KR20150003070U - Portable lighting device by using solar - Google Patents

Abstract

A portable light using solar light is disclosed. A portable illumination lamp for condensing the sunlight to emit light of an internal illumination member includes a body part; A fixed solar cell module fixed to the body part; And a rotating solar cell module stacked on the fixed solar cell module and rotated in a horizontal direction around a rotating member formed at one end. As a result, it is possible to laminate solar cells capable of collecting solar light, so that it is easy to carry and store, and a plurality of solar cells can be provided to use a wider area of solar light, And it is possible to realize the purpose of use of a portable light without having a separate battery. In addition, by providing a separate illumination unit and irradiating a required portion with a predetermined light source, it is possible to increase the energy efficiency of a portable illumination lamp which can only use limited electric power.

Description

[0001] The present invention relates to a portable lighting device using solar,

More particularly, the present invention relates to a portable lighting apparatus using solar light, and more particularly, it is possible to illuminate a lighting unit by using condensed sunlight to illuminate the surroundings of the portable unit, And a portable light using solar light having a cell module.

Generally, a portable light is used when it is necessary to secure a field of view at night or in a dark place where it is difficult to secure the view of the surroundings such as camping, camping, mountain climbing, and outdoor work. By using the portable lighting lamp in a user's body, clothes or a narrow space, only the weight which is difficult to be a volume larger than a certain size, and which does not feel inconvenient to the user's use is allowed.

Therefore, the fundamental problem with the portable lighting fixture is that the size and weight of the battery, which occupies most of the weight and volume of the portable lighting fixture in a state where the power supply plug for supplying the power can not be used, Portable lighting is not available for a long time, or a separate replacement battery or battery must be provided.

However, the size of the solar cell can not be equal to the size of the portable light or the solar cell having a certain size can not be provided, and a solar cell having a small size The thermal efficiency of the sunlight accumulated by the solar cell is not efficient.

In addition, in order to expose a sufficient amount of light to a small-sized solar cell, the portable light provided with the solar cell is used for the solar cell because of the inconvenience of adjusting the angle of the solar cell However, it is still in the level of adding a predetermined power source to the portable light using a conventional battery using solar light.

The object of the present invention is to solve the above problems, and it is an object of the present invention to provide a solar cell which can broaden the area of a solar cell exposed to sunlight and has a rotatable solar cell for directing sunlight, The present invention provides a portable lighting apparatus using solar light that can be stacked on a portable cellular phone module rather than a solar cell module, thereby reducing the volume and weight of the solar cell module and efficiently irradiating solar cells with incident solar light.

Another object of the present invention is to provide a portable lighting apparatus using solar light which can efficiently use a power source by irradiating a light source in a necessary direction by providing a plurality of lighting units controlled through an operation unit.

According to an aspect of the present invention, there is provided a portable lighting device for condensing solar light and emitting an internal light source, the portable lighting device including: a body part; A fixed solar cell module fixed to the body part; And a rotating solar cell module stacked on the fixed solar cell module and rotated in a horizontal direction around a rotating member formed at one end.

The rotary solar cell module may be rotated in the horizontal direction and the vertical direction by the rotary member so as to be spaced apart from the fixed solar cell module.

A solar light tracking sensor for sensing the solar light altitude; A gyro sensor for measuring the inclination of the stationary solar cell module and the rotary solar cell module with respect to the horizontal plane; And a controller for controlling a horizontal rotation angle and a vertical rotation angle of the rotary solar cell module according to a result calculated by the solar tracking sensor and the gyro sensor.

The body portion may include a stop illumination portion provided at the stop to allow the light source to be irradiated in a horizontal direction; And a lower illuminating unit provided at the lower end to illuminate the light source in a downward direction.

The stop illumination unit and the lower illumination unit can be individually controlled by the operation unit.

As a result, it is possible to laminate solar cells capable of collecting solar light, so that it is easy to carry and store, and a plurality of solar cells can be provided to use a wider area of solar light, And it is possible to realize the purpose of use of a portable light without having a separate battery.

Further, a separate lighting unit is provided so that a controlled light source is irradiated to a necessary part, thereby making it possible to enhance the energy efficiency of a portable lighting lamp which can only use limited electric power.

1 is a perspective view illustrating a portable light using a solar light in which a plurality of solar cell modules are stacked according to an embodiment of the present invention;
FIG. 2 is a perspective view illustrating a portable light using solar light in a state where a rotary solar cell module according to an embodiment of the present invention is rotated away from a fixed solar cell module,
FIG. 3 is a bottom perspective view of a portable lighting fixture using solar light provided with a plurality of illumination units according to an embodiment of the present invention;
FIG. 4 is a block diagram showing an operation principle of a portable lighting apparatus using solar light according to another embodiment of the present invention;
FIG. 5 is a front view of a portable lighting fixture using sunlight showing a stacked state in which a rotary solar cell module according to another embodiment of the present invention is added; and FIG.
FIG. 6 is a view illustrating a state of use of a portable lighting fixture using solar light to which a rotary solar cell module according to another embodiment of the present invention is added.

Hereinafter, embodiments of the present invention will be described in detail with reference to the accompanying drawings. The embodiments described below are provided by way of example so that those skilled in the art will be able to fully understand the spirit of the present invention. The present invention is not limited to the embodiments described below but may be embodied in other forms. In order to clearly illustrate the present invention, parts not related to the description may be omitted from the drawings and exaggerated. Like reference numerals used throughout the specification denote like elements.

The portable light using solar light according to the present embodiment includes a plurality of solar cell modules 120 laminated for carrying. When a large-area solar cell module 120 for absorbing solar light is required, The solar cell module 120 is separated and unfolded and the rotating solar cell module 120 is rotated in a direction perpendicular to the horizontal direction, 180 can be increased.

In addition, a plurality of illumination units 110 may be provided to limit the direction of light irradiation as needed, so that the energy used in a portable illumination lamp can be efficiently used.

FIG. 1 is a perspective view illustrating a portable light using a solar light in which a plurality of solar cell modules are stacked according to an embodiment of the present invention, FIG. 2 is a perspective view of a rotary solar cell module according to an embodiment of the present invention, 3 is a bottom perspective view of a portable lighting fixture using solar light provided with a plurality of illuminating units according to an embodiment of the present invention. FIG. 3 is a perspective view illustrating a portable lighting fixture using sunlight rotated away from the cell module.

1 to 3, a portable lighting apparatus using solar light according to an embodiment of the present invention includes a plurality of solar cell modules 120, a rotating member 130, a plurality of lighting units 110, 140, a storage unit 180, a handle 145, and a body 100.

A plurality of solar cell modules 120 stacked by the rotary member 130 are unfolded and a plurality of illumination units 110 are arranged by the operation unit 140 in the portable lighting apparatus using solar light having the above- And the respective components are received and protected by the body portion 100 including the handle portion 145 for carrying.

The solar cell module 120 is provided for collecting solar light, converting the collected sunlight into electrical energy, and transmitting the converted electrical energy to the illumination unit 110 or storing the converted electrical energy in the storage unit 180.

At this time, the solar cell module 120 is exposed to the upper part of the portable lighting lamp for the heat condensing efficiency of the sunlight to be condensed without obstructing the course of the light source irradiated by the lighting unit 110, A plurality of solar cell modules 120 are stacked to enhance efficiency.

The plurality of solar cell modules 110 are provided such that the fixed solar cell modules 120a are exposed at the upper end of the body 100 and the rotary solar cell modules 120b are stacked on the upper ends of the fixed solar cell modules 120a The fixed solar cell module 120a is provided with a rotary member 130 formed at one end of the fixed solar cell module 120a so as to be separated and unfolded.

The rotary member 130 is provided at one end of the fixed solar cell module 120a to connect the fixed solar cell module 120a and the rotary solar cell module 120b and has a spherical bearing- And allows rotation of the rotary solar cell module 120b in the horizontal direction and the vertical direction from the solar cell module 120a.

The rotating member 130 is provided to have a predetermined frictional force to enable the rotation of the rotating solar cell module 120b and to allow the rotated rotating solar cell module 120b to reach and fix the required position.

In this embodiment, although the bearing member 130 is used as an example, the rotating solar cell module 120b may be rotatable, and any member having frictional force to be fixed at a required position may be used.

As a result, the rotary solar cell module stacked on the fixed solar cell module 120a is rotated in the horizontal direction to be two-dimensionally spaced apart from the stationary solar cell module 120a, The module 120b is rotatable 360 degrees in the vertical direction so that the module 120b can be rotated to a position where the light condensing amount of the sunlight can be maximized.

Of course, it is to be understood that the rotating member 130 is provided only for illustrative purposes. The type and position of the rotating member 130 may be changed in consideration of the overall shape of the portable lighting apparatus, Of course.

The plurality of illumination units 110 are provided as LED illumination bodies in the present embodiment and include a stop illumination unit 110a provided in the intermediate body transparent member 102 of the body part 100 forming the main body, And a lower illumination unit 110b exposed on the bottom surface.

The LED substrate of the plurality of lighting units 110 is formed in a cylindrical shape with an LED attached to a plate on which an electric circuit is knitted to constitute an interrupted lighting unit 110a and is formed into a plate shape to constitute a lower end lighting unit 110b, Lights for convenience.

The body transparent member 102 protects the suspended illumination unit 110a and is made of a transparent material for transmitting a light source irradiated by the suspended illumination unit 110a to enhance the beauty of the aesthetic sight and includes a transparent member .

The illumination unit 110 is installed separately at the lower and upper ends of the body 100 forming the main body so that the interrupted illumination unit 110a and the lower illumination unit 110b can be turned on or off respectively through the respective operations. Thus, the electric energy condensed by the solar cell module 120 can be efficiently used.

As described above, the illumination unit 110 that emits light in order to secure the user's field of view may be a light source other than the LED illumination unit, a plate-like or cylindrical shape It is to be understood that any other type of illumination unit 110 is within the scope of the present invention.

The operation unit 140 is provided in a button manner so that the stop illumination unit 110a can be turned on or the lower illumination unit 110b can be turned on in a single operation and can be operated in reverse by two operations, It can be structured to be turned on or off at this time and date.

The storage unit 180 accumulates and stores the converted electric energy when the sunlight condensed by the solar cell module 120 is converted into electric energy, thereby storing the basic energy of the portable lightlight .

The grip portion 145 is provided on the upper portion of the body portion 100 so that the grip portion 145 can be gripped by the user for convenience of carrying the user and is rotatably formed at the lower end so as not to interfere with the rotation of the rotating solar cell module 120b Or made of synthetic resin material.

The body part 100 is made of a synthetic resin material and has a structure in which a plurality of solar cell modules 120 are coupled to each other by a rotary member 130 at an upper part and has an interrupted illumination part 110a and a lower end illumination part 110b, And an operation unit 140 that can control the lighting unit 110 to be turned on and off so as to protect components that can supply power to the lighting unit 110 through the condensed sunlight and form a main body .

4 is a block diagram showing the operation principle of a portable lighting apparatus using solar light according to another embodiment of the present invention. In particular, FIG. 4 is a diagram provided for explanation of configurations for automatically controlling a portable light using a solar light.

The portable light using the solar light for this purpose further includes a tracking sensor 150, a gyro sensor 160, and a controller 170.

The tracking sensor 150 is provided for collecting data on the sun altitude at the position where the solar cell module 120 is installed and transmitting the collected result to the control unit 170. [

The gyro sensor 160 includes a fixed solar cell module 120a included in the body 100 constituting the main body on the basis of the horizontal plane at a position where the solar cell module 120 for solar light collection is installed, And is configured to collect and calculate the twisted tilt angle of the module 120b and transmit the calculated result to the controller 170. [

The control unit 170 controls the rotation of the solar cell module 120 based on the result received from the tracking sensor 150 and the result calculated from the gyro sensor 160 so that the sum of the amounts of energy collected by the plurality of solar cell modules 120 becomes the maximum When the angle of the solar cell module 120b is required to be adjusted according to the altitude of the sun, the angle of the solar cell module 120b is calculated, and the resultant value is transmitted to the rotary member 130 by a required angle, Allowing the angle of module 120b to change.

The rotary member 130 includes a driving motor (not shown) and a driving belt (not shown), and is automatically driven by the control of the controller 170, .

That is, when the sun altitude is received from the tracking sensor 150 at a level lower than a predetermined level according to the altitude change of the sun, the control unit 170 allows the rotating solar cell module 120b to be returned to its original position .

FIG. 5 is a front view of a portable light fixture using solar light showing a stacked state in which a rotary solar cell module according to another embodiment of the present invention is added, and FIG. 6 is a front view of a rotary solar cell module according to another embodiment of the present invention A state of use of a portable light using solar light.

6 and 7, the plurality of solar cell modules 120 are further provided with the rotary solar cell module 120b and the corresponding rotary member 130, so that the light condensing efficiency can be enhanced.

The plurality of solar cell modules 120 are composed of a fixed solar cell module 200, a first rotating solar cell module 210 and a second rotating solar cell module 220, .

The first rotary solar cell module 210 and the second rotary solar cell module 220 are stacked in order on the fixed solar cell module 200 and are arranged in the order of a plurality of solar cell modules 120 may be further provided.

Thus, it is possible to provide an illumination lamp that can increase the light condensing efficiency of the sunlight according to the user's needs, can be easily carried by the solar cell module 120 that can be stacked, and is suitable for the portable purpose of portable lighting.

In addition, the portable light using the automatically controlled solar light can be provided with a separate power supply unit 190 for the primary drive for collecting the sunlight and the case of not storing the collected solar energy.

The operation of the portable lighting using the solar light according to the embodiment of the present invention having the above-described structure will be described as follows.

As shown in FIGS. 1 to 3, when a portable light using solar light is installed in a place where solar light is irradiated for the purpose of condensing sunlight, when a user moves the fixed solar cell module 120a according to the altitude of the sun, And rotates the rotary solar cell module 120b in a horizontal direction and rotates in a vertical direction so as to maximize the sum of sunlight condensed by the rotary solar cell module 120b, So that the electric energy can be accumulated.

The user can control the plurality of illumination units 110 by operating the operation unit 140 so that the illumination unit 110a and the illumination unit 110b as the plurality of illumination units 110 can be turned on or off respectively, Can be efficiently used.

By providing the tracking sensor 150, the gyro sensor 160, and the controller 170, the height of the sun and the height of the body including the rotating solar cell module 120b can be controlled through the tracking sensor 150 and the gyro sensor 160. [ When the angle from the horizontal plane of the unit 100 is calculated and transmitted to the control unit 170, the control unit 170 controls the rotation member 130 including the driving motor and the driving belt, By controlling the horizontal angle and the vertical angle of the rotating solar cell module 120b, it is possible to condense the maximum amount of sunlight during the time when the sunlight is irradiated without any user's operation.

When the sun altitude is lower than a predetermined level, the rotating solar cell modules 120b and 210 (210b, 210c and 210d) are controlled by the control unit 170 to control the operation of the rotating solar cell modules 120b, And 220 can be returned to their original positions, thereby facilitating the use and carrying of the user.

In addition, the plurality of illumination units 110 can be turned on or off by controlling the illumination units 110 through the operation unit 140 according to need, through the electric energy as the condensed stored energy.

While the present invention has been particularly shown and described with reference to exemplary embodiments thereof, it is to be understood that the invention is not limited to the disclosed exemplary embodiments, It will be understood that various modifications may be made by those skilled in the art without departing from the spirit and scope of the present invention.

100: body part 102: body part transparent member
110: illumination part 110a:
110b: lower illumination part 120: solar cell module
120a: fixed solar cell module 120b: rotating solar cell module
130: Rotating member 140:
145: handle 150: tracking sensor
160: Gyro sensor 170:
180: storage unit 190: separate power supply unit
200: fixed solar cell module 210: first rotating solar cell module
220: Second rotating solar cell module

Claims (5)

1. A portable lighting device for condensing sunlight to emit light from an interior light source,
Body part;
A fixed solar cell module fixed to the body part; And
And a rotating solar cell module stacked on the fixed solar cell module and rotated in a horizontal direction about a rotating member formed at one end of the rotating solar cell module. The method according to claim 1,
The rotating solar cell module includes:
And is rotated in a direction perpendicular to the horizontal direction by the rotating member so as to be spaced apart from the stationary solar cell module. The method according to claim 1,
A solar tracking sensor for sensing the solar altitude;
A gyro sensor for measuring the inclination of the stationary solar cell module and the rotary solar cell module with respect to the horizontal plane; And
And a control unit for controlling a horizontal rotation angle and a vertical rotation angle of the rotary solar cell module according to a result calculated by the solar tracking sensor and the gyro sensor. The method according to claim 1,
The body part
An intermittent illumination unit provided at the interruption so that the light source is irradiated in the horizontal direction; And
And a lower illuminating unit provided at a lower end of the lower illuminating unit to illuminate a light source in a downward direction. 5. The method of claim 4,
Wherein the ceiling illumination part and the lower illumination part comprise:
And is controlled individually by an operation unit.

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