JP2006278425A - Photovoltaic power generating system - Google Patents

Abstract

<P>PROBLEM TO BE SOLVED: To provide a portable photovoltaic power generating system, with which the safety of the output terminal portion is ensured. <P>SOLUTION: The photovoltaic power generation system 50 comprises a solar cell panel frame 2, and a battery pack 3. The battery pack 3 is provided with a power supply output terminal 3b. The power supply output terminal 3b supplies power to an external battery 5. The battery pack 3 has an opening 3a on the surface. The power supply output terminal 3b is provided on the inside of the opening 3a. Consequently, safety is ensured when the photovoltaic power generation system 50 is used, and a plug 20 can be inserted easily into the power supply output terminal 3b. <P>COPYRIGHT: (C)2007,JPO&INPIT

Description

  The present invention relates to a portable solar power generation system.

  In recent years, various energy utilization methods have been reviewed from the viewpoint of global environmental measures. In particular, solar cells that use solar energy are expected to represent clean energy supply sources. In general, a power generation system using solar cells is installed on the roof of a house or the wall surface of a building, and when the required power consumption cannot be provided by a commercial power source alone, it supplies the insufficient power. Plays.

On the other hand, in a portable solar power generation system used as an independent power source outdoors such as a campsite or a beach, safety and weight reduction are required.
JP 2003-115602 A Japanese Patent Laid-Open No. 10-303446 JP 2001-95178 A JP 2004-88403 A

  As for the independent power source used outdoors such as a campsite and a beach, a solar cell module including a solar cell panel, a storage battery, a controller, and an inverter are independent products. Therefore, it is inconvenient to use for portable use. Therefore, there is a demand for an integrated solar power generation system in which a solar cell module and a storage battery are electrically coupled and can be carried.

  In addition, the storage battery is required to ensure the safety of the output terminal portion during use, and is required to have a performance that can be efficiently charged even outdoors. Further, a solar cell module that is lightweight and easy to carry is required.

  The present invention has been made in view of the above-described problems, and an object thereof is to provide an integrated solar cell system in which safety is ensured. Another object is to provide a solar power generation system that can be charged efficiently even outdoors. Yet another object is to provide a photovoltaic system that is lightweight and easy to carry. Yet another object is to provide a solar power generation system in which heat generated by the solar battery panel is difficult to be transferred to the storage battery.

  A photovoltaic power generation system according to one aspect of the present invention includes a solar cell panel frame having a solar cell panel constituted by a plurality of solar cells, an electrical connection with the solar cell panel, and power to an external device. A power supply unit having a power output terminal for supply. The power supply unit has an opening on the surface thereof, and a power output terminal is provided inside the opening. According to this, safety at the time of use of the solar cell system is ensured, and insertion of the connector of the power cable into the power output terminal is easy.

  The above-described photovoltaic power generation system further includes a power output terminal cover that can slide to close the opening and shield the power output terminal, and the power output terminal cover shields the power output terminal. The power output terminal cover is a switch that determines whether or not to supply power from the power supply unit to the external device so that power is supplied from the power supply unit to the external device only when it is in the state. It is desirable that According to this, when power is supplied from the power supply unit to the external device, the power output terminal unit is shielded, so that power is always supplied in a safe state.

  A solar power generation system according to another aspect of the present invention includes a solar cell panel frame having a solar cell panel composed of a plurality of solar cells, and a solar cell panel so as to be electrically connected to the solar cell panel. And a power supply unit that can be mounted on the back surface of the solar cell panel frame located on the back side of the light receiving surface. Moreover, one connection terminal part of a pair of connection terminal part which electrically connects a solar cell panel and an electric power supply part is provided so that it may protrude from the back surface of a solar cell panel frame. Moreover, the opening part which connects the space in one connection terminal part and the exterior is provided in the bottom face of one connection terminal part. According to this, the water droplet accumulated in one connection terminal part can be automatically poured outside from an opening part. As a result, the occurrence of an accident caused by the accumulation of water at one of the connection terminals is prevented.

  A solar power generation system according to still another aspect of the present invention includes a solar cell panel frame having a solar cell panel composed of a plurality of solar cells, and a solar cell panel so as to be electrically connected to the solar cell panel. And a power supply unit that can be attached to the back surface of the solar cell panel frame located on the back side of the light receiving surface. In addition, the solar cell panel frame is provided with a stand portion that can change and fix the angle formed by the light receiving surface and the ground. Moreover, when the stand part is functioning, a part of solar cell panel frame body and a part of stand part are in contact with the ground. The power supply unit is formed in a shape that does not contact the ground between a part of the solar cell panel frame and a part of the stand. According to this, it is possible to prevent the occurrence of inconvenience that the power supply unit becomes an obstacle during power generation and the light receiving surface cannot be directed in an arbitrary direction. Therefore, the efficiency of charging outdoors is improved.

  A photovoltaic power generation system according to another aspect of the present invention includes a solar cell panel frame having a solar cell panel constituted by a plurality of solar cells, and a solar cell panel so as to be electrically connected to the solar cell panel. And a power supply unit that can be mounted on the back surface of the solar cell panel frame located on the back side of the light receiving surface. Moreover, one connection terminal part of a pair of connection terminal part which electrically connects a solar cell panel and an electric power supply part is provided so that it may protrude from the back surface of a solar cell panel frame. In addition, the solar cell panel frame is provided with a stand portion that can change and fix the angle between the light receiving surface and the ground. Moreover, when the stand part is functioning, a part of solar cell panel frame body and a part of stand part are in contact with the ground. Moreover, one connection terminal part is formed in the shape which does not contact the ground between a part of solar cell panel frame and a part of stand. According to this, it is possible to prevent the occurrence of inconvenience that one connection terminal portion becomes an obstacle during power generation and the light receiving surface cannot be directed in an arbitrary direction. Therefore, the efficiency of charging outdoors is improved.

  A photovoltaic power generation system according to yet another aspect of the present invention is a solar cell panel frame having a solar cell panel composed of a plurality of solar cells, and a solar cell panel so as to be electrically connected to the solar cell panel. And a power supply unit having a power output terminal that can be attached to the back surface of the solar cell panel frame located on the back side of the light receiving surface. The solar cell panel and the power supply unit are in contact with only a part of the surfaces facing each other. According to this, the inconvenience that the influence of the heat generation of the solar battery panel is transmitted to the power supply unit during power generation and the temperature of the power supply unit rises is prevented.

  In the above-described solar power generation system, it is desirable that the solar cell panel and the power supply unit face each other through a cavity that is open to the outside when mounted. According to this, since it is possible to release heat from the open end of the hollow portion, it is possible to more reliably suppress the temperature rise of the power supply unit.

  Hereinafter, the photovoltaic power generation system according to the embodiment of the present invention will be described with reference to the drawings.

  The solar power generation system 50 of this Embodiment is provided with the solar cell panel frame 2 which has the solar cell panel 1 comprised with a some solar cell, as shown in FIG. 1 and FIG. The solar power generation system 50 includes a battery pack 3 as a power supply unit. Further, the battery pack 3 is attached to the back surface of the solar cell panel frame 2 located on the back side of the light receiving surface of the solar cell panel 1, for example, and thereby electrically connected to the solar cell panel 1. Moreover, the battery pack 3 has a storage battery inside. Therefore, the electric power generated by the solar cell panel 1 is charged in the storage battery inside the battery pack 3. The battery pack 3 also has a power output terminal 3b for supplying power to the external storage battery 5 or the like as an external device. Therefore, after the charging of the storage battery inside the battery pack 3 is completed, the electric power generated by the solar cell panel 1 is charged to the external storage battery 5.

  Further, the battery pack 3 has an opening 3 a on the surface thereof when mounted on the solar cell panel 1. The aforementioned power output terminal 3b is provided inside the opening 3a. In the photovoltaic power generation system 50 shown in FIG. 1, the plug 20 is inserted into the opening 3a in the direction indicated by the arrow in the figure. At this time, since the power output terminal portion 3b is provided at a position deeper than the opening portion 3a, an accident such as an electric shock is prevented from occurring due to an incorrect usage by the user. However, the insertion of the plug 20 of the power cable into the power output terminal 3b is as easy as the insertion of a household plug.

  Note that the battery pack 3 shown in FIG. 1 has an opening 3a facing downward. Therefore, there is no possibility that dust and rainwater will flow into the power output terminal portion 3b from the opening 3a.

  In addition, as shown in FIG. 7 described later, the solar cell panel frame 2 is provided with a stand portion 3 that can change and fix the angle formed by the light receiving surface of the solar cell panel 1 and the ground 100. The stand part 3 rotates about a hinge part 13 provided on the back surface of the solar cell panel frame 2 as a fulcrum. Further, the relative positional relationship between the hinge portion 13 and the stand portion 3 is fixed by the frictional force between them. Therefore, the angle formed by the stand unit 3 and the light receiving surface of the solar cell panel 1 can be changed, and the angle formed by the stand unit 3 and the light receiving surface of the solar cell panel 1 can be kept constant.

  Further, as shown in FIG. 3, the photovoltaic power generation system 50 further includes a power output terminal cover 7 that slides to close the opening 3a and shields the power output terminal 3b, unlike the structure shown in FIG. It may be a structure. Further, power is supplied from the battery pack 3 to the external storage battery 5 as an external device only when the power output terminal cover 7 shown in FIG. 3 is in a state of shielding the power output terminal 3b. In addition, the power output terminal 3 b is a switch that determines whether or not to supply power from the battery pack 3 to the external storage battery 5. According to this, when power is supplied from the battery pack 3 to the external storage battery 5, the power output terminal portion 3b is shielded, so that power is always supplied in a safe state.

  According to the photovoltaic power generation system having the structure shown in FIG. 3, the plug 20 and the power output terminal cover 7 move together with the plug 20 inserted in the power output terminal cover 7. The direction of insertion and the moving direction of the power output terminal cover 7 are the same.

  However, as shown in FIG. 4, the plug 20 is inserted in the direction indicated by the arrow A from the opening 3a having the structure shown in FIG. 2 and coupled to the power output terminal 3b, and the power output terminal cover 7 is connected to the power terminal portion. In order to shield 3b, you may move to the direction shown by the arrow B different from the insertion direction of the plug 20. FIG. That is, the direction in which the plug 20 is inserted and the moving direction of the power output terminal cover 7 may be different.

  Further, as shown in FIGS. 5 and 6, the solar cell panel 2 and the battery pack 3 are in contact with only a part of the surfaces facing each other. That is, according to the battery pack 3 shown in FIGS. 5 and 6, the concave portion 9 is provided at a position from the center portion to the upper end portion of the battery pack 3, and only the periphery of the concave portion 9 is provided in the solar cell panel frame 2. In contact. According to this, the heat produced | generated in the solar cell panel 1 during electric power generation is transmitted in large quantities to the battery pack 3, and the problem that the temperature of the battery pack 3 rises significantly is prevented.

  Further, in the solar cell system 50, a cavity having an open upper end is formed between the battery pack 3 and the solar cell panel frame 2. That is, the space formed by the recess 9 between the back surface of the solar cell panel frame 2 and the back surface of the battery pack 3 communicates with the external space above the solar cell panel frame 2. In addition, the slide mechanism is comprised by the two groove parts 3c provided in the battery pack 3, and the two convex strips 10 provided in the back surface of the solar cell panel frame 2. As shown in FIG. The groove 3c and the ridge 10 slide while being fitted to each other. Therefore, the battery pack 3 is pulled out from the back surface of the solar cell panel frame 2 to the upper end side.

  This slide mechanism can relatively move the solar cell panel frame 2 and the battery pack 3 in the direction indicated by the arrows in FIGS. 5 and 6. The solar cell panel 1 and the battery pack 3 are used for attachment and detachment. According to this, the solar cell panel 1 and the battery pack 3 can be easily attached and detached. Further, heat is easily released from the hollow portion having the open end on the upper side of the slide mechanism to the outside of the solar cell system 50. Therefore, an excessive temperature rise of the battery pack 3 can be suppressed.

  Moreover, as shown in FIG. 6, the protrusion part 4 which protrudes from the back surface of the solar cell panel frame 2 is provided. The protruding portion 4 is provided with a connecting terminal portion 4a as one connecting terminal portion of a pair of connecting terminal portions 3d and 4a that electrically connect the solar cell panel 1 and the battery pack 3. Moreover, the opening part 12 which connects the space in the connection terminal part 4a and the exterior is provided in the bottom face of the connection terminal part 4a. According to this, water droplets accumulated in the connection terminal portion 4a can be automatically flowed from the opening 12 to the outside.

  Moreover, when the stand part 3 is functioning, as shown in FIG. 7, the lower part of the solar cell panel frame 2 and the end part of the stand part 4 are in contact with the ground. Moreover, as shown in FIG. 7, each of the lower end 8 and the protrusion part 4 of the battery pack 3 may not contact the ground 100 between the lower part of the solar cell panel frame 2 and the end part of the stand part 3. is necessary. Therefore, it is desirable that the lower end 8 and the protruding portion 4 of the battery pack 3 are formed in a shape such as an arc shape or a slope shape, for example. According to this, since the battery pack 3 and the protruding portion 4 as the connection terminal portion come into contact with the ground 100 during power generation, it is possible to prevent the inconvenience that the light receiving surface cannot be directed in an arbitrary direction. Therefore, the efficiency of charging outdoors is improved.

  Moreover, said solar power generation system 50 has two or more solar cell panel frame 2 with which the solar cell panel 1 was provided, as shown by the arrow of FIG. The structure may include a hinge portion 15 that rotates so as to face each other or to be positioned on the same plane. According to this, since the solar cell system 50 can be folded at the time of non-use, the solar power generation system 50 can be reduced in size.

  In addition, although the description of the solar power generation system that can be mounted on the back surface of the solar cell panel frame has been made as an embodiment, the embodiment disclosed this time is illustrative and restrictive in all respects. It should be considered not. The scope of the present invention is defined by the terms of the claims, rather than the description above, and is intended to include any modifications within the scope and meaning equivalent to the terms of the claims.

It is a perspective view which shows the front which shows the solar cell panel of the solar energy power generation system of embodiment. It is a perspective view which shows the back surface of the solar energy power generation system of embodiment. It is a perspective view which shows the back surface of the photovoltaic power generation system of the other example of embodiment. It is a perspective view which shows the back surface of the photovoltaic power generation system of the further another example of embodiment. It is a schematic diagram which shows the back surface of the solar cell panel frame and battery pack of the solar energy power generation system of embodiment. FIG. 4 is a cross-sectional view of the solar battery system shown in FIGS. 2 and 3 during installation of the battery pack. It is a side view at the time of use of the photovoltaic power generation system of an embodiment. It is a perspective view of the photovoltaic power generation system of another example of embodiment.

Explanation of symbols

  DESCRIPTION OF SYMBOLS 1 Solar cell panel, 2 Solar cell panel frame, 3 Battery pack, 3a Opening part, 3b Power output terminal part, 3c Groove, 4 Protrusion part, 4a Connection terminal part, 5 External storage battery, 6 Opening part, 7 Output power supply terminal Cover, 8 Lower end of battery pack, 9 recess, 10 ridge, 12 opening, 13 hinge.

Claims (7)

A solar cell panel frame having a solar cell panel composed of a plurality of solar cells;
A power supply unit electrically connected to the solar cell panel and having a power output terminal for supplying power to an external device;
The power supply unit has an opening on the surface thereof.
The photovoltaic power generation system, wherein the power output terminal is provided inside the opening. A power output terminal cover that slides to close the opening and can shield the power output terminal;
Only when the power output terminal cover is in a state of shielding the power output terminal, the power output terminal cover is provided with the power so that power is supplied from the power supply unit to the external device. The photovoltaic power generation system according to claim 1, wherein the photovoltaic power generation system is a switch that determines whether power is supplied from the supply unit to the external device. A solar cell panel frame having a solar cell panel composed of a plurality of solar cells;
A power supply unit that can be attached to the back surface of the solar cell panel frame located on the back side of the light receiving surface of the solar cell panel so as to be electrically connected to the solar cell panel;
One connection terminal portion of a pair of connection terminal portions that electrically connect the solar cell panel and the power supply unit is provided so as to protrude from the back surface of the solar cell panel frame,
A photovoltaic power generation system, wherein an opening for communicating a space in the connection terminal portion with the outside is provided on the bottom surface of the one connection terminal portion. A solar cell panel frame having a solar cell panel composed of a plurality of solar cells;
A power supply unit that can be mounted on the back surface of the solar cell panel frame located on the back side of the light receiving surface of the solar cell panel so as to be electrically connected to the solar cell panel;
The solar cell panel frame is provided with a stand that can change and fix an angle formed by the light receiving surface and the ground,
When the stand part is functioning, a part of the solar cell panel frame and a part of the stand part are in contact with the ground,
The said electric power supply part is a photovoltaic power generation system currently formed in the shape which does not contact the said ground between a part of said solar cell panel frame, and a part of said stand. A solar cell panel frame having a solar cell panel composed of a plurality of solar cells;
A power supply unit that can be mounted on the back surface of the solar cell panel frame located on the back side of the light receiving surface of the solar cell panel so as to be electrically connected to the solar cell panel;
One connection terminal portion of a pair of connection terminal portions that electrically connect the solar cell panel and the power supply unit is provided so as to protrude from the back surface of the solar cell panel frame,
The solar cell panel frame is provided with a stand that can change and fix the angle between the light receiving surface and the ground,
When the stand part is functioning, a part of the solar cell panel frame and a part of the stand part are in contact with the ground,
The one connection terminal portion is a photovoltaic power generation system formed between the part of the solar cell panel frame and the part of the stand so as not to contact the ground. A solar cell panel frame having a solar cell panel composed of a plurality of solar cells;
A power supply unit having a power output terminal attachable to the back surface of the solar cell panel frame located on the back side of the light receiving surface of the solar cell panel so as to be electrically connected to the solar cell panel;
The solar battery panel and the power supply unit are solar power generation systems in which only a part of surfaces facing each other is in contact.   The solar power generation system according to claim 6, wherein the solar battery panel and the power supply unit are opposed to each other through a cavity that is open to the outside when the solar cell panel and the power supply unit are attached to each other.

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