WO2012070722A1

WO2012070722A1 - Light-emitting panel device for nighttime to supply solar energy electricity

Info

Publication number: WO2012070722A1
Application number: PCT/KR2011/001140
Authority: WO
Inventors: 오세영; 손정삼
Original assignee: Oh Se-Young; Son Jeong-sam
Priority date: 2010-11-28
Filing date: 2011-02-22
Publication date: 2012-05-31
Also published as: CN102064739A; KR101021301B1; KR20110014248A; CN102064739B

Abstract

The present invention relates to a light-emitting panel device for nighttime to supply solar energy electricity, and the light-emitting panel device comprises: a rack; a support rotation-driving unit; a light-emitting panel elevation-driving unit; and a light-emitting panel moving unit, in which among a plurality of light-emitting panels that are respectively connected by hinges and are configured to emit light, the last light-emitting panel is fixed and connected to light-emitting panel window frames of the light-emitting panel elevation-driving unit, a track is fixed to an upper side of said rack, a gear rack is installed on said track and is slid thereon, a movement-driving gear wheel is operated to unfold or fold the light-emitting panels in engagement with said gear rack and then is positioned on the lower side of a front light-emitting panel, and a movement-driven gear wheel is positioned on a lower hinge of a random light-emitting panel, wherein a straight driving motor is positioned on one side of said gear rack and is configured to slide on the gear rack. The invention irradiates light on a solar cell module by allowing a light-emitting frame having a laser for irradiating light on the solar cell module to be unfolded at nighttime or in cloudy weather during which sunlight or heat is not irradiated or when light or heat is not irradiated at a certain intensity or more, so that the solar cell module can perform a charging operation even at nighttime or in cloudy weather, thereby showing excellent efficiency of the solar cell module.

Description

Night light emitting panel device for solar energy supply

The present invention relates to a night light emitting panel device for supplying electricity to solar energy, and more specifically, to form a panel formed with a laser that can irradiate light even at night or dark weather is not irradiated with the sun light panel at night The present invention relates to a night light-emitting panel device for supplying solar energy that can be charged with solar energy by unfolding light with a solar cell module.

Conventionally, underground resources such as petroleum and coal have been gradually exhausted, and as humans are interested in new environmental energy, new types of energy, such as tidal power, hydro energy or solar energy, which can be used permanently, have come into the spotlight.

Here, power generation using solar energy is used to convert light or heat irradiated from the sun into electrical energy using a solar cell module. Currently, the solar cell module uses a solar cell module suitable for the light or heat emitted from the sun. It was converted to electrical energy and used.

In addition, the solar cell module was used to move the same according to the movement of the sun in order to charge more solar energy.

In addition, when the sun is not irradiated at night or when the weather is cloudy, the LED bulb is installed in addition to the solar cell module such as Patent Publication No. 10-2010-68707 to use energy emitted from the LED bulb to provide energy to the solar cell module. Used to fill.

However, even when the solar cell module is used to use solar energy as described above and the angle of the solar cell module is adjusted according to the movement of the sun, the light irradiated from the sun at night or when the weather is cloudy There was no problem that the solar cell module does not absorb solar energy.

In addition, the light or heat irradiated from the sun is irradiated only at a certain time and weather, so that the time for operating the solar cell module is limited, so that the efficiency of the solar cell module is not good.

In addition, even when charging the solar energy using the LED bulb which can irradiate light or heat even at night or cloudy weather as described above, the LED bulb does not irradiate the entire solar cell module with light or heat. There was a problem that the efficiency of the solar cell module is not good.

The present invention is formed of a rack is installed a panel that absorbs light to generate electrical energy, and is formed of a 'L' shaped short arm is connected to both sides of the rack and the bottom plate is connected to the short arm, Support base rotation drive unit is formed with a rotary drive motor to the lower side of the rack so that the short arm and the bottom plate is rotated, the lower layer connecting plate in close contact with the bottom plate of the support rotation drive unit, the lower layer connecting plate in close contact with the electromagnetic position input card The upper layer connecting plate is installed, and the upper layer connecting plate and the hinge pin, the light emitting panel window frame is formed when the upper layer connecting plate is raised, the corresponding card hole corresponding to the electromagnetic location input card, the light emitting panel window frame, the upper layer connecting plate The groove of the bar time is formed on the same side of the lower layer connecting plate, but the groove surface of the groove is formed on the light emitting panel window frame. A lift serial plate formed of a top connecting plate gear rack formed on the bottom plate, a bottom connecting plate gear rack formed on the bottom connecting plate, and a light emitting plate window frame, a top connecting plate, and a bottom connecting plate formed to slide, respectively, and the bottom of the short arm. The center of rotation is located on the center line of the bar type groove, the small gearwheel corresponding to the light emitting window frame gear rack and the middle gear wheel corresponding to the upper plate connecting gear rack and the large gear plate corresponding to the lower connecting plate gear rack The light emitting plate elevating drive unit formed by the elevating drive motor with the gear wheel formed with the top gear wheel, and the last light emitting plate of the light emitting plate elevating drive unit which is connected to each other by hinges and formed to emit light. It is formed fixedly connected to the frame, the track is fixed to the upper side of the rack and the gear rack is installed and slides on the track It is operated to expand or fold the light emitting plate corresponding to the gear rack, the movement driven gear wheel located on the lower side of the front light emitting plate and the mobile slave gear wheel located on the hinge of the lower side of any light emitting plate is formed, It is composed of a light emitting plate moving unit which is formed of a linear drive motor positioned to one side of the gear rack to slide the gear rack.

According to the present invention, at night or in cloudy weather, in which no light or heat is irradiated or exposed to light or heat of a certain intensity, the light emitting frame is formed with a laser for irradiating light with the solar cell module, and the light is irradiated to the solar cell module. The solar cell module is able to operate the charging even at night or cloudy weather, there is an advantage of the efficiency of the solar cell module.

And, when the laser is irradiated with light, it is located on the upper side of the solar cell module rather than a part of the plurality of solar cell module to irradiate light to the entire solar cell module has the advantage of charging more power generation.

In addition, the light emitting frame irradiating light with the solar cell module is folded during the day when the sun is active and is unfolded only at night or in cloudy weather, thereby minimizing the space occupied by the light emitting frame, and thus has an advantage of excellent space utilization.

In addition, when irradiating light with a solar cell module, by irradiating light through a laser having excellent energy efficiency and low maintenance cost, there is an advantage that the maintenance cost is low.

In addition, when the light emitting frame is unfolded to the upper side of the solar cell module, it is easily spread in turn along the rail and the light emitting frames are divided at regular intervals, so that the light emitting frames can be individually maintained, so that only the light emitting frames requiring maintenance are required. It can be maintained or replaced, which has the advantage of low maintenance costs.

1 is a device explanatory diagram of an embodiment of the present invention.

Figure 2 is a state of use after 90 degrees of rotation of the support of the embodiment of Figure 1;

3 is a state diagram of the elevating serial plate of the embodiment of FIG.

Figure 4 is an explanatory view of the mesh gear rack meshing with the small gear wheel of the elevating serial plate top gear wheel of the embodiment of Figure 1;

Figure 5 is an explanatory view of the middle gear wheel and the upper connecting plate gear rack meshing of the elevating serial plate top gear wheel of the embodiment of Figure 1;

FIG. 6 is an explanatory view of engagement between a large gear wheel and a lower floor connecting plate gear rack among elevating serial plate top gear wheels in the embodiment of FIG. 1; FIG.

7 is an explanatory diagram when the elevating serial plate of the embodiment of FIG. 1 is raised to the highest position;

8 is an operational state diagram of the light emitting plate movement unit of the embodiment of FIG.

9 is an enlarged view of a portion A of FIG. 8.

10 is an enlarged view of a portion B of FIG. 8.

FIG. 11 is a state diagram in which the light emitting plate of the embodiment of FIG. 1 is installed;

Looking at the configuration of the present invention for achieving the above object is as follows.

First, the night light emitting panel device for supplying solar energy of the present invention comprises a rack (1), the support rotation drive unit (3), the light emitting plate lifting drive unit (4), the light emitting plate moving unit (5).

The rack 1 is provided with a panel 2 for absorbing light to generate electrical energy.

In addition, the support rotation drive unit (3) is connected to both sides of the rack (1) is formed of a 'L' shaped short arm 32 and the bottom plate 31 is connected to the short arm 32 Is formed, the rotary drive motor 34 is formed on the lower side of the rack 1 so that the short arm 32 and the bottom plate 31 is rotated.

In addition, the light emitting plate lifting and driving unit (4) is the lower layer connecting plate 43 in close contact with the bottom plate 31 of the support rotation drive unit 3, the lower layer connecting plate 43 is in close contact with the electromagnetic location input card The upper layer connecting plate 42 on which the 44 is installed is connected to the upper layer connecting plate 42 and the hinge pin 47, and the upper layer connecting plate 42 is connected to the electromagnetic position input card 44 when the upper layer connecting plate 42 is raised. Bar-time grooves are formed on the same side of the light emitting plate window frame 41 and the light emitting plate window frame 41, the upper layer connecting plate 42, and the lower layer connecting plate 43. On the groove surface of the groove, the light emitting plate window frame gear rack 411 formed on the light emitting plate window frame 41, the upper layer connecting plate gear rack 421 formed on the upper layer connecting plate 42, and the lower layer formed on the lower layer connecting plate 43. A lifting serial plate formed of a connecting plate gear rack 431 and configured to slide the light emitting plate window frame 41, the upper layer connecting plate 42, and the lower layer connecting plate 43, respectively. It is installed at the bottom of the short arm 32, the center of rotation is located on the center line 46 of the bar type groove, the upper shaft connected to the small gear wheel 491 corresponding to the light emitting window frame gear rack 411 on the output shaft The elevating drive motor 48 having the top gear wheel 49 formed with the intermediate gear wheel 492 corresponding to the plate gear rack 421 and the large gear wheel 493 corresponding to the lower plate connecting gear gear 431. Is formed.

The light emitting plate moving unit 5 is connected to each other by a hinge, and among the plurality of light emitting plates 51 formed to emit light, the last light emitting plate 51 is a light emitting plate window frame of the light emitting plate driving unit 4. It is formed to be fixedly connected to the 41, the track 54 is fixed to the upper side of the rack (1), the gear rack 55 and the gear rack 55 is installed and slides on the track 54 Correspondingly operated to expand or fold the light emitting plate 51, the movement is located on the hinge of the lower side of the light emitting plate 51 and the movement-driven gear wheel 52 located below the front light emitting plate 51 A subordinate gear wheel 53 is formed and is formed of a light emitting plate moving unit formed of a linear driving motor 56 positioned to one side of the gear rack 55 to slide the gear rack 55.

In addition, the outer surface of the gear rack 55 of the light emitting plate movement unit 5 is preferably formed to be inclined.

Looking at the operation according to a preferred embodiment of the present invention having the configuration as described above are as follows.

First, the plurality of panel plates 2 are placed in the rack 1, and the bottom plate 31 and the bottom plate 31 are integrally formed with the bottom plate 31 under one side of the rack 1. The short arm 32 is fixed to be coupled to both sides of the rack (1).

In addition, among the short arms 32 coupled to both sides of the rack 1, the rotary drive motor 34 is positioned on the short arm 32 of one side.

Here, when the short arm 32 is coupled to both sides of the rack 1, it is connected to a lower portion of one side of the rack 1 by a hinge (not shown) such as a hinge (not shown). .

Then, the lower layer connecting plate 43 of the light emitting plate elevating drive unit 4 is positioned inward of the bottom plate 31, and the upper layer connecting plate 42 and the light emitting panel window frame inside the lower layer connecting plate 43. Each of the light emitting plate window frame 41, the upper layer connecting plate 42, and the lower layer connecting plate 43 is connected by a hinge pin 47.

Here, the light emitting panel window frame 41, the upper layer connecting plate 42, the lower layer connecting plate 43 is formed to be in close contact with the bottom plate 31 to move up and down, the lower plate, the light emitting panel window frame 41, the upper layer On one side of the connecting plate 42, the lower layer connecting plate 43, the light emitting plate window frame gear rack 411, the upper connecting plate gear rack 421, the lower connecting plate gear rack 431 is formed, the light emitting panel window frame ( 41), the upper floor connecting plate 42, the lower floor connecting plate 43 does not separate from the support rotation drive unit (3), and corresponds to the lifting drive motor 48 to the short arm 32 so that it can be raised and lowered To form.

In addition, the light emitting plate window frame 41, the upper layer connecting plate 42, the lower layer connecting plate 43, the light emitting plate window frame gear rack 411, the upper layer connecting plate gear rack 421, the lower layer connecting plate gear rack ( When forming the 431, the light emitting plate window frame 41, the upper layer connecting plate 42, the lower layer connecting plate 43 to form a groove (not shown in the figure) of the bar type (hole shape), Each light emitting plate window frame gear rack 411, an upper layer connecting plate gear rack 421, and a lower layer connecting plate gear rack 431 are formed on the groove surface of the groove.

In addition, a top gear wheel 49 is formed on the output shaft of the lifting drive motor 48. The top gear wheel 49 has a small gear wheel 491, an intermediate gear wheel 492, and a large gear wheel 493. The small gearwheel 491 is formed to engage with the light emitting window frame gear rack 411, the intermediate gearwheel 492 is formed to engage the upper plate connecting gear gear rack 421, The large gearwheel 493 is formed to engage the lower connecting plate gear rack 431.

In addition, when the top gear wheel 49 is formed, the center of rotation of the small gear wheel 491, the middle gear wheel 492, and the large gear wheel 493 is connected to the light emitting window pane 41 and the upper floor. The plate 42 and the lower layer connecting plate 43 to be the same as the center line 46 of the groove formed on the side.

In addition, the card hole 45 is formed to correspond to the electromagnetic input card 44 on the upper side of the lower layer connecting plate 43, and to form the electromagnetic position input card 44 on the lower side of the upper connecting plate 42. When the light emitting plate window frame 41 and the upper layer connecting plate 42 are slid by a certain height to the upper side of the lower layer connecting plate 43, the card hole 45 formed in the lower layer connecting plate 43 is formed. Corresponding to the position so that the electromagnetic input card 44 of the upper connecting plate 42.

On the other hand, the track 54 is installed on both sides of the rack (1) and the gear rack 55 to the track 54 to be installed.

In addition, the linear drive motor 56 is installed on one side of the gear rack 55, but the linear drive motor 56 is not provided with the support rotation drive unit 3 and the light emitting plate lift drive unit 4. Install on the other side.

This is to allow the gear rack 55 to operate smoothly without moving between the support rotation drive unit 3 and the light emitting plate lift drive unit 4 when the gear rack 55 is moved above the track 54.

The linear drive motor 56 is connected to the gear rack 55 to slide the gear rack 55.

Then, the last light emitting plate 51 of the plurality of light emitting plates 51 for emitting light is coupled to the light emitting plate window frame 41 of the light emitting plate lifting and driving unit 4 using a hinge or a hinge, and the like. The light emitting plates 51 are coupled to each other using a hinge and a hinge.

Then, the lower side of the light emitting plate 51 to form a movable driven gear wheel 52 and a movable slave gear wheel 53 that can move corresponding to the gear rack 55 formed on the upper side of the rack (1).

Here, the movement-driven gear wheel 52 is installed on the outermost light emitting plate 51 located on the opposite side of the bottom plate 31 of the plurality of light emitting plates 51, the moving slave gear wheel 53 is any light emission To the plate 51.

As described above, the rack 1, the support base rotation driving unit 3, the light emitting plate lifting driving unit 4, and the light emitting plate moving unit 5 are constituted.

Then, let the user operate the panel device manually or automatically.

Then, the rotary drive motor 34 formed in the support rotation drive unit 3 is operated as shown in Figure 1, the bottom plate 31 and the short arm is located parallel to the ground as shown in Figure 2 The 32 is rotated so that the bottom plate 31 and the short arm 32 are positioned perpendicular to the ground.

Thereafter, as shown in FIG. 3, the elevating drive motor 48 formed in the light emitting plate elevating drive unit 4 is operated, and the top gear wheel 49 is operated at the same time.

Then, as illustrated in FIGS. 4 to 7, the small gear wheel 491 of the tower gear wheel 49 is operated to emit light in which the light emitting plate window frame gear rack 411 corresponding to the small gear wheel 491 is formed. Plate window frame 41 is raised to a certain height.

Then, the upper layer connecting plate gear rack 421 of the upper layer connecting plate 42 formed on the light emitting plate elevating drive unit 4 corresponds to the intermediate gear wheel 492, so that the upper layer connecting plate 42 is raised. In addition, the electromagnetic position input card 44 formed at the lower side of the upper connecting plate 42 is raised to a position corresponding to the card hole 45 formed at the light emitting panel window frame 41.

In addition, the large gear wheel 493 of the tower gear wheel 49 is operated to raise the lower layer connecting plate 43 on which the lower connecting plate gear rack 431 corresponding to the large gear wheel 493 is formed.

Here, as the light emitting plate window frame 41 is initially raised, the light emitting plate 51 of the light emitting plate moving unit 5 connected to the light emitting plate window frame 41 is also raised at the same time.

Thereafter, the light emitting plate lifting drive unit 4 and the light emitting plate moving unit 5 are completely raised as described above, and the moving driven gear wheel 52 and the moving slave gear wheel of the light emitting plate moving unit 5 are 53 is raised to a height that can correspond to the gear rack (55).

8 to 11, when the light emitting plate elevating driving unit 4 is fully raised, the gear rack 55 is linearly driven along the track 54 installed above the rack 1. It is moved by the operation of the motor 56.

In detail, the gear rack 55 located on the upper side of the rack 1 has the light emitting plate elevating drive unit 4 and the light emitting plate elevating drive unit 4 when the light emitting plate elevating drive unit 4 rises. ) And the light guide plate movement unit 5 is formed to be slightly short with respect to the longitudinal direction of the rack (1), the movement driven gear wheel 52 and the mobile slave gear wheel formed in the light emitting plate movement unit (5) The 53 is moved in the direction of the support rotation drive unit 3 by the operation of the linear drive motor 56 so as to correspond to the gear rack (55).

In addition, as shown in FIG. 10, the outer surface of the gear rack 55 may be inclined so that the movement driven gear wheel 52 corresponding to the gear rack 55 moves smoothly.

Then, the movement-driven gear wheel 52 located on the light emitting plate 51 formed on the outermost side of the light emitting plate moving unit 5 is unfolded in correspondence with the gear rack 55 to any light emitting plate 51. The positioned slave gear wheels 53 correspond to the gear racks 55 so that the plurality of light emitting plates 51 are unfolded.

In addition, since the last light emitting plate 51 of the light emitting plate moving unit 5 is connected to the light emitting plate window frame 41 of the light emitting plate lifting and driving unit 4, the light emitting plate window frame 41 is also racked at the same time. It unfolds while moving upward of (1).

In addition, as the light emitting plate 51 is unfolded, the gear rack 55 which has been moved in the direction of the light emitting plate lifting and driving unit 4 and the light emitting plate moving unit 5 is simultaneously opposite to the support rotating unit 3. It is moved to the end of the rack 1, which was originally located.

Here, the reason why the gear rack 55 moves back to the position where the gear rack 55 was originally positioned is that the gear rack 55 formed shortly in the longitudinal direction of the rack 1 does not return to its original state. Since the corresponding moving light emitting plate 51 does not move to the end of the rack 1, the gear rack 55 also moves at the same time so that the light emitting plate 51 can be fully extended to the end of the rack 1 It is.

In addition, the plurality of light emitting plates 51 are connected to each other by a hinge or the like, so that the light emitting plate 51 is smoothly unfolded or folded without being separated.

Then, the gear rack 55 is moved in the opposite direction of the support rotation drive unit 3 is located at the end of the rack (1), the light emitting plate 51 of the light emitting plate movement unit 5 is As the light emitting plate 51 is completely unfolded to emit light to the panel 2, the panel 2 is charged.

After performing the operation in the same manner as described above, the support plate rotation drive unit (3), the light emitting plate lifting drive unit (4), the light emitting plate moving unit (5), etc. are operated in the reverse order to return to the original state. Will be.

In this manual, the present invention has been described with reference to specific embodiments.

However, the above embodiments are not limited to the present invention, and those skilled in the art may make other embodiments within the scope of the present invention based on the technology obtained by the present patent.

However, technical solutions obtained by simply modifying the embodiments based on the technology of the present invention or by the same changes and modifications without departing from the technical solution of the present invention still fall within the scope of the technical solution of the present invention.

Claims

A rack 1 on which a panel 2 for absorbing light to generate electrical energy is installed;

It is formed of the 'L' shaped short arm 32 and the bottom plate 31 to which the short arm 32 is connected so as to be connected to both sides of the rack 1, the short arm 32 and the bottom plate. A support rotary drive unit 3 in which a rotary drive motor 34 is formed at a lower side of the rack 1 so that the 31 is rotated;

The lower layer connecting plate 43 in close contact with the bottom plate 31 of the support rotation driving unit 3, and the upper layer connecting plate 42 in close contact with the lower layer connecting plate 43 and the electromagnetic location input card 44 is installed. And, the light emitting panel window frame is connected by the upper connecting plate 42 and the hinge pin 47, the card hole 45 corresponding to the electromagnetic position input card 44 is formed when the upper connecting plate 42 is raised The 41 and the bar side grooves are formed on the same side of the light emitting panel window frame 41, the upper connecting plate 42, and the lower connecting plate 43, but are formed on the emitting panel window frame 41 on the groove surface of the groove. The light-emitting plate window frame gear rack 411, the upper layer connecting plate gear rack 421 formed on the upper layer connecting plate 42, the lower layer connecting plate gear rack 431 formed on the lower layer connecting plate 43 is formed Lifting serial plate formed so that the window frame 41, the upper layer connecting plate 42, the lower layer connecting plate 43 slides, respectively, and is installed at the bottom of the short arm 32 The center of rotation is located on the bar center groove 46, the small gear wheel 491 corresponding to the light emitting window frame gear rack 411 on the output shaft and the intermediate gear wheel corresponding to the upper plate connecting gear rack 421 ( 492), a light emitting plate lifting and driving unit 4 formed of a lifting driving motor 48 formed with a top gear wheel 49 formed with a large gear wheel 493 corresponding to the lower layer connecting plate gear rack 431;

The last light emitting plate 51 is formed by being fixedly connected to the light emitting plate window 41 of the light emitting plate lifting and driving unit 4 of the light emitting plate 51 is formed by a plurality of hinges, respectively, to emit light. The light emitting plate 51 is extended or folded to correspond to the track 54 fixedly installed on the upper side of the rack 1, the gear rack 55 installed on the track 54, and the gear rack 55 sliding. A movement driven gear wheel 52 positioned at a lower side of the front light emitting plate 51 and a moving slave gear wheel 53 positioned at a hinge below the arbitrary light emitting plate 51. Night light emitting panel for supplying solar energy, characterized in that made of a light-emitting plate moving unit (5) formed of a linear drive motor (56) positioned to one side of the gear rack (55) to slide the gear rack (55). Device.
The device of claim 1, wherein the outer surface of the gear rack (55) of the light emitting plate moving unit (5) is formed to be inclined.