KR102285884B1 - Portable lighting using sunlight - Google Patents

Abstract

The present invention relates to a portable lighting lamp using sunlight which can be conveniently carried due to a simple structure and maximizes the area of a solar cell unit to increase charging efficiency when charging a battery. The portable lighting lamp includes: a rectangular main body (110); a cover (120) which is opened and closed through a hinge unit (130), on one side of a front part (111) of the main body (110); a first solar cell unit (140) which is formed on the front part (111) of the main body (110); a second solar cell unit (150) which is formed on a rear surface (121) of the cover (120); a light bulb (160) which is formed on an upper end of the body (110); and a pair of elastic leg units (170) which are coupled to the lower side of the main body (110).

Description

Portable lighting using sunlight}

The present invention relates to a portable lighting lamp using sunlight, and more particularly, it has a simple structure, is convenient to carry, maximizes the area of the solar cell part when charging the battery, increases the charging efficiency, and the lighting state of the lighting lamp according to the degree of the remaining amount of the rechargeable battery And it is to provide a portable lighting lamp using sunlight so as to inform the user by varying the brightness and to automatically extend the lighting time of the lighting lamp.

As is well known, a number of lighting lamps using sunlight have been devised in the prior art.

In Patent Publication No. 10-2014-0107771, a solar panel that converts solar energy into electrical energy and outputs it is configured to be rotatable from the body part of the lighting lamp with a built-in battery to form a space for heat dissipation between the solar panel and the body part of the lighting lamp. Disclosed is a portable solar lighting lamp having an efficient heat dissipation structure that not only efficiently collects solar light suitable for the environment but also efficiently dissipates heat to improve lighting efficiency.

Therefore, in the configuration of Laid-Open Patent Publication No. 10-2014-0107771, one side of the solar panel part is rotated around the one side of the body part by a rotating means made of a hinge structure, so that a space is formed between the solar panel part and the body part, and the space is Through the heat dissipation, high lighting efficiency can be expected in the end, and due to the hinge structure, after use, one side of the solar panel part can be rotated in the opposite direction to attach it to the body part. By forming the space, the heat dissipation back sheet provided on the bottom surface of the solar panel unit can smoothly perform its function, thereby providing a high heat dissipation effect.

In addition, in Registered Utility Model Publication No. 20-0481176, the lighting unit emits light using the concentrated sunlight to illuminate the surroundings while carrying, and in order to increase the light collection efficiency, sunlight equipped with a rotatable solar cell module that can track the sun. Disclosed is a portable lighting lamp using the same.

Therefore, the registered utility model publication 20-0481176 can stack solar cells capable of concentrating sunlight, making it easy to carry and store, and providing a plurality of solar cells to use a larger area of sunlight, such as portable lighting, etc. The purpose and scope of use can be diversified, and the purpose of use of a portable lighting lamp can be realized without having a separate storage battery.

The present inventors were researching portable lighting using solar light, which is a technical field of this kind, while having a simple structure, it is convenient to carry and maximizes the area of the solar cell part when charging the battery to increase the charging efficiency, and at the same time, the degree of the remaining amount of the rechargeable battery Accordingly, the present invention has been developed so that the lighting state and brightness of the lighting lamp can be varied to inform the user and at the same time automatically extend the lighting time of the lighting lamp.

Laid-open Patent Publication No. 10-2014-0107771, Registered Utility Model Publication No. 20-0481176

The present invention was devised to solve the above problems, and an object of the present invention is to provide a portable lighting lamp using sunlight that has a simple structure, is convenient to carry, and maximizes the area of the solar cell part when charging the battery to increase the charging efficiency. is in doing

Another object of the present invention is to provide a portable lighting lamp using sunlight that can change the lighting state and brightness of the lighting lamp according to the level of the remaining amount of the rechargeable battery to inform the user and automatically extend the lighting time of the lighting lamp. .

The present invention for achieving the above object is a rectangular body, a cover that opens and closes through a hinge on one side of the front side of the body, a first solar cell unit formed on the front side of the body, and the rear side of the cover A second solar cell unit to be, a light bulb formed on the upper end of the main body, and a pair of elastic legs coupled to the lower side of the main body,

When the cover is closed toward the main body, the first solar cell part and the second solar cell part are concealed, and when the cover is opened and unfolded, the first solar cell part and the second solar cell part are configured to be exposed to the outside;

A concave portion is formed on the upper and lower sides of the front portion of the main body, and a metal plate is installed inside the concave portion so as to be embedded or exposed to the surface,

A convex portion corresponding to the concave portion of the main body is formed on the upper and lower sides of the cover, and a magnetic body is installed in the convex portion of the rear portion of the cover to be internally or exposed to the surface,

The light bulb comprises a plurality of LEDs arranged in a plurality of rows on a PCB, and is composed of a first LED group positioned at the top, a second LED group positioned in the middle, and a third LED group positioned at the bottom.

In addition, according to the present invention, the main body is characterized in that a concave portion capable of easily opening the cover to the other side of the hinge portion is formed.

In addition, according to the present invention, the lower side of the main body is characterized in that the A-shaped groove is formed, the bent portion of the A-shaped groove is characterized in that the fitting hole into which the bent end of the elastic leg is fitted.

In addition, according to the present invention, a rechargeable battery for charging the electric energy generated from the first and second solar cell units, a battery residual amount detection unit for detecting the remaining amount of charge of the rechargeable battery, and a power and battery residual amount detection unit for the rechargeable battery including a control unit for controlling the light bulb on and off using

The control unit outputs an LED lighting command of all the first LED groups to the third LED groups to the light bulb when the battery charge amount greater than the set value is detected from the battery remaining amount detection unit,

When the remaining amount of the rechargeable battery falls below the set value, a flashing signal is output to the light bulb for a predetermined time, and the LED of the third LED group of the light bulb is turned off at the same time. It is characterized in that the LEDs of the second LED group and the first LED group) are turned off.

In addition, according to the present invention, the blinking signal is a signal that sequentially blinks the LEDs of the first LED group to the third LED group) for a predetermined period of time.

As described above, the present invention is convenient to carry with a simple structure and maximizes the area of the solar cell part when charging the battery to increase the charging efficiency.

In addition, the present invention provides the advantage of being able to automatically extend and control the lighting time of the lighting lamp while notifying the user by changing the lighting state and brightness of the lighting lamp according to the level of the remaining amount of the rechargeable battery.

1 is a block diagram of a portable lighting lamp using sunlight according to the present invention;
2 is a configuration diagram of a state in which the cover of a portable lighting lamp using sunlight according to the present invention is opened;
3 is another use state diagram of a portable lighting lamp using sunlight according to the present invention;
4 is an enlarged configuration diagram of a light bulb according to the present invention;
5 is an enlarged view of the coupling configuration between the elastic leg part and the main body according to the present invention;
6 is a circuit block diagram of a portable lighting lamp using sunlight according to the present invention.

Hereinafter, preferred embodiments of the present invention will be described in more detail with reference to the accompanying drawings.

1 is a configuration diagram of a portable lighting lamp using sunlight according to the present invention, and FIG. 2 is a configuration diagram of a portable lighting lamp using sunlight according to the present invention in an open state.

As shown, the present invention a portable lighting lamp 100 using sunlight,

A rectangular body 110, a cover 120 that is opened and closed through a hinge part 130 on one side of the front part 111 of the body 110, and is formed on the front part 111 of the body 110 A first solar cell part 140, a second solar cell part 150 formed on the rear surface 121 of the cover 120, a light bulb 160 formed on the upper end of the main body 110, and the main body ( It includes a pair of elastic leg portions 170 coupled to the lower side of the 110).

The main body 110 has a first solar cell unit 140 installed on the front part 112, and a second solar cell part 150 is installed on the rear part 121 of the cover 120 so that the cover 120 is installed. When the body 110 is closed, the first solar cell unit 140 and the second solar cell unit 150 are hidden, and when the cover 120 is opened and unfolded, the first solar cell unit 140 and the second solar cell unit ( 150) is exposed to the outside.

The first solar cell unit 140 and the second solar cell unit 150 are photovoltaic heat collecting plates that convert light energy into electrical energy by generating electromotive force by applying the photovoltaic effect, which is one of the photoelectric effects. It is composed of compound semiconductors such as gallium and amorphous silicon as main materials, and the converted electrical energy is stored in the rechargeable battery.

The lighting lamp 100 of the present invention increases the charging efficiency by using a more expanded area by opening the cover 120 to spread the first solar cell unit 140 and the second solar cell unit 150 during solar charging. It provides the effect of making it convenient to use by reducing the volume by closing the cover 120 when carrying or moving.

The cover 120 is closed and fixed to the front portion 111 of the main body 110 or is opened from the bottom portion 111 , and the front portion of the main body 110 for stable opening and closing of the cover 130 . (111) A concave portion 115 is formed on the upper and lower sides, and a metal plate 114 is installed inside the concave portion 115 so as to be exposed to the interior or the surface.

In addition, a convex portion 123 corresponding to the concave portion 115 of the main body 110 is formed on the upper and lower sides of the cover 120, and the convex portion 123 of the rear portion 121 of the cover 120 has a magnetic body ( 122) is installed to be exposed to the interior or surface.

Accordingly, the cover 120 can be easily fixed to the front part 111 of the main body 110 by the magnetic body 122 .

In addition, the main body 110 is formed with a concave portion 112 that can easily open the cover 120 to the other side of the hinge portion (130).

The light bulb 160 has a configuration in which a plurality of LEDs (L) are disposed on a PCB 161 as shown in FIG. 4, and the LEDs (L) include a first LED group (L1) located at the upper end of the arrangement structure, It is divided into a second LED group L2 positioned in the middle and a third LED group L3 positioned at the lower end.

The reason for distinguishing the LED (L) of the light bulb 160 as described above is to detect the remaining amount of the rechargeable battery and change the lighting state and brightness of the LED (L) when the remaining amount of the rechargeable battery is less than the set value to inform the user and turn on the lighting at the same time This is so that the time can be extended automatically.

For example, when the remaining amount of the rechargeable battery becomes less than the set value, the first LED group (L1) to the third LED group (L3) sequentially flashes to inform the user that the remaining amount of the rechargeable battery is less than the set value, and at the same time, the third LED group (L3) LED ( L) is turned off first, and then the second LED group L2 and the first LED group L1 are sequentially turned off to correspond to the level of the remaining amount of the rechargeable battery.

This operation adjusts the consumption output of the light bulb 160 according to the remaining amount of the rechargeable battery and turns it on so that the light emitting state can be maintained for a longer period of time in a poor situation, and at the same time, a function of protecting the rechargeable battery is provided.

In addition, a pair of elastic leg parts 170 are coupled to the lower side of the main body 110, and for this coupling, a angled groove 113 is formed on the lower side of the main body 110 as shown in FIG. 4, and the A fitting hole 113a into which the bent end 171 of the elastic leg 170 is fitted is formed in the bent portion of the L-shaped groove 113 .

The elastic leg portion 170 is made of a metal material and has a C-shape, and is elastic, and the fitting ends 171 formed at both ends are inserted into the fitting holes 113a of the A-shaped groove portion 113 to be fixedly coupled.

Therefore, the elastic leg portion 170 may be mounted in a state in which it is spread apart as shown in FIG. 1 or in a state in which it can be held and moved as shown in FIG.

In addition, lamps 181 and 182 indicating full and non-complete charging of the battery and a USB terminal 190 are further formed on the lower front and side surfaces of the main body 110 .

6 is a circuit block diagram of a portable lighting lamp using sunlight according to the present invention.

As shown, the present invention a portable lighting circuit using sunlight,

A first solar cell unit 140 and a second solar cell unit 150, a rechargeable battery 210 for charging electric energy generated from the first solar cell unit 140 and the second solar cell unit 150, and the charging A battery residual amount detection unit 220 for detecting the remaining amount of charge of the battery 210, and a control unit 230 for turning on/off the light bulb 160 using the power of the rechargeable battery 210 and the remaining battery level detecting unit 220 include

The control unit 230 outputs a command to light the LEDs of all the first LED groups (L1) to the third LED groups (L3) to the light bulb 160 when the battery charge amount equal to or greater than the set value is detected from the remaining battery level detection unit 220 . do. Accordingly, all of the LEDs L of the first LED group L1 to the third LED group L3 are turned on, and the bulb 160 is turned on with the maximum output.

In such a state, when the remaining amount of the rechargeable battery 210 decreases and the remaining amount falls below the set value, the control unit 230 detects this through the remaining battery level detection unit 220 and outputs a flashing signal to the light bulb 160 . do.

This blinking signal may be a signal for requesting solar charging through the solar cell unit because the remaining amount of the rechargeable battery 210 to the lighting lamp 100 user is not much.

The blinking signal may be a signal that sequentially blinks the LEDs L of the first LED group L1 to the third LED group L3 for a predetermined time (eg, 5 seconds) as described above.

Then, the control unit 230 turns off the LED (L) of the third LED group (L3) of the light bulb (160). Accordingly, in the light bulb 160, only the LEDs L of the first LED group L1 and the second LED group L2 are lit.

And if the remaining amount of the rechargeable battery 210 decreases, the second LED group L2 is sequentially turned off in response thereto, and the remaining amount of the rechargeable battery 210 continues to decrease even after that, so that the rechargeable battery 210 . When the minimum remaining amount of , the LED (L) of the first LED group (L1) is turned off to protect the rechargeable battery 210 .

Such bulb output (dimming) control provides an effect of maintaining the light emitting state of the bulb 160 for a long time.

The operation and operation of the portable lighting lamp using sunlight of the present invention configured as described above will be described below.

First, as shown in FIG. 2 , the elastic leg portion 170 is spread through the A-shaped groove portion 113 to support the main body 110 from the ground, and the cover 120 is opened from the main body 110 .

Therefore, when sunlight is received through the first solar cell unit 140 and the second solar cell unit 150 , electric energy is generated in the first solar cell unit 140 and the second solar cell unit 150 , and this electric energy is charged. The battery 210 is charged.

When charging of the rechargeable battery 210 is in progress, the control unit 230 outputs a lighting command for all LEDs (L) to the light bulb 160 to the first LED group (L1) to the third LED group (L3) of the light bulb 160 . All of the LEDs (L) are turned on.

When the rechargeable battery 210 is fully charged after the initial driving, the control unit 230 detects the remaining amount of the rechargeable battery 210 from the remaining battery level detecting unit 220 .

At this time, when the remaining amount of the rechargeable battery 210 is detected to be greater than or equal to the set value, a command to light the LEDs L of all the first LED groups L1 to the third LED groups L3 is output to the light bulb 160 .

Accordingly, all of the LEDs L of the first LED group L1 to the third LED group L3 are turned on, and the bulb 160 is turned on with the maximum output.

In this state, when the remaining amount of the rechargeable battery 210 decreases and the remaining amount falls below the set value, the control unit 230 controls the first LED group L1 to the third LED group L3 of the light bulb 160 for a predetermined time. After controlling to blink sequentially for (for example, 5 seconds), only the LED (L) of the third LED group (L3) is turned off.

Accordingly, the user can take action to charge the sunlight or stop using the lighting lamp by seeing the blinking signal of the light bulb 160 .

And if the remaining amount of the rechargeable battery 210 decreases, the second LED group L2 is sequentially turned off in response thereto, and the remaining amount of the rechargeable battery 210 continues to decrease even after that, so that the rechargeable battery 210 . When the minimum remaining amount of , the LED (L) of the first LED group (L1) is turned off to protect the rechargeable battery 210 .

On the other hand, when the lighting lamp 100 is carried or moved, the direction in which the elastic leg portion 170 is mounted on the L-shaped groove portion 113 is changed so that it can be moved by holding it by hand.

As described above, the present invention has a simple structure, is convenient to carry, and maximizes the area of the solar cell part when charging the battery to increase the charging efficiency.

In addition, the present invention provides the advantage of being able to automatically extend the lighting time of the lighting lamp while notifying the user by varying the lighting state and brightness of the lighting lamp according to the level of the remaining amount of the rechargeable battery.

Although limited embodiments of the present invention have been described above, those skilled in the art should note that the present invention is not limited thereto and various embodiments are expected.

100: lighting 110: body
111: front part 112: groove part
113: L-shaped groove 113a: fitting hole
114: metal plate 120: cover
121: rear part 122: magnetic material
130: hinge unit 140: first solar cell unit
150: second solar cell unit 160: light bulb
161: PCB L: LED
170: elastic leg part

Claims (5)

A rectangular body 110, a cover 120 that is opened and closed through a hinge part 130 on one side of the front part 111 of the body 110, and is formed on the front part 111 of the body 110 A first solar cell unit 140, a second solar cell unit 150 formed on the rear surface 121 of the cover 120, a light bulb 160 formed on the upper end of the main body 110, and the main body ( 110) including a pair of elastic leg portions 170 coupled to the lower side,
When the cover 120 is closed toward the body 110, the first solar cell unit 140 and the second solar cell unit 150 are concealed, and when the cover 120 is opened and unfolded, the first solar cell unit 140 and the second solar cell unit 150 is configured to be exposed to the outside,
A concave portion 115 is formed on the upper and lower sides of the front portion 111 of the main body 110, and a metal plate 114 is installed inside the concave portion 115 to be internally or exposed to the surface,
A convex portion 123 corresponding to the concave portion 115 of the main body 110 is formed on the upper and lower sides of the cover 120 , and a magnetic body 122 is formed on the convex portion 123 of the rear portion 121 of the cover 120 . ) is installed to be exposed to the interior or surface,
The light bulb 160 includes a plurality of LEDs (L) arranged in a plurality of rows on a PCB 161, and a first LED group (L1) positioned at the top, a second LED group (L2) positioned in the middle, Consists of a third LED group (L3) located at the bottom,
A rechargeable battery 210 for charging electric energy generated from the first solar cell unit 140 and the second solar cell unit 150 , and a remaining battery level detecting unit 220 for detecting the remaining amount of charge of the rechargeable battery 210 , and , a control unit 230 for controlling the light bulb 160 on and off using the power of the rechargeable battery 210 and the battery remaining amount detection unit 220,
The control unit 230 outputs a command to light the LEDs of all the first LED groups (L1) to the third LED groups (L3) to the light bulb 160 when the battery charge amount equal to or greater than the set value is detected from the remaining battery level detection unit 220 . do,
When the remaining amount of the rechargeable battery 210 falls below the set value, a blinking signal is outputted to the light bulb 160 for a predetermined time, and the LED (L) of the third LED group (L3) of the light bulb 160 is turned off at the same time, Accordingly, when the remaining amount of the rechargeable battery 210 decreases, the LEDs L of the second LED group L2 and the first LED group L1 are sequentially turned off in response thereto,
The blinking signal is a signal for sequentially blinking the LEDs (L) of the first LED group (L1) to the third LED group (L3) for a predetermined time,
The lower side of the main body 110 is formed with an A-shaped groove 113, and the bent portion of the A-shaped groove 113 is provided with a fitting hole 113a into which the bent end 171 of the elastic leg 170 is fitted. Portable lighting using solar power.
delete delete delete delete

Images