JP5842150B2 - Photovoltaic power generation apparatus and lighting apparatus - Google Patents

Description

  The present invention relates to a solar power generation device that takes in sunlight and generates electric power, and a lighting fixture that is equipped with a solar power generation device and that is applied to street lamps, ceiling lights, and the like.

Conventionally, a solar power generation device and a lighting fixture including a solar power generation panel provided on an upper portion of a support and an illumination lamp provided on an illumination lamp arm protruding laterally from the solar power generation panel are known. (For example, refer to Patent Document 1).
Patent Document 1 includes a support arm erected between a photovoltaic power generation panel and an illuminating lamp arm, and a signboard is provided inside the support column, the illuminating lamp arm, and the support arm.
In Patent Document 1, an illuminating lamp is turned on by electricity generated by a photovoltaic power generation panel, and the photovoltaic power generation panel can be adjusted with a side angle or an up / down angle with an angle adjuster.

Japanese Patent Laying-Open No. 2008-210711 (FIG. 1, claim 1)

Patent Document 1 can be used in places where it is difficult to secure a commercial power supply, and can be used not only for lighting but also as a signboard for advertising, guidance, public relations, and the like.
Usually, solar power generators and lighting fixtures installed in high places such as street lamps and ceiling lights are often forced to work in high places in a narrow scaffolding space such as a work table for bucket trucks during repair and replacement. The difficulty level of was not good.

Moreover, in the solar power generation apparatus and the lighting fixture attached to such a high place, when the weight of a repair replacement part is heavy, there is also a physical burden on the operator, and there is a concern that the appliance may fall during the work.
Therefore, in photovoltaic power generators and lighting fixtures that are attached to the top of poles, etc., an unexpected load is applied to the operator, such as fixing a repair replacement part to the fixture body by screwing a round hole-shaped bracket. Is preventing.

By the way, similarly to patent document 1, the solar power generation device and lighting fixture which attached the power supply device to the back surface of the solar cell panel attached inclining so that the light-receiving surface may face upwards on the pole upper part are proposed.
However, in such a conventional solar power generation device and lighting fixture, a heavy power supply device or the like falls toward the worker during repair / replacement work, so that the worker is forced to look up. .
Therefore, such a conventional photovoltaic power generation apparatus and lighting fixture are not only in an unreasonable posture with respect to the worker, but also cannot ensure the safety of the worker.

  The present invention has been made in order to solve the above-described problems, and its purpose is to improve the workability at the time of repair / replacement, and to provide a photovoltaic power generation apparatus and a lighting fixture capable of performing safe and easy work at the time of repair / replacement. Is to provide.

A photovoltaic power generation apparatus according to the present invention includes a cylindrical pole installed in a vertical direction, a fixture main body that accommodates a solar cell panel and is fixed to the upper portion of the pole while being inclined with respect to the vertical direction , before Symbol accommodates the power supply for storing electric power generated by the solar cell panel is rotatable relative to the instrument body as a fulcrum a hinge portion provided on the instrument body, and said hinge portion The opposite end is fixed to the lower surface of the instrument main body with a screw, thereby connecting the housing attached along the lower surface of the instrument main body , the instrument main body and the housing, and the housing being the instrument In the state of being attached along the lower surface of the main body, the instrument is accommodated in the housing, and in the state where the screw is loosened and the housing is rotated with the hinge portion as a fulcrum, Located in the space between the body and the housing, and a link mechanism Ru der capable of holding the rotation angle of the housing relative to the instrument body, Ru comprising a.

Lighting device according to the present invention, said photovoltaic device includes a light emitting portion that is provided on the pole of the photovoltaic device, the light emitting unit is turned on by power supplied from the power supply.

  According to the photovoltaic power generation apparatus and the lighting fixture according to the present invention, it is possible to improve the workability at the time of repair and replacement, and there is an effect that safe and easy work can be performed at the time of repair and replacement.

The front view of the lighting fixture equipped with the solar power generation device of one Embodiment concerning this invention The right view of the lighting fixture of one Embodiment which concerns on this invention The right view of the fixture main body of the lighting fixture of one Embodiment which concerns on this invention. The side view of the link member in the lighting fixture of one Embodiment which concerns on this invention The partially broken side view of the link member at the time of closing of the power supply device with respect to a solar cell panel in the lighting fixture of one Embodiment which concerns on this invention The partially broken side view of a link member when the power supply apparatus with respect to a solar cell panel is opened small in the lighting fixture of one Embodiment which concerns on this invention The side view of a link member when the power supply apparatus with respect to a solar cell panel is greatly opened in the lighting fixture of one Embodiment which concerns on this invention. The partially broken side view of a link member when the power supply apparatus with respect to a solar cell panel is greatly opened in the lighting fixture of one Embodiment which concerns on this invention The side view of the modification of the link member of the lighting fixture of one Embodiment which concerns on this invention

Hereinafter, a photovoltaic power generation apparatus and a lighting fixture according to an embodiment of the present invention will be described with reference to the drawings.
As shown in FIG. 1, a lighting fixture 10 according to an embodiment of the present invention includes a solar power generation device 11 and a light emitting unit 12.
The solar power generation device 11 includes a cylindrical pole 13 installed on the ground 90 in the vertical direction, a pole receiving portion 14 provided on the top of the pole 13, and an instrument body 15 fixed to the pole receiving portion 14. Is provided.

As shown in FIG. 2, the solar power generation device 11 includes a solar cell panel 16 accommodated in the instrument body 15. The solar cell panel 16 is inclined so that the light receiving surface 17 faces the sun.
And the solar power generation device 11 is equipped with the power supply device 18 which stores the electric power generated by the solar cell panel 16. FIG. The power supply device 18 turns on the light emitting unit 12 by supplying the stored power to the light emitting unit 12.

The pole 13 is formed in a cylindrical shape by using, for example, an aluminum mold, and includes an anchor 19 embedded in the ground 90 at a base portion thereof.
The pole receiving portion 14 is made of a metal that can be welded, and is attached to an upper end portion of the pole 13, and a metal instrument body 15 that can also be welded is fixed to the upper portion.
The light emitting unit 12 is fixed to the lower surface of the bracket 20 attached obliquely upward near the upper end of the pole 13. The light emitting unit 12 is an LED unit in which a plurality of LEDs (not shown) are mounted on an LED substrate, for example, and has a light distribution characteristic toward the ground 90.

The pole receiving portion 14 is fixed to the pole 13 by screwing a screw 21 into the upper end portion of the pole 13.
In the solar power generation device 11, a solar cell panel 16 is disposed on the front surface of the instrument body 15 facing the sun, and a power supply device 18 is disposed on the back surface of the instrument body 15.

As shown in FIG. 3, the pole receiving portion 14 has a plurality of screw holes 23 in the cylindrical portion 22 that is externally mounted on the upper end portion of the pole 13. A screw 21 to be screwed into the upper end portion of the pole 13 is inserted into the screw hole 23.
The power supply device 18 is accommodated in a case-shaped housing 24. The housing 24 is provided with a hinge 25 as a hinge on the upper side in the tilt direction, and a screw 26 screwed into the back surface of the instrument body 15 is rotatably held on the lower side in the tilt direction.
Therefore, the power supply device 18 can be rotated with respect to the solar cell panel 16 and the instrument main body 15 together with the housing 24 with the hinge 25 as a fulcrum by loosening the screw 26 from the instrument main body 15.

As shown in FIG. 4, the solar power generation device 11 includes a link member 27 that is a four-node link mechanism between the lower surface of the solar cell panel 16 and the lower side in the inclination direction of the power supply device 18.
Therefore, the solar power generation device 11 can hold the rotation angle of the power supply device 18 with respect to the solar cell panel 16 by the link member 27.

The link member 27 includes a first link member 29 that is rotatably attached to the lower surface of the solar cell panel 16 via a first pivot shaft 28 that is attached to the back surface of the instrument body 15.
The link member 27 is rotatably attached to the front surface of the power supply device 18 via a second pivot shaft 30 attached to the front surface of the housing 24 of the power supply device 18 and connected to the first link member 29. The part 31 includes a second link member 32 rotatably connected.

And the link member 27 is provided with the 3rd link member 33 attached to the 2nd pivot shaft 30 which is a base end part of the 2nd link member 32 so that rotation was possible.
Further, the link member 27 has a connecting portion 34 that is rotatably attached to a predetermined position along the longitudinal direction of the first link member 29, and is connected to the third link member 33. Is provided. The fourth link member 35 has a non-slip projection 36 at the center.

The third link member 33 is rotatably connected to the fourth link member 35 at the connecting portion 37.
The link member 27 is connected to the first link member 29 at the first position A1 and the second position along the longitudinal direction of the first link member 29 by connecting the connecting position of the connecting portion 34 of the fourth link member 35 to the first link member 29. A groove 38 that can be selected from a plurality of positions A2 and a third position A3 is provided.

Next, the operation of the link member 27 will be described.
As shown in FIG. 5, when the power supply device 18 is closed with respect to the solar cell panel 16, the link member 27 is engaged with the connecting portion 34 of the fourth link member 35 in the third position A3 of the groove portion 38. And is connected to the first link member 29.
Next, as shown in FIG. 6, when it is time to repair the power supply device 18, the screw 26 is loosened from the instrument body 15 and then the housing 24 is opened relative to the instrument body 15.

At this time, the link member 27 is connected to the first link member 29 with the connecting portion 34 of the fourth link member 35 engaged with the second position A2 of the groove portion 38.
Therefore, referring to FIG. 4, since the housing 24 that houses the power supply device 18 is opened at a smaller angle by the link member 27 and held in the vertical direction, the worker does not take a posture of looking up. In addition, the power supply device 18 arranged in front of the eyes is repaired.

Next, as shown in FIG. 7, when it is time to replace the power supply device 18, the screw 26 is loosened from the instrument body 15, and then the housing 24 is opened relative to the instrument body 15.
At this time, as shown in FIG. 8, the connecting portion 34 of the fourth link member 35 is moved from the second position A2 of the groove portion 38 to the first position by pinching the anti-slip projection 36 of the fourth link member 35 upward. Engage with A1.

Therefore, since the housing 24 that houses the power supply device 18 is opened and held at a larger angle by the link member 27, the operator replaces the power supply device 18 in a state where the housing 24 is greatly opened. Become.
As described above, the link member 27 does not take an unreasonable posture such that the operator looks up, and the housing 24 corresponds to the case where the power supply device 18 is repaired and the case where the power supply device 18 is replaced. Can be adjusted stepwise.

Next, the link member 41 of the modification applied to the solar power generation device 11 and the lighting fixture 10 of one Embodiment which concerns on this invention is demonstrated.
As shown in FIG. 9, the link member 41 is a four-bar linkage mechanism that includes a first link member 42 and a second link member 43.
The first link member 42 is movably engaged with a guide groove 45 formed along the back surface of the solar cell panel 16 on the back surface of the instrument body 15 at the connecting portion 44 provided at one end.
The other end of the first link member 42 is rotatably connected to a first pivot shaft 46 attached to the front surface of the housing 24 of the power supply device 18.

The second link member 43 is provided with a connecting portion 47 at one end, and the second pivot is attached at a position away from the first pivot shaft 46 on the front surface of the housing 24 of the power supply device 18. The shaft 48 is rotatably connected.
And the 1st link member 42 makes the 1st position B1, the 2nd position B2, and the 2nd position along the longitudinal direction of the 1st link member 42 the connection position of the connection part 47 of the 2nd link member 43 with respect to the 1st link member 42. A groove portion 49 that can be selected from a plurality of positions including the three positions B3 is provided.

Next, the operation of the link member 41 will be described.
When the power supply device 18 is closed with respect to the solar cell panel 16, the link member 41 includes the first link member 42 in which the connecting portion 47 of the second link member 43 is engaged with the third position B3 of the groove portion 49. It is connected to.
Next, when it is time to repair the power supply device 18, the screw 26 is loosened from the instrument body 15, and then the housing 24 is opened relative to the instrument body 15.

At this time, the link member 41 is connected to the first link member 42 by engaging the connecting portion 47 of the second link member 43 with the first position B1 of the groove portion 49.
Therefore, since the housing 24 that houses the power supply device 18 is opened at a smaller angle by the link member 41 and is held in the vertical direction, the operator does not take a posture of looking up upward and is placed in front of the eyes. The power supply device 18 to be repaired will be repaired.

Next, when it is time to replace the power supply device 18, the screw 26 is loosened from the instrument body 15, and then the housing 24 is opened with respect to the instrument body 15.
At this time, the connecting portion 47 of the second link member 43 is engaged from the first position B1 to the second position B2 of the groove portion 49 by picking the anti-slip projection 36 of the second link member 43 or the like.

Therefore, since the housing 24 that houses the power supply device 18 is opened and held at a larger angle by the link member 41, the operator replaces the power supply device 18 in a state where the housing 24 is greatly opened. Become.
As described above, the link member 41 does not have an unreasonable posture so that the operator looks up, and the housing 24 corresponds to the case where the power supply device 18 is repaired and the case where the power supply device 18 is replaced. Can be adjusted stepwise.

  According to this modification, the link member 41 can have a very simple structure, and the opening angle of the power supply device 18 can be adjusted stepwise when the power supply device 18 is repaired or replaced.

As described above, according to the solar power generation device 11 of the embodiment according to the present invention described above, the link member 27 and the link member 41 are used to repair the power supply device 18 without the operator being in an unreasonable posture and When the replacement is performed, the opening angle of the power supply device 18 can be adjusted stepwise.
Therefore, according to the solar power generation device 11, workability at the time of repair and replacement can be improved, and safe and easy work can be performed at the time of repair and replacement.

According to the solar power generation device 11, the connection position of the fourth link member 35 with respect to the first link member 29 in the link member 27 can be selected from a plurality of positions along the longitudinal direction of the first link member 29.
Therefore, according to the solar power generation device 11, the open angle of the power supply device 18 can be easily changed according to the case where the power supply device 18 is repaired and the case where the power supply device 18 is replaced.

  According to the lighting fixture 10, the light emission part 12 can be lighted with the electric power given from the power supply device 18 of the solar power generation device 11, workability at the time of repair replacement can be improved, and safe and easy work can be performed at the time of repair replacement. .

  In addition, in the solar power generation device and the lighting fixture of the present invention, the instrument main body, the solar cell panel, the power supply device, the light emitting unit and the like are not limited to the above-described embodiment, and appropriate modifications and improvements can be made. is there.

DESCRIPTION OF SYMBOLS 10 Lighting fixture 11 Solar power generation device 12 Light emission part 13 Pole 14 Pole receiving part 16 Solar cell panel 17 Light-receiving surface 18 Power supply device 25 Hinge part 27, 41 Link member 29, 42 1st link member 32, 43 2nd link member 33 Third link member 35 Fourth link member

Claims (2)

A cylindrical pole installed in the vertical direction;
An instrument body that houses the solar cell panel and is fixed to the top of the pole in a state inclined with respect to the vertical direction ;
Accommodates the power supply for storing electric power generated by the pre-Symbol solar panel is rotatable relative to the instrument body as a fulcrum a hinge portion provided on the instrument body, and said hinge portion A housing attached along the lower surface of the instrument body by fixing the opposite end to the lower surface of the instrument body with a screw ;
The instrument main body and the housing are connected, and the housing is accommodated in the state where the housing is attached along the lower surface of the instrument main body, the screw is loosened, and the housing uses the hinge as a fulcrum. the rotation state, located in the space between the instrument body and the housing, and a link mechanism wherein the Ru der capable of holding rotational angle of the housing relative to the instrument body,
Solar power generation device Ru equipped with. A photovoltaic device according to claim 1, comprising a light emitting portion that is provided on the pole of the photovoltaic device, luminaire light emitting portion is turned on by power supplied from the power supply.

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