KR101852406B1 - Roof Structure with Self-generation Means - Google Patents

Abstract

The present invention relates to a cover structure including a self-generation unit, which can continuously change energy by using natural light even if maintenance is performed due to damage to a solar cell. Specifically, the cover structure includes: a cover unit; the self-generation unit installed in the cover unit and changing heat energy of the natural light (sunlight) to electric energy by absorbing the heat energy; and a control unit controlling the cover unit and the self-generation unit. The self-generation unit includes: a solar member including at least one among multiple first solar panels fixed to have a shape corresponding to the surface of the cover unit and a second solar panel installed in the cover unit at a predetermined inclination angle and installed in the cover unit to move and rotate in accordance with an irradiation position of the natural light; and a rotation member installed in the cover unit and rotating the second solar panel.

Description

[0002] Roof Structure with Self-generation Means [

The present invention relates to a lid structure provided with a self-generating means capable of continuously converting natural light into energy even when maintenance is performed due to breakage of a solar cell or the like.

In general, a solar cell is used to convert sunlight (natural light) into electrical energy by using semiconductor properties to obtain the required current. The solar cell is composed of two layers, a negative on the front side and a positive on the back side It is completed by attaching a silicon semiconductor plate.

Such a solar cell constitutes a plurality of solar cell modules coupled on a plane in order to obtain a required current.

Since the solar cell module has the highest efficiency when it is perpendicular to the direction of the sunlight, it is installed at 45 degrees to the south of the roof of various buildings. If necessary, the inclination angle of the solar cell is adjusted to be perpendicular to the sunlight, To be installed.

In particular, the solar cell is installed in a place where power consumption is high and is used as an electric power generating means. In particular, the solar cell is installed in an arch-shaped cover of a wastewater treatment plant or a gymnasium having a roof of a dome- Korean Registered Utility Model No. 20-0322568, which is installed on the surface of a dome-shaped roof including the domestic registration No. 10-1391612 or the domestic registration No. 10-1008519, which is installed on a cover having an arch shape, is disclosed.

However, all of these conventional solar cells are installed on the upper surface of the arcuate lid or on the upper surface of the dome-shaped roof so that the solar cells can be irradiated with sunlight. However, Or the like, or can not be used unless the damaged solar cell is replaced when the function is lost.

Disclosure of Invention Technical Problem [8] Accordingly, the present invention has been made keeping in mind the above problems occurring in the prior art, and it is an object of the present invention to provide a cover structure capable of minimizing damage to a solar cell caused by an external environment, There is a purpose.

According to an aspect of the present invention, there is provided a lid comprising: a lid; a self-generating means installed in the lid and adapted to absorb thermal energy of the sun to convert it into electrical energy; Wherein the self-generating means includes a first solar panel having a plurality of first solar panels fixed to the first solar panel so as to have a shape corresponding to the surface of the cover, or a first solar panel having a predetermined inclination angle And a second solar panel rotatably installed at a position where the natural light is irradiated as well as moving to the lid unit, a second solar panel installed on the lid unit to rotate the second solar panel, And a rotating member.

Further, the lid part may have a loop shape in which each of the lid parts has a hollow shape, the cross section has an arch shape or a semicircular dome shape, and the first solar panel is fixed to the surface, The second solar panel is installed to be rotatable, as well as to be able to rotate, through the moving space, and the rotation member is provided on the outer surface of the second solar panel, And a plurality of frame members inserted through the frame member such that the frame member is vertically or horizontally extended outwardly of the loop member, wherein the rotary member is rotatably inserted into one of the opposite ends of the frame member in the longitudinal direction, The second solar panel may be moved in the longitudinal direction or may have a groove And a support frame installed on the inner surface of the loop to support the main frame.

The loop may be formed in a predetermined region so that the operator can enter and exit the apparatus, a blocking plate for opening and closing the perforation, and a stopper disposed at the upper portion of the blocking plate so as to be movable along the longitudinal direction of the main frame, And a moving plate installed to prevent the blocking plate from being exposed to the outside, wherein a moving groove is formed in the upper surface of the main frame so that the moving plate is movably inserted in the longitudinal direction.

In addition, the second solar panel may have a plate-like reinforced solar and a plate shape, and the reinforcing solar may be inserted into the inside of the second solar panel, or a through hole through which the natural light can be irradiated may be formed in the first solar panel And a hinge shaft rotatably coupled to the lid unit by rotation of the rotary member to rotate the reinforcing solar cell is formed on one side of the hinge shaft and a hinge shaft rotatable about the rotation axis of the reinforcing solar cell is inserted into the lid unit on the other side, It is preferable that the stopper includes a protruding jig.

Further, the transparent window may be further provided with a transparent window, and the transparent window may be formed such that the second solar panel is removed from the jig, and when the natural light is irradiated on the first solar panel, the first solar panel is broken So that the natural light can be irradiated.

Further, the rotating member may include a driving motor installed in the lid, a rotating shaft inserted into the lid unit so as to have a predetermined length so as to be rotatable with the driving motor, and eccentric in one direction And an eccentric shaft provided to adjust the inclination angle of the second solar panel according to the rotation of the rotary shaft.

According to the present invention, when one of the solar panels is replaced with another solar panel made of the first solar panel and the second solar panel differently from the conventional one, the other solar panel can continuously perform the energy conversion work .

In addition, natural light is irradiated to the first solar panel fixed to the roof through the transparent window provided in the jig of the second solar panel to perform energy conversion, and the first solar panel is broken in the external environment due to hail or algae And the like.

In addition, according to the position of the sun, the angle of inclination of each second solar panel is changed through the rotary member, so that optimal natural light can be irradiated to the second solar panel.

1 is a perspective view showing a cover structure having a self-generating means according to the present invention.
2 is a view showing a lid portion of a lid structure provided with a self-generating means according to the present invention.
3 is a cross-sectional view taken along line AA 'of FIG. 2;
4 to 6 are enlarged views showing a frame member of a cover structure provided with the self-generating means according to the present invention.
7 is a view illustrating movement of a second solar panel and a moving plate of a cover structure provided with the self-generating means according to the present invention.
FIG. 8 is a view illustrating a first solar panel coupled to a roof of a lid having a self-generating means according to the present invention; FIG.
9 is a view showing a jig of a cover structure provided with a self-generating means according to the present invention.
10 is a sectional view taken along the line BB 'in Fig. 2;
11 is a view showing a state where natural light is irradiated to a first solar panel after a second solar panel having a cover structure equipped with the self-generating means according to the present invention is separated.

DETAILED DESCRIPTION OF THE PREFERRED EMBODIMENTS Hereinafter, a cover structure (hereinafter simply referred to as a cover structure) having a self-generating device according to a preferred embodiment of the present invention will be described in detail with reference to the accompanying drawings. Prior to the description, the control unit 300 according to the present invention means a normal control panel (not shown) or the like for controlling the self-generating means 200 to be described later through a remote or electrically connected cable or the like The control unit 300 of the present invention controls the first solar panel 211 or the second solar panel 212 to be described later or controls the first solar panel 211 or the second solar panel 212 individually, 1 and the second solar panels 211 and 212 are electrically connected to each other so that they can be simultaneously controlled.

1, a lid structure 1 according to the present invention includes a lid 100, a self-generating device 200, and a control unit 300. As shown in FIG.

More specifically, the lid part 100 prevents the inflow of odor and foreign substances into the sewage treatment facility, and forms a ceiling in a cover or a building having an arch-shaped cross section, and a semicircular dome The term " building structure " refers to an architectural structure that forms a dome. In the present invention, the cover will be described in detail.

For example, as shown in FIGS. 1 to 6, the lid unit 100 includes a loop 110 and a frame member 120, which are configured to allow the self-generating means 200, which will be described later, .

Here, the loop 110 is formed to have a predetermined length in the shape of a vinyl house as a whole such that its cross-section has an arch shape, and is used as a cover for discharging odor of wastewater stored in a sewage treatment facility to the outside or preventing foreign substances from entering do.

An installation groove 117 formed to have a shape corresponding to the shape of the first solar panel 211 is formed on the outer surface of the roof 110 so that the first solar panel 211 can be fixedly inserted and installed The first solar panel 211 installed in the installation groove 117 is fixed to the roof 110 through a fastening means P such as a bolt or a screw.

At this time, flexible solar flexible solar as well as reinforced solar 213 to be described later may be selectively used according to the shape of the outer surface of the roof 110 of the first solar panel 211. That is, when the outer surface of the loop 110 forms a flat surface, a reinforcing solar 213 having no flexibility (no bending) is used. When the outer surface of the loop 110 forms a curved surface, To use the flexible solar.

In addition, a perforated hole 111 formed in a predetermined region of the worker can be formed in the loop 110, and the perforated hole 111 may be formed in a shape-fitting manner to open / close the perforated hole 111 It is possible to restrict the access of outside persons other than the worker.

At this time, a moving plate 115 capable of sliding back and forth along the longitudinal direction of the moving groove 127 formed in the main frame 121, which will be described later, is further provided on the blocking plate 113, A rotatable roller (not shown) or the like is installed at the lower end of the leg of the moving plate 115 inserted into the moving groove 127, so that the operator can move the moving plate 115) can be easily moved when slidingly moved (see Fig. 7).

The frame member 120 includes a main frame 121 and a support frame 129 for maintaining the shape of the loop 110 described above.

For example, a plurality of main frames 121 may be provided in the loop 110, and each main frame 121 may have a bar shape having a vertical or horizontal length. On the outer surface of the main frame 121, So that it can be used as a skeleton maintaining the shape of the loop 110.

At this time, a groove 123 may be formed in the longitudinal direction of the main frame 121 for allowing the rotation shaft 223 having the jig 214 or the eccentric shaft 225 to be inserted therein, The main frame 121 of the main body 121 provides a space in which the jig 214 can be installed to be movable or the first solar panel 211 installed on the outer surface of the roof 110 is directly irradiated with natural sunlight It is preferable that the movable space portions 125 having a predetermined area are formed adjacent to each other.

The grooves 123 are formed by a first groove 123a into which the hinge shaft 216 of the jig 214 is rotatably inserted and a stopper 217 on the other side of the jig 214 as well as an eccentric shaft 225, And a second groove 123b into which the rotary shaft 223 is inserted at the same time.

At this time, the first groove 123a is formed to have a diameter slightly larger than the outer diameter of the hinge shaft 216, and an opening may be formed to allow the jig 214 to rotate, The second groove 123b is formed to have a predetermined angle of inclination so as not to interfere with the rotation of the jig 214 and the second groove 123b is formed in the rotation of the rotation shaft 223 differently from the first groove 123a It is preferable that the eccentric shaft 225 is rotated and a space in which the stopper 217 can rotate by the rotation of the eccentric shaft 225 can be formed.

It should be noted that the first groove 123a and the second groove 123b may be formed on the outer surface of one main frame 121 or may be formed on the main frame 121 depending on the mounting position.

The moving plate 127 is inserted into the upper surface of the main frame 121 so that the moving plate 115 is inserted and the sliding groove 127 is slidable in a reciprocating manner. Is formed on the upper surface of the main frame 121 so as not to occur.

The support frame 129 is installed to support a load of a plurality of main frames 121 installed on the upper surface of the loop 110 so as to have an arc shape on the inner surface of the loop 110.

Of course, the support frame 129 in the present invention is shown as having an arc shape, but this is only one embodiment and may be extended vertically or horizontally, as in the case of the main frame 121, It should be noted that the shape of a bar having the same shape is also possible.

The grooves 123 and the moving grooves 127 of the main frame 121 according to the present invention may be omitted when the loop 110 is formed into a dome shape. When the loop 110 is dome- A second solar panel 212 is detachably installed on the main frame 121 so as to be spaced apart from the first solar panel 211 by a predetermined distance, The movement of the second solar panel 212 is not movable along the main frame 121 but the first and second solar panels 211 and 212 are installed at the same time while the second solar panel 212 is separated It is possible to perform continuous energy conversion by using natural light.

The lid 110 and the frame member 120 of the present invention may have rigidity of a perforated panel material rather than a board or a sheet-molding compound, It is preferable to use an aluminum alloy to increase the rigidity and the like because it forms an oxide film and an oxide film at the same time as the production to prevent further penetration of oxygen to cover the outside environment (UV, noxious gas, So that the stiffness maintaining period of the unit 100 can be extended.

In addition, the anodizing process can be performed as needed to further amplify the effect on the stiffness, and it is possible to produce various colors through the anodizing process.

In addition, when the worker is used as a scaffold for installation or maintenance, the rigidity of the panel material is higher than that of the panel material, thereby providing the convenience of maintenance.

In addition, it is also easy to assemble in the form of a panel, and it is also possible to produce a loop 110 having various shapes such as a dome shape, an open shape and a round shape (arcuate shape) of the shape of the lid part 100, The interior of the roof 110 is cooler than the outside temperature during the summer, and the inside of the roof 110 can be kept at room temperature (about 20 to 25 ° C) during the winter.

In addition, since it is light in weight compared to its stiffness, it is easy to use as a material of buildings, and semi-permanent use is possible.

As shown in FIGS. 7 to 10, the self-generating device 200 is fixedly or movably installed in the loop 110, and absorbs the thermal energy of the natural light (sun) And includes a solar element 210 and a rotary member 220 as a constitution for conversion. Prior to explanation, it is noted that the solar element 210 in the present invention is shown in the form of a rectangular plate, but this is only one embodiment, and it is noted that not only a triangular shape but also a polygonal plate shape is possible do.

For example, the solar module 210 may include a first solar panel 211 fixed to the outer surface of the roof 110 or a first solar panel 211 spaced a predetermined distance apart from the first solar panel 211, And a second solar panel 212 which is rotatably installed as well as a slide movement along a direction of the first solar panel 212.

Here, the first solar panel 211 may be either a reinforcing solar 213 which is formed to have a plate shape as a whole, which will be described later, or a solar cell having a flexible function that can be flexibly bent according to the shape of the surface of the roof 110 It is installed so that one can be selected or used in parallel.

The second solar panel 212 is installed to be inserted into the grooves 123 of the main frame 121 and moves along the grooves 123 as well as the eccentric shaft 225 of the rotating member 220, And includes a reinforcing solar 213 and a jig 214. The reinforcing solar 213 is provided with a reinforcing solar 213,

The reinforcing solar 213 is formed to have a plate shape as a whole and is inserted into the penetration portion 215 formed in the jig 214 described later and detachably coupled to the jig 214 through the fastening means.

At this time, the penetration part 215 is formed in a vertical direction and is separated from the penetration part 215 for maintenance or the like of the tempered solar power 213, and then the natural light is irradiated through the first solar panel 211, It is preferable to be able to be controlled by the control unit 300 so that there is no disruption in the production of energy.

The jig 214 is formed so as to have a plate shape as a whole and has a through hole 215 formed in the center thereof so as to have a length in the vertical direction so that the reinforcing solar 213 can be inserted therein. And the jig 214 is inserted into the second groove 123b at the other side of the hinge shaft 216 so that the jig 214 is rotated at different angles with respect to the hinge shaft 216, A stopper 217 is protruded to limit the rotation angle of the jig 214. [

An eccentric shaft 225 to be described later can be supported on the lower surface of the stopper 217 so that the jig 214 can be rotated by the rotation of the eccentric shaft 225, It is preferable that the upper surface of the stopper 217 is caught on the inner surface of the second groove 123b so that the rotation angle of the jig 214 can be limited.

A transparent window 218 may be further provided under the penetration portion 215. The transparent window 218 may be formed in such a manner that after the second solar panel 212 is removed from the penetration portion 215, (Hail, algae excrement, and the like) does not interfere with the first solar panel 211. In this case,

Therefore, even after the second solar panel 212 is separated, continuous conversion of the electric energy to the first solar panel 211 can be performed, so that the generation of electric energy can be prevented.

The rotary member 220 includes a driving motor 221, a rotary shaft 223 and an eccentric shaft 225 for adjusting the inclination angle of the second solar panel 212 through the control unit 300 according to the illumination position of natural light. .

For example, the driving motor 221 can be controlled by the control unit 300 by using a deceleration motor that is installed at the front end or the rear end of the main frame 121 and has a constant rotational speed in both directions, It is possible to prevent the second solar panel 212 from being damaged by the impact generated by the contact between the main frame 214 and the main frame 121.

At this time, the control of the controller 300 using the drive motor 221 controls the drive motor 221 on the basis of the sun position information transmitted from the outside at different altitudes according to the season to adjust the inclination angle of the jig 214 It is preferable to make it adjustable.

The rotation shaft 223 is inserted into the second groove 123b formed in the main frame 121 and one end of the rotation shaft 223 is rotatably engaged with the drive motor 221 to rotate the eccentric shaft 225 Is rotatable.

A plurality of eccentric shafts 225 are provided adjacent to each other on the rotary shaft 223 and are eccentric in one direction so that the tilting angle of the jig 214 can be adjusted during rotation.

The rotation angle of the jig 214 by the eccentric shaft 225 can be adjusted by the position information of the sun inputted from the outside to the control unit 300.

The cover structure 1 according to the present invention having the above-described structure differs from the conventional one in that a single solar panel is provided through a solar member 210 composed of a first solar panel 211 and a second solar panel 212 At the time of replacement, the other solar panel has the effect of continuing to perform the energy conversion work.

Natural light is irradiated to the first solar panel 211 fixed to the roof 110 through the transparent window provided in the jig 214 of the second solar panel 212 to perform energy conversion and at the same time, It is possible to prevent the first solar panel 211 from being damaged in the external environment caused by the first solar panel 211.

In addition, according to the position of the sun, the angle of inclination of each second solar panel 212 is varied through the rotary member 220, so that optimal natural light can be irradiated to the second solar panel 212.

The specific embodiments of the present invention have been described above. It is to be understood, however, that the spirit and scope of the invention are not limited to these specific embodiments, but that various changes and modifications may be made without departing from the spirit of the invention, If you are a person, you will understand.

Therefore, it should be understood that the above-described embodiments are provided so that those skilled in the art can fully understand the scope of the present invention. Therefore, it should be understood that the embodiments are to be considered in all respects as illustrative and not restrictive, The invention is only defined by the scope of the claims.

1: Cover structure with self-generating means according to the present invention
100: lid 110: loop
111: cleavage 113: blocking plate
115: moving plate 117: installation groove
120: frame member 121: main frame
123: groove 125: moving space part
127: moving groove 129: supporting frame
200: self-generating means 210: solar element
211: First Solar Panel 212: Second Solar Panel
213: Gwacheon 214: Jig
215: penetrating part 216: hinge shaft
217: Stopper 218: Transparent window
220: rotating member 221: driving motor
223: rotation axis 225: eccentric axis
300:

Claims (6)

A lid 100 in the form of a dome;
Self-generating means (200) installed in the cover (100) for absorbing the heat energy of sunlight and converting it into electric energy; And
And a control unit (300) for controlling the operation of the self-generating means (200)
The self-generating unit 200 includes a plurality of solar panels 212 mounted on the lid unit 100 so as to be rotatable along the natural light direction, and a rotary member 220 for rotating the solar panels 212 Including,
A plurality of solar panels 212 are connected to both sides of the frame member 120 to form a plurality of lines at regular intervals along the rounded surface of the lid unit 100, However,
The frame member 120 includes a main frame 121 having grooves 123 on both sides of which the opposite ends of the solar panel 212 are inserted to be movable or rotatable,
The groove 123 has a first groove 123a formed at one side of the main frame 121 so that one side of the solar panel 212 is rotatably inserted and a second groove 123b formed at one side of the solar panel 212, And a second groove (123b) formed on the other side surface of the main frame (121) to insert a part of the member (220)
The plurality of solar panels 212 includes a plate type reinforcing solar 213 mounted inside the jig 214 and a hinge shaft 213 formed on one side of the jig 214 to be rotatably inserted into the first groove 123a. And a stopper 217 protruding from the other side of the jig 214 so as to be vertically movably inserted into the second groove 123b so as to restrict the rotation angle of the reinforcing solar 213, ,
The rotary member 220 includes a driving motor 221 installed at one side of the lid unit 100 and a stopper 230 having a predetermined length rotatable by the driving motor 221, And a solar panel 212 which is eccentrically formed in one direction on the rotation axis 223 and is eccentrically formed in one direction so that the solar panel 212 is moved in the direction of the natural light according to the rotation of the rotation axis 223. [ And an eccentric shaft (225) operative with respect to the stopper (217) to adjust the inclination angle of the self-generating means. delete delete delete delete delete

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