KR20210093022A - Measurement system for preventing separation of solarcell module and structure - Google Patents

Abstract

The present invention relates to a solar module and structure separation prevention measurement system. The separation prevention measurement system rapidly measures and detects whether the solar module is separated from a structure, thereby preventing an accident. The solar module and structure separation prevention measurement system detects whether horizontal and vertical states of a structure are normal due to strong winds or earthquakes, calculates vibration intensity and vibration magnitude as data when a solar module is separated from the structure by the strong winds or earthquakes to detect that the solar module is separated from the structure if the vibration intensity and the vibration magnitude are more than predetermined values, continuously measures wind speed, and receives signals detected from a position detection sensor, a vibration sensor, and a wind speed sensor and transmits them to an external terminal.

Description

Measuring system for preventing separation of solar modules and structures {MEASUREMENT SYSTEM FOR PREVENTING SEPARATION OF SOLARCELL MODULE AND STRUCTURE}

The present invention relates to a photovoltaic module and a structure departure prevention measuring system, and more specifically, a photovoltaic module and structure capable of preventing safety accidents in advance by quickly measuring and detecting whether the photovoltaic module is separated from a structure. It relates to a departure prevention measurement system.

In general, a city that can be said to be an agglomeration of modern civilization is composed of a form that cannot live even for a moment without energy.

However, a method of obtaining a third energy source has been developed due to a lack of resources, and thus, a method of obtaining electric energy by collecting sunlight as a method has been proposed.

That is, photovoltaic power generation is performed by condensing sunlight on a photovoltaic module, which is an assembly of solar cells, and converting it into electricity.

A solar module is a kind of solar panel and is called a solar module, etc., and there are a general type, a window type, a tracking type, a hybrid type (type in parallel with other clean energy power generation means), and the like.

Solar power generation using such a photovoltaic module is performed by the photovoltaic effect, and when n-type doping on silicon crystals and irradiating sunlight to a solar panel having a pn junction, the electron- An electromotive force is generated by the hole, which is called the photovoltaic effect.

As many solar panels are connected in series and parallel as desired, the desired power is created and used. A system that stores DC power in a storage battery and uses it when necessary is called an individual photovoltaic power generation system or an independent photovoltaic power generation system. When used, it is called a grid-connected solar power generation system.

In particular, the DC power stored in the storage battery is converted into AC power through an inverter device and then supplied to a power consuming device such as a lamp.

1 is a view showing a structure to which a solar module according to the prior art is coupled.

The structure 1 to which the photovoltaic module according to the prior art is coupled is, as shown in FIG. 1, a plurality of support frames 1a that are vertically fixed to the roof or floor of a building and spaced apart from each other at regular intervals, and a plurality of a vertical frame (1b) provided with a predetermined distance from each other and disposed in the vertical direction, both ends of which are respectively coupled to the upper end of the support frame (1a), and a plurality of vertical frames (1b) provided in plurality and arranged in the horizontal direction at a predetermined distance from each other so that both ends have a plurality of ends It is composed of a horizontal frame (1c) each coupled to the inner surface of the vertical frame (1b).

At this time, the vertical frame (1b) and / or the horizontal frame (1c) may be made of a C-beam shape, the vertical frame (1b) and / or the horizontal frame (1c) is formed with fastening holes (H) penetrating up and down. .

2 is a view showing a solar module according to the prior art, (a) shows the upper surface, (b) shows the lower surface.

Figure 2 (a) shows the upper surface of the photovoltaic module (2), and shows a state in which the solar cells (2a) are constantly arranged, (b) of Figure 2 is the lower part of the photovoltaic module (2) As a surface, it shows that a plurality of fastening grooves (G) are formed at regular intervals along the circumference of the base frame (2b) in the form of a picture frame made of aluminum.

3 is a view showing a state in which a photovoltaic module according to the prior art is coupled to a structure, and a fastening mechanism such as a bolt passing through a fastening hole (H) formed in the horizontal frame 1c of the structure 1 is a photovoltaic module (2) shows a state in which the photovoltaic module (2) is coupled to the structure (1) by being fastened to the fastening groove (G) formed in the base frame (2b) of the lower surface of (2).

The photovoltaic module and structure configured as described above are shaken by strong winds or earthquakes, and there is a problem in that they are damaged by fatigue accumulation due to such continuous shaking or blown away by strong winds due to loosening of bolts.

KR 20-0479259 Y1 (2016.01.15.Announcement)

The present invention has been devised to solve the various problems of the prior art as described above, and a photovoltaic module and structure that can prevent a safety accident in advance by quickly measuring and detecting whether the photovoltaic module is separated from the structure An object of the present invention is to provide a departure prevention measurement system.

In order to achieve the above objects, the present invention is a plurality of support frames that are vertically fixedly installed on the roof or floor of a building and spaced apart from each other at regular intervals, and are provided in plurality and arranged in the vertical direction at regular intervals from each other, but at both ends Photovoltaic coupled to a structure composed of a vertical frame each coupled to the upper end of the support frame, and a horizontal frame provided in plurality and disposed in the horizontal direction at a predetermined distance from each other so that both ends are respectively coupled to the inner surface of the plurality of vertical frames A system for measuring various data values in order to prevent the module from departing from the structure, and a position detection sensor is installed in the plurality of support frames to detect whether the horizontal and vertical states of the structure are normal due to strong winds or earthquakes And, by installing a vibration sensor in the vertical frame and/or horizontal frame, when the solar module is separated from the structure by a strong wind or earthquake, the vibration intensity and the vibration magnitude are calculated as data and if it is above a certain value, the solar module is the structure A wind speed sensor is installed at the top of the vertical frame and/or horizontal frame to continuously measure the wind speed, and a controller is provided on one side of the structure to detect the position detected from the sensor, vibration sensor and wind speed sensor. It provides a solar module and a structure departure prevention measurement system, characterized in that receiving a signal and transmitting it to an external terminal.

In addition, the controller is provided with a wireless communication module and transmits the signals sensed from the position sensor, the vibration sensor, and the wind speed sensor to the user's terminal, so that the user is preferably monitored in real time.

In addition, it is preferable that the vertical frame and/or the horizontal frame is made of C-shaped steel.

According to the means for solving the above problems, the present invention has the following effects.

The present invention is made to receive real-time data from a position detection sensor, a wind speed sensor, and a vibration sensor installed in a structure to which a solar module is coupled to the controller, so that a safety accident can be prevented by quickly measuring whether the solar module is separated from the structure. It has the effect of preventing it from happening in advance.

1 is a view showing a structure to which a solar module according to the prior art is coupled.
2 is a view showing a solar module according to the prior art, (a) shows the upper surface, (b) shows the lower surface.
3 is a view showing a state in which the solar module according to the prior art is coupled to the structure.
Figure 4 is a view schematically showing a solar module and structure separation prevention measurement system according to the present invention.

Hereinafter, a preferred embodiment of the solar module and the structure departure prevention measurement system according to the present invention will be described in detail based on the accompanying drawings. For reference, the terms and words used in the present specification and claims are not to be construed as being limited to their ordinary or dictionary meanings, and the inventor must properly understand the concept of the term in order to best describe his invention. Based on the principle that it can be defined, it should be interpreted as meaning and concept consistent with the technical idea of the present invention. In addition, the configurations shown in the embodiments and drawings described in this specification are only the most preferred embodiment of the present invention, and do not represent all of the technical spirit of the present invention, so at the time of the present application, various It should be understood that there may be equivalents and variations.

Figure 4 is a view schematically showing a solar module and structure separation prevention measurement system according to the present invention.

The solar module and structure separation prevention measuring system according to the present invention is, as shown in FIG. 4, a plurality of support frames 11 that are vertically fixed to the roof or floor of a building and are spaced apart from each other at regular intervals, and a plurality of A vertical frame 12 is provided and disposed in the vertical direction at a predetermined distance from each other, both ends are respectively coupled to the upper end of the support frame 11, and a plurality of vertical frames are provided and arranged in the horizontal direction at a predetermined distance from each other so that both ends have a plurality of ends In order to prevent the solar module 20 coupled to the structure 10 composed of the horizontal frame 13 coupled to the inner surface of the vertical frame 12 from departing from the structure 10, various data values are measured. done to be able to

The photovoltaic module 20 is a solar cell (solar-cell) integrated, and typically a glass plate and a sheet or plate-shaped solar cell are stacked on the inside of a rectangular frame-shaped base frame, and photovoltaic power from the solar cell is stacked on the rear surface thereof. A box-shaped power collecting box (not shown) for collecting the power generated by the effect to the charging regulator and the battery is provided.

The support frame 11 has different members depending on the installation scale, but generally uses a square tube having excellent durability and corrosion resistance of 100 × 100 mm.

A position detection sensor (S1) is installed in the plurality of support frames (11) to detect whether the horizontal and vertical state of the structure (10) is normal due to strong winds or earthquakes. As the position detection sensor (S1), a horizontal detection sensor and a vertical sensor are employed, and since such a horizontal sensor and a vertical sensor are commonly used technologies, a description thereof will be omitted.

The vertical frame 12 has different members depending on the installation scale, but generally uses a square tube having excellent durability and corrosion resistance of 75 × 75 mm, and the horizontal frame 13 uses a 75 mm C-shaped steel.

In addition, fastening holes are formed in the vertical frame 12 at regular intervals along the longitudinal direction, so that a fastening mechanism such as a bolt passes through the fastening hole and is fastened to the fastening groove formed in the base frame of the solar module 20 .

In such a vertical frame 12 and/or horizontal frame 13, a vibration sensor S3 is installed, and when the solar module 20 is separated from the structure 10 due to a strong wind or an earthquake, the vibration intensity and the magnitude of the vibration are measured. , and if it is greater than a predetermined value, it is detected that the solar module 20 is separated from the structure 10 .

The vibration sensor S3 is an element that converts an electric signal suitable for the purpose, such as measuring or controlling vibration, and detects vibration of a mechanical structure and a moving body.

Applicable sensors are determined according to the vibration source and frequency of the vibration sensor S3, and the most widely used methods are the piezoelectric acceleration method and the cantilever vibration method.

The piezoelectric acceleration method is suitable for fast vibration, and the cantilever vibration method is suitable for slow vibration and weak vibration.

In the case of cantilever beams, there are many methods of obtaining output by attaching a confined mass to the free end and attaching a strain gauge near the fixed end.

In addition, the wind speed sensor (S2) is installed at the upper end of the vertical frame 12 and/or the horizontal frame 13 to continuously measure the wind speed.

Such a wind speed sensor S2 is also called an anemometer, and a Robinson anemometer and a Dynes anemometer have been used in the past.

On the other hand, a controller (C) is provided on one side of the structure 10 to receive the signals sensed from the position detection sensor (S1), the wind speed sensor (S2) and the vibration sensor (S3) and transmit it to an external terminal such as a smartphone. .

At this time, the controller (C) is provided with a wireless communication module and transmits the signals sensed from the position detection sensor (S1), the wind speed sensor (S2) and the vibration sensor (S3) to the user's terminal, so that the user can use the structure 10 in real time. It is possible to monitor the departure of the solar module 20 from the.

As such, it is possible to prevent a safety accident in advance by quickly measuring whether the solar module 20 is separated from the structure 10 .

The present invention described above is not limited by the above-described embodiment and the accompanying drawings, and various substitutions, modifications, and changes are possible without departing from the technical spirit of the present invention. It will be clear to those of ordinary skill in the art.

10: structure 11: support frame
12: vertical frame 13: horizontal frame
20: solar module 21: solar cell
22: base frame S1: position sensor
S2 : Wind speed sensor S3 : Vibration sensor
C: Controller

Claims (3)

A plurality of support frames fixed vertically on the roof or floor of a building and spaced apart from each other at regular intervals, a plurality of vertical frames arranged in the vertical direction with a certain distance from each other, both ends of which are coupled to the top of the support frame, , a plurality of solar modules coupled to a structure composed of a horizontal frame arranged in a horizontal direction at a predetermined distance from each other and having both ends coupled to the inner surface of a plurality of vertical frames, respectively, to prevent separation from the structure. A system for measuring data values, comprising:
A position sensor is installed in the plurality of support frames to detect whether the horizontal and vertical states of the structure are normal due to strong winds or earthquakes,
A vibration sensor is installed in the vertical frame and/or the horizontal frame to calculate the vibration intensity and vibration magnitude as data when the solar module is separated from the structure due to a strong wind or earthquake. If it exceeds a certain value, the solar module is separated from the structure sense that it has been
A wind speed sensor is installed at the top of the vertical frame and/or horizontal frame to continuously measure the wind speed,
A solar module and structure departure prevention measuring system, characterized in that by providing a controller on one side of the structure, receiving the signals sensed from the position detection sensor, the vibration sensor and the wind speed sensor and transmitting the received signal to an external terminal.
The method according to claim 1,
The controller is provided with a wireless communication module and transmits the signals sensed from the position sensor, the vibration sensor, and the wind speed sensor to the user's terminal, whereby the user is monitored in real time.
The method according to claim 1,
The vertical frame and/or the horizontal frame is a photovoltaic module and structure separation prevention measurement system, characterized in that made of C-shaped steel.

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