KR101268492B1 - Self-generation power system with solar concentrator angle adjustable streetlights - Google Patents

Abstract

PURPOSE: A solar collector angle adjustment type street light including a self-powered system is provided to reduce power consumption by including an angle adjustment device and a rotation control device. CONSTITUTION: A solar collector connection board connects a solar collector plate(10). A fixed connection hole is formed on an upper part of the solar collector connection board. A fixed bracket installs a connection hole. An angle adjustment device(30) adjusts the angle of the solar collector plate freely. A rotation control device(20) controls a rotation freely.

Description

Self-generation power system with solar concentrator angle adjustable streetlights

The present invention relates to a solar light collecting plate angle adjustable street light having a self-generating power system, and more particularly, to send electricity produced by the power generation module of the self-powered street lamp to the electricity supplier, when using the street lamp electricity from the electricity supplier The solar light collecting plate angle adjustable street light having a self-generating power system that can be supplied to use and to freely adjust the installation angle of the solar light collecting plate to improve the production of electricity.

In general, street lamps are installed in roads, parks, apartment complexes, etc. to provide safety during nighttime operation of vehicles or nighttime passages of pedestrians, and to improve the aesthetics of the surroundings. It will be installed at a certain distance over.

Therefore, in order to control the lighting of the street lamp which is selectively turned on only at night, it is common to install a timer or the like in a control panel installed at a certain section to control the lighting time of the street lamp by a timer.

However, such a conventional streetlight has a drawback in that the electric charge burden is increased because the annual power consumption is large by consuming about 200 to 400W per hour.

In recent years, solar modules, wind turbines, and so on have built-in power generation modules, storage batteries for storing electricity generated from power generation modules, inverters for converting into alternating current electricity used to light DC electricity supplied from storage batteries, and storage batteries. Increasingly, self-powered street lamps, which consist of integrated control units that prevent over-discharge of electricity, control the operation of inverters, and control the lighting and turning off of street lights, are gradually increasing.

However, the power system of the conventional self-powered street lamp as described above stores the electricity produced by the power generation module in the storage battery installed in the street lamp during the day, and when it is time to turn on the street lamp after sunset, the storage battery installed inside the street lamp The electricity stored in the lamp is used to light the street lamp.

Therefore, there is not enough daylight for the power generation module built in the solar cell installed on the solar panel, or the power generation module installed with the wind power generator can produce enough electricity. If the amount of electricity stored in the battery is not enough due to the case where the light does not occur, there is a problem that the street lamp is not continuously turned on during the time to turn on the street lamp after sunset.

In addition, in the case of installing the battery inside the street lamp, the structure of the street lamp is complicated, and the manufacturing cost increases, and there is a problem in that the construction cost increases because reinforcement measures are required for the safety of the battery when the street lamp is installed.

And when the battery is installed inside the street lamp, if a physical shock is applied outside the street lamp, the battery is synthesized and there is a risk of a safety accident such as a fire or an explosion. In the case of high summer rainy season, the terminal part of the battery is corroded and the battery does not operate normally. When the external temperature decreases significantly in winter, the performance of the battery decreases significantly. This will occur.

On the other hand, by installing a solar light collecting plate to the upper side of the support to install and use the electricity produced from the sunlight. However, the direction of the street lamp is not one-sided, so after the street lamp is installed, the solar light collecting plate should be rotated at the upper side to be oriented or installed at the required angle in order to ensure good light concentration. The light collecting plate may not be installed at the correct direction and angle, and it is very difficult to install the light by controlling the direction and angle, causing delay in the installation of the street lamp.

Document 1. Patent Registration No. 1183189 (2012. 09. 10. registration) Document 2. Patent Publication No. 2008-0079386 (Published Sep. 01, 2008) Document 3. Patent Publication No. 2010-0129927 (Dec. 10, 2010 publication) Document 4. Patent Publication No. 2011-0006245 (Published June 22, 2011)

Therefore, the problem of the present invention, which is devised to solve the above-mentioned drawbacks, does not install a battery in a self-powered street light, but sends electricity produced by a power generation module such as a solar light collecting plate to an electric company, and uses a street light. In this case, it is intended to save electricity consumption by turning on a lamp by receiving electricity from an electric company.

Another object of the present invention is to expand the solar light collecting plate installed on the upper side of the street lamp to the top and bottom left and right to produce electricity in a larger area to enable the production of electricity by self-power generation.

Another object of the present invention is to enable the rotation of the solar light collecting plate freely in the desired direction, and to move to a desired angle to match the angle of the sun to enable the production of the most desirable electricity.

The present invention is supplied to the electricity supplier through the electricity meter and the power supply line in the micro inverter connected to the solar cell installed in the solar heat collector, the lamp is connected to the power supply line and electricity meter and timer from the electricity provider, the upper side of the post Install solar panels; The micro inverter is connected to the electricity meter through the first breaker and the main breaker, the lamp and the timer is connected to the electricity meter through the second breaker and the main breaker, the upper side to the one side of the heat sink connecting plate connected to the solar heat collector A fixed connection hole is formed on the upper side, and the fixing bracket is connected to the upper side, and connected to the upper side and the fixing bolt of the rotating shaft coupled to the rotating guide shaft on the lower side. A fixing bracket for installing a fastening hole; An angle adjusting device connected to the fixing bracket to freely adjust the angle of the solar heat collecting plate; In the solar heat collecting plate angle adjustable street light having a power generation system is installed on the lower side of the angle adjusting device and the upper side of the support to install a rotation control device free to rotate,
When the bearing is coupled to the rotating guide shaft screwed to the lower side of the rotary shaft coupled to the fixed bracket is connected to the upper side and the rotating guide shaft to the lower side, the rotation control device installs a bearing case to the outside, at the lower inner diameter of the bearing case It is characterized in that it is provided with a connecting shaft for screw coupling, consisting of a support for screw coupling to the connecting shaft to freely control the rotation angle.

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The present invention does not install a battery in a self-powered street light, and sends electricity produced by a power generation module such as a solar light collecting plate to an electric service provider, in the case of using a street light is supplied to the electricity provider to turn on the lamp to consume electricity consumption By simplifying the structure of the street lamp, the manufacturing cost can be reduced, and the lighting can be stable at the required time by supplying stable electricity regardless of the amount of self-generation.

The present invention is to install the up and down moving light collecting plate and the left and right moving light collecting plate on the solar light collecting plate installed on the upper side of the street lamp to expand the mobile light collecting plate to produce electricity in a larger area, so that the production of electricity by self-generation In the process of supplying the electricity to the electricity supplier or electricity from the electricity supplier, the actual power consumption is greatly reduced to reduce the burden of the electricity bill.

The present invention is freely rotated in the desired direction from the lower side of the solar light collecting plate is possible to control the rotation of the light collecting plate, by simply moving the inclined angle to the desired angle to match the angle of the sun to enable the production of the most desirable electricity It has the effect of making it almost inexpensive.

BRIEF DESCRIPTION OF THE DRAWINGS Fig.
Figure 2 is a front view of the main part showing the installation state of the present invention
3 is a plan view of the installation state of the solar light collecting plate of the present invention
4 is a plan view of the folded state of the solar light collecting plate of the present invention
5 is a cross-sectional view of the state in which the left and right moving light collecting plate for the solar light collecting plate of the present invention is expanded;
Figure 6 is a cross-sectional view of the operating state of the up and down moving light collecting plate for the solar light collecting plate of the present invention
Figure 7 is a perspective view of the separated state of the angle adjusting device of the present invention
Figure 8 is a cross-sectional view of the installation state for the angle adjustment device of the present invention
9 is an exploded perspective view of the rotation control apparatus of the present invention;
10 is a cross-sectional view of the installation state of the rotation control apparatus of the present invention;

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

1 is related to the installation state diagram showing a preferred embodiment of the present invention, the street lamp 100 fixedly installed on the floor through the floor mounting platform 24, the support 23 is installed above the floor mounting platform 24, The lamp 61 is installed by connecting the column connecting rod 62 at the upper side of the support 23, and the solar light collecting plate 10 is installed at the top or any part of the support 23.

The solar light collecting plate 10 is provided with a solar cell 51, the micro inverter 52 for converting the direct current electricity produced in the solar cell 51 into an alternating current, the micro inverter 52 and the main A first circuit breaker 53 is installed between the circuit breakers 54 so that electricity can be cut off, and the main circuit breaker 54 has an electric meter 57 through an electric meter 55 and a power supply line 56. To supply the electricity produced.

The electric service provider 57 and the power supply line 58 are connected so that electricity can be supplied when electricity is needed, and the lamp (at the second breaker 59 through the electricity metering unit 55 and the main breaker 54). By supplying electricity to the 61 to be turned on, the timer 60 is provided between the second breaker 59 and the lamp 61.

The solar light collecting plate 10 is supplied with solar light to produce electricity using solar light in the built-in solar cell 51, and the electricity produced in the solar cell 51 is a direct current electricity micro-inverter 52 ) Is converted into alternating current electricity and supplied to the electricity supplier 57, or used to receive alternating current electricity from the electricity provider 57.

When supplied with alternating current electricity from the micro inverter 52, the first breaker 53 can control it, and the electricity is supplied to the electricity metering unit 55 through the main breaker 54 to measure the amount of electricity produced. 56 will be sent to the electricity supplier (57).

In order to turn on the lamp 61, the electricity is supplied from the electricity supplier 57 to the power supply line 58 to measure the electricity supplied from the electricity meter 55, and then the second breaker 59 through the main breaker 54. ), The lamp 61 is turned on.

The timer 60 is installed between the second breaker 59 and the lamp 61 to input the lighting and lighting time, thereby controlling the lighting and lighting of the lamp 61.

When electricity is supplied from the first breaker 53 to the electric service provider 57 through the main breaker 54, the electricity is supplied to the lamp 61 through the second breaker 59. When electricity is supplied from the electricity supplier 57, the electricity is interrupted from being supplied to the micro inverter 52 through the first breaker 53.

When failure of the solar cell 51 and the micro inverter 52 or the timer 60 occurs, and the normal use of the street light 100 is impossible, the first circuit breaker 54 and the first circuit breaker 53 and the second circuit breaker are used. By interrupting the electrical supply to (59), it is possible to prevent the occurrence of fire due to overvoltage, overcurrent or short circuit.

Figure 2 is a front view of the main portion showing the installation state of the present invention, by installing the rotation control device 20 above the support 23 to rotate the solar light collecting plate 10 to freely rotate to move to the required position The inclination angle of the solar light collecting plate 10 on the upper side of the rotation control device 20 is adjusted by the angle adjusting device 30 so as to be easily set at a required position.

Figure 3 is a plan view of the installation state of the solar light collecting plate of the present invention, Figure 4 is a plan view of the folded state of the solar light collecting plate of the present invention, Figure 5 is a state of unfolding the left and right moving light collecting plate for the solar light collecting plate of the present invention 6 is a cross-sectional view illustrating an operating state of the solar light collecting plate of the present invention in a state where the vertically moving light collecting plate is unfolded.

The solar light collecting plate 10 uses a fixed light collecting plate 11 made of a square, and the fixed light collecting plate 11 is installed inside the light collecting plate reinforcing rod 25 on a slope, and in order to improve the amount of electricity, the left and right moving light collecting plates ( 12, 12a and the vertically moving light collecting plate 13, 13a can be slidably projected to improve the heat collecting area.

The left and right moving light collecting plates 12 and 12a are installed to be slidably opened and closed on the left and right moving rails 14 on both sides by dividing the center to the lower side of the fixed light collecting plate 11, and inside the left and right moving light collecting plates 12 and 12a. After the stopper 16 is formed and protrudes to a predetermined length, the stopper 16 is installed so as not to protrude further.

The up and down moving light collecting plates 13 and 13a are installed so as to be slidably opened and closed on the up and down moving rails 15 on both sides by dividing the center to the lower side of the left and right moving rails 14, and the inside of the up and down moving light collecting plates 13 and 13 a. In the stopper 17 is formed to protrude to a predetermined length is to be installed so that no more protruding.

The solar light collecting plate 10 may be installed and used with only one fixed light collecting plate 11, and the left and right moving light collecting plates 12 and 12a may be further installed downward to slide the left and right moving light collecting plates 12 and 12a to both sides. It is possible to further improve the electricity production using solar light.

In addition, the solar light collecting plate 10 further includes vertically moving light collecting plates 13 and 13a installed under the left and right moving light collecting plates 12 and 12a to expose the vertically moving light collecting plates 13 and 13a in the vertical direction. It is possible to further improve electricity production using solar light.

7 is a perspective view of a separated state of the angle adjusting device of the present invention, Figure 8 is a cross-sectional view showing the installation state of the angle adjusting device of the present invention.

The light collecting plate reinforcing plate 25 of the solar light collecting plate 10 is coupled to the bottom through the angle adjusting device 30 to control the inclination angle of the solar light collecting plate 10.

The angle adjusting device 30 is a fixing bracket 31 having a light collecting plate connecting rod 32 fixed to the light collecting plate reinforcing plate 25 to be inclined at an upper side thereof, and has a fixed connecting hole 33 formed at an upper side thereof, and an inclined adjusting hole to an arc at a lower side thereof. 34 is formed, and the fastening hole 37 is formed in the front surface.

The fixing bracket 31 forms a cutout portion 45 on one side, and combines the rotating shaft 44 having two holes in which the fixed connecting hole 33 and the inclined adjusting hole 34 coincide with each other. 33 is coupled to the fixing bolt 35, the inclined adjustment hole 34 is to be coupled through the adjustment bolt (36).

The inclined portion (40) is located inside the inclined adjustment hole 40 through which the adjustment bolt 36 is coupled to protrude in one direction to form a screw thread, the fastening hole 37 is inclined adjustment opening ( The fastening bar 42 through which the 40 penetrates is inserted to be caught by the protruding shape of the outer side so that no further entry is made. 42 is to be fixed and the tip of the inclination adjusting device 40 to the outside is exposed.

In the exposed portion of the lobe control sphere 40 is coupled to the fixing handle 43 to adjust the angle of the fixing bracket 31 from the rotating shaft 44 in the inclination adjustment hole 34 and then fixed with the fixing handle 43 will be.

That is, when the adjustment bolt 36 is coupled through the inclination adjustment hole 34 of the fixing bracket 31, the inclination adjustment opening through the cutout portion 45 of the rotating shaft 44 in the inside of the fixing bracket 31 When the fixing bracket 31 is rotated in a state where the fixing bolt 35 is coupled to the fixing connecting hole 33 on the upper side of the rotating shaft 44 in a state where it is installed through the 40 and the rotating shaft 44, the inclination is adjusted. As the inclination angle of the light collecting plate connecting rod 32 is adjusted while moving in the hole 34, the inclination angle of the solar light collecting plate 10 can be freely adjusted, and after adjusting the solar light collecting plate 10 to the desired inclination angle, The fixed handle 43 is rotated and fixed to the inclination adjuster 40 so that it can be stably maintained at a set position.

As such, by controlling the rotation angle of the solar light collecting plate 10 through the angle adjusting device 30 so as to receive sunlight in the state closest to the sun to improve the production of electricity, the first prop 23 Is connected to the rotating shaft 44 from the upper side of the to be conveniently adjusted to the desired angle to be fixed.

9 is a perspective view of a separated state of the rotation control apparatus of the present invention, Figure 10 is a cross-sectional view showing the installation state of the rotation control apparatus of the present invention.

The rotation control device 20 allows the rotation shaft 44 to freely rotate on the upper side of the support 23, and forms a screw on the lower inner diameter of the rotation shaft 44 to couple the rotation guide shaft 25, and The bearing 27 is coupled to the outer diameter of the rotation guide shaft 25 from the upper side.

The bearing 27 is coupled to the bearing case 26 to the upper side to be fixed to the upper side by the rotation shaft 44, and to form a screw on the lower inner diameter of the bearing case 26 to be coupled to the connecting shaft 24 do.

A screw is formed on the lower inner diameter of the connecting shaft 24 to connect the screw and the connecting shaft 24 formed to the upper outer diameter of the support 23.

In the state connected to the upper side of the support 23, the rotation shaft 44 is freely rotated to set the position of the solar light collecting plate 10, and when the rotation shaft 44 and the rotation guide shaft 25 is firmly fixed, the bearing ( In 27), the bearing case 26 can not be rotated, so that the rotated state can be securely fixed.If necessary, the bearing case 26 is rotated in the desired direction by releasing the coupling state between the rotating shaft 44 and the bearing case 26, and then fix it again. Since it becomes possible to control the solar light collecting plate 10 safely and simply, it is possible to conveniently perform the installation work.

The present invention does not install a separate battery by supplying electricity produced by the solar light collecting plate to the electricity provider, and when using the lamp can be conveniently used by receiving electricity from the electricity supplier, when installing the solar light collecting plate It is a very useful invention that can be installed quickly and accurately by adjusting the rotation angle and the tilt angle of the solar light collecting plate while freely adjusting the collection area of sunlight.

10 solar light collecting plate 11 fixed light collecting plate
12, 12a: left and right moving light collecting plate 13, 13a: up and down moving light collecting plate
14: left and right moving rail 15: up and down moving rail
16, 17: stopper 18: light collecting plate reinforcement
20: rotation control device 23: prop
24: connecting shaft 25: rotation guide shaft
26: bearing case 27: bearing
30: angle adjusting device 31: fixing bracket
32: light collecting plate connecting rod 33: fixed connection hole
34: inclination adjustment hole 35: fixing bolt
36: adjusting bolt 37: fastening hole
40: inclination adjustment hole 41: fixing nut
42: fastening bar 43: fixed handle
44: rotation axis 45: incision
51 solar cell 52 micro inverter
53: first breaker 54: main breaker
55: electricity meter 56, 58: power supply line
57: electricity supplier 59: the second breaker
61: lamp 62: pillar connection
100: street light

Claims (5)

delete delete delete The micro inverter 52 connected to the solar cell 51 installed in the solar heat collecting plate 10 is supplied to the electric service provider 57 through the electricity metering unit 55 and the power supply line 56, and the lamp 61 It is connected from the electricity supplier 57 through the power supply line 58, the electricity meter 55 and the timer 60, the solar heat collector 10 is installed on the upper side of the support 23; The micro inverter 52 is connected to the electricity meter 55 through the first circuit breaker 53 and the main circuit breaker 54, and the second circuit breaker 59 and the main circuit are connected to the lamp 61 and the timer 60. It is connected to the electricity meter 55 through the circuit breaker 54, a fixing connection hole 33 is formed on the upper side to one side of the heat collecting plate connecting rod 32 to which the solar heat collecting plate 10 is connected to the fixing bracket 31 upwards. ) Is connected and connected to the upper side and the fixing bolt 35 of the rotating shaft 44 coupled to the rotating guide shaft 25 to the lower side, and the inclined adjustment hole 34 is formed at the lower side and penetrates through the adjusting bolt 36. A fixing bracket 31 for installing a fastening hole 37 through which the fastening bar 42 passes; An angle adjusting device 30 connected to the fixing bracket 31 for freely adjusting the angle of the solar heat collecting plate 10; In the solar heat collecting plate angle adjustable street light having a power generation system installed on the lower side of the angle adjusting device 30 and the upper side of the support 23, the rotation control device 20 is free to rotate,
The rotation control device 20 is a bearing (27) on the rotation guide shaft 25 is screwed to the lower side of the rotation shaft 44 is coupled to the fixed bracket 31 to the upper side and coupled to the rotation guide shaft 25 to the lower side When the coupling is installed, the bearing case 26 is installed to the outside, and the support shaft 24 for screwing at the lower inner diameter of the bearing case 26 is installed, and the support shaft 23 is screwed to the connecting shaft 24. Solar collector plate angle adjustable street light with a self-generating power system, characterized in that consisting of freely controlling the rotation angle. delete

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