JP2017011914A - Photovoltaic power generation system - Google Patents

Abstract

PROBLEM TO BE SOLVED: To provide a photovoltaic power generation system, with high level of safety, at low costs, capable of easily stopping power generation of a photovoltaic power generation module when abnormalities such as faults of the photovoltaic power generation module occur.SOLUTION: In a photovoltaic power generation system T, configured by arranging a plurality of photovoltaic power generation modules 1, when an abnormality occurs in the photovoltaic power generation module 1, a shading member 20, for covering a light-receiving surface 9 of the photovoltaic power generation module 1 where the abnormality occurs, is provided to block the light and stop the power generation.SELECTED DRAWING: Figure 4

Description

  The present invention relates to a photovoltaic power generation system, and more particularly to a system having a function of forcibly blocking the incidence of sunlight on a photovoltaic module in which an abnormality has occurred and stopping power generation.

  2. Description of the Related Art Conventionally, solar power generation systems that generate electric power using solar energy have been widely spread. In this solar power generation system, for example, a plurality of solar power generation modules are installed in a two-dimensional array on a roof installation surface or the like via a mounting base, and the power generation of each solar power generation module is collected and converted into power. The apparatus is configured to convert the generated voltage into a commercial power supply voltage and supply power to an indoor distribution system or the like.

  A typical solar power generation module includes a module body including a plurality of solar cells that generate power, a frame frame provided around the module body, a junction box attached to the back of the module body, and the junction. It is equipped with output extraction wiring for extracting the generated power extending from the box to the outside.

  In addition, the above junction box protects the solar cells from destruction or damage even when voltage is applied in the reverse direction due to other solar cell modules when power generation of the solar cell modules is stopped. It is.

Japanese Patent Application No. 2014-260322

  In a household and industrial solar power generation system, when a problem such as failure occurs in one solar power generation module, it takes a lot of labor and cost to remove the failed solar power generation module itself, If it is removed, the design of the appearance of the entire photovoltaic power generation system will be impaired.

  Therefore, it is assumed that the failed photovoltaic module itself may be replaced with another photovoltaic module that has not failed, but there is no alternative photovoltaic module that can cope with the withdrawal of the manufacturer's business or loss of mold. In some cases, it is difficult to obtain, and in some cases, the photovoltaic module itself cannot be replaced.

  For this reason, each solar power generation module is provided with a bypass diode in advance in preparation for failure, etc., but as long as it is irradiated with sunlight, power generation by the failed solar power generation module itself is continued. If the is left for a long time, the bypass diode deteriorates, and the photovoltaic power generation module may overheat and cause a fire.

  Conventional photovoltaic modules are electrically protected by a junction box, but even if the junction box is damaged due to the spread of fire in a house and the insulation function is lost, the photovoltaic module is a solar cell. In order to continue power generation when sunlight enters, there is a problem that an electric leakage due to poor insulation and an accident such as an electric shock of a firefighter due to this electric leakage occur.

  For example, Patent Document 1 discloses a solar battery module in which a protective glass, a solar battery cell, a synthetic resin layer, and a back protective layer are stacked and provided with a heat-sensitive layer that covers the light-receiving side surface of the solar battery cell. Applicant has proposed. This heat-sensitive layer is a transparent state capable of transmitting sunlight in a normal operation state, but is reversibly changed to an opaque state capable of blocking sunlight when the temperature is higher than a normal operation state and exceeds a predetermined temperature. Has a hue change function.

  For this reason, when a problem such as the occurrence of a house fire occurs and the temperature of the solar cell module is higher than the normal operation state and exceeds a predetermined temperature, the heat-sensitive layer changes from a transparent state to an opaque state, The incident of sunlight is blocked and the power generation is forcibly stopped.

  However, especially in industrial solar power generation systems, since a large number of solar power generation modules are arranged side by side, the above heat-sensitive layer is provided on all the solar power generation modules assuming an accident such as electric leakage or electric shock. This has the problem of high manufacturing costs.

  An object of the present invention is to provide a highly safe solar power generation system that can easily stop power generation of the solar power generation module itself when an abnormality such as a failure of the solar power generation module occurs in the solar power generation system. It is to provide at a low cost.

  The solar power generation system according to claim 1, wherein in the solar power generation system configured by arranging a plurality of solar power generation modules, when an abnormality occurs in the solar power generation module, the solar power generation module in which an abnormality has occurred A light-shielding member that covers the light-receiving surface is provided, and power generation is stopped by shielding light with this light-shielding member.

  According to a second aspect of the present invention, there is provided the solar power generation system according to the first aspect of the invention, wherein the light shielding member is disposed on a main body portion covering the entire light receiving surface of the solar power generation module and an outer peripheral portion of the solar power generation module. And a plurality of engaging pieces that can be engaged with a plurality of engaging portions of the frame portion.

  A photovoltaic power generation system according to a third aspect is characterized in that, in the invention according to the second aspect, the engaging portion is formed by a notch for draining formed in the frame portion.

  According to the invention of claim 1, in the photovoltaic power generation system, when an abnormality occurs in the photovoltaic power generation module, the light shielding member that covers the light receiving surface of the photovoltaic power generation module in which the abnormality has occurred is provided. Since the power generation can be stopped by shielding the light, the solar power generation module can be prevented from generating power and overheating without replacing the solar power generation module in which an abnormality has occurred. System safety is improved.

  When an abnormality such as a failure occurs in one photovoltaic module, power is generated by covering the light receiving surface of the photovoltaic module with a shading member and shielding it without removing or replacing the photovoltaic module itself. Therefore, safety can be improved by a simple method while maintaining the design of the appearance of the entire photovoltaic power generation system.

  According to the invention of claim 2, the light shielding member is related to the main body portion covering the entire light receiving surface of the photovoltaic power generation module and the plurality of engaging portions of the frame portion disposed on the outer peripheral portion of the photovoltaic power generation module. A plurality of engaging pieces that can be combined, so that the power generation of the solar power generation module in which an abnormality has occurred in the main body can be forcibly stopped, and the light blocking member is used as the light receiving surface of the solar power generation module with the engaging pieces Can be easily positioned and attached.

  According to the third aspect of the present invention, the engaging portion for engaging the light shielding member is formed of a drain notch portion formed in the frame portion disposed on the outer peripheral portion of the photovoltaic power generation module. By simply providing the light shielding member on an existing photovoltaic power generation module without newly forming an engaging portion, positioning can be easily performed when the light shielding member is provided on the light receiving surface of the existing photovoltaic power generation module. .

It is a top view of the photovoltaic power generation module concerning the example of the present invention. It is a back view of a photovoltaic power generation module. It is the elements on larger scale of a photovoltaic power generation module. It is a top view of a light shielding member. It is an equivalent circuit diagram of a photovoltaic power generation system.

  Hereinafter, modes for carrying out the present invention will be described based on examples.

First, the overall configuration of the photovoltaic power generation module 1 of the present invention will be briefly described.
As shown in FIGS. 1 and 2, the photovoltaic power generation module 1 includes a rectangular module body 2 that generates power, a metal frame portion 3 that surrounds and protects all four sides of the module body 2, and a module. A junction box 5 attached to the back surface 6 side of the main body 2 and output wirings 5a and 5b extending from the junction box 5 are constituted. In the surface portion of the module main body 2, drainage cutout portions 10 for draining dust and the like together with rainwater are formed at the four corners of the frame portion 3.

  The solar power generation module 1 is configured to have a size of about (1.3 m to 2.0 m) × 1.0 m, for example. In addition, the shape of the solar power generation module 1 is not limited to a rectangular shape, and may be a square shape or a trapezoidal shape, and can be appropriately changed according to a request. A photovoltaic power generation system T is configured by arranging a plurality of the photovoltaic power generation modules 1.

Next, the junction box 5 and the output extraction wires 5a and 5b will be described.
As shown in FIGS. 2 and 5, the junction box 5 is for electrically protecting the module body 2 and is attached to the back surface 6 of the module body 2. An output positive line 5a and an output negative line 5b, which are two output lines, extend from the junction box 5.

  The photovoltaic power generation system T is configured by arranging a plurality of photovoltaic power generation systems 1 in a matrix of a plurality of rows and a plurality of columns, and the output positive electrode wiring 5a of one photovoltaic power generation module 1B is adjacent to another photovoltaic power generation module 1A. The output negative electrode wiring 5b of one solar power generation module 1B is connected to the output positive electrode wiring 5a of another adjacent solar power generation module 1C, thereby connecting a plurality of solar power generation modules. 1 are connected in series.

  The photovoltaic power generation module 1 includes a pair of connection terminals 7a and 7b that are electrically connected to the output positive electrode wiring 5a and the output negative electrode wiring 5b, respectively, and a bypass function installed between the pair of connection terminals 7a and 7b. And a plurality of (for example, three) bypass diodes 8 having a reverse current prevention function.

  The power generated by the module main body 2 is connected to a power conversion device (not shown) provided outside via an output positive wiring 5a and an output negative wiring 5b extending from the junction box 5, and the DC power of the module main body 2 is connected. Is converted into AC power and taken out as power for private consumption / selling. The output positive electrode wiring 5a and the output negative electrode wiring 5b are, for example, cables having a length of about 0.8 m to 1.5 m and a size of about 10 mm in diameter.

Next, the light shielding member 20 related to the present invention will be described.
As shown in FIG. 4, the light blocking member 20 is formed on the main body portion 21 that covers the entire light receiving surface 9 of the photovoltaic power generation module 1 and the frame portion 3 that is disposed on the outer peripheral portion of the photovoltaic power generation module 1. And four engagement pieces 22 engageable with the four drainage cutout portions 10. The four drainage cutout portions 10 correspond to a plurality of engaging portions.

  The four engagement pieces 22 are provided at the four corners of the outer peripheral portion of the main body portion 21 at positions corresponding to the four drainage cutout portions 10 formed in the frame portion 3 of the photovoltaic power generation module 1. . When the four engaging pieces 22 of the light shielding member 20 are engaged with the drainage notch 10 and fixed with an adhesive or the like, the light receiving surface 9 and the back surface of the light shielding member 20 are in contact with each other. Since the light shielding member 20 covers the entire surface of the light receiving surface 9 of the photovoltaic power generation module 1, it is possible to forcibly block sunlight from entering the light receiving surface 9.

  The light shielding member 20 is made of a thin film made of metal or synthetic resin, is manufactured in the same color as the light receiving surface 9 of the solar power generation module 1, and has a wavelength (400 to 1200 nm) effective for power generation of the solar power generation module 1. It blocks the incidence of sunlight.

Next, an equivalent circuit of the photovoltaic power generation system T will be described.
As shown in FIG. 5, one photovoltaic power generation module 1 connects, for example, 48 solar cells 4 inside the module body 2 in series between a pair of connection terminals 7a and 7b, and in series. The connected circuit is divided into three blocks, and a bypass diode 8 is connected in parallel with the block to constitute a circuit.

  In the solar power generation system T, a plurality of solar power generation modules 1A, 1B, 1C, and the like are arranged in series, and the connection terminal 7b of the solar power generation module 1A is connected to another adjacent solar power generation module 1B. The terminal 7a and the output wiring 5a, 5b are electrically connected, and the connection terminal 7b of the photovoltaic power generation module 1B is connected via the connection terminal 7a of another adjacent photovoltaic power generation module 1C and the output wiring 5a, 5b. Electrically connected.

  However, for example, when the solar power generation module 1B fails for some reason, the light receiving surface 9 of the solar power generation module 1B is covered with the light shielding member 20, the solar power generation module 1B is shielded from light, and power generation is stopped. It is necessary to disconnect the photovoltaic module 1B from the circuit.

  Therefore, the connection between the output positive electrode wiring 5a and the output negative electrode wiring 5b on the back surface 6 side of the solar power generation module 1B is disconnected, and the output negative electrode wiring 5b of the solar power generation module 1A and the output positive electrode wiring 5a of the solar power generation module 1C are connected. By directly connecting, the photovoltaic power generation module 1B is disconnected from the circuit.

  Even if the failed photovoltaic power generation module 1B is disconnected from the circuit, as long as the sunlight is radiated, power generation by the failed photovoltaic power generation module 1B itself is continued. If this is left for a long time, the bypass diode 8 deteriorates. The solar power generation module 1B may overheat and cause a fire, but this can be avoided by providing the light shielding member 20 in the failed solar power generation system 1B.

Next, the operation and effect of the photovoltaic power generation system T of the present invention will be described.
When an abnormality occurs in the photovoltaic power generation module 1B, the photovoltaic power generation system T is provided with a light shielding member 20 that covers the light receiving surface 9 of the photovoltaic power generation module 1B in which the abnormality has occurred, and the light shielding member 20 shields the light. Therefore, it is possible to prevent the solar power generation module 1B from generating power and overheating without replacing the solar power generation module 1B in which an abnormality has occurred. Safety is improved.

  Since the light receiving surface 9 of the photovoltaic power generation module 1B is covered with the light shielding member 20 to shield the light, the power generation can be stopped, so that the design of the appearance of the entire photovoltaic power generation system T can be maintained with a simple method and safe. Can be improved.

  The light blocking member 20 includes a main body 21 that covers the entire surface of the light receiving surface 9 of the solar power generation module 1, and four waters serving as a plurality of engaging portions of the frame portion 3 disposed on the outer peripheral portion of the solar power generation module 1. Since the plurality of engagement pieces 22 that can be engaged with the notch 10 for extraction are provided, it is possible to forcibly stop the power generation due to light reception of the solar power generation module 1B in which an abnormality has occurred in the main body 21. The light shielding member 20 can be easily positioned and attached to the light receiving surface 9 of the photovoltaic power generation module 1 </ b> B by the joining piece 22.

  Since the engagement piece 22 of the light shielding member 20 can be engaged with the water cutout portion 10 formed in the frame portion 3 disposed on the outer peripheral portion of the photovoltaic power generation module 1, it is newly engaged with the frame portion 3. Even if the portion is not formed, the solar power generation system T can be configured only by providing the light shielding member 20 in the existing solar power generation module 1.

Next, a mode in which the above embodiment is partially changed will be described.
[1] In the above-described embodiment, the light shielding member 20 made of metal or synthetic resin having a separate structure from the solar power generation module 1 is provided. A module that covers the light receiving surface 9 of the module 1 and can block sunlight can be appropriately employed. For example, the light shielding member may be configured by attaching a weatherproof sheet having a light shielding function to the glass surface of the light receiving surface 9.

[2] In addition, those skilled in the art can implement the present invention by adding various modifications without departing from the spirit of the present invention, and the present invention includes such modifications. It is.

DESCRIPTION OF SYMBOLS 1 Photovoltaic power generation module 3 Frame part 9 Light-receiving surface 10 Notch part 20 for water drainage Light-shielding member 21 Main-body part 22 Engagement piece

Claims (3)

In a solar power generation system configured by arranging a plurality of solar power generation modules,
When an abnormality occurs in the solar power generation module, a light shielding member that covers a light receiving surface of the solar power generation module in which the abnormality has occurred is provided, and power generation is stopped by shielding light from the light shielding member. Solar power system.   The light shielding member includes a plurality of engagements that can be engaged with a main body that covers the entire light receiving surface of the photovoltaic power generation module and a plurality of engagement portions of a frame portion that is disposed on the outer periphery of the photovoltaic power generation module. The solar power generation system according to claim 1, further comprising a piece.   The photovoltaic power generation system according to claim 2, wherein the engaging portion is formed of a notch portion for draining formed in the frame portion.