KR200462229Y1 - Solar Power Generating Device - Google Patents

Abstract

The solar energy generator includes a hollow cylindrical insulating layer and a solid cylindrical conductive part partially surrounded by a conductive layer, and two electrodes electrically connected to the conductive layer and the conductive part, respectively, to terminate the conductive part. The solar energy generator is formed in the form of a plug-in module that can be easily mounted and detached from a circuit board, including a solar energy converter connected to the circuit board.

Description

Solar Power Generating Device

The present invention relates to a solar energy generating device, and more particularly to a solar energy generating device formed of a plug-in module to be easily mounted and detached on a circuit board.

Given the depletion of petrochemical fuels available on the planet and the deterioration of the greenhouse effect, energy sources that do not cause environmental pollution, such as hydro, wind, geothermal and solar thermal power generation, are being developed for commercialization. Among them, solar energy is used more frequently by people because they only need solar collector panels to collect solar energy. However, conventionally, in order to mount a solar collector panel, a user must first fix the support frame to the ground, and then fix the solar collector panel to the support frame. The user must also distinguish between the positive and negative poles of the solar collector panel and correctly connect the solar collector panel to a power consuming device or power accumulating means. Thus, in the past, mounting of solar collector panels involved a very complicated and difficult procedure. Likewise, the removal or replacement of solar collector panels requires, of course, a fairly complex and difficult procedure. Due to these drawbacks, conventional solar collector panels are not widely applied for other purposes.

Therefore, it has been attempted to develop a solar energy generating device that can be easily mounted and detached from a circuit board so that solar energy can be used more widely in people's daily life.

The technical problem of the present invention is to provide a solar energy generating device formed of a plug-in (plug-in) module to be easily mounted and detached on a circuit board.

Solar energy generating device according to an embodiment of the present invention for achieving the above object and other objects is a long bar (bar) conductive portion; A solar energy converter formed at an end of the conductive part such that a first electrode is in electrical contact with the end of the conductive part; A first insulating layer closer to the solar energy converter and fastened around a portion to which the conductive portion is coupled; And a conductive layer coupled around the first insulating layer, insulated from the conductive portion by the first insulating layer, and electrically connected to at least one second electrode of the solar energy converting portion.

The conductive portion is electrically connected to the first conductive layer formed on the substrate of the circuit board while the conductive portion portion which is not shielded by the first insulating layer is connected into the circuit board. Meanwhile, the conductive layer is insulated from the first conductive layer by a second insulating layer formed on the first conductive layer, and is in electrical contact with the second conductive layer formed on the second insulating layer.

The solar energy generator absorbs and converts solar energy into electrical energy, and transfers the converted electrical energy to the first and second conductive layers of the circuit board through the conductive part and the conductive layer, respectively.

According to the present invention, the solar energy generating device can be formed in the form of a plug-in module, and thus can be easily mounted and detached from the circuit board.

The structure and technical means employed by the present invention to achieve the above and other objects can be understood with reference to the following detailed description of the preferred embodiments and the accompanying drawings.

1 and 2 respectively show an exploded view and a coupling diagram of a solar energy generating device according to a first embodiment of the present invention, Figure 3 shows a plan view of FIG.

As shown, the solar energy generator according to the first embodiment of the present invention includes a solar thermal energy conversion unit 1, the conductive portion 2, the first insulating layer 3 and the conductive layer (4). The conductive portion 2 consists of a long bar, such as a solid cylindrical body, and is formed of a copper material. The solar energy converter 1 is arranged such that the first electrode 12 of the solar energy converter 1 is electrically connected to an end of the conductive portion 2. The first insulating layer 3 is a pupil-shaped cylinder that is closer to the solar energy conversion section 1 than the conductive section 2 and is coupled around a portion of the conductive section 2. The conductive layer 4 is a pupil-shaped cylinder made of aluminum material bonded around the first insulating layer 3 so as to be insulated from the conductive portion 2. The solar energy converter 1 includes at least one second electrode 11 electrically connected to the conductive layer 4. With such an arrangement, the solar generator according to the present invention is actually in the form of a plug-in module. The solar energy converter 1 includes the first electrode 12 and the second electrode 11 and absorbs sunlight to generate electrical energy. The solar energy converter 1 may be any power generation device that absorbs sunlight and converts it into electrical energy, such as a solar cell.

4 is a combined perspective view of a solar energy generating device according to a second embodiment of the present invention. As shown, the solar energy generating apparatus according to the second embodiment of the present invention is generally similar to the solar energy generating autonomy according to the first embodiment except for the solar collection hood 5. The solar collection hood 5 is surrounded at the end of the solar energy generating device on which the solar energy converting unit 1 is mounted so as to focus the sunlight on the solar energy converting unit 1 and increase the amount of solar energy generation. The solar collection hood 5 also protects the solar energy converter 1 from harmful elements of the surrounding environment.

5 and 6 are a perspective view and a cross-sectional view showing a case where the solar energy generating device according to the second embodiment of the present invention is mounted on a circuit board, respectively. As shown, the end of the conductive portion 2 facing the solar energy conversion unit 1 is aligned with the pre-formed insertion hole 61 on the circuit board 6, and the solar energy generating device into the circuit board 6. By connecting, the solar energy generating device according to the present invention can be easily attached to the circuit board 6.

As can be clearly seen in FIG. 6, in the circuit board 6, the substrate 65, the second conductive layer 64, the second insulating layer 63, and the first conductive layer 62 are sequentially formed on the substrate. It is formed. When the solar energy generating device according to the present invention is connected in the insertion hole 61 on the circuit board 6, a portion of the conductive portion 2 which is not shielded by the first insulating layer 3 is formed of the circuit board 6. In contact with the first conductive layer 62 formed on the substrate 65, the conductive layer 4 is insulated by the second insulating layer 63 in electrical contact with the first conductive layer 62. . In contrast, the conductive layer 4 is in electrical contact with the second conductive layer 64 on the second insulating layer 63.

The solar energy converter 1 absorbs solar energy, converts the absorbed solar energy into electrical energy, and the converted electrical energy supplies power or power to another power consuming element (not shown) on the circuit board 6. In order to store electric power in the accumulation means (not shown), the electric power is transferred to the first conductive layer 62 and the second conductive layer 64 via the conductive portion 2 and the conductive layer 4, respectively. Therefore, the solar energy generating device according to the present invention can be expanded and applied widely. In addition, the solar energy generating device according to the present invention connected to the circuit board 6 is not only fixedly supported by the circuit board 6 but also correctly contacted with the circuit board 6.

7 shows a solar energy generating device according to a third embodiment of the present invention. In order to enable the rapid manufacture of the solar energy generating device according to the present invention, the conductive layer 4 is bonded around the first insulating layer 3 via a rolling process. The solar energy generating device according to the present invention manufactured in this way has an opening 41 formed in the conductive layer 4.

In the solar energy generating device according to the present invention, a pupil-shaped cylindrical conductive layer is coupled around another hollow cylindrical conductive portion, and an insulating layer is located therebetween. Thus, the solar energy generator is formed in the form of a plug-in module that can be easily mounted and detached from a circuit board. By this arrangement the invention is a new and improved industrially valuable design.

1 is an exploded perspective view of a solar energy generating device according to a first embodiment of the present invention,

2 is a coupling diagram of FIG.

3 is a plan view of FIG.

4 is a combined perspective view of a solar energy generating device according to a second embodiment of the present invention,

5 is a view showing a case in which the solar energy generating device of Figure 4 mounted on a circuit board,

6 is a cross-sectional view of the solar energy generator of FIG. 4 mounted on a circuit board;

7 is a combined perspective view of a solar energy generating device according to a third embodiment of the present invention.

Claims (6)

A long bar-shaped conductive portion; A solar energy converter formed at an end of the conductive part such that a first electrode is in electrical contact with the end of the conductive part; A first insulating layer closer to the solar energy converter and fastened around a portion to which the conductive portion is coupled; And And a conductive layer coupled around the first insulating layer, insulated from the conductive portion by the first insulating layer, and electrically connected to at least one second electrode of the solar energy converting portion. Wherein the conductive portion is electrically connected to a first conductive layer formed on a substrate of the circuit board while the portion of the conductive portion which is not shielded by the first insulating layer is connected into the circuit board, The conductive layer is insulated from the first conductive layer by a second insulating layer formed on the first conductive layer, and in electrical contact with a second conductive layer formed on the second insulating layer, The solar energy converter converts sunlight into electrical energy and transfers the converted electrical energy to the first and second conductive layers of the circuit board through the conductive part and the conductive layer, respectively. Solar energy generator. The method of claim 1, The solar energy generating device further comprises a solar collection hood mounted to an end of a conductive part including the solar energy converting unit and configured to focus the solar light on the solar energy converting unit. The method of claim 1, The conductive portion is a solar energy generating device, characterized in that the hollow cylindrical body. The method of claim 1, And the conductive portion is formed of a copper material. The method of claim 1, And the conductive layer is fastened around the first insulating layer by a rolling process. The method of claim 1, And the conductive layer is formed of an aluminum material and fastened around the first insulating layer.

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