KR20130018385A - Hybrid traffic light - Google Patents

Abstract

PURPOSE: A multi-spherical solar module and a traffic light for a flexible solar module power generation and noiseless wind power generation system are provided to remove a separate utility power source by always turning on the traffic light using sunlight and wind. CONSTITUTION: A pillar(100) includes a door(11) on the lower side thereof. A holder(20) is combined with the upper side of the pillar. A signal device(30) includes at least one lamp. A frame(500) includes a combination support stand(501), a plurality of vertical support stands(503) and horizontal support stands(502). A noiseless wind turbine generator(400) includes a generator(402) and wind wings(401). A multi-spherical solar cell module part(100) is combined with the upper side of the frame. A flexible solar cell module part(200) surrounds the outside of the pillar. A control unit(300) controls charging and discharging.

Description

Multi-sphere solar modules and flexible solar modules Power generation and noiseless wind power generation system traffic lights {hybrid traffic light}

The present invention relates to a multi-spherical solar module and a flexible solar module power generation and noise-free wind power system signal light, and from the sunrise to sunset mining sunlight in multiple directions regardless of the solar location without using commercial power And it relates to a signal lamp that is always lit using electricity generated by wind power.

In general, traffic lights are laid in the ground or overhead wires in the air to receive electricity to turn on the signal. As a result, a lot of construction costs and time were required for underground work and overhead line work, and clean roads, sidewalks, and flowerbeds became dirty due to underground construction, and wires crossed in the air also caused unfavorable results. It was.

In addition, the underground wires are connected to the existing underground cables for traffic lights when there is water leakage such as rainwater, when the wires are damaged, short circuits, short circuits, or other underground works such as water and city gas. Problems occurred that the traffic light did not turn on due to a breakage short circuit. Due to this problem, in the case of traffic lights installed in the lowlands, the adjacent pedestrians were sometimes subjected to electric shock due to short circuits due to flooding and flooding.

In addition, many traffic lights are turned on by receiving commercial power, which generates a high amount of electricity bills. Carbon dioxide is also emitted to generate electricity, which affects environmental pollution.

The present invention has been made to solve the above problems, the object of the invention is to be always on by the solar power and wind power generation without commercial power supply, and thus do not use a separate commercial power source.

In addition, there is no necessity to be buried or processed wires, so that new construction and maintenance work is not required. To solve the above problems, the present invention is a vertical support from the bottom and the support is formed on the lower side of the support, and Polyhedral solar cell module unit consisting of a cradle coupled to the upper side, a signal coupled to the cradle, a coupling coupled to the top of the support, and a conical shape of a polygonal surface coupled to the coupling, Flexible solar cell module unit installed to surround the outer surface, a noise-free wind turbine generator coupled to the upper portion of the post higher than the multi-sphere spherical solar cell module unit and a control unit provided in the interior of the pillar to control charge and discharge It is characterized by.

In order to solve the above problems, the present invention, the vertical stand on the floor and the door is formed on the lower side, the cradle coupled to the upper side of the support, the signal coupled to the cradle, coupled to the top of the support And a polyhedral spherical solar cell module portion formed in a conical shape of a polygonal surface coupled to the combination, a flexible solar cell module portion installed to surround the outer surface of the support, and the polyhedral solar cell module portion. It characterized in that it comprises a noise-free wind turbine generator coupled to the upper portion of the high position and the control unit provided in the interior of the support to control charging and discharging.

The multi-sphere solar module and the flexible solar module power generation and noise-free wind power generation system signal light according to the present invention are composed of a plurality of solar modules and a plurality of flexible solar cells in a multi-directional continuous sunlight from sunrise to sunset It is possible to do, because there is no need to use commercial power by the stable photovoltaic power generation due to long mining time and favorable wind power generation at a high position, there is an advantage that does not generate electricity bills.

If the traffic light is flooded in the lowland, the electric pedestrian accident does not occur by using safe DC24V instead of commercial power.

In addition, there is no need for underground work or overhead line work due to wire work, and no maintenance work for future problems. As a result, they do not dig the ground or hang overhead lines in the air, which does not harm the city's beauty.

On the other hand, there is an effect that does not generate carbon dioxide generated to generate electricity.

1 is an overall view of a traffic light.
2 is a structural diagram of a polyhedral solar cell module.
3 is a junction box attached view.
Figure 4 is a noise-free wind turbine generator configuration.
5 is a structure diagram of a flexible solar cell module.
6 is an overall schematic diagram.

1 is an overall view of a multi-spherical solar module and a flexible solar module power generation and noise-free wind power system signal light, Figure 2 is a view showing a part of the structure of the multi-spherical solar module module, Figure 3 is a multi-sphere 4 is a view illustrating a junction box attached to a rear surface of a body type solar cell module unit, FIG. 4 is a configuration diagram of a noiseless wind turbine generator, FIG. 5 is a structural diagram of a flexible solar cell module unit, and FIG.

Hereinafter, the configuration of the multi-spherical solar module and the flexible solar module power generation and noiseless wind power generation system signal according to the present invention will be described in detail with reference to the accompanying drawings.

In the configuration of the present invention, as shown in Figure 1, the support (10) with the door (11) formed at the bottom is vertically erect from the bottom and the control unit 300 is provided in the interior of the support (10) charge and discharge control And, the outer surface of the support 10 is coupled to the flexible solar cell module 200.

A cradle 20 is horizontally coupled to the upper side of the support 10, and one or more signals 30 with at least one lamp 21 arranged on the cradle 20 can be seen. To be combined.

In addition, the coupling support 501 having a horizontal support structure on the upper portion of the support 10 is coupled to the support 10, a plurality of vertical support 503 is coupled to the outer end of the coupling support 501. The frame 500 is configured by combining a horizontal support 502 having a horizontal support structure on top of the combined vertical support 503. The polyhedral solar cell module 100 is seated and coupled to the upper portion of the horizontal support 502.

Noiseless wind turbine generator 400 is coupled to the upper center of the coupling support 501, the configuration of the noiseless wind turbine generator 400, as shown in Figure 4, the generator 402, the generator 402 A plurality of wings 404 having a vertical axis 405 in the upper portion of the curved shape is arranged at a predetermined angle around the vertical axis 405 to include a wind blade 401 configured in a multi-layer structure.

Referring to FIG. 2, the polyhedral solar cell module 100 has a plurality of vertical frames 102 having grooves 111 formed at both sides in a longitudinal direction of each other, and are inclined at a predetermined angle from vertical to inward. They are arranged in a circle at regular intervals. Each of the plurality of vertical frame 102 disposed in the plurality of solar cell module 101 of the rectangular shape is coupled to the groove 111, respectively, of the combined solar cell module 101 and vertical frame 102 The cover 104 having the protrusions 112 formed on the upper and lower portions thereof closely adheres to reinforce the solar cell module 101 so that the solar cell module 101 does not fall out, and the horizontal frame 103 adheres to the upper and lower portions of the coupled cover 104 to the vertical frame 102. ) Is firmly coupled with a fastening mechanism and is configured as a cone of multiple faces.

In addition, as shown in Figure 3, the junction box 105 is disposed on the rear of the solar cell module 101 is configured to be coupled to the longitudinal frame 102 by a fastening mechanism.

Referring to FIG. 5, the flexible solar cell module 200 is in close contact with one or more flexible solar cells 201 so as to surround the outer surface of the support 10, and the flexible flexible solar cell 201 is in close contact with the flexible solar cell 201. Transparent cover 202 made of a transparent material close to cover the outer surface of the flexible solar cell 201 to protect it from the outside, and the fasteners 203 are disposed to overlap the left and right ends of the closed transparent cover 202 to be fastened. It is coupled to the support 10 by a mechanism so that the left and right sides of the transparent cover 202 and the flexible solar cell 201 is fixed to the support 10, and the strips 204 are disposed to overlap the upper and lower ends of the transparent cover 202 The fastening mechanism is coupled to the support 10 so that upper and lower portions of the flexible solar cell 201 and the transparent cover 202 are fixed to the support 10.

Referring to FIG. 6, the control unit 300 provided inside the support 10 includes a harvesting circuit unit 301 for collecting electricity generated from the polyhedral solar cell module unit 100 and the flexible solar cell module unit 200. And a rectifier 403 for converting the alternating current electricity generated by the noiseless wind turbine generator 400 into direct current electricity, and receiving the electricity from the harvesting circuit part 301 and the rectifier 403 and sending the signal to the power storage part 303. And a charge / discharge control unit 302 for controlling an output for turning on 30, and a power storage unit 303 for storing electricity.

The polyhedral solar cell module unit 100 and the flexible solar cell module unit 200 generate electricity and send it to the harvesting circuit unit 301 to collect electrical energy and send it to the charge / discharge control unit 302, and a noiseless wind turbine generator ( In step 400, alternating current electricity is generated and converted into direct current electricity by the rectifier 403, which is sent to the charge / discharge control unit 302, and electrical energy is stored or stored in the power storage unit 303 under the control of the charge / discharge control unit 302. The signal device 30 is configured to light by using electric energy.

10: prop 11: door 20: holder 30: beacon 40: assembly
31: lamp
100: polyhedral solar cell module
101: solar cell module 102: vertical frame 103: horizontal frame 104: cover
105: junction box
111: groove 112: protrusion
200: flexible solar cell module 201: flexible solar cell 202: transparent cover
203: holder 204: strip
300: control unit 301: harvesting circuit unit 302: charge and discharge control unit 303: charging unit
400: noiseless wind turbine generator 401: wind power wing 402: generator
403: rectifier 404: wing 405: vertical axis
500: frame 501: combined support 502: horizontal support 503: vertical support

Claims (4)

A strut 10 which is erected vertically from the bottom and has a door 11 formed on a lower side thereof;
A cradle 20 horizontally coupled to the upper side of the support 10;
At least one lamp (21) arranged horizontally and coupled to the holder (20);
Noise-free wind turbine generator 400 and the vertical support 503 is coupled to the upper portion of the support 10, the coupling support 501 is coupled and supported, and is coupled around the end of the coupling support 501 horizontal support ( Frame including a plurality of vertical support (503) for supporting the 502, and a horizontal support (502) coupled to the upper portion of the vertical support (503) to combine and support the multi-spherical solar cell module 100 ( 500);
Generator 402 coupled to the inner center of the frame 500, a plurality of wings 404 having a vertical axis 405 on the top of the generator 402 having a curved shape with respect to the vertical axis 405 Noiseless wind turbine generator 400 including a wind vane 401 arranged in a predetermined angle in a multi-layer structure;
A polyhedral spherical solar cell module unit 100 having a conical shape of a polygonal surface coupled to an upper portion of the frame 500;
Flexible solar cell module 200 is installed to surround the outer surface of the support (10); And
The multi-spherical solar module and the flexible solar module power generation and noise-free wind power generation system, characterized in that it comprises a control unit 300 which is provided inside the support 10 to control charging and discharging The method of claim 1,
The polyhedral solar cell module 200 is inclined at a predetermined angle from the vertical to the inside and is arranged in a circular shape with a predetermined distance from each other, and a plurality of longitudinal frames 102 formed with grooves 111 on the left and right sides in the longitudinal direction; And a plurality of solar cell modules 101 each having a quadrangular shape between the longitudinal frames 102 and coupled to the grooves 111, and the upper and lower portions of the combined solar cell modules 101 and the vertical frames 102. The cover 104 is formed with a protruding portion 112 to be in close contact, and the horizontal frame 103 is in close contact with the outer smooth surface of the close cover 104 is coupled to the longitudinal frame 102 by a fastening mechanism, and the combined plurality At least one of each solar cell module 101 is disposed at the rear of the multi-sphere spherical solar module and a flexible solar module, characterized in that it comprises a junction box 105 coupled to the vertical frame 102 by a fastening mechanism. Power generation and noise-free wind power generation System traffic The method of claim 1,
The flexible solar cell module unit 200 includes one or more flexible solar cells 201 configured to surround the outer surface of the support 10 and a transparent transparent material configured to surround the outer surface of the flexible solar cell 201. A cover 202 and a fixing stand 203 positioned to overlap the left and right ends of the transparent cover 202 to help the left and right sides of the transparent cover 202 and the flexible solar cell 201 to be firmly fixed to the support 10. And a band 204 positioned at upper and lower ends of the transparent cover 202 and including a band 204 that helps the upper and lower parts of the transparent cover 202 and the flexible solar cell 201 to be firmly coupled to the support 10. Solar modules and flexible solar modules Power generation and noiseless wind power generation system traffic lights
The method of claim 1,
The control unit 300 is a direct current of the alternating current electricity generated in the multi-sphere solar module module 100 and the flexible solar module module 200, the harvesting circuit unit 301 and the noiseless wind turbine generator 400 A rectifier 403 for converting electricity into electricity, a charge / discharge control unit 302 for receiving electricity from the harvesting circuit unit 301 and the rectifier 403 and sending it to a power storage unit 303 or outputting it to a load; Multi-spherical solar module and flexible solar module power generation and noise-free wind power generation system signal including a power storage unit 303 to receive electricity from the control unit 302

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