JP3177813U - Solar energy bag - Google Patents

Abstract

A solar energy bag having a low cost and a low impairment rate is provided.
A solar energy bag includes a solar energy collecting module that can be expanded and folded, and a portable storage bag that can store the solar energy collecting module after being folded. A power storage device 33 is installed in the portable storage bag 30, the power storage device 33 and the solar panel 12 of the solar energy collection module 10 are connected, and the solar energy collection module 10 collects and arranges a predetermined number of solar panels 12, It is configured to be fixed to the flexible substrate 11. With this configuration, the solar energy collection module 10 at the time of deployment can provide a sufficient solar energy collection area, converts the solar energy into electric energy, stores it in the power storage device 33, and the solar energy collection module 10 is folded and made smaller. However, it can be stored and carried in the portable storage bag 30.
[Selection] Figure 1

Description

  The present invention relates to a solar energy collection module, and particularly employs a solar energy collection module that can be folded and unfolded, and a portable storage bag that houses the folded solar energy collection module. The portable storage bag is connected to the solar energy collection module. The present invention relates to a portable solar energy bag including a power storage device and including an adapter that converts the power of the power storage device into general household power.

  Many methods of producing electricity cause environmental pollution problems. For this reason, attention has been focused on methods of converting to electric power using natural energy (solar energy, wind power, etc.). However, in household power, the installation area required for facilities capable of generating power using solar energy is very large, and the cost of the facilities is very high. For this reason, the industry has changed the viewpoint and is developing a compact solar energy collection module that can supply power to home appliances, computers, and 3C products. The compact solar energy collection module also realizes convenience in carrying.

  If the solar energy collection rate can be increased and the power generation capacity can be increased while achieving the two objectives of carrying convenience and downsizing of the solar energy collection module, the product should have high market competitiveness. is there. Adopting flexible thin-film solar panels can achieve the objectives described above, but it is costly and has a high impairment rate, which is a challenge facing the industry today. The present invention has been made in view of the above-described drawbacks of conventional solar energy collection modules.

The first problem to be solved by the present invention is a solar energy collecting module which can convert solar energy into electric energy and store it, collect solar panels, arrange them and install them on a flexible substrate, which can be deployed and folded The solar energy collection module at the time of deployment can provide a sufficient solar energy collection area, can be folded and made small and stored in a portable storage bag, and the deployment and folding of the solar energy collection module can The goal is to provide a solar energy bag that is not damaged and that has a lower cost and a lower impairment rate than the flexible thin film solar panels of the prior art.
The second problem to be solved by the present invention is to provide an adapter capable of converting the stored electric power to ordinary household electric power, and the electric power stored by the solar energy bag through the adapter is a low power consumption home appliance, portable 3C product. Is to provide solar energy bags that are provided for use.

In order to solve the above problems, the present invention provides the following solar energy bag.
Solar energy bag is equipped with solar energy collection module, mobile storage bag, adapter,
The solar energy collection module includes a flexible base material, and a predetermined number of solar panels are fixed to the flexible base material one by one by angular positioning components on the flexible base material, and between the adjacent solar panels. Is provided with a predetermined interval, thereby forming a folded portion of the flexible base material,
Each of the solar panels is provided with a power output line, which is concentrated inside the flexible substrate, and finally gathers in the perforations previously installed on the surface of the flexible substrate, and then out. Go out,
The portable storage bag includes a storage installation space in which the solar energy collecting module after folding can be stored, and a sealing part that seals the portable storage bag. Install the device storage
The power output line going out from the flexible base is connected to the power storage device through a transmission module (power cord, outlet, plug, etc.),
The adapter is connected to the power storage device through another transmission module (power cord, outlet, plug, etc.), and the adapter converts the DC power of the power storage device into AC power, or a low power consumption home appliance, or Provide for the use of portable 3C products.

  In the solar energy bag of the present invention, the solar energy collection module can be expanded and folded, and the solar energy collection module at the time of deployment can provide a sufficient solar energy collection area, and can be folded and stored in a portable storage bag. Compared to conventional flexible thin-film solar panels, both the cost and impairment rate are low, and because it has an adapter that can convert the stored power to general household power, Can be provided for portable 3C products.

It is a three-dimensional exploded view showing a developed state of the solar energy collecting module of the present invention. It is a three-dimensional exploded view showing the folded state of the solar energy collection module of the present invention. It is a front three-dimensional external view of this invention portable storage bag. It is a back three-dimensional external view of this invention portable storage bag. It is a schematic diagram which shows the use condition of this invention.

  The best mode for carrying out the present invention will be described below in detail with reference to the drawings.

  The solar energy bag of the present invention includes a solar energy collection module 10 and a portable storage bag 30 that houses the solar energy collection module 10.

  As shown in FIGS. 1 and 2, the solar energy collection module 10 includes a flexible substrate 11. The predetermined number of solar panels 12 are fixed to the flexible base material 11 one by one by the angular localization component 13 on the flexible base material 11. Between the solar panels 12 adjacent to each other, a predetermined interval is provided, whereby the folding portion 14 of the flexible base material 11 is formed. Each solar panel 12 includes a power output line 15. The power output lines 15 are concentrated inside the flexible base material 11, and finally gather in the perforations 16 previously set on the surface of the flexible base material 11 and go out. The solar energy collecting module 10 can be folded using the folding part 14 of the flexible base material 11 to form the folded state shown in FIG. When in the folded state, the solar panel 12 is wrapped and protected by the flexible base material 11. When the solar energy collecting module 10 is used, the flexible substrate 11 is unfolded as shown in FIG. 1 so that the light collecting surfaces of all the solar panels 12 can receive solar energy.

  As shown in FIGS. 3 and 4, the portable storage bag 30 includes a storage installation space 31 that can store the folded solar energy collection module 10, and a sealing part 32 that seals the portable storage bag 30. In this embodiment, the sealing part 32 is a fastener. In the portable storage bag 30, a power storage device storage portion 34 used for storing the power storage device 33 is installed. The power output line 15 exiting from the flexible substrate 11 is connected to the power storage device 33 through the transmission module 151 (power cord, outlet, plug, etc.). The solar energy collection module 10 converts the solar energy into electric energy and stores it in the power storage device 33. As shown in FIG. 5, the adapter 40 is connected to the power storage device 33 through the transmission module 41 (power cord, outlet, plug, etc.), and the stored energy (DC current) of the power storage device 33 is converted into electric power for general households ( Switch to AC power). Thereby, electric power is provided for use of low power consumption home appliances and portable 3C products.

  As shown in FIGS. 3 and 4, the user can easily hold the portable storage bag 30 by connecting the handle 35 to the portable storage bag 30. The back of the portable storage bag 30 is further provided with a pull handle insertion installation portion 36 for installing an extendable pull handle 37. Accordingly, the telescopic pull handle 37 and casters (not shown) can be installed, and the user can pull the portable storage bag 30 and carry it.

  The names and contents of the present invention described above are only used for explaining the technical contents of the present invention, and do not limit the present invention. All equivalent applications based on the spirit of the present invention, parts (structures) conversion, replacement, and quantity increase / decrease shall be included in the protection scope of the present invention.

DESCRIPTION OF SYMBOLS 10 Solar energy collection module 11 Flexible base material 12 Solar panel 13 Square localization component 14 Folding part 15 Power output line 151 Transmission module 16 Perforation 30 Portable storage bag 31 Storage installation space 32 Sealing part 33 Power storage device 34 Power storage device storage part 35 Holding Hand 36 Pull handle insertion installation part 37 Telescopic pull handle 40 Adapter 41 Transmission module

Claims (3)

The solar energy bag includes a solar energy collection module and a portable storage bag, the solar energy collection module includes a flexible substrate, and a predetermined number of solar panels are
By the angular localization component on the flexible base material, it is fixed to the flexible base material one by one, between the solar panels adjacent to each other, with a predetermined interval,
Thereby, the folding part of the flexible base material is formed, each of the solar panels is provided with a power output line, and the power output line is concentrated inside the flexible base material,
Eventually, gathered during drilling pre-installed on the surface of the flexible substrate, go out, the portable storage bag is a storage installation space that can store the solar energy collection module after folding,
And a sealing part for sealing the portable storage bag, and inside the portable storage bag, a power storage device storage unit used for storing the power storage device is installed,
A solar energy bag, wherein the power output line that goes out of the flexible base is connected to the power storage device through a transmission module.   The solar energy bag according to claim 1, wherein the solar energy bag further includes an adapter, and the adapter is connected to the power storage device through a transmission module.   The solar energy bag according to claim 1, further comprising a pull handle insertion installation portion for installing an extendable pull handle on a back surface of the portable storage bag.

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