KR101475178B1 - Ups monitoring photovoltaic power generation system - Google Patents

Abstract

The present invention relates to an uninterruptible power supply (UPS) monitoring photovoltaic power generation system. The UPS monitoring photovoltaic power generation system includes: a plurality of photovoltaic modules (10, 10′, 10″) to collect energy from solar light and to produce DC power; an inverter (20) to convert DC power input from the photovoltaic modules (10, 10′, 10″) into AC power; a monitoring server (30) to monitor an amount of power generated from the photovoltaic modules (10, 10′, 10″) and an operation state of the inverter (20) and to generate a monitoring signal (MS) related to the amount of the corresponding power and the operation state; an uninterruptible power supply (40) to usually connect an operation power input terminal (30a) of the monitoring server (30) with a commercial system and to supply alternative power to the operation power input terminal (30a) of the monitoring server (30) when a blackout occurs; a UPS operating signal generating unit (60) to generate a UPS operating signal when the uninterruptible power supply (40) is operated; and a signal transmitting unit (90) to transmit the monitoring signal (MS) and the UPS operating signal (US) through a network.

Description

[0001] UPS MONITORING PHOTOVOLTAIC POWER GENERATION SYSTEM [0002]

BACKGROUND OF THE INVENTION 1. Field of the Invention The present invention relates to a photovoltaic power generation device connected to a commercial system, and more particularly, to a UPS monitoring photovoltaic power generation device capable of stably monitoring a photovoltaic generation device even in an insecure power supply environment.

The photovoltaic power generation system is a device that converts sunlight directly into electric energy by using a plurality of solar modules. Since there is no pollution such as air pollution, noise, heat and vibration, maintenance is easy and the life is long, It is attracting attention as an energy source. Photovoltaic power generation equipment can be installed in specific structures and small-scale power generation is possible. Therefore, non-governmental or local governments, businesses or individuals are also developing solar power generation devices. Such a photovoltaic power generation apparatus is usually connected with commercial system of KEPCO, and it is used by self-generated power to be used. When surplus power is generated, it is sold to KEPCO. On the contrary, when the nighttime or cloudy weather, Is supplied.

In recent years, as an internet or wireless network has been established, an attempt is being made to monitor a photovoltaic device at a remote site. To this end, the photovoltaic power generation system is connected to the monitoring server, and the monitoring server transmits the monitoring signal related to the amount of power generated from the photovoltaic module and normal operation to a PC or smart phone of a manager (employer) The administrator can confirm whether the photovoltaic device is operating normally at a remote site. Prior art related to this is disclosed in Patent Publication No. 10-2013-0047898 titled " Solar power generation monitoring apparatus capable of diagnosing failure of each solar cell module and fault diagnosis method of solar power generation system using the same.

However, since the monitoring server is a computer, if the temporary power failure occurs and the supply of operating power supplied from the commercial system is interrupted, the monitoring server goes down. In this case, even if the power supply is normalized, the monitoring server will not automatically reboot. Monitoring can not be performed and the monitoring signal can not be transmitted.

In this case, the manager who resides at the remote site does not know that the photovoltaic power generation device operates normally, and therefore the manager judges that the photovoltaic power generation device has a problem, so that the manager can directly go to the site or contact the photovoltaic power generation contractor And let them see the situation on the spot. In this process, there was a problem that labor, cost, and time were consumed due to dispatch.

The commercial system is usually associated with an earth leakage circuit breaker installed in the workplace. Therefore, if an earth leakage breaker is operated in accordance with the causes such as over-power consumption or short-circuit in the workplace, a power outage occurs in the workplace. In case of such a power failure, the electric power supply is normalized by re-activating the earth leakage breaker and the monitoring server is normalized by rebooting the down monitoring server.

The present invention has been made in order to solve the above-mentioned problems, and it is an object of the present invention to provide a monitoring server and a UPS monitoring solar power generation system capable of preventing a monitoring server and an inverter from being shut down by supplying instantaneous alternate power to an inverter, And an object of the present invention is to provide a device.

Another object of the present invention is to provide a UPS monitoring photovoltaic power generation apparatus capable of knowing a temporary power failure status from past to present, so that the cause of a power failure can be known.

According to an aspect of the present invention, there is provided a UPS monitoring photovoltaic generator comprising:
A plurality of photovoltaic modules 10 ', 10''10''collecting energy from the sunlight to produce DC power and a plurality of photovoltaic modules 10' and 10 ' (10 ") and the operational status of the inverter (20), and controls the corresponding amount of power and operation A monitoring server 30 for generating a monitoring signal MS related to a situation and an operating power input terminal 30a of the monitoring server 30 usually connected to a commercial system, An uninterruptible power supply (UPS) 40 for supplying the uninterruptible power supply 40 with an operating power input terminal 30a and a UPS operating signal generating unit 60 for generating a UPS operating signal US when the uninterruptible power supply 40 is operated. And a signal transmission unit for transmitting the monitoring signal MS and the UPS operating signal US through a network The UPS monitoring photovoltaic device according to claim 1,
And a UPS operation log (50) for recording an operation history in the uninterruptible power supply (40) up to a specific past time point based on the current time, wherein the UPS operation log (50) To record the operating times of the uninterruptible power supply unit 40 and the operating times of the uninterruptible power supply unit 40;
When the charging capacity of the battery 44 built in the uninterruptible power supply 40 is lower than the reference value, the battery 44 is charged with a battery replacement signal BS to replace with a new battery A battery replacement signal generating unit (70);
A warning signal generating unit for generating a warning signal RS if the monitoring signal MS is not generated in the monitoring server 30 despite the occurrence of the UPS operation signal US at the uninterruptible power supply unit 40, (80).
In the present invention, the uninterruptible power supply unit 40 normally connects the operating power input terminal 20a of the inverter 20 to the commercial system, and when the power failure occurs, And supplies it to the input terminal 20a.

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In the present invention, the uninterruptible power supply (40) comprises an input stage (41) connected to the commercial system; An output terminal 42 connected to the operating power input terminal 20a of the inverter 20 or the operating power input terminal 30a of the monitoring server 30; A rectifying unit 43 for converting AC power input to the input terminal 41 to DC; A battery 44 for charging the DC power rectified by the rectifying unit 43; A sub inverter (45) for converting the DC power stored in the battery (44) into AC power; The DC power that is charged in the battery 44 is converted into the AC power through the sub inverter 45 and the AC power is supplied to the inverter 44. [ 20 and the operating power input terminals 20a and 30a of the monitoring server 30, respectively.

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According to the present invention, when the electric power supply is cut off from the KEPCO, or the electric leakage occurs due to the operation of the earth leakage breaker at the workplace, the uninterruptible power supply immediately supplies the alternate electric power through the operation power input terminal of the inverter and the operation power input terminal of the monitoring server , Thereby preventing the inverter and the monitoring server from going down.

In addition, the UPS operation log can record the operating times for the uninterruptible power supply (UPS) and each of the points of time by generating a power failure from a specific past point to the present point, Data that can identify the cause of power failure can be obtained.

Further, the battery replacement signal generating unit generates a battery replacement signal to replace the battery when the charging capability of the battery built in the uninterruptible power supply unit becomes lower than the reference value, and accordingly, even if the installation environment of the uninterruptible power supply unit is different But you can know exactly when to replace the battery.

If the monitoring signal is not generated even though the UPS operation signal is generated by the warning signal generating unit, the inverter and / or the monitoring server can recognize that the problem has occurred.

1 is a block diagram illustrating a configuration of a UPS monitoring photovoltaic apparatus according to the present invention,
2 is a block diagram of the configuration of the uninterruptible power supply (UPS) of FIG. 1;
Fig. 3 shows the UPS monitoring photovoltaic device of Fig. 1 connected by a network; Fig.

Hereinafter, a UPS monitoring photovoltaic power generation apparatus according to the present invention will be described in detail with reference to the accompanying drawings.

FIG. 1 is a block diagram of a UPS monitoring photovoltaic apparatus according to the present invention. FIG. 2 is a block diagram showing the configuration of the uninterruptible power supply (UPS) of FIG. 1. FIG. 1 < / RTI > UPS monitoring photovoltaic device is connected by a network.

In general, photovoltaic power generation equipment is mainly used in a business having a small commercial system capacity, and is often used for the purpose of supplying less power. However, the inverter 20 or the monitoring server 30 goes down when the electric leakage circuit breaker is activated, a problem occurs in the commercial system, or a temporary power failure occurs. If the electric power is supplied to the inverter 20, Or the monitoring server 30 is not reactivated. In this case, the solar power generation is stopped until the inverter 20 or the monitoring server 30 is re-operated.

In order to solve such a problem, the UPS monitoring photovoltaic device according to the present invention according to the present invention includes a plurality of solar modules 10, 10 ', 10 " An inverter 20 for converting the DC power input from the solar modules 10, 10 ', 10 "into AC power; A monitoring server (not shown) for monitoring the amount of power generated by the solar modules 10 ', 10', 10 "and the operational status of the inverter 20, and generating a monitoring signal MS related to the corresponding amount of power and operation And an operating power input terminal 20a of the monitoring server 30 is connected to a commercial power supply input terminal 20a of the inverter 20. When a power failure occurs, An uninterruptible power supply (UPS) 40 for supplying an input terminal 20a and an operation power input terminal 30a of the monitoring server, A UPS operation signal generating unit 60 for generating a UPS operation signal US when the uninterruptible power supply unit 40 is operated, a UPS operation signal generating unit 60 for writing the UPS operation signal US to the uninterruptible power supply unit 40, When the charging ability of the built-in battery 44 becomes less than the reference value, A battery replacement signal generating unit 70 for generating a battery replacement signal BS for replacing the power supply unit 44 with the monitoring server 30 even when the UPS operation signal US is generated in the uninterruptible power supply unit 40, A warning signal generator 80 for generating a warning signal RS when a monitoring signal MS is not generated in the monitoring signal MS, a UPS operation signal US, a battery replacement signal BS, And a signal transmission unit 90 for transmitting the signal RS through a network.

The solar modules 10, 10 'and 10' 'are realized by connecting panels composed of a plurality of solar cells in the horizontal and vertical directions. The solar modules 10, 10' Depends on the capacity of the PV system to be implemented.

The inverter 20 converts the DC power input from the solar modules 10, 10 ', 10 "into AC power having a frequency and phase that can be used in a home or an apparatus to which the solar power generator is connected, The inverter 20 sells surplus electric power through the commercial system when the electric power produced by the solar modules 10, 10 ', 10 "is larger than the electric power provided by the business operator. The inverter 20 receives operating power for converting the direct current generated from the solar module into an alternating current through the operating power input terminal 20a.

On the other hand, the commercial system is connected to the earth leakage breaker installed in the workplace, and therefore, when the earth leakage circuit breaker is operated due to the power consumption or the short circuit, the power supply is cut off. Or commercial system, when power supply is cut off from KEPCO, a power outage occurs.

When a power failure occurs, the supply of the operating power is cut off to the operating power input terminal 20a of the inverter, and the inverter 20 goes down. In this case, the interbus position must be forcibly turned ON in order to reactivate the inverter 20. The solar power generation is stopped until the inverter 20 is restarted.

The monitoring server 30, in conjunction with a sensor for sensing the amount of power generated in the solar power generator or a sensor for sensing various mechanical operations, outputs a monitoring signal MS related to the generated power amount and normal operation status Occurs. The monitoring server 30 receives operating power for monitoring through the operating power input terminal 30a.

On the other hand, the monitoring server 30 senses the power generated by the plurality of solar modules 10, 10 ', 10 ", respectively, and then the amount of power generated in the specific solar module is different from the amount of power And an alarm signal generator 31 for generating an alarm signal when the difference is different.

The UPS (uninterruptible power supply unit) 40 is connected to the operation power input terminal 20a of the inverter 20 and the operation power input terminal 30a of the monitoring server when the power supply is cut off from the KEPCO, Thereby preventing inverter 20 and monitoring server 30 from going down.

As shown in FIG. 2, the uninterruptible power supply 40 includes an input terminal 41 connected to a commercial system; An output terminal 42 connected to the operating power input terminal 20a of the inverter 20 and / or the operating power input terminal 30a of the monitoring server 30; A rectifying part 43 for converting AC power input to the input terminal 41 to DC; A battery 44 for charging the DC power rectified by the rectifying part 43; A sub inverter 45 for converting DC power stored in the battery 44 into AC power; The DC power that is charged in the battery 44 is converted into AC power through the sub inverter 45 and then the AC power is supplied to the inverter 20 And a bypass circuit 46 for supplying power to the operating power input terminals 20a and 30a of the monitoring server 30, respectively.

The rectifying part 43 incorporates a decompression circuit (not shown) for decompressing the AC voltage input from the commercial system so that the high voltage power is decompressed to power at a low voltage that the battery 44 can charge.

The battery 44 is supplied to the input terminal 41 and then rectified by the rectifying unit 43 with DC power. When a power failure occurs, the battery 44 supplies the charged power to the sub-inverter 45.

The sub inverter 45 has a booster circuit (not shown) for boosting the low voltage DC power supplied from the battery 44 and converts the power supplied through the commercial system to substitute power that can be replaced.

The bypass circuit 46 normally connects the input stage 41 and the output stage 42. When a power failure occurs, the bypass circuit 46 cuts off the input stage 41 and the output stage and connects the sub inverter 45 connected to the battery 44 Connect to output.

The uninterruptible power supply unit 40 immediately supplies the alternative power to the inverter 20 and the monitoring server 30 when a power failure occurs so that the inverter 20 and the monitoring server 30 are down .

The UPS operation log 50 records the operation times of the uninterruptible power supply 40 and the operation times of the uninterruptible power supply 40 when the uninterruptible power supply 40 is operated due to a power failure occurring from a specific past time point to the present time point.

For example, assuming that a power failure has occurred five times in a certain period of time on a particular day up to the past three months before the current date of June 1, the UPS operation log 50 is set to 3 Minute power outage, 2 minutes of power outage at 2:00 on March 21, 2 minutes of power outage at 10:00 on April 3, 30 minutes of power outage at 1:00 on May 20, and 2 minutes of power outage at 11:00 on May 30 do.

By employing the UPS operation log unit 50, it is possible to know the number of times the power failure occurred and the total power failure time at a specific point in time. By checking the power failure record, it is possible to acquire data on the cause of power failure at a specific business site.

The UPS operating signal generating unit 60 generates a UPS operating signal US when an operation to supply alternate power to the inverter 20 and the monitoring server 30 is started due to a power failure. At this time, the UPS operation signal US may include data on the power failure cause stored in the UPS operation log 50.

The battery replacement signal generating unit 70 generates a battery replacement signal BS for replacing the battery 44 when the charging capability of the battery 44 built in the uninterruptible power supply unit 40 becomes lower than the reference value .

The life of the battery 44 incorporated in the uninterruptible power supply 40 is dependent on the humidity and temperature conditions of the surrounding environment in which the uninterruptible power supply 40 is installed, do. If the charging capability is low, the power supply is not smooth and the alternate power for supplying to the inverter 20 and the monitoring server 30 can not be produced.

In order to prevent this, the battery replacement signal generating unit 70 detects the charging capability of the battery 44 and generates a battery replacement signal BS for replacing the battery when the charging capability falls below a reference value. That is, by employing the battery replacement signal generating unit 70, it is possible to accurately know whether the battery 44 is replaced even if the life of the battery 44 is different depending on the installation environment of the uninterruptible power supply 40. [

The warning signal generating unit 80 recognizes that a problem has occurred in the inverter 20 and / or the monitoring server 30 when the monitoring signal MS is not generated even though the UPS operating signal US has occurred And generates an alarm signal (RS) The occurrence of the warning signal RS means that the inverter 20 and / or the monitoring server 30 have not been reactivated (booted) despite the uninterruptible power supply 40 supplying the alternative power.

A large electric shock is generated in the inverter 20 and the monitoring server 30 when power is supplied again after a normal power failure occurs and the inverter 20 and the monitoring server 30 are most likely to fail.

Generally, in the case of a workplace producing a product, a number of power outages occur. There are four types of power outages. (B) when an overload is applied to the working machine; (c) when the machine is connected to the machine; (c) when the machine is overloaded; (D) The power supplied from KEPCO is cut off when the power line is worn out or short-circuited, or the power line connected to the inside of the workplace is short-circuited. As a result of such a variety of power outages, more than 10 power outages occur per month in severe cases at certain sites. Even if the uninterruptible power supply unit 40 applies the alternate power to the inverter 20 and the monitoring server 30 in such a power failure situation, the inverter 20 and the monitoring server 30 are repeatedly applied with the repetitive electric shock, Is likely to fail.

As described above, in the case of a business site in which a power failure frequently occurs, it is possible that the inverter 20 and / or the monitoring server 30 may fail due to repetitive electric shock even when the uninterruptible power supply unit 40 supplies alternate power very big. Therefore, if the monitoring signal MS is not received even though the UPS operating signal US is received, it is possible to recognize that a problem has occurred in the inverter 20 and the monitoring server 30.

The signal transmission unit 90 transmits the monitoring signal MS, the UPS operation signal US, the battery replacement signal BS and the warning signal RS to the manager's PC or smart To a mobile terminal S such as a mobile phone. The manager can remotely monitor the photovoltaic device operation status by receiving the monitoring signal MS and recognize that a power failure has occurred by receiving the UPS operating signal US. In addition, it can recognize that the battery of the uninterruptible power supply unit 40 needs to be replaced by receiving the battery replacement signal BS, and receives the warning signal RS to be sent to the field.

As described above, according to the present invention, when the electric power supply from the KEPCO is cut off or the electric leakage circuit breaker of the workplace is operated, the uninterruptible power supply unit 40 is connected to the operation power input terminal 20a of the inverter 20, It is possible to immediately supply the alternative power through the operating power input terminal 30a of the inverter 20 and the monitoring server 30 so as to prevent the inverter 20 and the monitoring server 30 from going down.

Also, the UPS operation recording unit 50 can record the operation times of the uninterruptible power supply unit 40 and the operation time of each of the uninterruptible power supply unit 40 by generating a power failure from a specific past time point to the present time point, Data can be obtained to identify the cause of power outage at a particular site.

When the charging capability of the battery 44 incorporated in the uninterruptible power supply 40 is lower than the reference value by the battery replacement signal generating unit 70, the battery replacement signal BS is generated to replace the battery 44 So that it is possible to accurately know the battery replacement timing even though the installation environment of the uninterruptible power supply 40 is different. do.

If the monitoring signal MS is not generated even though the UPS operating signal US has been generated by the warning signal generating unit 80, it is determined that a problem has occurred in the inverter 20 and / or the monitoring server 30 It can be recognized.

While the present invention has been particularly shown and described with reference to exemplary embodiments thereof, it is to be understood that the invention is not limited to the disclosed embodiments, but, on the contrary, is intended to cover various modifications and equivalent arrangements included within the spirit and scope of the appended claims.

10, 10 ', 10 "... solar module 20 ... inverter
20a ... Operating Power Input Terminal 30 ... Monitoring Server
30a ... Operating Power input 40 ... uninterruptible power supply
41 ... input stage 42 ... output stage
43 ... rectifier 44 ... battery
45 ... Sub-inverter 46 ... Bypass circuit
50 ... UPS operation log 60 ... UPS operation signal generator
70 Battery replacement signal generating unit 80 ... Warning signal generating unit
90 ... signal transmission unit

Claims (6)

A plurality of photovoltaic modules 10 ', 10''10''collecting energy from the sunlight to produce DC power and a plurality of photovoltaic modules 10' and 10 ' (10 ") and the operational status of the inverter (20), and controls the corresponding amount of power and operation A monitoring server 30 for generating a monitoring signal MS related to a situation and an operating power input terminal 30a of the monitoring server 30 usually connected to a commercial system, An uninterruptible power supply (UPS) 40 for supplying the uninterruptible power supply 40 with an operating power input terminal 30a and a UPS operating signal generating unit 60 for generating a UPS operating signal US when the uninterruptible power supply 40 is operated. And a signal transmission unit for transmitting the monitoring signal MS and the UPS operating signal US through a network The UPS monitoring photovoltaic device according to claim 1,
And a UPS operation log (50) for recording an operation history in the uninterruptible power supply (40) up to a specific past time point based on the current time, wherein the UPS operation log (50) To record the operating times of the uninterruptible power supply unit 40 and the operating times of the uninterruptible power supply unit 40;
When the charging capacity of the battery 44 built in the uninterruptible power supply 40 is lower than the reference value, the battery 44 is charged with a battery replacement signal BS to replace with a new battery A battery replacement signal generating unit (70);
A warning signal generating unit for generating a warning signal RS if the monitoring signal MS is not generated in the monitoring server 30 despite the occurrence of the UPS operation signal US at the uninterruptible power supply unit 40, (80). ≪ / RTI > The method according to claim 1,
The uninterruptible power supply unit 40 normally connects the operating power input terminal 20a of the inverter 20 to the commercial system and when the power failure occurs, the alternate power is supplied to the operating power input terminal 20a of the inverter Wherein said UPS monitoring photovoltaic device is a UPS monitoring photovoltaic device. 3. The apparatus of claim 2, wherein the uninterruptible power supply (40)
An input stage 41 connected to the commercial system;
An output terminal 42 connected to the operating power input terminal 20a of the inverter 20 or the operating power input terminal 30a of the monitoring server 30;
A rectifying unit 43 for converting AC power input to the input terminal 41 to DC;
A battery 44 for charging the DC power rectified by the rectifying unit 43;
A sub inverter (45) for converting the DC power stored in the battery (44) into AC power;
The DC power that is charged in the battery 44 is converted into the AC power through the sub inverter 45 and the AC power is supplied to the inverter 44. [ 20. The UPS monitoring photovoltaic power generation system of claim 1, further comprising: a bypass circuit for supplying power to the monitoring server; delete delete delete

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