WO2019107601A1 - Movable solar lighting apparatus - Google Patents

Abstract

The present invention relates to a movable solar lighting apparatus that allows lighting to be turned on by means of electricity supplied using solar light in mountainous or remote areas or the like without a smooth supply of electricity, the apparatus comprising: a mounting frame having wheels; a post provided to stand vertically from the center of the top surface of the mounting frame; at least one lamp mounted on the upper part of the post; side frames provided on the left and right sides of the mounting frame; a solar panel coupled to the front of the side frames; and a shielding box provided on one side of the top surface of the mounting frame and having a charging battery, controller, inverter, etc. accommodated therein, thereby allowing the lamp to be turned on using electricity generated by the solar panel.

Description

Removable solar lighting device

The present invention relates to a mobile solar lighting apparatus capable of turning on an illumination light by supplying electricity using solar light in mountains or remote areas where electricity supply is not smooth.

Generally, the photovoltaic lighting device collects solar energy using a solar panel, and generates electricity using a photovoltaic power generation system which converts the photovoltaic energy into electric power. Then, the power is stored in the electric power storage battery, It is a device that lights up various lighting devices by using the charged voltage as a power source. Since it can produce, store and supply electric power independently in the outdoors where commercial power is not supplied, So that the lighting apparatus can be driven as needed at night.

However, most conventional photovoltaic lighting devices have a fixed structure in a certain place where sunlight is well irradiated. In the area, sunlight is collected through solar panels during the day, converted into electrical energy, and stored in a battery The lighting system is operated at night to illuminate the area. If the commercial power is not supplied to the area due to an emergency such as a disaster, the portable lighting apparatus can not be operated and the necessary measures can not be taken at an early stage It is true.

On the other hand, the number of people who want to live in the nature outside of the city has been increasing in recent years. Electricity is the biggest obstacle when they start to live in the mountains where the electricity is not supplied or in the remote areas.

There is a " disassembling / assembling type portable solar power generation lighting apparatus "of Korean Patent No. 10-1114509, which is related to the present invention.

FIG. 1 is a perspective view of a disassembled / assembled moving type solar power generation lighting apparatus according to the prior art.

As shown in the drawing, the prior art is characterized in that it can be disassembled and assembled and has mobility. However, it is difficult to sufficiently produce electricity due to a small area of the solar panel, and proper angle control There is also.

This mobile photovoltaic lighting system is likely to be used in places where there is no infrastructure, and therefore, there is a problem in that a large impact is generated at the time of movement due to unevenness of the ground, and the place to be installed is uneven, have.

Accordingly, in the present invention, a mobile solar lighting apparatus having a structure capable of basically performing mobility, assembling and disassembling, particularly capable of reducing impact upon movement and balancing to enable stable use even in a non-flat place, .

In the present invention, it is possible to adjust the angle of the solar panel so as to increase the power generation efficiency, and to adjust the vertical height of the lighting lamp so as to set the position of the lighting lamp according to the situation.

According to an aspect of the present invention, there is provided a mobile solar lighting apparatus including: a mounting frame having a wheel; A post erected upright from a top center of the mount frame; One or more light fixtures mounted on top of the posts; A side frame installed at left and right sides of the mount frame; A solar panel coupled to a front side of the side frame; And a shielding box provided on one side of the upper surface of the mount frame and having a rechargeable battery, a controller, an inverter, and the like installed therein, so that the illuminating lamp can be turned on using electricity generated by the solar panel. do.

Preferably, the wheel is connected to a cushioning module coupled to the bottom surface of the four corners of the mount frame, so that vibration absorption and balance adjustment can be performed.

Preferably, the buffer module further comprises: an upper plate coupled with the mounting frame lower surface; A lower plate disposed at a distance from the upper plate, the guide plate being spaced apart from the upper plate by a plurality of guide rods having variable lengths; A first housing having an upper end coupled to a lower surface of the upper plate; A second housing coupled to an upper surface of the lower plate and having an outer diameter smaller than an inner diameter of the first housing, the second housing being inserted into the first housing; And an elastic member disposed between the first housing and the second housing.

Preferably, the post is made of a folded multi-stage folding structure so that the height from the ground to the light can be adjusted.

Preferably, the illumination lamp includes a plurality of horizontal bars arranged horizontally at the upper end of the post, the rear ends of the illumination lamps are connected by hinges so that the angle of the illumination lamps can be adjusted, And an angle fixing means for adjusting the angle of the lens.

Preferably, the side frame is formed in a triangular shape, and an upper end of the solar panel is rotatably connected to an upper end of each of the side frames, and a lower end of the solar panel is connected to a lower end of the side frame, And an angle adjusting means for adjusting the installation angle of the panel.

Preferably, the angle adjusting means includes: a nut portion fixed to the side frame; A moving part having a male thread formed on an outer surface thereof and having one end fastened to the nut part and the other end projecting forward and connected to a rear lower end of the solar panel; And a driving unit for providing a rotational force to the moving unit to move the moving unit.

The mobile solar lighting apparatus according to the present invention can be assembled and disassembled, and can be easily moved even in an assembled state, so that electricity generated from sunlight can be supplied to a lighting apparatus So that it is possible to provide convenience.

Particularly, the present invention is useful for stable balancing when used in uneven places, and also has the effect of buffering impact when moving.

BRIEF DESCRIPTION OF THE DRAWINGS FIG. 1 is a perspective view of a prior art disassembled / prefabricated, movable mounted solar power lighting system. FIG.

2 is a front view of a mobile solar lighting device according to the present invention;

3 is a side view of a mobile solar lighting device;

4 is a rear view of a mobile solar lighting device.

5 is a configuration diagram of a cushioning module and a wheel attached to a mounting frame;

6 is an exemplary view showing a change of a buffer module.

7 is a schematic internal configuration diagram of a shielding box.

8 is an exemplary view showing a change in the inclination angle of the solar panel.

Fig. 9 is an exemplary view in which the inclination angle of the solar panel is changed from Fig. 8; Fig.

10 is an exemplary view showing a case where the length of the post is formed to be the shortest.

Fig. 11 is an example of a case where the length of the post is formed to be the highest. Fig.

Fig. 12 is an example of a case where the angle of the illumination lamp is fixed at 45 degrees; Fig.

Fig. 13 is an exemplary view in which the angle of the illumination lamp is fixed at 90 degrees; Fig.

DETAILED DESCRIPTION OF THE PREFERRED EMBODIMENTS Hereinafter, a mobile solar lighting apparatus according to the present invention will be described in detail with reference to the accompanying drawings to facilitate understanding of the technical ideas of the present invention. It should be noted that the drawings and the description of the preferred embodiments are merely illustrative examples based on the technical idea of the present invention, and the technical scope of the present invention is not limited thereto.

Fig. 2 is a front view of the mobile solar lighting apparatus according to the present invention, Fig. 3 is a side view of the mobile solar lighting apparatus, Fig. 4 is a rear view of the mobile solar lighting apparatus, 8 is a view showing an example of a change in the inclination angle of the solar panel, and Fig. 9 is a view showing an example in which the solar panel Fig. 10 is a diagram showing a case where the post length is the shortest, Fig. 11 is an example of a case where the post length is the highest, and Fig. 12 is an example in which the angle of the lamp is Fig. 13 is an example of a case where the angle of the illumination lamp is fixed at 90 degrees. Fig.

As shown in the figure, the mobile solar lighting apparatus according to the present invention includes a mounting frame 100, a post 200, an illumination lamp 300, a side frame 400, a solar panel 500, 600).

The mount frame 100 has a substantially rectangular shape and a wheel 700 is provided below the mount frame 100 and preferably one wheel 700 is installed near four vertexes of the mount frame 100 do.

Preferably, the buffer module 800 is connected to the wheel 700 so that vibration absorption and balancing can be easily performed.

The buffer module 800 serves as an intermediary for connecting the wheel 700 to the mount frame 100 while at the same time maintaining shock absorption and stable balancing.

Specifically, the buffer module 800 includes an upper plate 810, a lower plate 820, a first housing 830, a second housing 840, and an elastic member 850.

The upper plate 810 is provided with a plate-shaped upper plate 810 directly coupled to the lower surface of the mount frame 100 and the lower plate 820 is disposed facing the upper plate 810 with a distance therebetween. In particular, the lower plate 820 disposed below the fixed upper plate 810 is connected by a plurality of guide rods 860, and the guide rods 860 can be varied in length.

That is, the guide rod 860 for connecting the upper plate 810 and the lower plate 820 to each other can be expanded and contracted by inserting the small rod 861 into the big bar 862, (820) can be changed.

The first housing 830 is coupled to the lower surface of the upper plate 810 and the second housing 840 is coupled to the upper surface of the lower plate 820. The second housing 840 has an outer diameter smaller than the inner diameter of the first housing 830 so that the second housing 840 is inserted into the first housing 830.

An elastic member 850 is interposed between the first housing 830 and the second housing 840, and the elastic member 850 can utilize a coil spring. The upper end of the coil spring 850 is fixed inside the first housing 830 and the lower end is fixed inside the second housing 840. [

The guide rod 860 for connecting the upper plate 810 and the lower plate 820 guides the lower plate 820 to be moved up and down with respect to the fixed upper plate 810, The elastic member 850 such as the coil spring 850 disposed between the second housing 840 and the second housing 840 receives a load and the degree of compression of the elastic member 850 varies depending on the degree of load applied thereto.

When the mobile solar lighting apparatus of the present invention is installed on a flat surface, the four wheels 700 and the buffer modules 800 connected to the respective wheels receive the same force, so that the elastic members 850 of the buffer modules 800, Will receive the same power.

However, the force acting on each wheel 700 is different in the uneven ground. At this time, the pressure axis acting on the elastic member 850 incorporated in each buffer module 800 is changed, Can be kept horizontal.

That is, in the case of the present invention, the shock absorbing can be performed at the time of movement through the buffer module 800 connected to each wheel 700, and when the mounting frame 100 is installed on the uneven surface, And a balancing function is provided to allow the user.

The post 200 is provided at the center of the upper surface of the mount frame 100 so as to stand upright. Preferably, the post 200 has a multi-stage folding structure capable of height adjustment, So that it can be adjusted.

That is, at the top of the post 200, one or more illumination lamps 300 are mounted, preferably a horizontal bar 210 disposed horizontally at the top of the post 200, So that the illumination lamp 300 is mounted.

Particularly, each of the illumination lamps 300 is adjustable in angle. To this end, a rear end of the illumination lamp 300 is connected to the hinge 310, and an angle fixing Means 320 are provided.

The angle fixing means 320 allows the plurality of illumination lamps 300 to be adjusted simultaneously and is inserted into the tightening port 321 and the tightening port 321 provided on the upper side of the post 200, When the tightening tool 321 is loosened and the adjusting rod 322 is pushed or pulled to adjust the illumination lamp 300 to a desired angle and then the tightening tool 321 is tightened again, Can be fixed.

It is preferable that one side frame 400 is provided on the right and left sides of the mount frame 100 and the side frame 400 has a triangle shape. In this embodiment, an isosceles triangular side frame 400 is used.

The solar panel 500 is installed using the side frame 400 and the solar panel 500 is installed on the front side of the side frame 400.

The lower end of the solar panel 500 is connected to the lower end of the side frame 400 and the lower end of the solar panel 500 is connected to the upper end of the side panel 400. [ An angle adjusting means 510 for adjusting the angle is provided.

Specifically, the angle adjusting means 510 may include a nut portion 511, a moving portion 512, and a driving portion 513. The nut portion 511 is fixed to the lower end side of the side frame 400. The moving portion 512 has a long rod shape and a male thread is formed on the outer surface so that one end is fastened to the nut portion 511, So as to be rotatably connected to the rear lower end of the solar panel 500.

The driving unit 513 includes a driving unit 513 for providing a rotational force to the moving unit 512. The driving unit 513 has a gear structure connected to the moving unit 512. When the handle is rotated, The inclination angle of the solar panel 500 can be adjusted by moving the moving part 512 forward or backward along the rotating direction.

In the mobile solar lighting apparatus of the present invention, a shielding box 600 is provided, and elements for supplying and controlling electric power are embedded in the shielding box 600 by means of charging and lighting of electricity produced by the solar panel 500 .

That is, the shielding box 600 is provided with a rechargeable battery, and a controller, an inverter, and the like are incorporated to store and utilize electricity produced by the solar panel.

The generated power is stored as a battery through the controller. The controller operates as MPPT (Maximum Power Point Tracking) so that the solar panel can be maximally developed. At the same time, the controller operates to control the charging power of the battery according to the charged state of the battery.

The lighting lamp can be turned on and off by using a switch or a timer.

The present invention is suitable for being utilized as an illumination device using mobile solar light.

Claims (7)

A mounting frame having a wheel; A post erected upright from a top center of the mount frame; One or more light fixtures mounted on top of the posts; A side frame installed at left and right sides of the mount frame; A solar panel coupled to a front side of the side frame; And a shielding box provided on one side of the upper surface of the mount frame and having a rechargeable battery, a controller, an inverter, and the like installed therein, so that the illuminating lamp can be turned on using electricity generated by the solar panel. A portable solar light device. The method according to claim 1, The wheel, And the vibration absorbing and balancing adjustments can be performed by being connected to the buffer module coupled to the bottom surfaces of the four corners of the mount frame. 3. The method of claim 2, The buffer module includes: An upper plate coupled with the mounting frame bottom; A lower plate disposed at a distance from the upper plate, the guide plate being spaced apart from the upper plate by a plurality of guide rods having variable lengths; A first housing having an upper end coupled to a lower surface of the upper plate; A second housing coupled to an upper surface of the lower plate and having an outer diameter smaller than an inner diameter of the first housing, the second housing being inserted into the first housing; And an elastic member disposed between the first housing and the second housing. The method according to claim 1, The post Folded structure capable of being folded so that the height from the ground surface to the above-mentioned illuminating lamp can be adjusted. The method according to claim 1, The above- A plurality of horizontal bars arranged horizontally on the top of the posts, the rear ends of the illumination lamps being connected by hinges so that the angle of the illumination lamps can be adjusted, and an angle fixing means And a light source for emitting the sunlight. 6. The method according to any one of claims 1 to 5, The side frame includes: Wherein the upper end of the solar panel is connected to the upper end of each of the side frames so as to be rotatable and the lower end of the solar panel is connected to the lower end of the side frame, And an angle adjusting means is provided on the surface of the movable lens. The method according to claim 6, Wherein the angle adjusting means comprises: A nut portion fixed to the side frame; A moving part having a male thread formed on an outer surface thereof and having one end fastened to the nut part and the other end projecting forward and connected to a rear lower end of the solar panel; And a driving unit for providing a rotational force to the moving unit to move the moving unit.

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