ES2336876A1 - Energy transformation system for photovoltaic parks (Machine-translation by Google Translate, not legally binding) - Google Patents

Abstract

Energy transformation apparatus for photovoltaic parks. It is connected between the electrical network (11) and some photovoltaic modules (12), it comprises a high voltage module (1), an energy meter module (2), a power voltage transformer (3) for raising the voltage generated by the photovoltaic modules (12) at the level of the electrical network (11), a low voltage module (4) connecting the transformer (3) to inverters (5), which convert the dc voltage generated in the photovoltaic modules (12) to an alternating voltage, an irradiance sensor (10) and an actuator module (8) of the high voltage module (1), to disconnect it when the irradiance does not reach a set minimum value. Alternatively, it also comprises a control module (7) that performs the disconnection from the measured power, from alarms produced by relays, from alarms or remotely received commands or from the signals provided by an astronomical clock to avoid consumption in vacuum for hours unproductive (Machine-translation by Google Translate, not legally binding)

Description

Energy transformation apparatus for photovoltaic parks

Object of the invention

The present invention, as expressed in the statement of this specification refers to an apparatus of energy transformation for photovoltaic parks that connects between the power grid and the photovoltaic panels or modules to transform the continuous voltage generated by these modules into a AC voltage that is injected into the mains.

It is an object of the invention to introduce improvements to disconnect the device when the modules Photovoltaics do not produce enough energy, or when it is produced Some malfunction or alarm.

It is also the object of the invention to allow connect the device with a remote device to obtain the different data of the device and the devices connected to it in said device remote, and to be able to receive data from the remote computer as alarms, commands or any other parameter from which the disconnection / connection of the device is allowed.

Background of the invention

In the state of the art they are known devices that allow energy transformation provided by photovoltaic modules for consumption through of the electrical network, for which they are connected between the modules photovoltaic and said electrical network. These devices do not perform the disconnection of the device during the hours in which the radiation solar is not enough for the production of electrical energy in the optimal time, nor the subsequent reconnection when the radiation increases and is enough again.

They also do not foresee the possibility of sending operating data of the installation to a remote system, or receive commands from the remote system that allow you to perform switching on / off maneuvers.

Description of the invention

To achieve the objectives and solve the previous drawbacks, the invention is intended to allow effect the transformation of the energy provided by the photovoltaic modules for consumption through the power grid, for which it connects between at least one conversion inverter of the continuous voltage generated in some photovoltaic modules and said power grid; and it is characterized because it comprises a high module voltage through which the device is connected to the network electrical, and consisting of one or more connection modules to the power grid, a protection module, a transformer lifting power voltage of the voltage generated by the inverter at the level of the mains, a low voltage module of connection of the power voltage transformer to the inverter and a High voltage module drive module, for your disconnection from the mains when photovoltaic modules do not They produce energy.

The protection module comprises a device connection / disconnection with a life capacity of at least 30,000 maneuvers Said device is governed by the module of drive The fact that it has capacity for such a number high maneuvering allows the daily connection and disconnection of photovoltaic modules with respect to the power grid, so that avoid losses due to vacuum work of the voltage transformer power overnight.

The high voltage module can also include a measuring transformer module, which is connected to a power measuring device (such as the one integrated in a energy meter) to measure at least the power generated or consumed in the installation.

The power voltage transformer is connected to the low voltage module through which they connect to the voltage transformer one or more inverters that perform the conversion of the continuous voltage generated in the modules photovoltaic at an alternating voltage at the grid frequency electric, so investors are the means of connection of the device to the photovoltaic modules.

To connect / disconnect in the optimal moment, in the most basic embodiment of the invention the drive module receives the signal provided by a relay minimum irradiance, causing disconnection when it does not reach a set minimum value Alternatively, others may be used. devices connected to the drive module, such as a clock astronomical, to disconnect the high voltage module according to the time established in said clock, or power relays Reverse that cause the disconnection of the high voltage module when the direction of power flow is reversed. It should be noted that the drive module can also be operable manually.

The invention provides for the possibility of incorporating a control module that governs through the module drive the connection / disconnection of the high voltage module. In In this case, one or more relays can be connected to the control module or irradiance sensors. It is possible that these sensors are included in a weather station that connects to control module so that it also knows different meteorological parameters such as temperature, pressure, etc.

In addition the control module can be connected to the inverters to measure its power and it is also planned that the control module can be connected to the counter module of energy, so that the control module performs the disconnection of the high voltage module when the power measured by the meter or when the power in the inverters is below a minimum established, which ensures the disconnection of the device during unproductive hours.

On the other hand, the control module can include connection means to an alarm relay to produce the high voltage module disconnection when an overload is detected, a short circuit, transformer overheating, theft or improper handling, etc.

The control module includes means for show information of the different modules and elements to which is connected and also provides for the possibility of including means of remote communication for the transmission of said information, being able to send detected alarms, and vice versa, that is, receive alarms and commands produced in a remote system, from the which makes the disconnection of the high voltage module.

The invention provides that the inverter can be integrated into the device and not be external to it.

Finally, note that the device of the invention is provided with an autonomous power supply of way that the correct functioning of the device is guaranteed during the night hours when there is no generation photovoltaic, without the need to feed from the power grid.

Next to facilitate a better understanding of this descriptive report and being an integral part of the same, they accompany a series of figures in which with illustrative and non-limiting nature has been represented the object of the invention.

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Brief statement of the figures

Figure 1.- Shows a block diagram function of a possible embodiment of the invention.

Figure 2.- Shows a block diagram function of a second embodiment of the invention in which includes a control module to govern the operation of the drive module through which the cutting of the high voltage module

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Description of the preferred embodiment

Below is a description of the invention based on the figures discussed above.

The apparatus of the invention comprises a module high voltage 1 which is equipped with one or several modules of connection to the power grid 11, and also includes a module 1b protection or even a measuring transformer module by means of which the high voltage module connection 1 is made to a power voltage transformer 3.

Protection module 1b includes a connection / disconnection device with a capacity for a number very high maneuvering (at least 30,000).

This configuration allows connection and daily disconnection of the device from the mains 11 avoiding the Vacuum losses of the voltage transformer 3 power overnight.

The power voltage transformer 3 is connected to a low voltage module 4 which in turn is connected to some 5 inverters through which the connection of the apparatus to photovoltaic modules 12, so that the voltage continuous provided by photovoltaic modules 12, it converts into an alternating voltage at the frequency of the mains 11 by inverters 5, alternating voltage than by the module Low voltage 4 is delivered to the power voltage transformer 3 in which it rises to the level of the electricity grid 11; and through High voltage module 1 is injected into it. The low module voltage 4 includes different protections for connection of the inverters 5 to the power voltage transformer 3.

In addition, the module of measurement transformers it includes voltage and current transformers that connect to an energy meter module 2 by means of which the measurement of the energy supplied by photovoltaic modules 12, and that also measures the energy consumed in the installation.

It is also planned that the device comprises a drive module 8 that is connected to the module protection 1b to perform the same drive that was already described, drive that is made from a irradiance module 10 which is connected to the module drive 8, so that when the irradiance module 10 detects that the radiation level is below a minimum established, drive module 8 disconnects the installation of the network avoiding empty consumption during the hours unproductive

The irradiance module 10 can be, by example, a minimum irradiance relay.

To power the module drive 8, the incorporation of a source of feed 6 that may be constituted by a set of batteries and a recharging system that is powered from the low voltage side of the transformer 3, so that the batteries guarantee the correct functioning of the device during the night hours in which there is no photovoltaic generation, without need to feed on the power grid.

Another possible example is shown in figure 2 of embodiment of the apparatus of the invention having a more complete configuration, for which it comprises a module of control 7 which is connected to the energy meter module 2 and the drive module 8, so that the control module 7 knows the power supplied by the photovoltaic modules 12. The control module 7 is also connected to a station 9 that provides irradiance data, room temperature, etc. In addition the control module 7 is connected to investors 5, who inform you of the extent of the power at its exit. It is also provided that the invention incorporates an external or internal astronomical clock (not shown).

The control module 7 can therefore use different strategies for controlling the connection and disconnection of the high voltage module 1 through drive module 8, using the information received on the level of irradiance, power flows in inverters and in the module High voltage 1, and astronomical clock.

In this case the power supply 6, also provides the operating voltages necessary to the control module 7 and the weather station 9.

The control module 7 also incorporates or it has means for connection to one or several protection relays, to cause disconnection of the high voltage module upon detection an alarm such as an overload, a short circuit, overheating of transformer 3, theft or any other.

In addition the control module 7 is equipped with means to visualize locally and / or transmit remotely device data and alarms. This includes communication means that allow a connection 13 with a system remote.

Remote connection 13 also allows the module control generate the maneuver signal in response to another type of situations, such as detectable alarm conditions from of the information received through said connection or by a remote external order.

Claims (12)

1. Energy transformation apparatus for photovoltaic parks, which is connected to the power grid (11) and at least one inverter (5) for converting the continuous voltage generated in photovoltaic modules (12) to an alternating frequency voltage of the electrical network, characterized in that it comprises a high voltage module (1) that includes at least one module for connection (1a) to the electrical network (11) and a protection module (1b) which in turn comprises a device for connection / disconnection of the power grid with a capacity of at least 30,000 life maneuvers; the apparatus further comprising a power voltage transformer (3) for raising the voltage generated by the inverter (5) at the level of the power grid (11), a low voltage module (4) for connecting the voltage transformer of power (3) to the inverter (5) and a drive module (8) of the high voltage module (1), for disconnection from the mains (11) when the photovoltaic modules (12) do not produce energy. 2. Energy transformation apparatus for photovoltaic parks, according to claim 1, characterized in that it comprises a minimum irradiance relay (10) acting on the drive module (8) of the high voltage module (1), for disconnection of the mains (11) when the irradiance falls below a predetermined minimum value. 3. Energy transformation apparatus for photovoltaic parks, according to claim 1, characterized in that it comprises an astronomical clock of action on the drive module (8) of the high voltage module (1), for disconnection from the power grid (11) according to the schedule established in it. 4. Energy transformation apparatus for photovoltaic parks, according to claim 1, characterized in that it comprises a reverse power relay acting on the drive module (8) of the high voltage module (1), for disconnection from the power grid ( 11) when the net power flow occurs in the direction of the network to the photovoltaic system. 5. Energy transformation apparatus for photovoltaic parks, according to claim 1, characterized in that it comprises a control module (7) that governs the drive module (8) to connect and disconnect the high voltage module (1) using the information received of at least one of the following devices: weather station (9), irradiance sensor, astronomical clock, and a power measuring device. 6. Energy transformation apparatus for photovoltaic parks, according to claim 5, characterized in that the power measuring device is integrated in at least one energy meter (2). 7. Energy transformation apparatus for photovoltaic parks, according to claim 5, characterized in that the power measuring device is integrated in at least one inverter (5). 8. Energy transformation apparatus for photovoltaic parks, according to claims 5, 6 or 7, characterized in that the control module (7) comprises means for causing the disconnection of the high voltage module (1) upon detecting an alarm due to a problem in the installation, selected from an overload, a short circuit, transformer overheating, theft and improper handling. 9. Energy transformation apparatus for photovoltaic parks, according to claims 5, 6, 7 or 8, characterized in that the control module (7) comprises means for displaying information of the different modules and elements to which it is connected and selectively comprises means of remote communication for the transmission of said information of the different modules and elements to which it is connected as well as for the selective reception of instructions, remote alarms and combination thereof. 10. Energy transformation apparatus for photovoltaic parks, according to claims 1, 2, 3, 4, 5, 6, 7, 8 or 9, characterized in that the drive module (8) is manually operable. 11. Energy transformation apparatus for photovoltaic parks, according to claims 1, 2, 3, 4, 5, 6, 7, 8, 9 or 10, characterized in that it comprises a power source (6) with rechargeable batteries from the power provided by the photovoltaic module (12) to power the different modules and elements. 12. Energy transformation apparatus for photovoltaic parks, according to claims 1, 2, 3, 4, 5, 6, 7, 8, 9, 10 or 11 characterized in that it comprises at least one inverter (5) for direct voltage conversion generated in the photovoltaic modules (12) at an alternating voltage at the frequency of the mains.