KR20100006311U - Solar street lamp - Google Patents

Abstract

The present invention is a prop; At least one lighting device installed on the support; A housing rotatably coupled to an upper end of the post; A photovoltaic photovoltaic module rotatably coupled to the housing and reducing wind loads; And a control box slidably mounted to the housing and electrically connected to the solar light collecting module and the lighting device.

Sunlight, street light, drag, airfoil, streamline, wind pressure

Description

Solar street lamp {Solar street lamp}

The present invention relates to a street lamp, and more particularly, to a solar street lamp using a solar panel to collect light and use it as a power source for the lighting device.

In general, a solar street light is installed on the pillar to provide a power to the lighting device by installing a photovoltaic condensing module that collects (heats) the solar light through a photovoltaic effect (solar cell).

Such a solar street light is connected to the solar panels directly as desired, in parallel to make the desired power to use, stored in the storage battery can be used when needed, or can be used in conjunction with a conventional power line.

Conventional solar street lights using photovoltaic power generation as described above are disclosed in Korean Patent Registration No. 751040, Korean Utility Model No. 405396 and Korean Publication No. 2003-42653, respectively. These conventional solar street lights are mainly installed at an obliquely inclined photovoltaic panel in consideration of the angle with the sun on the top of the pillar in order to effectively collect the solar light, and a control box in which the storage battery and various electrical appliances are incorporated integrally with the solar panel Formed or connected via fasteners to the solar panel.

However, such a conventional solar street light is blocked between a plate-shaped solar panel having a large area and a control box when there is a strong wind or a gust of wind, so that the wind load acting in the upward direction increases rapidly. The risk of breakage is increased, such as broken joints.

In addition, the conventional solar street lamps in which the solar panel and the control box are integrated, when the maintenance of any one of the solar panel or the control box, the heavy solar panel and the control box must be separated from the prop together and lowered to the ground There was a problem that the operation was not easy.

In order to solve the above problems, the present invention minimizes the wind load applied to the solar light collecting module due to the strong wind or the strong wind, thereby preventing damage to the solar light collecting module, and also maintaining the angle of the preset solar light collecting module. Its purpose is to provide a solar street light.

Another object of the present invention is to provide a solar street light that can be easily separated from any one of the solar light collecting module or the control box.

In order to achieve the above object, the present invention is a prop; At least one lighting device installed on the support; A housing rotatably coupled to an upper end of the post; A solar light collecting module pivotally coupled to the housing and reducing wind load; And a control box slidably mounted to the housing and electrically connected to the solar light collecting module and the lighting device.

The housing may support the solar light collecting module at intervals so that wind can pass between the solar light collecting module and the housing. In this case, the solar light concentrating module protrudes in a streamlined shape facing the housing, and may preferably protrude in a semi-airfoil shape.

The solar light collecting module includes a plate-shaped solar panel; And a wind load reduction member coupled to one surface of the solar panel facing the housing. In this case, the wind load reducing member may protrude in a streamline shape toward the housing side, and preferably protrude in a semi-air foil shape. In addition, the wind load reducing member may be made of a metal material and a synthetic resin material, preferably plastic or styrofoam.

The housing pivots in a horizontal direction, and the solar light collecting module pivots in a vertical direction, thereby setting the direction of the solar light collecting module at a desired angle.

In addition, the housing has a plurality of brackets protruding in the vertical direction at the top, the solar light collecting module may have a plurality of connecting ribs rotatably coupled to the plurality of brackets, respectively.

Furthermore, the housing is open at one side such that the control box can be easily pulled out in a specific direction, and the control box is fixed to the housing by a release preventing bolt which is fastened to the control box through the housing, or the housing Can be snapped in one touch way. This one-touch method may be implemented by providing an elastic member on at least one inner side surface of the housing, and a coupling groove into which the elastic member is elastically inserted into the control box.

As described above, in the present invention, a space is installed between the solar light collecting module and the control box so as to allow the wind to pass therethrough, and the anti-airfoil-like member is coupled to one surface of the solar light collecting module, so that As a result, the wind load generated in the solar light collecting module can be greatly reduced. Accordingly, the vertical rotation angle of the pre-set solar light collecting module may be changed by strong winds or wind gusts, or in severe cases, it may significantly reduce the possibility that the solar light collecting module, the control box, and the structure supporting it are damaged by wind loads. There is an advantage. In addition, by reducing the wind load on the upper part of the photovoltaic and control box, the rigidity of the street lamp strut structure is relatively weak, which saves unnecessary materials and reduces transportation costs.

In addition, the present invention opens a part of the housing, and through this opening, the control box can be easily attached and detached by simple wire connection operation, so that only the control box can be easily removed from the housing during maintenance of the control box (including various power generation and control electronics). The solar light collecting module can also be detached from the housing simply by releasing a predetermined fastener. Accordingly, only the parts that are the maintenance target among the control box and the solar light collecting module can be quickly separated from the housing, thereby easily supporting maintenance work and after-sales service.

Hereinafter, the configuration of a solar street light according to an embodiment of the present invention will be described with reference to the accompanying drawings.

1 to 3, the solar street light according to the present embodiment includes a support 1, a lighting device 3, a housing 10, a control box 20, and a solar light collecting module 30. .

The post 1 is made of a hollow cylindrical shape, which is made of the height of a normal street lamp post (can be customized to a desired height), and a through hole 1a into which the horizontal angle setting bolt 14 is inserted is formed at one side of the upper end. do. At least one lighting device 3 is installed by the support 5 above the support 1.

The housing 10 has a space portion 11 into which the control box 20 is inserted. The housing 10 has a substantially box shape in which one side is opened to mount and detach the control box 20. The housing 10 has a hinge shaft 13 detachably coupled to the upper end of the strut 1 at the bottom thereof, in which case the housing 10 can be pivoted in a horizontal direction through the hinge shaft 13. Regardless of the installation angle of the post, the horizontal rotation angle of the solar light collecting module 30 can be freely set. To this end, the hinge shaft 13 has a plurality of holes 13a formed at predetermined intervals along the circumferential direction, and one of the holes 13a is inserted through a through hole 1a of the support 1. By the horizontal angle setting bolt 14 is fastened, it is possible to maintain the horizontal rotation angle of the set housing 10.

In addition, the housing 10 extends to form a pair of brackets 15 for supporting the solar light collecting module 30 on both sides of the upper end. The pair of brackets 15 are formed to protrude along the vertical direction at a predetermined height so that wind can pass between the solar light collecting module 30 and the upper end of the housing 10. In addition, the pair of brackets 15 are pivotally fastened to the pair of connecting ribs 34 protruding from the solar light collecting module 30 by the vertical angle setting bolts 17a, respectively. The setting bolt 17a sets the vertical angle of the solar light collecting module 30 and then maintains the vertical angle of the solar light collecting module 30 set by fastening the nuts 17b.

The control box 20 is formed in a substantially box shape corresponding to the shape of the space 11 so as to be slidably attached to the space 11 of the housing 10. The control box 20 includes a predetermined electric component and a storage battery for a normal photovoltaic power generation therein, is electrically connected to the solar light collecting module 30 through the electrical wiring 35, and similarly predetermined electrical wiring It is electrically connected to the lighting device (3) (not shown).

In addition, as the control box 20 is mounted to the housing 10, the fixing bolt 12 inserted into the through hole 10a formed in a part of the bottom of the housing 10 is fastened to the bottom of the control box 20. Departure from the housing 10 is prevented.

Meanwhile, referring to FIG. 4, it is also possible to omit the fixing bolt 12 and to configure the detachable structure between the housing 10 and the control box 20 in a one-touch method capable of snap coupling. That is, the housing 10 is formed to protrude the elastic member 50 on both sides of the inner, respectively, and to protrude a part of the elastic member 50, for example when the control box 20 is mounted on both sides of the control box 20. Coupling grooves 25 into which the elastic members 50 are inserted are formed at positions corresponding to one leaf spring. Accordingly, when the control box 20 is mounted to the space 11 of the housing 10, the elastic members 50 are elastically inserted into the coupling grooves 25, respectively, so that the control box 20 is stably provided in the housing 10. On the contrary, when the control box 20 is withdrawn from the space 11 of the housing 10, the user grasps the handle 23 and pulls it in the withdrawal direction with a predetermined force to the elastic member 50 and the coupling groove 25. While the lock between the) is released can be easily separated from the control box 20 from the housing (10).

The solar light collecting module 30 includes a conventional plate-shaped solar panel 31 for condensing sunlight. In addition, the solar light collecting module 30 includes a wind load reducing member 33 coupled to one surface of the solar panel 31 so as to face the housing 10.

Referring to FIG. 2, the wind load reducing member 33 has a surface facing the housing 10 in a streamlined shape, and preferably has a semi-airfoil shape. In addition, the wind load reducing member 33 is made of a metal plate or a synthetic resin material, for example, plastic or styrofoam in order to reduce the weight of the solar light collecting module 30.

The wind load reducing member 33, when the wind (W1, W2) is blown from one side inclined upward of the solar panel 31, part of the wind (W1) is the solar light collecting module 30 and the housing 10 Pass through the gap between), the rest (W2) is moved along one surface of the wind load reducing member 33 made of a streamlined. As such, the wind load applied to the solar light collecting module 30 applied to the solar light collecting module 30 by the reverse camber effect by the wind load reducing member 33 together with the wind passing structure, that is, the drag force F1 and the lift force ( F2) can be greatly reduced.

Therefore, the solar light collecting module 30 prevents the solar light collecting module 30 from being damaged by the wind load even when a strong wind or a gust of wind is blown from an upwardly inclined side. The setting angle of the vertical direction of 30) can be maintained as it is.

In addition, the present invention forms a part of the housing 10, and the control box 30 can be easily mounted through the opening, so that only the control box 30 when the maintenance of the control box 20 is carried out in the housing 10. Easily separated from In addition, during maintenance of the solar light collecting module 30, the vertical angle setting bolt 17a and the nut 17b may be released from the housing 10 by releasing the fastening. Accordingly, only the parts corresponding to the maintenance target among the control box 20 and the solar light collecting module 30 can be quickly separated from the housing 10, thereby easily performing maintenance.

In the above, the present invention has been illustrated and described with reference to specific preferred embodiments, but the present invention is not limited to the above-described embodiments and the general knowledge in the technical field to which the present invention belongs without departing from the spirit of the present invention. Various changes and modifications will be possible by those who have the same.

1 is a perspective view showing a solar street light according to an embodiment of the present invention,

2 is a side view showing a solar street light according to an embodiment of the present invention,

3 is a rear view showing a solar street light according to an embodiment of the present invention,

4 is a plan view showing another example of the mounting structure of the housing and the control box.

* Explanation of Signs of Major Parts in Drawings *

10: housing 11: hinge shaft

20: control box 30: solar light collecting module

31: solar panel 33: wind load reduction member

Claims (16)

landlord; At least one lighting device installed on the support; A housing rotatably coupled to an upper end of the post; A solar light collecting module pivotally coupled to the housing and reducing wind load; And, And a control box slidably mounted to the housing and electrically connected to the solar light collecting module and the lighting device. The solar street light of claim 1, wherein the housing supports the solar light collecting module at intervals so that wind can pass between the solar light collecting module and the housing. 3. The solar street light of claim 2, wherein the solar light collecting module protrudes in a streamlined surface facing the housing. The solar street light of claim 3, wherein the solar light collecting module has a surface facing the housing in a semi-airfoil shape. The solar light collecting module of claim 2, Plate-shaped solar panels; And And a wind load reduction member coupled to one surface of the solar panel facing the housing. The solar street light of claim 5, wherein the wind load reducing member protrudes in a streamlined shape toward the housing side. The solar street light of claim 6, wherein the wind load reducing member protrudes in a semi-airfoil shape toward the housing side. The solar street light according to any one of claims 5 to 7, wherein the wind load reducing member is made of a synthetic resin material. The solar street light of claim 8, wherein the wind load reducing member is made of plastic or styrofoam. The solar street light according to any one of claims 5 to 7, wherein the wind load reducing member is made of a metal material. The solar street light of claim 1, wherein the housing pivots in a horizontal direction, and the solar light collecting module pivots in a vertical direction. The method of claim 11, wherein the housing has a plurality of brackets protruding in the vertical direction at the top, and the solar light collecting module has a plurality of connecting ribs rotatably coupled to the plurality of brackets, respectively. Solar street light. The solar street light of claim 1, wherein the housing is open at one side such that the control box can be pulled out. The solar street light of claim 13, wherein the control box is fixed to the housing by a release preventing bolt that penetrates the housing and is fastened to the control box. The solar street light of claim 13, wherein the control box is snap-coupled to the housing in a one-touch manner. 16. The solar street light of claim 15, wherein the housing has at least one inner side protruding from the elastic member, and the control box has a coupling groove into which the elastic member is elastically inserted.

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