KR20180117925A - System for vibration sensing control - Google Patents

Abstract

Disclosed are a vibration detection control system and a vibration detection control method. The vibration detection control system according to the present invention includes: a photovoltaic cell module for generating electric power by using a photovoltaic cell; at least one sensing element provided in the photovoltaic cell module to sense a vibration, a velocity variation, and a gradient variation; and a protection switch for receiving an abnormality signal according to the vibration, the velocity vibration, and a gradient variation from the at least one sensing element to warn a risk or block the power of the photovoltaic cell module when receiving at least two abnormality signals, wherein the photovoltaic cell module is quickly turned off after detecting the vibration in the photovoltaic cell module, thereby protecting the module against an electric shock, and the on/off of the photovoltaic cell module is remotely controlled according to environmental factors such as earthquake, so the management efficiency is improved even in a large-scale power generation system.

Description

SYSTEM FOR VIBRATION SENSING CONTROL [0002]

The present invention relates to a solar power generation system capable of vibration detection control, and more particularly, to a system for detecting a vibration of a solar cell module by rapidly detecting a vibration of the solar cell module, To a vibration detection control system capable of remotely controlling on / off.

Photovoltaic power generation is a power generation system that produces electricity on a large scale by using solar cell modules in which a large number of solar cells are arrayed.

The photovoltaic power generation system includes a plurality of photovoltaic modules in which photovoltaic cells receiving solar light to generate electric energy are arrayed, a connection module connected to collect electric energy generated in each photovoltaic module by unit strings, And a power conditioner system (PCS: Power Conversion System) for converting the total electrical energy collected in the connection module of the power module into AC power.

Since the solar cell module is disposed for a long period of time in a state exposed to the external environment, it is greatly influenced by changes in the external environment. For example, the solar cell module may be damaged due to the foreign matter that is blown from the outside, and the solar module itself may be shaken due to a poor assembly such as a typhoon due to poor assembly or aging, . When the solar cell module is shaken or greatly affected by the vibration, it is preferable to cut off the electrical connection of the solar cell module as soon as possible because electrical damage is greatly affected.

However, conventionally, there has been a problem that the effectiveness is deteriorated because the control system or the management agency detects the shaking or vibration and manually controls the on / off of the solar cell module. In other words, since it is not possible to actually grasp the degree of vibration impact applied to the actually arranged solar cell module, it is often the case that the on / off is controlled after grasping in the ground, and the management efficiency has been inevitably lowered.

SUMMARY OF THE INVENTION The present invention has been made to solve the above-mentioned problems, and it is an object of the present invention to provide a solar cell module which can quickly turn off a solar cell module by sensing vibration of the solar cell module, And a vibration detection control system that can remotely control the vibration control system.

According to an aspect of the present invention, there is provided a power conversion system capable of vibration sensing control, including: a solar cell module for generating power generation power using a solar cell; A speed change amount, and an anomaly signal according to a tilt change amount from at least one sensing element, receives a two-stage abnormal signal, And a protection switch for turning off the power of the solar cell module.

The plurality of sensing elements detect the vibration, the speed change amount, and the slope change amount in real time including the vibration sensor, the acceleration sensor, and the gyro sensor, and generate a vibration abnormality signal, , And a tilt change amount abnormality signal to the protection switch.

The vibration sensing control system having various technical features as described above can sense the vibration of the solar cell module itself and quickly turn off the solar cell module to protect it from electric shock. In addition, management efficiency can be improved in a large-scale power generation system by remotely controlling the on / off of the solar cell module according to an environmental factor such as an earthquake.

1 is a block diagram showing a vibration detection control system according to an embodiment of the present invention.
FIG. 2 is a block diagram specifically illustrating the configuration of the vibration detection server shown in FIG. 1. FIG.
3 is a flowchart for sequentially explaining a vibration detection control method according to an embodiment of the present invention.
4 is a flowchart sequentially illustrating a vibration detection control method according to vibration prediction according to an embodiment of the present invention.

The above and other objects, features, and advantages of the present invention will become more apparent by describing in detail exemplary embodiments thereof with reference to the attached drawings, which are not intended to limit the scope of the present invention. In the following description, well-known functions or constructions are not described in detail since they would obscure the invention in unnecessary detail. Hereinafter, preferred embodiments of the present invention will be described in detail with reference to the accompanying drawings.

1 is a block diagram illustrating a power conversion system capable of vibration detection control according to an embodiment of the present invention.

As shown in FIG. 1, the power conversion system of the present invention includes a plurality of solar cell modules PV1 to PVn in which at least one solar cell is arranged to generate power generation power, and a plurality of solar cell modules PV1 to PVn (SS) and a plurality of solar cell modules (PV1 to PVn), respectively, for sensing vibration, speed variation, and tilt variation, A plurality of protection switches RS1 to RSn for respectively receiving an abnormal signal of the solar cell modules PV1 to PVn and receiving an abnormality signal of the solar cell modules PV1 to PVn, And a vibration sensing server 100 for controlling the operation of each of the protection switches RS1 to RSn using seismic observation information and environment information.

In addition, the power conversion system of the present invention includes a power inverting device 200 for collecting the generated power transmitted from each of the solar cell modules PV1 to PVn and inverting the generated power to the DC / AC voltage, And an earthquake observation server 300 for sharing seismic observation information with the vibration detection server 100 by generating seismic observation data for each of the seismic observation data or receiving seismic observation data by region from the outside.

Each of the solar cell modules PV1 to PVn is configured such that the solar cell is arranged in a rectangular or curved frame. Thus, each of the solar cell modules PV1 to PVn generates generated power using solar cells. At this time, the DC voltage and the generated current can be generated through the respective solar cells, and the generated DC voltage and current are transmitted to the power inverting apparatus 200 as generated power.

The solar cells provided in each of the solar cell modules PV1 to PVn are forced to be exposed to the external environment for a long time in order to receive as much sunlight as possible. Accordingly, the solar cell modules PV1 to PVn may be damaged due to foreign substances flying from the outside, and the solar module itself may be shaken due to a poor assembly such as a typhoon due to poor assembly or aging of facilities, Such as a fall in the human and physical accidents occur. In this way, when the solar cells are shaken or greatly affected by the vibration, it is preferable that the solar modules (PV1 to PVn), which are subjected to the vibration or impact, disconnect the electrical connection as soon as possible .

The plurality of sensing elements SS may be configured to include a vibration sensor, an acceleration sensor, a gyro sensor, and the like. Each of the plurality of sensing elements SS is provided in each of the solar cell modules PV1 to PVn to detect vibrations, speed variations, and slope variations in real time, and each time vibration, speed variation, and tilt variation are detected, A change amount, and an inclination change amount abnormal signal. And transmits a vibration, a speed change amount, and a slope change amount abnormality signal to the corresponding protection switches RS1 to RSn, respectively. That is, when the vibration, the speed change amount, and the slope change amount are not detected, the change amount is the "0" level. However, when a motion is detected and a vibration, a speed change amount, and a slope change amount are detected, an abnormal signal of a level of "0.1" or higher is generated and transmitted.

The plurality of protection switches RS1 to RSn are provided so as to correspond one-to-one to the plurality of solar cell modules PV1 to PVn. Each of the protection switches RS1 to RSn receives an abnormal signal due to the vibration, the speed change amount, and the gradient change amount detection. When two or more abnormal signals among the abnormal signals due to the vibration, the speed change amount, and the inclination change amount detection are received at a predetermined first reference value or more and less than the second reference value, a danger warning signal is generated and transmitted to the vibration detection server 100 do. Here, the first reference value is set in advance for each of the vibration, the speed change amount, and the slope change amount. That is, since a plurality of sensing elements SS generates and transmits an abnormal signal of a level of "0.1 " or higher when a vibration, a speed change amount, and a slope change amount are detected, a first reference value, And a danger warning signal can be generated when two or more abnormal signals are received.

In addition, each of the protection switches RS1 to RSn generates a blocking signal when two or more abnormal signals among the abnormal signals due to the vibration, the speed change amount, and the gradient change amount detection are received at predetermined second threshold values or more, And supplies it to the server 100. In this case, the second reference value is also preset to a value higher than the first reference value for each of the vibration, the velocity change amount, and the gradient change amount. For example, A blocking signal can be generated.

The plurality of protection switches RS1 to RSn turn off the power of the corresponding solar cell modules PV1 to PVn, respectively, when the shutdown signal is generated. And supplies the blocking signal to the vibration detection server 100.

At this time. The plurality of protection switches RS1 to RSn can turn off the power of the corresponding solar cell modules PV1 to PVn when two or more abnormal signals are simultaneously received over the second reference value. On the other hand, when a plurality of protection switches RS1 to RSn are sequentially received with a predetermined time difference within a predetermined time difference (for example, within one second) of two or more abnormal signals, (PV1 to PVn) may be turned off.

More specifically, each of the plurality of protection switches RS1 to RSn outputs a plurality of abnormal signals, for example, a vibration abnormality signal and a speed variation amount abnormality signal, or a speed variation amount or more Signal and the gradient change amount abnormal signal are received at a level within the second reference value that is equal to or higher than the first reference value, it is determined that the solar cell modules PV1 to PVn are impacted or monitored. At this time, a warning message is transmitted to the vibration detection server 100 so that the administrator can check the information.

If each of the protection switches RS1 to RSn is simultaneously or sequentially received at a level equal to or higher than the second reference value among a plurality of abnormal signal levels in the vibration, speed variation, and gradient variation amount abnormal signals, the corresponding solar cell modules PV1 RTI ID = 0.0 > PVn. ≪ / RTI >

Thereafter, each of the plurality of protection switches RS1 to RSn can determine that the vibration, the speed change amount, and the slope change amount signal are not received for a preset period of time, for example, five minutes, and that they are out of shock or danger. Then, the power of the corresponding solar cell modules PV1 to PVn can be turned on again. At this time, each of the plurality of protection switches RS1 to RSn transmits power on / off state information of the solar cell modules PV1 to PVn controlled by the protection switches RS1 to RSn to the vibration detection server 100. [

Each of the protection switches RS1 to RSn has at least one abnormal signal according to its own received vibration, speed change amount, and gradient change amount. In addition to the vibration, speed variation amount , And can receive at least one abnormal signal according to the gradient change amount, respectively. Then, at least one abnormality signal received by itself and at least one abnormal signal received from another protection switch closest to itself are compared with each other, and the abnormality signals are compared with each other for comparison. In this way, it is possible to confirm whether or not the danger due to actual earthquake or vibration has occurred according to the result of the double comparison check.

Since each of the protection switches RS1 to RSn can be provided in a predetermined specific area, each of the protection switches RS1 to RSn can be positioned adjacent to the different protection switches. At this time, each of the protection switches RS1 to RSn receives at least one abnormal signal from the other protection switch closest to itself.

Thus, each of the protection switches RS1 to RSn compares the abnormality signal received by itself and the abnormality signal received from another protection switch closest to itself, to determine whether it is totally affected by the terrain or changes in the external environment, Or it can be reconfirmed more closely to see if an error has occurred due to an error. In the case where the solar cell module PV1 is affected by the external environment, it is necessary to prepare measures for checking and checking as a whole. However, if the solar cell module PV1 has its own defect, it can cope with the defect.

The vibration detection server 100 monitors all of the control states of the solar cell modules PV1 to PVn. When a danger warning signal is received from at least one protection switch (RS1 to RSn) of the plurality of protection switches (RS1 to RSn) at a first reference level level, a warning message is generated as a monitor image or a warning sound, . When the blocking signal is received from at least one of the protection switches RS1 to RSn of the plurality of protection switches RS1 to RSn to the second reference level signal, PVn) is generated as a monitor image or a warning sound and transmitted to the manager or the inspector.

On the other hand, the vibration detection server 100 may remotely control the ON / OFF of each of the solar cell modules PV1 to PVn according to need, for example, when an earthquake hazard is sensed or power production is stopped.

Specifically, the vibration detection server 100 receives seismic observation information from the seismic observation server 300, and receives environmental information such as typhoon information and weather forecast from an external weather station or the like. When the observation information of the seismic observation data is observed to be equal to or larger than the preset reference information by analyzing the seismic observation information, the entire solar cell modules PV1 to PVn can be remotely turned off. For example, the vibration detection server 100 can remotely turn off the entire solar cell modules PV1 to PVn if the magnitude of the seismic observation data being monitored is observed at a magnitude of 4.0 or more, which is a preset reference. Then, when the preset reference reference power is lowered to 4.0 or lower, the entire solar cell modules PV1 to PVn can be remotely turned on again.

The vibration detection server 100 can predict an earthquake based on the earthquake observation information received from the earthquake observation server 300. [ That is, since the received seismic observation information can include predicted seismic prediction information and an intensity value, the vibration detection server 100 can analyze and use the seismic prediction information and the predicted intensity value. In this case, the time zone in which the earthquake prediction time period and the predicted intensity value are equal to or greater than the preset reference value can be distinguished, and the entire solar cell modules PV1 to PVn can be remotely turned off at the predicted time zone.

In addition, the vibration detection server 100 can receive environmental information such as typhoon information and weather forecast from the weather station and the like, and can remotely turn off the entire solar cell modules PV1 to PVn according to the wind speed forecast value or the typhoon prediction. For example, when the vibration detection server 100 predicts the typhoon information and the weather forecast of 20 m / s or higher, the entire solar cell modules PV1 to PVn are remotely located at a time predicted to be an instantaneous wind speed of 20 m / Can be turned off.

Meanwhile, the power inverting device 200 collects the generated power transmitted from each of the solar cell modules PV1 to PVn, and inverts the generated power to the DC / AC voltage level. To this end, the power inverting device 200 comprises an isolation transformer for electrically isolating the power system of the primary side and the secondary side, a capacitor for smoothing the AC voltage to a DC voltage, a filter inductor for reducing input / output current ripple, An insulated gate bipolar transistor (IGBT) that is a semiconductor device capable of high-speed switching of power, and a link capacitor that smoothens input DC power.

The earthquake observation server (300) senses vibrations by predetermined regions or regions to generate seismic observation information or receives the seismic observation information from an external seismic observatory or meteorological office. And seismic observation data such as a magnitude value included in self-generated or externally received seismic observation information, and an earthquake forecast are shared with the vibration detection server 100.

FIG. 2 is a block diagram specifically illustrating the configuration of the vibration detection server shown in FIG. 1. FIG.

The vibration detecting server 100 shown in FIG. 2 includes a signal input unit 110 for receiving on / off state information of each of the solar cell modules PV1 to PVn from a plurality of protection switches RS1 to RSn, A switch control unit 130 for remotely controlling power on / off of the power stations PV1 to PVn, and seismic observation information from the seismic observation server 300, receives environmental information including typhoon information and weather forecast from outside A central processing unit 120 for controlling the switch control unit 130 to turn off the entire solar cell modules PV1 to PVn according to the seismic observation information and the environment information, a database 140 for storing seismic observation information and environmental information by time zone ).

The signal input unit 110 receives on / off state information of the solar cell modules PV1 to PVn from the plurality of protection switches RS1 to RSn and shares on / off state information with the central processing unit 120. [ Thus, the central processing unit 120 monitors all the control states of the solar cell modules PV1 to PVn in real time. Then, the central processing unit 120 can control the switch control unit 130 to turn off the respective solar cell modules PV1 to PVn, which are currently in the ON state, according to necessity, such as when an earthquake hazard is detected or power production is stopped ,

The central processing unit 120 receives earthquake observation information from the earthquake observation server 300 and receives environmental information such as typhoon information and weather forecast from an external weather station or the like. When the magnitude value of the seismic observation data is observed above a preset reference value, the entire solar cell modules PV1 to PVn can be remotely turned off. If it is lower than a preset reference value, the entire solar cell modules PV1 to PVn can be remotely turned on again.

The central processing unit 120 receives environmental information such as typhoon information and weather forecast from a weather station or the like, and when the instantaneous wind speed is predicted to be equal to or higher than a preset reference wind speed by typhoon information or weather forecast, The solar cell modules PV1 to PVn can be turned off.

3 is a flowchart for sequentially explaining a vibration detection control method according to an embodiment of the present invention.

Referring to FIG. 3, the vibration sensing control method will be sequentially described. First, the plurality of sensing elements SS sense the vibration, speed variation, and gradient variation of each of the solar cell modules PV1 to PVn in real time, A speed change amount, and a gradient change amount abnormality signal every time a speed change amount and a slope change amount are detected. Then, the vibration, speed change, and tilt change amount abnormal signals are transmitted to corresponding one of the protection switches RS1 to RSn (ST1).

The plurality of protection switches RS1 to RSn correspond one-to-one to the plurality of solar cell modules PV1 to PVn, and when at least one abnormal signal among the vibration, the speed variation amount, and the slope variation amount abnormality signal is received, Whether or not a plurality of abnormal signals are simultaneously received, or whether an abnormal signal is continuously received, or the like (ST3). If only one abnormal signal is received, the power-on state is maintained to perform normal operation (ST3). However, if a plurality of abnormal signals are simultaneously received and the reception state is maintained for a predetermined period, it is determined as a failure (ST4). That is, when a plurality of abnormal signals are simultaneously received, the corresponding solar cell modules PV1 to PVn are turned off.

Thereafter, each of the plurality of protection switches RS1 to RSn determines that the vibration, the speed change amount, and the slope change amount signal are not received for a preset period of time, for example, five minutes, The power of the solar cell modules PV1 to PVn can be turned on. At this time, each of the plurality of protection switches RS1 to RSn transmits power on / off state information of the solar cell modules PV1 to PVn controlled by the protection switches RS1 to RSn to the vibration detection server 100. [

On the other hand, the vibration detection server 100 receives the earthquake observation information from the earthquake observation server 300 (ST5). When the observation information of the seismic observation data is observed to be equal to or greater than the preset reference information (ST6), the entire solar cell modules PV1 to PVn can be remotely turned off by analyzing the seismic observation information (ST7) . For example, the vibration detection server 100 can remotely turn off the entire solar cell modules PV1 to PVn if the magnitude of the seismic observation data being monitored is observed at a magnitude of 4.0 or more, which is a preset reference. If the magnitude of the predetermined reference value is lower than 4.0, the entire solar cell modules PV1 to PVn can be remotely turned on again.

4 is a flowchart sequentially illustrating a vibration detection control method according to vibration prediction according to an embodiment of the present invention.

Referring to FIG. 4, first, the plurality of protection switches RS1 to RSn are associated with a plurality of solar cell modules PV1 to PVn on a one-to-one basis, and receive at least one abnormal signal among vibration, speed variation, It is possible to determine whether there is a failure in real time (S2).

At this time, the vibration detection server 100 receives seismic observation information from the seismic observation server 300 in real time (S3), and predicts an earthquake based on the seismic observation information received from the seismic observation server 300 (S2 ).

The time zone in which the earthquake prediction time period and the predicted earthquake number are equal to or more than a preset reference value is distinguished (S4). If the predicted intensity value is kept below the preset reference value, the normal operation is performed (S5). However, if the estimated seismic intensity and the predicted intensity value are equal to or greater than a predetermined reference value, PV1 to PVn) are remotely turned off (S6).

As described above, the vibration sensing control system and the vibration sensing control method of the present invention can sense the vibration of the solar cell module itself and quickly turn off the solar cell module to protect it from electric shock. In addition, management efficiency can be improved in a large-scale power generation system by remotely controlling the on / off of the solar cell module according to an environmental factor such as an earthquake.

It will be apparent to those skilled in the art that various modifications and variations can be made in the present invention without departing from the spirit or scope of the following claims. It will be possible.

PV1 to PVn: a plurality of solar cell modules
SS: Multiple sensing elements
100: Vibration detection server
110: Signal input section
120:
130:
140: Database
200: Power Inverting Device
300: Earthquake observation server

Claims (11)

A solar cell module for generating electric power using solar cells;
At least one sensing element provided in the solar cell module for sensing a vibration, a velocity variation, and a gradient variation; And
A protection switch for receiving an abnormality signal corresponding to the vibration, the rate of change of speed, and the tilt change amount from the at least one sensing element and for guiding a risk or shutting off the power of the solar cell module when two or more abnormal signals are received, Included
Vibration detection control system.
The method according to claim 1,
The at least one sensing element
A velocity change amount, and a tilt change amount in real time including at least one of a vibration sensor, an acceleration sensor, and a gyro sensor, and outputs a vibration abnormality signal, a speed change amount and a tilt change amount each time the vibration, An abnormal change amount signal, and a slope change amount abnormal signal to the protection switch
Vibration detection control system.
The method according to claim 1,
The protection switch
When a two or more abnormal signals among the abnormality signals according to the vibration, the speed change amount, and the tilt change amount detection are received below the predetermined first reference value or more than the predetermined second reference value, a danger warning signal is generated for the danger guidance, Detection server,
Wherein the first reference value is set in advance for each of the vibration, the speed change amount, and the inclination change amount
Vibration detection control system.
The method of claim 3,
The protection switch
When the at least two abnormality signals among the abnormality signals according to the vibration, the speed change amount, and the tilt change amount detection are received at each of the predetermined second reference values or more, Power off,
And the second reference value is set higher than the first reference value for each of the vibration, the speed change amount, and the slope change amount.
Vibration detection control system.
The method of claim 3,
The protection switch
Wherein the at least two abnormal signals are simultaneously received at a frequency lower than the first reference value and lower than the second reference value,
When the two or more anomalous signals are sequentially received with a time difference within a predetermined time difference and less than the first reference value and less than the second reference value, a danger warning signal is generated and supplied to the vibration detection server
Vibration detection control system.
The method of claim 3,
The protection switch
Wherein the at least two abnormal signals are simultaneously received at the second reference value or more,
When the two or more abnormal signals are sequentially received over the second reference value with a time difference within a predetermined time difference, a shutoff signal is generated and turned off by the power of the corresponding solar cell module
Vibration detection control system.
The method according to claim 1,
Each of the protection switches
At least one abnormality in accordance with the vibration, the speed change amount, and the slope change amount received by the nearest other protection switch among the other protection switches adjacent to each other and at least one abnormal signal according to the vibration, the speed variation amount, Respectively,
The two signals are compared with each other to determine whether they are the same or not.
Vibration detection control system.
The method according to claim 1,
A vibration detection server for controlling the operation of the protection switch using seismic observation information and environmental information;
A power inverting unit for collecting the generated power transmitted from the solar cell module and inverting the generated power into a direct current or an alternating current voltage; And
Further comprising an observation server for generating the seismic observation information by using the seismic observation data for each predetermined region or region and transmitting the seismic observation information to the vibration detection server
Vibration detection control system.
9. The method of claim 8,
The vibration detection server
A signal input unit for receiving on / off state information of the solar cell module from the protection switch;
A switch controller for remotely controlling on / off of the solar cell module;
A central processing unit receiving the environmental information including the earthquake observation information, typhoon information and weather forecast, and controlling the switch control unit to turn off the solar cell module according to the seismic observation information and the environment information;
And a database for storing the earthquake observation information and the environment information by time zone
Vibration detection control system.
10. The method of claim 9,
The signal input unit
Off state information of the solar cell module from the protection switch to share on / off state information with the central processing unit,
The central processing unit controls the switch control unit to turn off the respective solar cell modules that are in an on state when a seismic risk is detected or a period in which power production is to be stopped is determined according to the seismic observation information
Vibration detection control system.
8. The method of claim 7,
The vibration detection server
When a danger warning signal is received from at least one protection switch of the plurality of protection switches at a predetermined first level level signal, a warning message is generated as a monitor image or a warning sound to be transmitted to an administrator or an inspector,
When a shutoff signal is received from the at least one protection switch at a second predetermined level signal, information about the solar cell module that has been blocked is generated as a monitor image or a warning sound to be transmitted to the manager or the inspector
Vibration detection control system.

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