limited thereto.

Central control server 130 controls and monitors the operation of control sensor 110 and device 120. The central control server 130 transmits a predetermined control signal to the control sensor 110 in the power save mode to manage the device 120 to operate.

That is, the central control server 130 sets the predetermined settings for each of the devices 120 in order to operate the various devices 120 such as the cooling device 121, the heating device 123, and the lighting device 125 in the power- By managing the exclusive control signal, the power consumption of each device 120 in the power saving mode can be reduced.

Each of the devices 120 is connected to the gateway 140 through a wireless communication scheme such as Zigbee or Wi-fi, for example. So that it can communicate with the central control server 130 via the hub 150. That is, a large number of control sensors 110 and devices 120 may be disposed in a space. When the gateway 140 is installed to be wired to all the control sensors 110 and the devices 120, Since wiring work can take a lot of time and a lot of cost, each device 120 in the embodiment of the present invention connects to the gateway 140 in a wireless communication manner.

The hub 150 is configured to connect each of the devices 120 connected to the gateway 140 to the central control server 130, the distribution box 200, and the management server 300.

The central control server 130, the distribution box 200 and the management server 300 according to the embodiment of the present invention are connected to the hub 150 through the devices 120 of the power saving system 100 Lt; / RTI > Particularly, the gateway 140 is provided for each space in which the power saving system 100 is provided. The central control server 130 and the management server 300 are connected to a plurality of gateways 140, . Therefore, when the central control server 130 and the gateway 140 are connected to the respective gateways 140 in a wireless communication manner, data loss due to a communication delay may occur due to a large amount of data.

Therefore, in the embodiment of the present invention, the central control server 130, the distribution box 200, and the management server 300 communicate with the devices 120 of the power saving system 100 by the wired communication method connected to the hub 150 Thereby preventing data loss due to communication delay.

As described above, the power saving system verification and monitoring system according to the embodiment of the present invention includes a power distribution box 200 that operates in conjunction with the power saving system 100, and a management server 300.

The distribution box 200 controls the power saving system 100 configured to reduce power consumed by various devices of the home or company. The distribution box 200 may be installed in a home or a company at a location adjacent to the power saving system 100 installed in a home or a company, respectively. However, the present invention is not limited to this, and the distributing box 200 may be connected to the plurality of power-saving systems 100 so that the plurality of power-saving systems 100 can be collectively controlled.

Specifically, the distribution box 200 monitors the operation of the power saving system 100 and supplies the apparatus 120 included in the power saving system 100 to the apparatus 120 in which an abnormality occurs, such as an overload or a short circuit, Current is cut off.

To this end, the distribution box 200 includes a shutoff unit 210 and a power measurement unit 220.

The blocking unit 210 blocks power supply to the device 120 in which an abnormality such as an overload or a short circuit occurs. The blocking unit 210 may be provided in the same number as the devices 120 included in the power saving system 100.

For example, as described above, when the device 120 of the power saving system 100 is configured to include the cooling device 121, the heating device 123, and the lighting device 125, A shutoff unit 213 for shutting off power supply to the heating equipment 123 and a shutoff unit 215 for shutting off the power supply to the lighting equipment 125 . The present invention is not limited to the above embodiments and can be applied to a device 120 included in the power saving system 100 such as a cooling device 121, a heating device 123, and a lighting device 125, It is also possible that it is provided separately. In this case, the shutoff unit 210 can cut off the power supply to the cooling apparatus 121, the heating apparatus 123, and the lighting apparatus 125 when the abnormality such as an overload or a short circuit occurs.

The power measuring unit 220 measures the current of each of the devices 120 included in the power saving system 100 and calculates the amount of power used according to the operation of each device 120. The power measuring unit 220 provides the calculated power consumption to the management server 300.

2 is a diagram specifically illustrating the configuration of a power measurement unit of a power saving system verification and monitoring system according to an embodiment of the present invention.

2, the power measurement unit 220 of the power saving system verification and monitoring system according to the embodiment of the present invention includes a current sensor 220a, a microprocessor 220b, and a wired communication module 220c .

The current sensor 220a measures the current of each device 120 included in the power saving system 100. [ In the embodiment of the present invention, when the device 120 of the power saving system 100 is configured to include the cooling device 121, the heating device 123, and the lighting device 125, the current sensor 220a controls the cooling device 121 ), The heating device 123, and the lighting device 125, respectively.

The microprocessor 220b calculates the amount of power consumption according to the operation of the device 120 based on the current measured through the current sensor 220a and controls the operation of the device 120 based on the cut- And calculates the cumulative amount of power saving of the device 120 in accordance with the deviation of the source control signal and the insulation reduction control signal.

Specifically, when each device 120 operates in a power saving mode, the microprocessor 220b calculates the power consumption of the device 120 based on the original control signal of the central control server 130, The cumulative amount of power savings can be calculated through the deviation of the power consumption according to the operation of the device 120 based on the power-saving control signal of the power-saving device 130. [ For example, the microprocessor 220b calculates the amount of power consumed by each of the devices 120 based on the power consumption consumed while the devices 120 are operated and the power saving control signal based on the constant control signal. The cumulative amount of power savings can be calculated by accumulating the difference during the time when the device 120 operates in the power saving mode.

The wired communication module 220c transmits the accumulated amount of power savings calculated by the microprocessor 220b to the management server 300. [ In particular, the power measurement unit 220 is provided in a number corresponding to the space in which the power saving system 100 is provided, and the management server 300 is provided to receive data from the plurality of power measurement units 220. Therefore, when the management server 300 is connected to a gateway provided separately in a space where each power saving system 100 is provided, a data loss due to a communication delay may occur due to a large amount of data.

Therefore, in the embodiment of the present invention, the power measurement units 220 can prevent data loss due to communication delay by communicating with the management server 300 by a wired communication method connected to the hub 150. [

The management server 300 determines whether the power saving system 100 is operating normally. The management server 300 determines whether or not the abnormality of the device 120 and the control sensor 110 included in the power saving system 100 has occurred.

The management server 300 may determine whether the device 120 and the control sensor 110 are abnormal based on the communication state of the control sensor 110 and whether the device 120 is loaded.

The control server 110 transmits a control signal to the control server 110 when the communication signal of the control sensor 110 is not detected in a state where a load is generated in the device 120, It is determined that an abnormality has occurred. That is, the occurrence of a load on the device 120 means that the device 120 is operating. Therefore, the communication signal of the control sensor 110 must be sensed. Therefore, It can be determined that an abnormality has occurred in the control sensor 100 if the control sensor 110 is not communicating. The management server 300 can determine whether a load has occurred in the device 120 by receiving power according to the operation of the device 120 from the power measuring unit 220. [

If the control sensor 110 does not communicate and the power according to the operation of the device 120 is not received, the control server 110 may be powered off, Of the total amount.

On the other hand, the management server 300 determines that an abnormality has occurred in the device 120 if no load is generated in the device 120 while the control sensor 110 is communicating. That is, since the control sensor 110 communicates with the device 120, a load must be generated in the device 120, so that the management server 300 can control the device 120 in a state in which the control sensor 110 is communicating, It is possible to determine that an abnormality has occurred in the device 120 if the power consumption of the device 120 is not consumed.

In addition, the management server 300 can evaluate the performance of the power saving system 100. When the power saving system 100 operates in the power saving mode, the management server 300 receives the power saving mode control signal for the power saving mode operation from the central control server 130 of the power saving system 100, The performance of the power saving system 100 can be evaluated by using the amount of power consumption according to the operation of the device 120 provided from the unit 220. [

Specifically, the management server 300 receives the power saving control signal from the central control server 130, and calculates the target power saving amount using the time when the device 120 operates according to the power saving control signal and the power saving control signal And the performance of the power saving system 100 can be evaluated by comparing the target power saving amount with the accumulated power saving amount calculated through the power measuring unit 220. [

That is, the management server 300 receives the power-saving control signal as a target for operating the device 120 and calculates the target power-saving amount by using the time when the device 120 operates based on the power-saving control signal The power measuring unit 220 calculates the cumulative amount of power saving due to the operation of the device 120 based on the power saving control signal when the device 120 operates in the power saving mode, The server 300 can receive the cumulative amount of power savings of the device 120 based on the power saving control signal from the power measuring unit 220 and compare the cumulative power saving amount with the calculated target power saving amount.

Then, the management server 300 can generate a performance evaluation report in which the performance of the power saving system 100 is evaluated based on a result of comparison between the target amount of savings and the cumulative amount of savings. That is, when the target cutting amount and the cumulative amount of power saving are similar, the device 120 can reduce power consumption consumption as much as the target according to the power saving control signal, so that the performance of the power saving system 100 can be evaluated as excellent. The device 120 can not reduce the consumption of power consumption as much as the target according to the power saving control signal, so that the performance of the power saving system 100 can be evaluated as not excellent. Therefore, the management server 300 can generate the performance evaluation report including the error rate of the power saving data according to the difference between the target power saving amount and the cumulative power saving amount, and provide the performance evaluation report, thereby evaluating the reliability of the power saving data of the power saving system 100.

In addition, the management server 300 can determine whether the power saving system 100 malfunctions when the power saving mode operation and the power saving mode are released.

Specifically, when the device 120 operates based on the power saving control signal of the central control server 130 in accordance with the power saving mode operation, the management server 300 controls the power consumption amount of the device 120 It can be determined that the control sensor 110 malfunctions.

That is, when the power consumption of the device 120 is reduced as the device 120 operates in the power saving mode and the power consumption of the device 120 does not decrease to correspond to the power saving control signal, The control server 110 judges that the control device 110 malfunctions because it means that the control of the device 120 is not performed normally.

In particular, the malfunction of the power saving system 100 when the power saving mode operation and the power saving mode release are determined as described above assumes that each device 120 operates normally. That is, as described above, the management server 300 can determine whether or not an error has occurred in the device 120. Accordingly, when it is determined that an error has occurred in the device 120 in the process, So that it is not necessary to additionally judge a malfunction of the power saving system 100.

Therefore, the management server 300 can determine that the device 120 malfunctions if the power consumption of the device 120 does not decrease based on the cut-off control signal in a state where the device 120 normally operates.

If the power saving mode is canceled after the device 120 is operated based on the power saving control signal, the management server 300 may control the power consumption of the device 120 if the power consumption of the device 120 does not correspond to the power saving control signal. It can be determined that the control unit 110 malfunctions.

That is, when the power consumption of the device 120 is increased due to the release of the power saving mode and the power consumption of the device 120 is not increased, control of the device 120 through the control sensor 110 is not normally performed The management server 300 determines that the control sensor 110 malfunctions.

3 is a diagram specifically illustrating the configuration of a management server of a power saving system verification and monitoring system according to an embodiment of the present invention.

3, the management server of the power saving system verification and monitoring system according to the embodiment of the present invention includes a communication module 310, an abnormality determination unit 330, and a performance evaluation unit 350.

The communication module 310 communicates with the power saving system 100 and the power distribution box 200 and receives a signal for determining whether the power saving system 100 is abnormal or a signal for evaluating the performance of the power saving system 100.

To this end, the communication module 310 may include an operation state receiving unit 311, an accumulated power saving amount receiving unit 313, and a power saving control signal receiving unit 315.

The operation state receiving unit 311 receives the operation states of the control sensor 110 and the device 120 of the power saving system 100. Specifically, the operation state receiving unit 311 receives information on whether the control sensor 110 of the power saving system 100 normally communicates. That is, the operation state receiving unit 311 can receive information on whether the control sensor 110 normally transmits / receives data by sharing the protocol as the power saving system 100 is activated.

In addition, the operation state receiving unit 311 receives information on the load state of the device 120 of the power saving system 100. More specifically, the operation state receiving unit 311 receives information on whether a load is generated in the device 120 as the power saving system 100 is operated, that is, whether the device 120 is in a power-consuming state .

The cumulative amount-of-power saving unit 313 receives cumulative amount of power savings of each of the devices 120 calculated through the power measurement unit 220.

When the power saving system 100 is operated in the power saving mode, the section control signal receiving unit 315 receives the power save control signal from the central control server 130. [ That is, in the embodiment of the present invention, the target power saving amount according to the power saving control signal of the central control server 130 and the accumulated power reduction amount calculated based on the actual operation of the device 120 And receives the power saving control signal from the central control server 130 so that the performance of the power saving system 100 can be compared.

In the above description, the communication module 310 receives various signals including the operation state receiving unit 311, the cumulative amount of power saving unit 313, and the power saving control signal receiving unit 315. However, the operation state receiving unit 311, The cumulative amount-of-power saving unit 313, and the power-saving control signal receiving unit 315 are not necessarily physically separated from each other.

The abnormality determination unit 330 determines whether or not the operation of the control sensor 110 and the operation of the device 120 based on the communication status information of the control sensor 110 and the load status information of the device 120, It is determined whether or not an abnormality has occurred.

Specifically, the abnormality determination unit 330 determines whether a load is generated in the device 120 without the communication signal of the control sensor 110 being sensed, that is, when power according to the operation of the device 120 is received, It is determined that an abnormality has occurred. That is, the occurrence of a load on the device 120 means that the device 120 is operating. Therefore, the communication signal of the control sensor 110 must be detected, It can be determined that an abnormality has occurred in the control sensor 100 if the control sensor 110 is not communicating with the load in the state where the load is generated.

If the communication signal of the control sensor 110 is not sensed and power according to the operation of the device 120 is not received, the abnormality determination unit 330 may be in a state where the power of the control sensor 110 is simply turned off It is determined that the control sensor 110 is abnormal.

In this way, in the embodiment of the present invention, the abnormality determination unit 330 considers the load state of the device 120 when the control sensor 110 does not communicate, It is possible to determine whether it is due to a failure or a power-off of the control sensor 110, so that it is possible to accurately determine a follow-up action necessary for the power saving system 100.

The abnormality determination unit 330 determines that an abnormality has occurred in the device 120 if no load is generated in the device 120 in a state in which the communication signal of the control sensor 110 is sensed. That is, since the control sensor 110 communicates with the device 120, a load must be generated in the device 120, so that the management server 300 can control the device 120 in a state in which the control sensor 110 is communicating, It is possible to determine that an abnormality has occurred in the device 120 if the power consumption of the device 120 is not consumed.

The performance evaluation unit 350 uses the cumulative amount of power saving according to the actual operation of the device 120 received through the cumulative power saving amount receiving unit 313 and the power saving control signal received through the power saving control signal receiving unit 315 And the performance of the power saving system 100 is evaluated using the calculated target amount of power saving.

For this, the performance evaluation unit 350 may include a target amount-of-savings computing unit 351 and a power-saving amount comparing unit 353.

The target amount of power saving is a target value for reducing the amount of power consumption by operating the device 120 for a predetermined period of time through a power saving control signal. The target power saving amount calculation unit 351 receives The target cut-off amount is calculated using the time at which the device 120 is operated based on the cut-off only control signal and the cut-out control signal. For example, the target cutting amount calculating unit 351 can calculate the target cutting amount by accumulating the power usage according to the original control signal and the deviation of the power usage according to the power saving control signal for the time the device 120 operates.

The cutting amount comparing unit 353 compares the cumulative amount of power saving according to the actual operation of the device 120 received through the cumulative power saving amount receiving unit 313 and the target amount of power reduction calculated through the target amount of power saving operation unit 351, It is possible to generate a performance evaluation report that evaluates the performance of the system 100. That is, when the target cutting amount and the cumulative amount of power saving are similar, the device 120 can reduce power consumption consumption as much as the target according to the power saving control signal, so that the performance of the power saving system 100 can be evaluated as excellent. The device 120 can not reduce the consumption of power consumption as much as the target according to the power saving control signal, so that the performance of the power saving system 100 can be evaluated as not excellent.

As described above, in the embodiment of the present invention, the performance of the power saving data for the power saving system 100 is evaluated by comparing the target power saving amount of the power saving system 100 with the accumulated power saving amount accumulated while the actual device 120 operates, The reliability of the power saving data provided for each specific power saving system 100 can be verified.

As described above, the performance evaluation unit 350 can evaluate the performance of the power saving system 100 and further determine whether the power saving system 100 is malfunctioning.

Specifically, when the device 120 is operated based on the power saving control signal of the central control server 130 in accordance with the power saving mode operation, the performance evaluation unit 350 determines whether the device 120 It can be determined that the control sensor 110 malfunctions if the power consumption is not reduced.

That is, when the power consumption of the device 120 is reduced as the device 120 operates in the power saving mode and the power consumption of the device 120 does not decrease to correspond to the power saving control signal, The control unit 110 determines that the control unit 110 is malfunctioning because the control unit 110 determines that the control of the control unit 110 is not normally performed.

In addition, when the power saving mode is released after the device 120 is operated based on the power saving mode control signal, the performance evaluating unit 350 determines whether the power usage of the device 120 is increased It can be determined that the sensor 110 malfunctions.

That is, when the power consumption of the device 120 is increased as the power consumption of the device 120 increases as the power saving mode is canceled, the control of the device 120 based on the cut-off control signal through the control sensor 110 The abnormality determination unit 330 determines that the control sensor 110 malfunctions.

As described above, in the embodiment of the present invention, when the power saving system 100 operates in the power save mode or the power save mode is released, it is determined whether the control sensor 110 is malfunctioning based on the power consumption of the device 120, It is possible to judge whether the desired operation is performed correctly.

4 is a diagram illustrating a detailed process of a power saving system verification and monitoring method according to an embodiment of the present invention.

FIG. 5 is a diagram specifically illustrating a process for determining whether a power saving system of the power saving system verification and monitoring method according to FIG. 4 is abnormal.

FIG. 6 is a diagram specifically illustrating a process of evaluating the performance of the power saving system of the power saving system verification and monitoring method according to FIG.

Referring to FIGS. 4 to 6, a power saving system verification and monitoring method according to an embodiment of the present invention will be described. As the power saving system 100 is operated (S100), the management server 300 of the power saving system verification and monitoring system It is determined whether the device 120 of the power saving system 100 and the control sensor 110 are abnormal (S200).

The management server 300 can determine whether the device 120 and the control sensor 110 of the power saving system 100 are abnormal based on the communication state of the control sensor 110 and the operation state of the device 120. [

5, the management server 300 receives the communication status of the control sensor 110 and the operation status of the device 120 (S210).

Next, the management server 300 determines whether a communication signal of the control sensor 110 is detected, that is, a communication signal of the control sensor 110 is sensed (S220), and determines whether a load occurs in the device 120, 120) is generated (S230).

The control server 300 determines that an abnormality has occurred in the device 120 if no power is generated due to the operation of the device 120 in a state where the communication signal of the control sensor 110 is sensed. That is, since the control sensor 110 communicates with the device 120, a load must be generated in the device 120, so that the management server 300 can control the device 120 in a state in which the control sensor 110 is communicating, It is possible to determine that an abnormality has occurred in the device 120 if the power consumption of the device 120 is not consumed.

The control server 300 determines that an abnormality has occurred in the control sensor 110 when power is generated according to the operation of the device 120 in a state in which the communication signal of the control sensor 110 is not sensed at step S250. That is, the occurrence of a load on the device 120 means that the device 120 is operating. Therefore, the communication signal of the control sensor 110 must be sensed. Therefore, It can be determined that an abnormality has occurred in the control sensor 100 if the control sensor 110 is not communicating.

The control server 110 may receive the control signal from the control unit 110 in a state where the communication signal of the control sensor 110 is sensed, The controller 120 and the device 120 can be determined to operate normally if no power is generated according to the operation of the controller 120 and the controller 120. [

In particular, when the communication signal of the control sensor 110 is not sensed while the power saving system 100 is in operation, the management server 300 simply transmits power to the control sensor 110 The controller 120 may be configured to transmit the control signal to the device 120 without communicating with the control sensor 110 only when power according to the operation of the device 120 is received, It can be determined that an abnormality has occurred in the control sensor 110.

4, when the device 120 of the power saving system 100 operates in the power saving mode by the central control server 130 (S300), the management server 300 evaluates the performance of the power saving system 100 (S400).

The management server 300 can evaluate the performance of the power saving system 100 by using the power saving control signal of the central control server 130 according to the power saving mode and the power usage amount according to the operation of the device 120. [

6, the management server 300 receives the power saving control signal from the central control server 130 according to the power saving mode operation (S410) It is determined whether the power consumption is reduced (S420).

In step S490, the management server 300 determines that the control sensor 110 malfunctions if the power consumption of the device 120 does not decrease so as to correspond to the power-saving control signal. That is, when the power consumption of the device 120 is reduced as the device 120 operates in the power saving mode and the power consumption of the device 120 does not decrease to correspond to the power saving control signal, The control server 110 judges that the control device 110 malfunctions because it means that the control of the device 120 is not performed normally.

In addition, according to the power saving mode operation, the power distributing box 200 accumulates the amount of power saving due to the operation of the device 120 based on the power saving control signal (S430).

Next, when the power saving mode of the power saving system 100 is released (S440), the power distributing box 200 stops cumulating the amount of power saving and calculates the cumulative amount of power saving until the power saving mode is canceled (S450). Specifically, the power distributing box 200 controls the power consumption of each device 120 based on the original control signal and the difference in the amount of power consumption consumed by each device 120 The amount of accumulated power can be calculated by accumulating the time during which the device 120 operates.

At this time, the management server 300 determines whether the power consumption of the device 120 is increased according to the power saving mode release (S460). If the power consumption of the device 120 does not increase to correspond to the power saving control signal, It is determined that the battery 110 malfunctions (S490). That is, when the power consumption of the device 120 is increased due to the release of the power saving mode and the power consumption of the device 120 is not increased, control of the device 120 through the control sensor 110 is not normally performed The management server 300 can determine that the control sensor 110 malfunctions.

As described above, in the embodiment of the present invention, it is possible to determine whether the control sensor 110 operates in accordance with the target control signal according to the power save mode operation and the power save mode release through the steps S420 and S460.

Next, the management server 300 calculates the target amount of power saving using the operation time of the device 120 based on the power saving control signal and the power saving control signal (S470) The performance of the power saving system 100 can be evaluated by comparing the cumulative amount of power savings with the target amount of power saving (S480).

Referring again to FIG. 4, the management server 300 determines the abnormal state of the device 120 and the control sensor 110 and the performance of the power saving system 100 using the determination result of the steps S200 and S400 An evaluation report is generated (S500).

That is, when the target cutting amount and the cumulative amount of power saving are similar, the device 120 can reduce power consumption consumption as much as the target according to the power saving control signal, so that the performance of the power saving system 100 can be evaluated as excellent. The device 120 can not reduce the consumption of power consumption as much as the target according to the power saving control signal, so that the performance of the power saving system 100 can be evaluated as not excellent.

Although the embodiments of the present invention have been described in detail with reference to the accompanying drawings, it is to be understood that the present invention is not limited to those embodiments and various changes and modifications may be made without departing from the scope of the present invention. . Therefore, the embodiments disclosed in the present invention are intended to illustrate rather than limit the scope of the present invention, and the scope of the technical idea of the present invention is not limited by these embodiments. Therefore, it should be understood that the above-described embodiments are illustrative in all aspects and not restrictive. The scope of protection of the present invention should be construed according to the claims, and all technical ideas within the scope of equivalents should be interpreted as being included in the scope of the present invention.

100: power saving system 110: control sensor
120: device 130: central control server
140: Gateway 150: Hub
200: Distributor box 210:
220: Power measurement unit 220a: Current sensor
220b: Microprocessor 220c: Wired communication module
300: management server 310: communication module
311: Operation state reception unit 313:
315: Section exclusive control signal receiving section 330:
350: Performance evaluation section 351:
353: Cutting amount comparison section

Claims (13)

A power distributing box connected to a power saving system including a device that operates based on a predetermined power saving control signal and a control sensor that controls operation of the device and includes a cutoff portion for supplying or cutting off power to the device; And
And a management server for determining whether or not an abnormality has occurred in the device and the control sensor included in the power saving system,
Wherein the distribution box further comprises a power measuring unit for measuring the amount of power consumption according to the operation of the device and providing the measurement result to the management server,
Wherein the management server comprises: a communication module for receiving the power saving control signal from the power saving system when the power saving system operates in a power saving mode; And an abnormality determining unit for determining whether or not an abnormality has occurred in the apparatus and the control sensor based on the communication state of the control sensor and the load state information of the apparatus,
Wherein the performance evaluation unit determines that the control sensor malfunctions if the power consumption of the device does not decrease so as to correspond to the power saving control signal when the control sensor operates the device based on the power saving mode control signal, The control sensor determines that the control sensor malfunctions if the power consumption of the device does not increase so as to correspond to the release of the power saving mode when the power saving mode is released after operating the device based on the power saving control signal,
The abnormality determination unit detects the communication state of the control sensor, and when the communication signal of the control sensor is not detected in the state where the power according to the operation of the device is received from the power measurement unit, an abnormality occurs in the control sensor And judges that an abnormality has occurred in the device if the power according to the operation of the device is not received from the power measurement unit in a state where the communication signal of the control sensor is sensed. delete delete The method according to claim 1,
The power measuring unit includes:
Wherein the control unit calculates a cumulative amount of power saving of the device in accordance with a deviation between the original control signal and the power saving control signal when the control sensor operates the device based on the power saving control signal. . 5. The method of claim 4,
The performance evaluation unit may include:
The performance of the power saving system is evaluated by comparing the time when the device operates and the target power saving amount calculated using the power saving control signal based on the power saving control signal with the cumulative power reduction amount calculated through the power measurement unit Wherein said power saving system verification and monitoring system comprises: delete delete The method according to claim 1,
The power measuring unit includes:
A current sensor for measuring a current of the device included in the power saving system;
Calculating a power consumption amount in accordance with an operation of the device based on the power saving control signal based on a current measured through the current sensor, and when the device operates based on the power saving control signal, A microprocessor for calculating a cumulative amount of power saving of the device according to a deviation of a control signal; And
And a wired communication module for transmitting the calculated accumulated power savings to the management server. And a control sensor for controlling operations of the device and a device operated on the basis of a predetermined cut-off exclusive control signal, and controlling the operation of the device and the control sensor included in the power saving system Determining whether there is an abnormality;
Calculating an accumulated amount of power saving of the device according to a deviation between the original control signal and the step-down control signal when the device operates based on the step-down control signal; And
And evaluating the performance of the power saving system by comparing the time at which the device operates based on the power take-off control signal and the target power saving amount calculated using the power take-off control signal with the calculated accumulated power saving amount ,
The step of determining whether the device and the control sensor are abnormal may include determining that an abnormality has occurred in the control sensor if a communication signal of the control sensor is not detected in a state in which power according to the operation of the device is received from the power measurement unit And determines that an abnormality has occurred in the device if the power according to the operation of the device is not received from the power measurement unit in a state in which the communication signal of the control sensor is sensed,
The step of evaluating the performance may be such that when the control sensor operates the device based on the power saving mode control signal, if the power consumption of the device does not decrease to correspond to the power saving mode control signal, the control sensor malfunctions And when the power saving mode is released after the control sensor operates the device based on the power saving control signal, if the power consumption of the device does not increase to correspond to the power saving mode release, the control sensor malfunctions Power saving system verification and monitoring method. delete delete delete delete

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