KR101978840B1 - Backpack for Charging Energy using Solar Cell and Piezoelectric Element - Google Patents

Abstract

The present invention relates to an energy charging backpack, and in particular, to an energy charging backpack using sunlight and piezoelectric devices, which is an energy charging technology using sunlight and piezoelectric devices, has a hand warmer function, enables a real-time monitoring of location information, secures safety, does not reduce a unique accommodating function, and enables various design deployments. To this end, the backpack having shoulder straps to be carried over the shoulders comprises: a solar cell which is detachably attached to the outer surface to generate energy by sunlight; a piezoelectric device which is placed on the bottom and generates energy by a load of stuff in the inside; a flexible battery embedding overcharge prevention device which stores energy generated from the solar cell and the piezoelectric device; a planar heating element which is provided in a side pocket and heats by energy supplied from the flexible battery embedding overcharge prevention device; and a control unit which controls heat of the planar heating element.

Description

BACKGROUND OF THE INVENTION 1. Field of the Invention [0001] The present invention relates to a backpack for charging energy using a solar cell and a piezoelectric element,

More particularly, the present invention relates to an energy-charging backpack, and more particularly, to an energy-charging technology utilizing sunlight and a piezoelectric element, which has a handwarmer function, real-time monitoring of location information, safety, Energy-backed backpacks that use solar and piezoelectric elements that can be deployed in a variety of ways.

It is necessary to develop a functional bag that protects and carries the product safely in case of unexpected accident while increasing the number of users who carry various IT equipment such as notebook, tablet PC and mobile phone.

Especially, the workers who are doing business activities are exposed to such safety accidents due to frequent external activities due to business trips. Therefore, it is required to develop a smart backpack for a work bag.

Meanwhile, the existing IT bag with charging technology is a simple concept that charges the electronic equipment after obtaining the energy by mounting the solar cell on the backpack. This is because the capacity of the accumulated solar energy This is because it is used only as a simple charging function because it is not relatively large.

There is a disadvantage in that the solar battery bag that is commercially available has relatively poor electric efficiency, and some products require charging for more than 12 hours when charging the smartphone, so that the energy efficiency tends to deteriorate.

There are many cases where the solar cell itself is applied as a design element, such as attaching a solar cell to the front of the bag, as a method for increasing the capacity of the solar cell energy. Not only in terms of design but also in the aspect of design can not be brought back to consumers' demands may result.

(Hereinafter referred to as Patent Publication No. 2014-0141095) has been developed. However, when supplying power to a communication module for transmitting position information of a bag to a communication device, It is only the degree of the technology to use it.

KR Patent Publication No. 2014-0141095 (December 10, 2014)

The present invention has been proposed in order to solve the problems of the prior art as described above, and it is an object of the present invention to provide a piezoelectric element which is excellent in efficiency of charging energy, And it is also intended to provide an energy-charging backpack using solar energy and piezoelectric elements that can be hand-worn by an application with other charging energy and position-tracking when lost.

In order to achieve the above object, the present invention provides an energy-charging backpack comprising a sunlight and a piezoelectric element. The backpack includes a shoulder strap and is attached to the back of the bag. The backpack is detachably attachable to the outer surface, Cell; A piezoelectric element disposed on the floor and generating energy by a load of an internal object; A flexible battery with an overcharge protection device for storing energy generated from the solar cell and the piezoelectric device; A surface heating element provided in the side pocket and generating heat by energy supplied from the flexible battery with the overcharge protection device; And a control unit for controlling heat generation of the planar heating element; And a control unit.

Here, the wireless communication device may further include a communication unit, wherein the control unit controls the heat generation of the surface heat emission element in cooperation with the application for the mobile communication device.

The control unit transmits location information in cooperation with an application for a mobile communication device.

The energy-charged backpack using the solar light and the piezoelectric element of the present invention having the above-described structure exhibits the following useful effects.

First, in addition to the solar charging method, the efficiency of the charging energy is excellent because the piezoelectric element energy charging considering the shock and vibration of the internal storage object is added.

Second, the charging energy enables the handwarmer function of Side Pocket to be controlled and lost position tracking by applications that can be executed on smart devices.

Third, the adoption of the flexible battery equipped with the overcharge prevention device not only secures the safety but also enables various designs to be developed without deteriorating the original storage function.

1 is a view showing an energy-charging backpack using solar light and a piezoelectric element according to the present invention;
2 is a configuration diagram showing an energy-charging backpack using sunlight and a piezoelectric element according to the present invention.

DETAILED DESCRIPTION OF THE PREFERRED EMBODIMENTS Hereinafter, preferred embodiments of the present invention will be described in detail with reference to the accompanying drawings. In describing the present embodiment, the same names are used for the same components, and further description thereof will be omitted.

FIG. 1 is a view showing an energy-charging backpack using sunlight and a piezoelectric element according to the present invention, and FIG. 2 is a diagram showing a configuration of an energy-charging backpack using sunlight and a piezoelectric element according to the present invention.

As shown in FIGS. 1 and 2, an energy-charging backpack using solar light and a piezoelectric element according to the present invention is related to a backpack having a shoulder strap and carrying it on its back.

The present invention comprises a solar cell 100, a piezoelectric element 200, a flexible battery 300 with an overcharge protection device, an area heating element 400, and a control unit 500.

The solar cell 100 is detachably attached to the outer surface of the backpack and generates energy by sunlight.

The attachment and detachment can be variously known methods such as a Velcro type or a snap button, and can be easily attached to the optimum position of the outer surface of the backpack by considering the sunlight and the traveling direction of the user by attaching and detaching.

A piezoelectric element 200 is disposed at the bottom of a backpack and generates energy by a load of an internal object.

The piezoelectric element 200 is particularly placed at the bottom portion, and receives an impact due to the shock when storing or walking the object, or when the bottom portion of the backpack touches the other bottom surface.

Here, the bottom portion may include the bottom of the entire space of the backpack as well as the bottom of each of the storage spaces provided separately in the backpack.

A flexible battery 300 having an overcharge protection device is provided with an overcharge prevention device (CID, PTC) for storing energy generated from the solar cell 100 and the piezoelectric device 200, A flexible secondary battery is used.

The flexible battery 300 is preferably a lithium ion battery. The flexible battery 300 is flexible and can be disposed in a curved portion of a backpack. Various designs can be developed without deteriorating the inherent design.

The surface heating element 400 is provided in a side pocket 410 of a backpack and generates heat by energy supplied from the flexible battery 300 with the overcharge protection device.

A side pocket 410 warmed by the heating fabric 400 can perform a hand-stall function by inserting a user's hand.

The controller 500 generally controls the heat generation of the planar heating element 400, the pre-charge state of the flexible battery 300, and the like.

The controller 500 further includes a communication unit 600 for communicating with the application 700 for a mobile communication device such as a smart phone, Can be easily controlled.

At this time, the application 700 is dedicated software that can be downloaded and executed from the mobile communication device, and is configured to control ON / OFF of the heat generating function of the surface heating element 400 and control of the heat generation step.

The controller 500 may be configured to transmit location information in cooperation with the application 700 for the mobile communication device so that the location information of the backpack can be monitored in real time and the location information can be tracked when lost.

In this case, the communication unit 600 may be configured to transmit a GPS signal to the mobile communication device for the transmission of the location information.

Also, the backpack of the present invention can utilize electric energy stored in the flexible battery 300 by separately providing various electronic devices or battery charging terminals 800, 900.

The energy-charging backpack using the solar light and the piezoelectric element of the present invention configured as described above is basically capable of high energy charging efficiency by considering the traveling direction of sunlight and the user by the detachable solar cell 100.

In addition, the object housed due to vibration during walking is impacted downward, and the piezoelectric element 200 provided on the lower floor reacts to further charge the electric energy, thereby further improving the energy charging efficiency.

Also, by controlling the heat generation of the surface heating element 400 provided in the side pocket 410 through the application 700 in the smart device, a handwarmer function can be easily implemented.

In addition, safety can be ensured by the flexible battery 300 having the overcharge prevention device, and it is possible to arrange it in the curved portion of the backpack, and various designs can be developed without deteriorating the inherent design.

In addition, it is possible to track real-time location of a backpack through the application 700 in a smart device and provide charge terminals of various smart devices and auxiliary batteries to provide various safety measures And convenience means are provided.

It will be apparent to those skilled in the art that the present invention may be embodied in other specific forms without departing from the spirit or scope of the invention as defined in the appended claims. It is self-evident to those who have.

Therefore, the above-described embodiments are to be considered as illustrative rather than restrictive, and the present invention is not limited to the above description, but may be modified within the scope of the appended claims and equivalents thereof.

100 ... solar cell 200 ... piezoelectric element
300 ... Flexible battery 400 ... Planar heating element
410 ... side pockets 500 ... controller
600 ... communication unit 700 .. application
800,900 ... rechargeable terminal

Claims (3)

BACKGROUND OF THE INVENTION 1. Field of the Invention The present invention relates to a backpack having a shoulder strap,
A solar cell capable of being detachably attached to the outer surface and generating energy by sunlight;
A piezoelectric element disposed on the floor and generating energy by a load of an internal object;
A flexible battery with an overcharge protection device for storing energy generated from the solar cell and the piezoelectric device;
A surface heating element provided in the side pocket and generating heat by energy supplied from the flexible battery with the overcharge protection device; And
A control unit for controlling heat generation of the planar heating element; And,
And a communication unit,
Wherein the control unit controls the heat generation of the surface heating element in conjunction with the application for the mobile communication device and transmits the position information to the energy charging backpack using the solar light and the piezoelectric element. delete delete

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