KR101544202B1 - Photovoltaic module support structure for streetlamp - Google Patents

Abstract

The present invention relates to a photovoltaic module support structure for a streetlamp. It includes penal parts which is extended in the lengthwise direction of a streetlamp pillar and surrounds the peripheral part of the streetlamp pillar; a support part which is formed to install a photovoltaic module to the front part of the panel and combines and supports the panel parts. A photovoltaic module support structure according to the present invention improve appearance by installing a photovoltaic module to the streetlamp pillar without applying load to the pillar and arranging the photovoltaic module in the lengthwise direction of the pillar and can prevent damage to the photovoltaic module due to strong wind.

Description

Technical Field The present invention relates to a photovoltaic module support structure for a street lamp,

BACKGROUND OF THE INVENTION 1. Field of the Invention [0002] The present invention relates to a solar cell module supporting structure for a streetlight, and more particularly, to a solar cell module supporting structure for a street lamp capable of supporting the solar cell module easily and firmly on a support of a streetlight.

Much of the energy that is commonly used is energy from fossil fuels. However, since the amount of such fossil fuels is limited, it is inevitably exhausted sometime, and there is a problem of causing air pollution and greenhouse effect by discharging various pollutants and carbon dioxide.

These problems have increased the need for the development of environmentally friendly alternative energy sources in recent years. For example, solar energy, wind power, tidal power, and geothermal power are considered as representative alternative energy sources, but solar energy is considered as the most attractive alternative energy source.

The method of generating electricity by using solar energy can be divided into solar power generation which turns the turbine by using water heated by solar heat, and solar power generation which generates electricity directly by using solar light. Among these, This noise, heat dissipation, and vibration are attracting much attention because of its small merit.

The above-described solar power generation is widely applied to a large-scale solar power plant, a small home appliance such as a watch or a cellular phone, and a streetlight, and the development efficiency of the solar cell field that converts sunlight into electric energy The field of application is expected to expand with the improvement.

Examples of application of solar power to street lamps include "column top storage type solar street lamp" of Korean Patent No. 10-0751040, "solar street lamp easy to install and repair" of Korean Patent No. 10-0740352, There is a "street lamp with a photovoltaic device" in Japanese Patent No. 10-1256374.

However, since the conventional streetlight using the solar power generation as described above has a structure in which a frame for supporting a solar panel is installed on the top of a pillar or a pillar, the solar panel is fixed to the frame, There is a problem that wind pressure is applied to the solar panel when the strong wind blows, and damage is caused.

SUMMARY OF THE INVENTION The present invention has been made to solve the above-mentioned problems, and it is an object of the present invention to provide a solar cell module in which a load is not applied to a strut, And it is an object of the present invention to provide a solar cell module support structure for a streetlight that can prevent damage to a solar cell module even in a strong wind.

According to an aspect of the present invention, there is provided a solar cell module supporting structure for a street lamp, including: a plurality of panel portions extending along a longitudinal direction of the lamp post and arranged to surround the periphery of the lamp post; And a support portion formed to be able to mount the solar cell module in front of the panel portion and configured to couple and support the panel portions adjacently disposed to each other.

The supporting portion is formed along a longitudinal direction of the panel portion on the other side in the width direction of the panel portion facing the first engaging portion, the first engaging portion being formed along the longitudinal direction of the panel portion on one side in the width direction of the panel portion, The solar cell module according to any one of claims 1 to 3, further comprising: a coupling portion including a second coupling portion coupled to a first coupling portion provided on one side of the panel portion disposed adjacent to the first coupling portion; And a mounting portion including a first mounting portion and a second mounting portion which are respectively formed on the first and second coupling portions.

The first coupling portion has a thickness larger than the thickness of the panel portion and a hollow portion extending upward and downward is formed therein. The second coupling portion couples the first coupling portion to the first coupling portion And an opening communicating with the fitting groove so as to allow the panel to pass through the fitting groove.

Wherein the first mounting portion extends a predetermined length from the first connecting portion toward the second connecting portion in parallel with the panel portion and the second mounting portion extends from the second connecting portion toward the first connecting portion, And a predetermined length is extended.

The panel unit may include at least one protrusion protruding rearward from the panel unit, extending along the longitudinal direction of the panel unit, and spaced apart from the panel unit by a predetermined distance.

And a reinforcing portion provided between the panel portion and the lamp post to support the panel portions with respect to the lamp post.

Wherein the reinforcing portion includes a first engaging rib engaged with the rear surface of the panel portion and a first extending rib extending from the first engaging rib in a direction orthogonal to the first engaging rib, A second extension rib that is coupled to the first bracket in a state interposed between the first extension ribs and a second extension rib that is engaged with the first extension ribs; A pair of second brackets extending from the ribs in a direction perpendicular to the second extending ribs and having second engaging ribs contacting the outer circumferential surface of the strut, and a pair of first brackets including the first extending ribs and the second extending ribs And a second fastening portion for fastening the second fastening portion.

And the second extension rib is formed with an elongated groove along the extending direction of the second extension rib.

The reinforcing portion may further include a fixing belt for passing through the plurality of second brackets circumferentially disposed on the outer circumferential surface of the strut and fixing the second brackets to the outer circumferential surface of the strut closely.

A solar cell module supporting structure for a street lamp according to the present invention is installed in a strut of a street lamp so as not to apply a load to the strut when the solar cell module is installed and the solar cell module is arranged along the longitudinal direction of the strut, , The damage of the solar cell module can be prevented even in a strong wind.

1 is a perspective view of a solar cell module support structure for a streetlight according to a first embodiment of the present invention;
2 is a sectional view of the solar cell module support structure for a streetlight shown in Fig.
3 is a perspective view of a solar cell module support structure for a streetlight according to a second embodiment of the present invention.
4 is a cross-sectional view of the solar cell module support structure for a streetlight shown in Fig. 3;

Hereinafter, a solar cell module support structure according to a preferred embodiment of the present invention will be described in detail with reference to the accompanying drawings.

1 and 2 show a solar cell module support structure 100 for a streetlight according to a first embodiment of the present invention. 1 and 2, a solar cell module supporting structure 100 according to the present invention includes a plurality of panel members (not shown) extending along the longitudinal direction of the lamppost 10 and disposed to surround the periphery of the lamppost 10, (110); And a support portion formed on the panel portion 110 and adapted to mount the solar cell module 20 in front of the panel portion 110 and configured to couple and support the panel portions 110 adjacent to each other, (120).

The panel unit 110 is disposed outside the lamp unit 10 in a direction parallel to the lamp unit 10. The panel unit 110 is formed as a plate having a predetermined area.

The panel part 110 is formed of a metal material or a fiber-reinforced plastic that is light in weight without rusting. Three panel members 110 may be used to form a triangular prism that surrounds the lamp post 10, as shown in the illustrated example.

As shown in FIG. 3, the panel unit 110 may have four quadrangular columns. Alternatively, five or more panels may be used.

The panel part 110 protrudes rearward from the rear surface 111 of the panel part 110 toward the lamp post 10 and extends along the longitudinal direction of the panel part 110 and extends in the width direction of the panel part 110 And at least one protrusion 113 formed to be spaced apart by a predetermined distance.

The projecting portion 113 is formed in a concave-convex structure and forms at least one contact point on the outer circumferential surface of the lamp post 10 and supports the panel portion 110 with respect to the lamp post 10.

Although not shown in the drawings, the protrusion 113 can be formed in a shape corresponding to the shape of the outer peripheral surface of the lamp post 10. In this case, it is preferable that the protruding portion 113 is formed so as to occupy a certain region of the outer circumferential surface of the lamp post 10 and have a contact surface (not shown) contacting the outer circumferential surface of the lamp post 10.

The supporting part 120 is formed at both ends of the panel part 110 for coupling the panel parts 110 and mounting the solar cell module 20 to the panel part 110 and has a coupling part and a mounting part .

The engaging portion includes a first engaging portion 131 formed on one side of the width direction of the panel portion 110 along the longitudinal direction of the panel portion 110 and a second engaging portion 131 having a width of the panel portion 110 facing the first engaging portion 131 And a second engaging part 132 formed on the other side of the panel part 110 along the longitudinal direction of the panel part 110 and coupled to the first engaging part 131 provided on one side of the adjacent panel part 110 .

The first engaging part 131 is formed to have a thickness larger than the thickness of the panel part 110, and a hollow part extending upward and downward is formed inside. In this embodiment, the first coupler 131 is formed into a rod having a circular cross section.

The second engaging portion 132 includes a fitting groove having a shape corresponding to that of the first engaging portion 131 so as to allow the first engaging portion 131 to be fitted up and down, And an opening communicating with the fitting groove is formed. The size of the opening may be variously changed according to the number of the panel units 110 arranged.

The lower ends of the first engaging portions 131 are inserted into the engaging grooves of the second engaging portions 132 from above the second engaging portions 132, At this time, the second engaging part 132 is formed with an opening communicating with the fitting groove, so that the panel part 110 connected to the first engaging part 131 can be lowered downward.

The second engaging portion 132 may be formed such that the first engaging portion 131 and the panel portion 110 can be rotated at a predetermined angle around the fitting groove in a state where the first engaging portion 131 is fitted in the fitting groove. Respectively.

The first engaging portion 131 and the second engaging portion 132 of the first embodiment are circularly formed so as to be rotatable with respect to the second engaging portion 132. Alternatively, As shown in FIG. Further, the outer circumferential surface of the first engaging portion 131 and the inner circumferential surface of the second engaging portion 132 may be further formed with concavities and convexities corresponding to each other. In this case, the first engaging portion 131 is not rotatable with respect to the second engaging portion 132.

The mounting portion includes a first mounting portion 141 formed on the first and second connecting portions 131 and 132 so as to allow the solar cell module 20 to slide up and down along the longitudinal direction of the panel portion 110, And a second mounting portion 142.

The first mounting portion 141 is extended from the outer circumferential surface of the first mounting portion 131 to the second mounting portion 132 by a predetermined length in parallel with the panel portion 110, Extends a predetermined length from the outer circumferential surface of the panel section (132) toward the first engaging section (131) in parallel with the panel section (110).

The first mounting portion 141 and the second mounting portion 142 sandwich the solar cell module 20 between the first mounting portion 141 and the second mounting portion 142. The first mounting portion 141 and the second mounting portion 142 sandwich the solar cell module 20 between the panel portion 110 and the solar cell module 20, Is spaced forward from the front surface (111) of the panel part (110) at an interval corresponding to the thickness of the panel part (20).

3 and 4 show a solar cell module support structure for a streetlight according to a second embodiment of the present invention. 3 and 4, the solar cell module supporting structure 200 for a streetlight is provided between the panel portions 110 and the lamp posts 10 to support the panel portions 110 with respect to the lamp posts 10, And a reinforcing portion 210 to be installed.

Before describing the reinforcing portion 210, the panel portion 110 may include a panel portion 110 of the solar cell module supporting structure 100 for a streetlight according to the first embodiment of the present invention described with reference to FIGS. 1 and 2 And a solar cell module 20 is mounted on the front surface.

The reinforcing part 210 includes a pair of first brackets 220 and a first fastening part 240 and a pair of second brackets 230 and a second fastening part 250. The fastening part 210 includes a pair of first brackets 220, Respectively.

The first bracket 220 includes a first engagement rib 221 coupled to the projection 113 in a state of being in contact with and in contact with the rear surface of the panel 110, And a first extending rib 222 extending in a direction orthogonal to the first engaging rib 221 from the first engaging rib 221, that is, toward the rear side of the panel portion 110.

The first coupling ribs 221 and the protrusions 113 are formed with first coupling holes (not shown) for coupling the first bracket 220 and the panel unit 110 to each other through the first coupling unit 240 . A second coupling hole (not shown) for coupling the second extension rib 231 with the first extension rib 222 is formed on the end side of the first extension rib 222 through the second coupling portion 250 have.

The first coupling part 240 couples the first coupling rib 221 and the panel part 110 to each other. The coupling bolt 241 and the coupling nut 242 are used. The fastening bolt 241 of the first fastening part 240 is fastened through the protruding part 113 and the first engaging rib 221 from the front side to the rear side of the panel part 110.

The second bracket 230 includes a second extension rib 231 coupled to the first bracket 220 in a state interposed between the first extension ribs 222 and a second extension rib 231 extending from the end of the second extension rib 231 And a second engagement rib 232 extending in a direction orthogonal to the second extension rib 231 and contacting the outer circumferential surface of the lamp post 10.

A second elongated rib 231 is formed with a long elongated groove 231a along the extending direction of the second elongated rib 231. The first extension rib 222 and the second extension rib 231 are connected to the second fastening groove provided in the first extension rib 222 and the second fastening groove 231b provided in the second extension rib 231, (250) are tightened together.

The second extension rib 231 is formed with an elongated groove 231a to adjust a position where the second extension rib 231 is fixed with respect to the first extension rib 222. That is, The second extended rib 231 can be adjusted to be in or out. Therefore, there is an advantage that the reinforcing portion 210 can be installed regardless of the diameter of the lamp post 10.

The second coupling part 250 couples the first extension rib 222 and the second extension rib 231 to each other and includes a coupling bolt 251 having the same structure as the first coupling part 240, 252).

The reinforcing portion 210 includes a plurality of second brackets 230 circumferentially disposed on the outer circumferential surface of the lamppost 10 and specifically the second brackets 230 penetrating the second extending ribs 231, 230 to the outer circumferential surface of the lamp post 10 in a tightly fixed manner. The fixing belt 260 has a predetermined width and length and is made of a metal material.

Although the present invention has been described in connection with what is presently considered to be practical exemplary embodiments, it is to be understood that the invention is not limited to the disclosed embodiments, but, on the contrary, It will be appreciated that variations and equivalents of other embodiments are possible.

Therefore, the scope of the true technical protection of the present invention should be determined by the technical idea of the appended claims.

10: Street lamp 20: Solar module
100: support structure 110:
113: protrusion 120:
131: first coupling portion 132: second coupling portion
141: first mounting portion 142: second mounting portion

Claims (9)

delete A plurality of panel portions extending along the longitudinal direction of the lamp post and arranged adjacent to each other to surround the periphery of the lamp post;
And a support part formed on the panel part to attach and support the panel parts adjacent to each other so as to mount the solar cell module in front of the panel part,
The support
A first engaging portion formed along a longitudinal direction of the panel portion on one side in the width direction of the panel portion and a second engaging portion formed along the longitudinal direction of the panel portion on the other side in the width direction of the panel portion facing the first engaging portion, And a second engaging portion coupled to the first engaging portion provided at one side of the panel portion,
And a mounting portion including a first mounting portion and a second mounting portion formed on the first and second connecting portions, respectively, so as to allow the solar cell module to slide up and down along the longitudinal direction of the panel portion. A solar cell module support structure for a streetlight. 3. The method of claim 2,
Wherein the first coupling portion has a thickness larger than the thickness of the panel portion, a hollow portion extending upward and downward is formed in the first coupling portion,
The second engaging portion is formed with a fitting groove having a shape corresponding to the first engaging portion so that the first engaging portion can be engaged with the first engaging portion up and down and an opening communicating with the fitting groove to allow the panel portion to pass therethrough Wherein the solar cell module support structure for a streetlight comprises: 3. The method of claim 2,
Wherein the first mounting portion extends a predetermined length from the first connecting portion toward the second connecting portion in parallel with the panel portion and the second mounting portion extends from the second connecting portion toward the first connecting portion, And a predetermined length is extended to a predetermined length of the solar cell module supporting structure. The method according to claim 3 or 4,
Wherein the panel portion is provided with at least one protrusion protruding rearward from the panel portion and extending along the longitudinal direction of the panel portion and spaced apart from the panel portion by a predetermined distance. Structure. delete A plurality of panel portions extending along the longitudinal direction of the lamp post and arranged adjacent to each other to surround the periphery of the lamp post;
A support part formed on the panel part to attach and support the panel parts adjacently disposed to each other so as to mount the solar cell module in front of the panel part;
And a reinforcing portion provided between the panel portion and the lamp post to support the panel portions with respect to the lamp post,
The reinforcing portion
A pair of first brackets including a first engaging rib engaged with the rear surface of the panel portion and a first extending rib extending from the first engaging rib in a direction orthogonal to the first engaging rib,
A first coupling part for coupling the first coupling rib and the panel part to each other,
A second extension rib that is coupled to the first bracket in a state interposed between the first extension ribs and a second extension rib that extends from the second extension rib in a direction perpendicular to the second extension rib, A pair of second brackets including a second engaging rib,
And a second fastening part for fastening the first extension rib and the second extension rib to each other. 8. The method of claim 7,
Wherein the second elongated rib is formed with an elongated groove along an extending direction of the second elongated rib. 8. The method of claim 7,
Wherein the reinforcing portion further comprises a fixing belt for passing through the plurality of second brackets circumferentially disposed on the outer circumferential surface of the strut and fixing the second brackets to the outer circumferential surface of the strut closely. A battery module support structure.

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