KR20140056794A - Support for photovoltaic power generation - Google Patents

Abstract

The present invention relates to a post for a photovoltaic power system and, more specifically, to a post for a photovoltaic power system capable of independently supplying electricity to a subject being supported without power supply from the outside by making multiple solar cell modules installed on the outer surface of the post body supporting a streetlight, a camera, and the like to generate power using solar light. According to the present invention, the post for a photovoltaic power system comprises: a post main body which has a polyhedral shape and has insertion parts on each surface thereof so that the solar cell modules are inserted into the insertion parts; the solar cell modules which are inserted into the insertion parts of the post body and have multiple assembled solar cells to convert solar energy into electric energy; a storage battery which is installed in the post body and is charged with the electric energy generated in the solar cell modules; a charging controller which prevents the overcharge and over discharge of electric energy supplied to the storage battery from the solar cell module and selectively controls the output of electric energy supplied from the storage battery; and a concrete block which is coupled to a lower end of the post body and supports the post body.

Description

{Support for photovoltaic power generation}

The present invention relates to a pillar for a photovoltaic power generation, and more particularly, to a pillar for a photovoltaic power generation, more particularly, to a pillar for supporting a street lamp, a camera, etc., To a support for solar power generation capable of supplying electricity to a support object.

Generally, facilities such as street lamps, surveillance cameras, etc. are installed at a predetermined height from the ground through the support.

The support member includes a support body having a long upper and lower ends and a support arm at an upper end of the support body, a plate-like flange integrally formed at a lower portion of the support body, and a plurality of support members integrally connecting the flange and the support body. And a reinforcing member.

The length of the struts varies depending on the installation place. Typically, the struts are divided into an upper strut and a lower strut, and they are welded and connected to a connecting member.

However, in the conventional strut, a device such as a ballast is installed in order to stabilize the discharge, and power is supplied through the inside thereof. Therefore, there is a problem that a short circuit is generated in a power source supplied to the strut at a rainy or humid day, leading to a safety accident.

In addition, since the electricity generated by one generator is simultaneously supplied to a plurality of struts, the power supply to all the struts can not be properly supplied when the generator fails, and the operation of the supporter is stopped.

SUMMARY OF THE INVENTION The present invention has been conceived to solve the above-mentioned problems, and it is an object of the present invention to provide a solar cell module which is provided with a plurality of solar cell modules on the outer surface of a supporting body supporting a street lamp, a camera, And an object of the present invention is to provide a pillar for photovoltaic power generation capable of supplying electricity to a support object.

In addition, a plurality of air circulation holes are formed in the concrete block embedded in the underground and connected to the lower part of the pillar, so that the external air flows through the air circulation hole, is heat-exchanged by the geothermal heat and circulated to the pillar body, And the temperature of the support surface is prevented from rising to prevent excessive temperature rise of the solar cell module.

A strut for photovoltaic power generation according to the present invention comprises: a strut body made of a polyhedron and having an inserting portion for inserting a solar cell module on each side; A solar cell module inserted into the inserting portion of the pillar body and assembled with a plurality of solar cells for converting solar energy into electrical energy; A storage battery installed inside the pillar body to charge electrical energy produced from the solar cell module; A charge controller for selectively controlling an output of electric energy supplied from the battery by preventing over discharge and overcharge of electric energy supplied from the solar cell module to the battery; And a concrete block coupled to a lower end of the pillar body to support the pillar body.

A plurality of solar cell modules are provided on an outer surface of a pillar body supporting a street lamp, a camera, etc., so that the pillar for solar power generation according to the present invention can be produced independently from the outside So that it is possible to prevent the plurality of support objects from being stopped at the same time so that the function of the support object can be performed.

Further, in addition to providing the solar cell module on the outer surface of the pillar body, a separate solar cell module is additionally provided on the upper end of the pillar body to increase the surface area of the power generation area, thereby increasing the power generation efficiency.

In addition, since a plurality of air circulation holes are formed in the concrete block, external air flows through the air circulation hole, is heat-exchanged by the geothermal heat, and circulates to the support body. Thus, the solar battery module There is also an effect of preventing the power generation efficiency of the battery module from being lowered.

1 is a perspective view showing a strut for a solar power generation according to the present invention;
2 is a cross-sectional view illustrating a pillar for a photovoltaic power generation according to the present invention.
3 is a plan sectional view showing a holding body of a strut for a photovoltaic power generation according to the present invention.
4 is a view showing another example of a strut for a solar power generation according to the present invention.
5 is a view illustrating a state in which a camera is installed using a pillar for solar power generation according to the present invention.

A strut for photovoltaic power generation according to the present invention comprises: a strut body made of a polyhedron and having an inserting portion for inserting a solar cell module on each side; A solar cell module inserted into the inserting portion of the pillar body and assembled with a plurality of solar cells for converting solar energy into electrical energy; A storage battery installed inside the pillar body to charge electrical energy produced from the solar cell module; A charge controller for selectively controlling an output of electric energy supplied from the battery by preventing over discharge and overcharge of electric energy supplied from the solar cell module to the battery; And a concrete block coupled to a lower end of the pillar body to support the pillar body.

Further, the inner surface of the holding body is formed with a wrinkle portion to widen the surface area.

In addition, a plurality of wing-type solar battery modules are installed on the outer upper side of the pillar body so as to be vertically rotatable by being supported by the pivoting guide member, and the pivoting guide member is mounted on the outer surface of the pillar- And a supporting base having one end fixed to the lower portion of the wing-type solar cell module and the other end inserted into the guide groove to be slidable.

The inserting portion includes an engaging plate protruding outwardly at right angles to both sides of the pillar body and a protrusion formed on the inner side of the engaging plate and inserted into a groove formed in a side surface of the solar cell module .

In addition, the concrete block may have at least one air circulation hole, and a circulation pipe may be installed at the center to circulate the air introduced through the air circulation hole to the inside of the pillar body.

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

FIG. 1 is a perspective view showing a strut for a solar power generation according to the present invention, FIG. 2 is a sectional view showing a strut for a solar power generation according to the present invention, FIG. 3 is a cross- FIG. 4 is a view showing another embodiment of a pillar for solar power generation according to the present invention, and FIG. 5 is a view illustrating a state where a camera is installed using a pillar for solar power generation according to the present invention. It is a state of use.

1 to 3, a strut for photovoltaic power generation according to the present invention includes a holding body 1, a solar cell module 2, a storage battery 3, a charge controller 4, a concrete block 5, .

The holding body 1 is preferably made of an aluminum extruded shape member made of an aluminum material having an excellent thermal conductivity.

The pillar body 1 is formed of a polyhedron and an insertion portion 11 is formed on each side of the pillar body 1 so that the solar cell module 2 is inserted. That is, the pillar body 1 may be formed as a polyhedron to increase the light collection efficiency.

The inner surface of the pillar body 1 is formed with a wrinkle portion 12 to widen the surface area so that the inner surface area of the pillar body 1 becomes wider as the air circulation hole 51 of the concrete block 5 Exchanged air circulated through the holding body 1 is widened, the holding body 1 is quickly cooled to prevent the temperature rise of the solar cell module 2 associated with the surface temperature of the holding body 1 It is.

Meanwhile, the holding body 1 may have different lengths depending on the installation place, and a flange 15 having a fastening hole formed at an end of each strut may be formed by dividing the upper strut and the lower strut into a plurality of struts, The bolts 16 are fastened and fixed.

The insertion unit 11 includes an engaging plate 111 protruding outwardly at right angles to both sides of the pillar body 1 and a pair of protrusions formed on the inner side of the engaging plate 111, And a protrusion 112 inserted into the groove 22 formed in the side surface of the base 2.

The insertion portion 11 is integrally formed on the outer surface of the pillar body 1 so as to protrude at a right angle to a corresponding surface of the pillar body 1. [

The grooves 22 of the solar cell module 2 are inserted into the protrusions 112 of the inserting portion 11 and the insides of the protrusions 112 of the inserting portion 11, So that the solar cell module 2 can be easily attached and detached by the groove 22 and the protrusion 112.

4, a pivoting guide member 13 is formed on the outer side of the pillar body 1 and supported by the pivoting guide member 13 so as to be vertically rotatable, (14).

In particular, the pivoting guide member 13 includes guide grooves 131 formed on the outer surface of the pillar body 1, one end fixed to the lower portion of the wing-type solar cell module 14, And a support base 132 which is inserted into the base 131 and slides.

The guide groove 131 is formed to be perpendicular to the longitudinal direction of the column body 1 and is formed naturally by the formation of the coupling plate 111.

A slider 133 is protruded from the end of the support base 132 so as to be inserted into the guide groove 131 without slipping out.

As described above, by providing the wing-type solar cell module 14 rotatably by the rotation guide member 13, the surface area of the power generation region can be widened and the power generation efficiency can be increased.

The solar cell module 2 is constructed by assembling a plurality of solar cells 21 inserted in the insertion portion 11 of the pillar body 1 and converting solar energy into electric energy, And therefore, a detailed description thereof will be omitted.

The battery 3 is installed inside the pillar body 1 to charge the electric energy produced from the solar cell module 2. [ The battery 3 is preferably a lithium polymer battery. Therefore, the battery 3 can be protected from moisture and dust by providing it inside the pillar body 1 which is a cooling structure, and durability and stability can be assured.

The charge controller 4 prevents over discharge and overcharge of electric energy supplied from the solar cell module 2 to the storage battery 3 and selectively controls the output of electric energy supplied from the storage battery 3 .

The charging controller 4 has a function of blocking the discharge of the battery 3 when electricity is not produced by the sunlight and also has a function of preventing the discharge of the storage battery 3 It is preferable to be installed on the upper side.

The concrete block 5 is coupled to the lower end of the pillar body 1 to support the pillar body 1 and is buried underground to utilize the geothermal heat.

When the concrete block 5 is buried in the ground, it is preferable that the upper surface of the concrete block 5 be buried only with the remaining part so that the outside air is circulated.

2, the air circulation hole 51 is formed in a U shape so as to facilitate air circulation without being affected by pressure.

At least one air circulation hole 51 is formed in the concrete block 5 and a circulation pipe 52 is formed in the center so as to circulate the air introduced through the air circulation hole 51 into the pillar body 1. [ Respectively.

That is, by forming a large number of air circulation holes 51 in the concrete block 5, outside air flows through the air circulation holes 51, heat-exchanged by the geothermal heat and circulated to the column body 1, The power generation efficiency of the solar cell module 2 due to the excessive temperature rise of the solar cell module 2 associated with the temperature of the solar cell module 1 can be prevented.

As shown in FIG. 5, a camera for supporting a photovoltaic power generator according to the present invention is installed and supported. In addition to a camera, a streetlight may be installed to support the camera.

In recent years, several military cameras have been installed in military units, and a support for photovoltaic power generation according to the present invention has been attracting attention.

In the past, when electricity generated by using a single generator was simultaneously supplied to a plurality of struts, the power supply to all the struts could not be properly supplied when the generator failed, and the operation of the supported object was stopped. The above-described problems can be solved by using the solar cell support according to the present invention.

While the present invention has been particularly shown and described with reference to exemplary embodiments thereof, it is evident that many obvious changes and modifications may be made without departing from the spirit and scope of the invention as defined by the appended claims. The scope of the invention should therefore be construed in light of the claims set forth to cover many of such variations.

1: holding body
11:
111: engaging plate, 112: projection
12:
13:
131: guide groove, 132: support member, 133: slider
14: wing type solar cell module
15: Flange
16: Bolt
2: Solar module
21: Solar cell
22: Home
3: Storage battery
4: Charging controller
5: Concrete block
51: air circulation hole
52: Circulation tube

Claims (5)

1. A solar cell module comprising: a holding body (1) made of a polyhedron and having an insertion portion (11) formed on each side for inserting a solar cell module (2);
A solar cell module 2 inserted into the inserting portion 11 of the pillar body 1 and having a plurality of solar cells 21 assembled to convert solar energy into electrical energy;
A storage battery 3 installed in the pillar body 1 to charge electric energy produced from the solar cell module 2;
A charge controller (4) for selectively controlling the output of electric energy supplied from the battery (3) while preventing over discharge and overcharge of electric energy supplied from the solar cell module (2) to the battery (3);
And a concrete block (5) coupled to a lower end of the pillar body (1) to support the pillar body (1). The pillar for photovoltaic power generation according to claim 1, wherein a wrinkle portion (12) is formed on an inner surface of the pillar body (1) to widen the surface area. The pivoting guide member (13) is formed on the outer upper side of the pillar body (1) and is supported by the pivoting guide member (13) so as to be vertically rotatable. A battery module 14 is installed,
The tilting guide member 13 has guide grooves 131 formed on the outer surface of the pillar body 1 and one end fixed to the lower portion of the wing-type solar cell module 14, And a support base (132) inserted and slid on the support base (132). The connector according to claim 1, wherein the insertion portion (11) comprises: an engaging plate (111) protruding outwardly at right angles to both sides of the supporting body (1) And protrusions (112) formed in the grooves (22) formed on side surfaces of the solar cell module (2). The concrete block (1) according to claim 1, wherein at least one air circulation hole (51) is formed in the concrete block (5) and the air introduced through the air circulation hole (51) Wherein a circulation pipe (52) is installed on the upper surface of the solar cell.

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