KR102098150B1 - Mobile Solar Generation Apparatus with Container Structure - Google Patents

Abstract

The present invention provides a movable photovoltaic device having a container structure that can be installed to fold a solar panel and can be slidably installed in a basic housing in a rectangular parallelepiped shape to increase the installation area and is convenient for installation and movement.
The mobile solar power generation device of the container structure of the present invention is a basic housing formed in a rectangular parallelepiped shape, a top solar panel and a front solar panel formed foldably and installed on the front and upper surfaces of the basic housing, and a longitudinal sliding on the basic housing A plurality of movable frames that are installed to be movable, a plurality of side solar panels that are foldably formed and installed on the movable frame, and a plurality of supporting panels for the solar panels in a state in which the upper end is rotatably installed and erected on the bottom of the border of the solar panel It includes a support, a hybrid converter installed on one side of the interior of the basic housing and electrically connected to the solar panel, and a battery installed on one side of the basic housing and connected to the hybrid converter to store electricity generated.

Description

Mobile Solar Generation Apparatus with Container Structure

The present invention relates to a container-structured mobile photovoltaic device, and more specifically, it is possible to expand or fold a solar panel according to need, change it to a use state and a storage state, and move the container-structured portable sun to be conveniently installed. It relates to a photovoltaic device.

Photovoltaic power generation is a method of producing electricity using light energy from the sun. When light energy is irradiated to a photovoltaic cell, electricity is produced by generating electricity while electrons flow through the photovoltaic cell.

The photovoltaic device is configured to produce a large amount of electricity by connecting multiple photovoltaic cells (modules) connected again.

In order to install a photovoltaic device, a large site purchase cost is required, and when installing on a hill or mountain slope where sunlight is well generated, the natural environment is destroyed.

And, the conventional photovoltaic device is not only cumbersome and time-consuming to install, but it is very difficult to move and install it as necessary.

Recently, a technology for producing small-scale electricity by installing a solar panel in a small size in a container has been provided.

For example, the Korean Registered Patent Publication Nos. 10-1481941, 10-1584980, 10-1812211, Patent Publication Nos. 10-2016-0002561, 10-2017-0142638, etc. Techniques for the device are disclosed.

Conventional small-sized photovoltaic power generation equipment is a technology for producing electricity by simply installing a small solar panel on the roof of a container, and there is no advantage in terms of convenience of installation work.

The present invention has been made in view of the above points, and it is possible to increase the installation area by installing a slidable solar cell panel and slidably installing it on a basic housing in a rectangular parallelepiped shape, and to facilitate installation and movement. To provide a mobile photovoltaic power generation device, it has a purpose.

In addition, the present invention provides a container-structured mobile photovoltaic device capable of increasing power production compared to an installation area by installing a solar panel in two stages.

Container-structured mobile photovoltaic device according to an embodiment of the present invention includes a basic housing formed in a rectangular parallelepiped shape, a top solar panel and a front solar panel, which are foldably formed and installed on the front and top surfaces of the basic housing, and the basic A plurality of movable frames that are slidably installed in the housing in the longitudinal direction, a plurality of side solar panels that are foldably formed and installed in the movable frames, and an upper end rotatably installed and erected on the bottom of the rim of the solar panel A plurality of supports for supporting a solar panel in a state, a hybrid converter installed on one side of the interior of the basic housing and electrically connected to the solar panel, and installed on one side of the interior of the basic housing and connected to the hybrid converter to be generated Including battery to store electricity Is done.

The moving frame may be configured to slide while being pulled out to the left side of the basic housing, and may be configured to slide while being pulled out to the right side of the basic housing.

The moving frame may be configured to have a structure that is sequentially withdrawn in two or more stages.

The support may be configured and installed so that the length can be adjusted.

The support can be configured to adjust the length in a folded and unfolded manner, it is also possible to configure to adjust the length in a multi-stage pull-out.

The basic housing is divided into two parts of an interior space, and a movable frame on which a side solar panel is installed is slidably installed on one part, and a hybrid converter, a battery and a generator are installed on the other part, and another basic The housing is slidably installed with a moving frame in which side solar panels are installed on both sides around the center.

According to the container-structured movable photovoltaic device according to the embodiment of the present invention, since the solar panel is foldable to form a movable frame, it is possible to insert the movable frame into the interior of the basic housing when the solar panel is folded. , Since it is possible to form a container structure of a rectangular parallelepiped as a whole, it is possible to lift the forklift, fork crane, crane, etc. and move it to the required place while loading it on a truck.

In addition, according to the container-structured mobile photovoltaic device according to the embodiment of the present invention, the installation work is completed only by spreading the solar panel in a folded state and then standing and supporting the support, so installation and recovery work is very quick and convenient Is done.

And, according to the container-structured mobile photovoltaic device according to the embodiment of the present invention, since it is possible to install in two stages continuously at regular intervals, it is possible to increase power generation compared to the installation area.

1 is a perspective view showing a storage state of a mobile photovoltaic device having a container structure according to an embodiment of the present invention.
Figure 2 is a block diagram showing a mobile solar power generation device of a container structure according to an embodiment of the present invention.
3 is a perspective view showing a state of use of a container-structured mobile photovoltaic device according to an embodiment of the present invention.
4 is a partially enlarged perspective view showing a state in which a solar panel is folded or unfolded in a container-structured mobile photovoltaic device according to an embodiment of the present invention.
5 is a partially enlarged perspective view showing a state in which a support is configured in a multi-stage withdrawal type in a container-structured mobile photovoltaic device according to an embodiment of the present invention.
6 is a container structured mobile photovoltaic device according to an embodiment of the present invention, showing a state in which a mobile frame and a hybrid converter, a battery and a power generation device installed inside a basic housing are configured differently and used as a set It is a partial sectional perspective view which cut off the upper surface.

Next, a preferred embodiment of a container structure movable solar power generation device according to the present invention will be described in detail with reference to the drawings.

The present invention can be implemented in various various forms, and is not limited to the embodiments described below.

Hereinafter, in order to clearly describe the present invention, a detailed description is omitted for parts not closely related to the present invention, and the same reference numerals are assigned to the same or similar components throughout the description of the present invention, and repeated description is omitted. .

First, the container structure movable solar power generation apparatus according to an embodiment of the present invention, as shown in Figures 1 to 4, the basic housing 10, the top solar panel 32 and the front solar panel 34 And a plurality of moving frames 20, a plurality of side solar panels 36, a plurality of supports 50, a hybrid converter and an inverter 62, and a battery 64.

The basic housing 10 is formed in a rectangular parallelepiped shape.

For example, the basic housing 10 may be formed in a container box shape.

The basic housing 10 may be composed of only a skeleton except for the bottom surface.

The basic housing 10 may also be configured in a shape that shields the bottom surface and some side or top surfaces.

The skeleton constituting the basic housing 10 is preferably configured to function as a locking jaw supported by the upper solar panel 32 and the front solar panel 34 using “L” shaped steel.

The upper solar panel 32, the front solar panel 34, and the side solar panel 36 are formed and installed in a foldable manner.

For example, the upper solar panel 32, the front solar panel 34, and the side solar panel 36 are folded around the central portion in the width direction and can be formed to be folded and unfolded. It is also possible to form a folded or unfolded fold that can be folded or unfolded three times.

In the above, as the number of times of folding of the upper solar panel 32, the front solar panel 34, and the side solar panel 36 increases, the advantage that the unfolded area can be formed wider is obtained, but the overall weight increases and , There is a disadvantage that there is an increased risk of electrical or mechanical damage or damage in the folding portion.

The upper solar panel 32 is provided with one edge rotatably coupled to the upper surface of the basic housing 10.

For example, the upper solar panel 32 is configured such that the corner positioned at the front side is rotatably coupled to the upper front corner of the basic housing 10 using a hinge or a hinge structure.

The front solar panel 34 is rotatably coupled to one edge at the front of the basic housing 10.

For example, the front solar panel 34 is configured such that the corner located on the upper surface is rotatably coupled to the upper upper corner of the basic housing 10 using a hinge or a hinge structure.

The movable frame 20 is installed in the basic housing 10 to be slidable in the longitudinal direction.

The moving frame 20 may be configured to slide while being pulled out to the left side of the basic housing 10, and may be configured to slide while being pulled out to the right side of the basic housing 10.

For example, as shown in FIGS. 3 and 4, the basic housing 10 and the moving frame 20 are configured as a pair, and the left basic housing 10 is configured with a moving frame 20 so as to be pulled out to the left side. In addition, it is also possible to configure the moving frame 20 to be drawn out to the right side of the basic housing 10 on the right side, so that the moving frame 20 is drawn out to both sides.

The movable frame 20 is provided with a side solar panel 36 formed in a foldable manner and coupled with one edge rotatable.

For example, the side solar panel 36 is configured such that the corner located on the upper surface is rotatably coupled to the upper upper corner of the moving frame 20 using a hinge or a hinge structure.

In addition, as shown in FIGS. 3 and 4, the moving frame 20 may be configured to have a structure that is sequentially withdrawn in two or more stages.

For example, as shown in FIGS. 1 and 3 to 4, the moving frame 20 is composed of two stages, and the moving frame 20 composed of two stages is formed on one basic housing 10. It is also possible to configure by installing a set.

When configured as described above, the side solar panel 36 installed in the front two-stage moving frame 20 is unfolded and deployed forward, and the side solar panel 36 installed in the rear two-stage moving frame 20 is It is possible to configure it so that it unfolds high toward the back so that sunlight is not disturbed.

Here, when the solar panel is installed in two stages, the hinge can be pivoted or installed by sliding up and down.

In addition, the plurality of supports 50 are installed on the bottom surface of the upper solar panel 32, the front solar panel 34, and the side solar panel 36.

The support 50 is installed in a state that the upper end is rotatably coupled to the bottom surface of the upper solar panel 32, the front solar panel 34, and the side solar panel 36.

The support 50 may be configured and installed so that the length can be adjusted.

For example, the support 50 may be configured to adjust the length in a folded and unfolded manner.

And, as shown in Figure 5, the support 50 may be configured to adjust the length in a multi-stage pull-out.

When configured and installed to adjust the length of the support 50 as described above, it is also possible to install the top solar panel 32, the front solar panel 34, and the side solar panel 36 unfolded in a shape parallel to the ground. It is possible, and it is also possible to install in the shape of a ground and a slope.

In FIG. 3, the top solar panel 32, the front solar panel 34, and the side solar panel 36 are shown to be formed by installing inclined surfaces inclined toward one side, but embodiments of the present invention are not limited thereto. It is also possible to install in a planar shape parallel to the piece by adjusting the length of each of the supporters 50 correspondingly, and it is also possible to install in a triangular shape inclined to both sides.

The hybrid converter and inverter 62 and the battery 64 are installed inside one of the basic housing.

For example, by shortening the length of the movable frame 20 rather than the length of the basic housing 10, an installation space is formed in the basic housing 10, and the hybrid converter and inverter are installed in the installation space. It is possible to arrange and install the 62 and the battery 64.

In the above, when a pair of basic housings 10 are attached and installed so that the withdrawal direction of the moving frame 20 is reversely installed, the hybrid converter 62 and the battery 64 installed in both the basic housings 10 are adjacent to each other. Since it is located, it is possible to more easily configure the entire wiring.

2, the hybrid converter 62 is electrically connected to the upper solar panel 32, the front solar panel 34, and the side solar panel 36, and the battery 64 is the hybrid It is configured to store electricity generated in connection with the converter and the inverter 62.

The hybrid converter and the inverter 62 may also be connected to a load such as a lighting fixture 68 or a motor 69 for using electricity stored in the battery 64.

In addition, the hybrid converter and the inverter 62 may be installed by connecting a generator 66 of a method other than solar power.

When a separate generator 66 is installed as described above, electricity is produced even when there is insufficient sunlight or an abnormality occurs in the upper solar panel 32, the front solar panel 34, and the side solar panel 36. Since the battery can be charged, it is easy to cope with an emergency.

       The present invention uses a solar panel as the primary supply to supply power to each load using solar power, charges the surplus to the battery, and uses the battery 64 when the electricity production of the solar panel is insufficient as the secondary supply. As a supplement, when the charge of the solar panel and the battery is insufficient as the tertiary supply, it is preferable that the generator 66 is operated by an external power source to supplement the power supplied to the load stage.

The container-structured mobile photovoltaic device according to an embodiment of the present invention configured as described above can be easily loaded into a truck using a forklift truck or a crane, etc. in a folded and inserted storage state as shown in FIG. 1 to a required place. It is possible to move.

Then, in the state of getting off in a storage state at the installation place, the mobile frame 20 is withdrawn from the basic housing 10, then the side solar panel 36 is unfolded and the support 50 is erected to support the side sun The installation operation of the panel 36 is made.

In addition, the installation work of the upper solar panel 32 and the front solar panel 34 is performed by spreading the upper solar panel 32 and the front solar panel 34 and supporting the stand 50.

When the upper solar panel 32, the front solar panel 34, and the side solar panel 36 are expanded as described above, as shown in FIG. 3, a use state is configured.

The change from the use state to the storage state as described above is folded to the top solar panel 32, the front solar panel 34, and the side solar panel 36, respectively, and fixed to the basic housing 10 and the moving frame 20. In addition, by folding all of the support 50, the top solar panel 32, the front solar panel 34, and fixed to the state in close contact with the rim of the side solar panel 36, the moving frame 20 to the basic housing ( It is made simply by inserting into the inside of 10).

Therefore, the container structure of the mobile solar power generation device according to an embodiment of the present invention is very easy to install and organize the solar panel.

And, as shown in Figure 6, the container structure movable solar power generation apparatus according to an embodiment of the present invention it is also possible to configure the basic housing 10 in two types in one set.

For example, one basic housing 10 divides the internal space into two parts and slidably installs a moving frame 20 on which one side solar panel 36 is installed, and a hybrid converter 62 on the other part. ), The battery 64 and the generator 66 are configured to be installed, and the other basic housing 10 is a center of the center side of the solar panel 36 on both sides sliding the movable frame 20 is installed It is also possible to install as possible.

In the above, it is also possible to install only the hybrid housing 62 and the basic housing 10 for installing only the moving frame 20 in one of the basic housing 10 for installing the battery 64 and the generator 66, and the like. And, it is also possible to install a plurality of the basic housing 10 to install only the moving frame 20 in a corresponding state.

When configured as described above, the installation space can be efficiently utilized, and the product configuration is compared to installing the hybrid converter 62, the battery 64, the generator 66, and the like in each basic housing 10. It is possible to significantly reduce costs.

In the above, a preferred embodiment of the container structure movable solar power generation device according to the present invention has been described, but the present invention is not limited to this, and various modifications are made within the scope of the claims and the description of the invention and the accompanying drawings. It is possible, and this also falls within the scope of the present invention.

10-Basic housing
20-moving frame
32-upper solar panel,
34-Front solar panel
36-Side solar panel
50-support
62-Hybrid converter and inverter
64-battery
66-generator
68-Lighting equipment
69-motor

Claims (5)

Basic housing formed in a cuboid shape,
A top solar panel and a front solar panel, which are foldably formed and installed on the front and top surfaces of the basic housing;
A plurality of moving frames are installed to enable sliding movement in the longitudinal direction on the basic housing,
A plurality of side solar panels formed and installed foldably on the moving frame,
A plurality of support for supporting the solar panel in a state in which the upper end is rotatably installed and erected on the bottom surface of the rim of the solar panel,
A hybrid converter installed on one side of the basic housing and electrically connected to the solar panel;
It is installed on one side of the interior of the basic housing and includes a battery that stores electricity generated by being connected to the hybrid converter and a generator that generates electricity and supplements electricity when power supplied to a load is insufficient.
The moving frame is configured to slide while being pulled out to the left side or right side of the basic housing, and is composed of a structure that is sequentially withdrawn in two or more stages,
The upper solar panel is configured such that the corner located at the front side is rotatably coupled to the front front corner of the basic housing using a hinge or a hinge structure.
The side solar panel installed on the moving frame of the front 2nd stage is spread out to the front, and the side solar panel installed on the moving frame of the rear 2nd stage is configured to spread out higher than the front side to receive sunlight well.
The side solar cell panel is formed of a foldable one-sided container structure movable solar power device, characterized in that installed in a rotatable state using a hinge or hinge structure. delete delete The method according to claim 1,
The support is movable in the container structure, characterized in that configured to be able to adjust the length of the solar power device. The method according to claim 1,
The basic housing is divided into two parts of the interior space, and a movable frame on which a side solar panel is installed is slidably installed on one part, and a hybrid converter and inverter, a battery and a generator are installed on the other part, and another one is installed. The basic housing of the container structure is a movable solar power generation device of a container structure, characterized in that the movable frame on which the side solar panels are installed on both sides is slidably installed.

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