KR101134038B1 - Voltage tester of solar power generation system and connection board - Google Patents

Abstract

PURPOSE: A connector band equipped with a discrete current measuring apparatus of a solar cell generating system is provided to enable a user to individually check the state of light-collecting plates by the connection of ampere meters to each light-collecting plate. CONSTITUTION: A plurality of light-collecting plates and a plurality of ampere meters(30) are individually connected to each other through a wire. A + pole wire extended from the light-collecting plate is connected to a fuse breaker. A - pole wire extended from the light-collecting plate is connected to a diode. The diode is located on the upper part of the Bakelite which is phenol type synthetic resin. The Bakelite is located on the top of an aluminum heat sink of a corrugated duct structure. The + pole wire is connected to the + pole of the ampere meter. The - pole wire is connected to the - pole of the ampere meter through the diode.

Description

Voltage tester of solar power generation system and connection board with individual current measuring device

The present invention relates to a connection panel equipped with a measuring device for measuring the individual current of the photovoltaic power generation system, and more specifically, it is possible to check by measuring the voltage of each solar cell and to recognize when the failure in a separate circuit configuration The present invention relates to a connection panel equipped with an individual current measuring device of a photovoltaic power generation system configured to be easy and easy to maintain.

There are many kinds of energy we use, but most of the energy used by humans now depends on the fossil energy created by the remains of animals and plants that have been buried in the earth for many years.

Since the 19th century, mankind has used coal as energy to provoke a rapid industrial revolution. Subsequently, the use of energy has increased dramatically as it was replaced by fluid energy from oil and natural gas. Fluid energy is more convenient than coal, which is solid energy, and has no residual waste, and the price has been lowered due to the development of production technology. It is still occupying more than 85% of the total energy dependence worldwide.

However, because fossil fuels are heavily resource-dependent, depending on where they are stored on the planet, they are always unstable in terms of price and supply, and non-oil producing countries such as Korea are always plagued by the violent wave of oil surges. Also, once used fossil fuel is impossible to be regenerated and its reserves are limited, it will be exhausted one day. Carbon dioxide and sulfur dioxide generated during the combustion of fossil energy have the disadvantage of causing environmental pollution. Most factories still operate from the industrial revolution using fossil fuel as an energy source, and air pollution caused by exhaust gas from automobiles around the world is getting worse. Recognizing this as a serious situation, humanity is constantly working to reduce its dependence on fossil fuels and is working to develop an eco-friendly and undepleted energy source. As part of this, nuclear power is used as an alternative energy, hybrid vehicles are being developed and used, and studies are being actively conducted to create new energy using environmentally friendly natural energy without being exhausted such as solar, geothermal, wind, and hydropower. And some are reaching the application stage.

Among them, the present invention can be generated as much as necessary in the necessary place as a part of the photovoltaic power generation system to produce energy using sunlight, there is an advantage that easy maintenance. The photovoltaic power generation system is a power generation system that converts light and heat energy of the sun into electrical energy. The generated electricity is converted into alternating current electrical energy through a voltage converter. A large number of collecting plates are provided, and when the light is irradiated on a contact surface of a metal and a semiconductor or a pn junction of a semiconductor, it is common that each of the collecting panels using photovoltaic generation by photoelectric effect is provided with the above-described photovoltaic system. . The minimum unit of a solar cell is called a cell. The solar power generation system connects 10-30 units of battery modules in series to a light collecting plate formed by collecting a plurality of cells, and connects the proper number in parallel according to the installed capacity. The energy is converted into DC power and collected.

In order to generate more photovoltaic power generation, there is a connection panel equipped with an ammeter because it needs to be maintained in real time so that a solar cell generates DC electricity. However, the conventional measuring device of the connection panel is provided with only two volt (V) measuring system and amperes (A) measuring system has a lot of problems to check both the power and voltage of the plurality of light collecting plate. That is, it is not possible to know how much power and current flows in which part of the light collecting plate, and the part of the light collecting plate where a failure occurs due to the overload of current is not clearly known. There is a need for a connection panel equipped with an individual current measuring device of a photovoltaic power generation system that is easier to use.

The present invention has been devised to actively solve the above problems, and implements an individual current measuring device structure that can clearly grasp the power and voltage of each light collecting plate, and applying such individual current measuring device to the solar power generation system The challenge is to complete a structure that is easy to maintain and repair.

In the connection panel provided with the current measuring device of the photovoltaic power generation system configured to achieve the above problem

The connection panel 10 is characterized in that a plurality of ampere meter 30 for measuring the current is provided.

In addition, the ampere meter 30 is connected to one light collecting plate 130, characterized in that configured to be connected to each of the number of light collecting plates arranged.

In addition, a surge 110 is installed inside the connection panel 10.

According to the connection panel provided with the individual current measuring device of the photovoltaic power generation system of the present invention implemented in the above configuration, it is possible to measure the power and voltage of each light collecting plate more accurately and precisely, furthermore, photovoltaic power generation The effect is that the system is easy to maintain and repair.

1 is a view showing a connection panel of a conventional photovoltaic power generation system.
2 is a view showing a connection panel equipped with an individual current measuring device of the photovoltaic power generation system of the present invention.
Figure 3 is a view showing the internal arrangement of the connection panel with the individual current measuring device of the photovoltaic power generation system of the present invention.
Figure 4 is a view showing a state in which the connection panel with the individual current measuring device of the solar power generation system of the present invention is connected to the light collecting plate.

The present invention can measure the power and current of each light collecting plate more accurately and precisely by using a connection panel equipped with an individual current measuring device of the photovoltaic power generation system. Furthermore, the maintenance and repair of the photovoltaic power generation system is easy. Note that it is configured to.

Hereinafter, with reference to the accompanying drawings will be described in a batch about the configuration of the present invention and its effects, effects.

BRIEF DESCRIPTION OF THE DRAWINGS The advantages and features of the present invention, and how to accomplish them, will become apparent by reference to the embodiments described in detail below with reference to the accompanying drawings. However, the present invention is not limited to the embodiments disclosed below, but may be embodied in various forms, and only the present embodiments are provided to make the disclosure of the present invention complete, and are common in the art to which the present invention pertains. It is provided to fully inform those skilled in the art of the scope of the invention, which is to be defined only by the scope of the claims. Like reference numerals refer to like elements throughout the specification.

1 is a view showing a connection panel of a conventional photovoltaic power generation system, Figure 2 is a view showing a connection panel equipped with an individual current measuring device of the photovoltaic power generation system of the present invention, Figure 3 is a photovoltaic of the present invention 4 is a diagram illustrating an internal layout of a connection panel having an individual current measuring device of a power generation system, and FIG. 4 is a view illustrating a connection panel having an individual current measuring device of a solar power generation system connected to a light collecting plate.

As shown in Figures 2 to 4, in the photovoltaic power generation system applied to the present invention, the heat energy collected from the light collecting plate 130 is converted into electrical energy, and the state of the electrical energy is measured by the bolt meter 20 of the connection panel 10. And it can be identified by the ampere meter 30 to facilitate maintenance.

In order to help understanding of the present invention, each component will be described in detail based on the photovoltaic system 1 as follows.

First, referring to FIG. 4, a plurality of light collecting plates 130 are provided, and the wires 120 connected to each of the light collecting plates 130 are connected to the connection panel 10 to each of the ampere meters 30. The plurality of light collecting plates 130 may be disposed at a time in a predetermined area or may be divided in specific areas. In the use of the photovoltaic power generation system (1), the light collecting plate 130 is a device that collects sunlight as a point to obtain high thermal energy. Conventionally, the light collecting plate is installed on a roof or a large flat of a well-lit building. However, the size of the light collecting plate is considerable, and the ratio of occupying space is high, and thus a lot of constraints depend on the area of the site to be installed. In addition, as shown in FIG. 1, in the conventional photovoltaic power generation system, wires from a plurality of light collecting plates are all connected to one ampere meter provided in a connection panel, and thus, the state of the entire light collecting plate must be identified and managed by an ampere meter. It was. However, this measurement method was quite unstable. For example, when measuring with one amp meter connected to the wires from multiple light collecting plates, it is impossible to measure only part of the light collecting plate to determine whether the light collecting plate is a problem even if one light collecting plate does not operate smoothly due to failure or damage due to overload. They had to go to the place where the occupational light collecting plate was installed and grasped it with the naked eye. In the case of the problem inside the light collecting plate, it is difficult to identify the problem light collecting plate by the naked eye. In the conventional photovoltaic power generation system which always has such a problem, when the light collecting plate is disposed in a wide place or dividedly used in each place, a longer time will be spent on maintenance and repair.

In order to solve the problems caused as described above, the present invention is provided with an ampere meter 30 as many as the number of light collecting plate 130 provided to enable one ampere meter 30 to be connected to one light collecting plate 130.

First, referring to FIG. 3, the internal structure of the connection panel 10 equipped with the individual voltage measuring device is shown. The wires 120 extending from the light collecting plate 130 are + pole lines 120-1 and-pole lines ( 120-2) and the connection panel 10, respectively, so that the + pole 120-1 is connected to the fuse breaker 60, and the -pole 120-2 is connected to the heat sink 100.

The fuse breaker 60 is a device that cuts off the current when the current balance between the current pole and the neutral pole is broken. When the balance of current flow due to overload is broken, the fuse breaker 60 prevents electric shock and fire. have.

And the heat sink 100 is a portion that serves to smoothly discharge the heat generated from the polar line and circulate with cold air outside the connection panel 10 is made of aluminum and is a corrugated duct structure. Bakelite 80 is installed on the top of the heat sink 100. The bakelite 80 is a kind of phenolic synthetic resin, which is representative of thermosetting resins, and is used for electrical appliances, insulators, and the like. It also serves to block the flow and also -pole (120-2) is connected to the top of the bakelite 80 is connected to the diode 90 to help the current flow in the forward direction.

As described above, the fuse breaker 60 and the + pole 120-1 connected to the diode 90 and the-pole 120-2 connected to the diode 90 are connected to the ampere meter 30, respectively. Each number is arranged separately and connected. That is, the + pole line 120-1 and the-pole line 120-2 which are continued from the first light collecting plate 130 are connected to the connection panel 10, respectively, so that the + pole line 120-1 is connected to the fuse breaker 60. Subsequently, it is connected to the + pole of the ampere meter 30, and the -pole 120-2 is connected to the -pole of the ampere meter 30 through the diode 90 separately by the number of arrangement of the light collecting plate 130. Each continues.

Due to the structure as described above, unlike the connection panel of the photovoltaic power generation system which normally manages the voltages of all the light collecting plates only with one amp meter, each of the light collecting plates 130 is connected to each ampere meter 30 to directly check the status. And manage.

The shunt 70 is connected to the upper end of the pole pole 120-2. The shunt 70 allows two branch circuits to be connected to one circuit unit, that is, a circuit connection in parallel. It is connected to the + pole of, and the opposite pole of the circuit breaker is connected to the volt meter 20 through the eastern bar 50 is used when moving a large current.

In addition, a surge 110 is provided at the lower end of the connection panel 10 to protect against connection to the connection panel 10 by protecting against an instantaneous high voltage generated during operation of a power switch or lightning that occurs frequently during the summer rainy season. give.

The connection panel 10 is made of double doors using SUS (Steel Us Stainless) material, which is more firmly manufactured, and is provided with air vents on both sides to allow internal ventilation of the connection panel 10 and is insulated therein. It prevents insulation, short circuit and leakage with bakelite, epoxy panel, etc., and the upper lid part of the connection panel 10 is made of an inclined inclined surface, so that the front part has a high shape and the rear part has a low shape. This is to let it flow down to the rear part of (10).

Although the present invention described above has been described with reference to one embodiment shown in the drawings, this is merely exemplary, and various modifications and equivalent other embodiments may be made by those skilled in the art. Should be clarified. Therefore, the true technical protection scope of the present invention should be interpreted by the appended claims, and all technical ideas within the equivalent scope should be construed as being included in the scope of the present invention.

1: solar power system 10: connection board
20: Volt meter 30: Ampere meter
40: Breaker 50: Eastern Suba
60: fuse breaker 70: shunt
80: bakelite 90: diode
100: heat sink 110: surge
120: wire 120-1: + pole
120-2: Polar line 130: Light collecting plate
140: air vent

Claims (3)

In the connection board of the photovoltaic power generation system,
A plurality of light collecting plate 130 and ampere meter 30 is provided to be the same number, and each of the light collecting plate and the ampere meter are individually connected to each other through the wire 120, the wire 120 from the light collecting plate 130 + Pole (120-1) of the fuse breaker 60, and-pole (120-2) is connected to the diode 90, the diode is located on the bakelite (80) of the phenol-based synthetic resin, The bakelite is positioned above the aluminum heat sink 100 of the corrugated duct structure, so that the + pole 120-1 is connected to the fuse breaker 60 and then connected to the + pole of the ampere meter 30, and the -pole 120- 2) is a structure that is connected to the -pole of the ampere meter 30 through the diode 90 is connected to each of the number of the light collecting plate 130, the individual voltage measuring device of the solar power generation system, characterized in that the configuration Junction board. delete delete

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