KR20200025869A - Air Catchment Area Solar Cell Ggenerating Structure With Deflection Prevention Structure - Google Patents

Abstract

The present invention relates to an air catchment area solar cell generating device using a long span crossbeam with a deflection prevention device. The air catchment area solar cell generating device comprises: two or more columns (10) standing on the ground at a fixed height in the vertical direction; a horizontal beam (20) having a predetermined length in the horizontal direction or in the almost horizontal direction in a predetermined position between the columns (10), wherein each part crossing the each column (10) is fixed to the column (10); and a solar generation module or an array (40) installed to be supported on the horizontal beam (20). A PC steel bar or a PC strand (80) is installed with the horizontal beam (20). The PC steel bar or the PC strand (80) is tensioned by being arranged in the predetermined length in the longitudinal direction which becomes the longitudinal direction of the horizontal beam (20) in the lower part of the inner side of an outer boundary of the horizontal beam (20) or under the outside of an outer boundary of the horizontal beam (20). So, a structure is formed on the ground by comprising the column and the horizontal beam. Also, the array or the solar generation module for solar power generation is installed in the horizontal beam. Therefore, the air catchment area solar cell generating device rarely has or minimizes damage to natural environment and the forest on the ground. The air catchment area solar cell generating device facilitates solar power generation in the natural environment under any condition such as a mountain, a hill, or an irregular slope with a curved ground shape. So, the air catchment area solar cell generating device using the long span crossbeam with the deflection prevention device can prevent the deflection of the horizontal beam by forming the PC strand inside or outside of the horizontal beam and tensioning and anchoring the PC strand.

Description

Air Catchment Area Solar Cell Ggenerating Structure With Deflection Prevention Structure

The present invention relates to an air-to-air photovoltaic device by a long span beam with a deflection prevention device, and more particularly, to form a pillar and a horizontal beam structure on the ground, and a photovoltaic module for photovoltaic power generation on a horizontal beam ( By installing a module or an array, there is little or no damage to the forest surface and the destruction of the natural environment, and the shape of the ground surface is curved, so it is easy to shine in the natural environment under any conditions such as irregular slopes, hills or mountains. The present invention relates to an air-to-air photovoltaic device based on a long span beam with a deflection prevention device to prevent the deflection of the horizontal beam by forming a PC stranded wire inside or outside the horizontal beam and tensioning and fixing it. .

Photovoltaic power generation converts infinite solar light without pollution into electric energy, and its usefulness is increasing day by day as a useful alternative energy source for depletion of fossil fuels and environmental pollution. In order to obtain power as much as it can only depend on the amount of sunshine, it is necessary to widen the area of incidence of sunlight, which eventually requires a very large surface area. In the case of urban areas such as urban areas where people are not frequent economic activities, relatively large areas such as mountainous areas, idle land, or agricultural lands with low economic feasibility may be reasonable, but as a result, environmental degradation of surface natural ecosystems such as deforestation, etc. Useful farmland An inevitable phenomenon doemeun entail serious social problems such as a decrease in forest area.

In particular, when the photovoltaic module is installed in a structure composed of pillars and beams, the photovoltaic module is mounted on the upper part of the beam due to the characteristics of the structure. There was a problem bringing the results.

As a background technology of the present invention, Utility Model Registration No. 0475580 "Stress-mounted photovoltaic device having a sun tracking function" (Patent Document 1). In the background art, the inner ring is formed in a ring shape and is fixed to the outer circumferential surface of the columnar support; An outer ring having a ring shape and fixed to an outer circumferential surface of the inner ring, the outer ring being rotatably fixed to the inner ring about a first axis orthogonal to the central axis of the strut; A solar cell panel formed at least in the center of a flat plate and fixed to an outer circumferential surface of the outer ring, the solar cell panel being rotatable about the outer ring about a second axis perpendicular to the first axis in a plane formed by the solar cell panel. Fixed solar panel; At least three wires each of which one end is fixed to one surface or an outer circumferential edge of the solar cell panel and the other end is fixed to the support; A drive unit installed between one end, the other end, or both ends of each of the at least three rows of wires, the drive unit including a bobbin rotatable to wind or unwind the at least three rows of wires, and a motor to rotate the bobbins; And a controller configured to control the rotation of the bobbin by transmitting a signal for adjusting the length of the at least three lines of wires to the sun so that the solar cell panel faces the sun. Suggest.

However, the background art is not only impossible to install a large solar panel on the shore, but also has a problem that the solar panel is difficult to resist wind pressure.

Utility Model Registration No. 0475580 "Straight Mounted Solar Power Generator with Sun Tracking Function"

The present invention is to solve the above problems, by forming a pillar and horizontal beam structure on the ground and by installing a photovoltaic module (module) or array (array) for photovoltaic power generation on the horizontal beam While there is little or no damage to the forests and the destruction of the natural environment, the shape of the ground surface is bent so that solar power generation can be easily performed in any natural environment such as irregular slopes, hills, or mountainous areas. By constructing PC strands in the tension, the deflection prevention device that can support the horizontal beams stably and prevent the horizontal beams from sagging due to the load, can be configured to make the horizontal beams long without increasing the cross section size of the horizontal beams. Providing public air photovoltaic device by beam with long span attached Its purpose is to.

The present invention and two or more pillars (10) erected on the ground to have a constant height in the vertical direction from the ground; Each of the portions 10 having a predetermined length in a horizontal or near horizontal direction at a predetermined position between the pillars 10 and the pillars 10 and intersecting with the pillars 10 are fixed to the pillars 10. A horizontal beam 20 provided to be provided; In the aerial photovoltaic device comprising a photovoltaic module or array (40) provided to be supported on the horizontal beam 20, the lower or horizontal inside the outer boundary of the horizontal beam 20 The PC steel bar or PC strand wire 80 is arranged to have a predetermined length in the longitudinal direction of the horizontal beam 20 in the lower side of the outer boundary of the beam 20 to the longitudinal direction of the horizontal beam 20 is a horizontal beam (20) To provide an aerial winding photovoltaic device comprising a long span beam with a sag prevention device is characterized in that it is provided with.

In addition, the both ends of the horizontal beam 20 is provided with a fixing plate 70 for supporting the tensile force of the PC steel bar or PC strands 80 to have a predetermined shape and size, PC steel bar or PC strands 80 ) Has a predetermined length in the direction parallel to the longitudinal direction of the horizontal beam 20 at the bottom inside the outer boundary of the horizontal beam 20, both ends thereof are fixed to each fixing plate 70 It is an object of the present invention to provide an air-to-air photovoltaic device by a long span beam having a deflection prevention device attached thereto.

In addition, at a predetermined position on both sides of the horizontal beam 20, a predetermined length protrudes downward from the outside of the horizontal boundary of the horizontal beam 20, and at the same time as a direction perpendicular to the longitudinal direction of the horizontal beam 20. It has a shape having a fixing plate 70 is provided to support the tensile force of the PC steel bar or PC strand wire 80, the PC steel bar or PC strand wire 80 is below the outer boundary of the horizontal beam 20 With a predetermined length in the direction parallel to the longitudinal direction of the horizontal beam (20), the predetermined portion near the both ends is fixed to each fixing plate 70 is attached to the deflection prevention device, characterized in that It is intended to provide a public sphere photovoltaic device based on long span beams.

In addition, in a predetermined portion in which the fixing plate 70 is provided, one surface of the fixing plate 70 on the side where the PC steel bar or the PC strand wire 80 is provided and the surface outside the horizontal beam 20 adjacent to and perpendicular to the surface of the fixing plate 70. To provide an air-to-air photovoltaic device by a long span beam with a deflection prevention device, characterized in that the one or more reinforcing stiffeners 71 are connected to each other to connect the surfaces of the two parts.

Further, the truss lower chord is a circular tube having a predetermined length in the longitudinal direction of the horizontal beam 20 at a predetermined position spaced below the outer boundary of the horizontal beam 10 by a predetermined distance ( 91 is provided side by side with the horizontal beam 20, the two or more truss intermediate member 92 connecting the upper surface of the truss lower chord (91) and the lower surface of the horizontal beam 20 is perpendicular or inclined Is provided in the direction, the long span with the deflection prevention device, characterized in that the PC steel bar or PC strand wire 80 is a predetermined length is arranged to penetrate the circular tube of the truss lower chord 91 It is intended to provide a public solar photovoltaic device by beams.

In addition, both end portions of the truss lower chord 91 is provided with a fixing plate 70 is formed in a predetermined shape and size to support the tensile force of the PC strand or PC steel bar, the PC steel rod or PC strand It is intended to provide an air-to-air photovoltaic device by a long span beam with a deflection prevention device, characterized in that the predetermined portion near the both ends is made to be fixed to each fixing plate (70).

In addition, the truss lower chord 91 is formed on the beam with the long span beam with a deflection prevention device, characterized in that the curved shape so that the predetermined length portion of the middle along with the PC steel bar or PC strand wire 80 is convex downward. To provide an aerial photovoltaic device according to the present invention.

In addition, the PC steel bar or PC strand 80 is extended to the upper surface of the horizontal beam 20 while passing through the tube of the circular truss lower chord 91 so that the predetermined portion near the both ends of the horizontal beam 20 An object of the present invention is to provide an air-to-air photovoltaic device by a long span beam with a deflection prevention device, characterized in that the upper surface is fixed.

Aerial solar photovoltaic device by a long span beam with a deflection prevention device of the present invention forms a structure of pillars and horizontal beams on the ground and a photovoltaic module or array for photovoltaic power generation on horizontal beams By setting up the system, the shape of the ground surface is curved while there is little or no destruction of the forest and the destruction of the natural environment on the surface, so that the solar power generation can be easily performed in any natural environment such as irregular slopes, hills or mountains, By constructing PC strands inside or outside the horizontal beams, they can be tensioned and fixed so that the horizontal beams can be stably supported while preventing the horizontal beams from sagging due to loads. This can be a very useful effect.

The following drawings, which are attached in this specification, illustrate the preferred embodiments of the present invention, and together with the detailed description thereof, serve to further understand the technical spirit of the present invention. It should not be construed as limited.
1 is a perspective view of one embodiment of an aerial winding photovoltaic device by a long span beam with a deflection prevention device of the present invention.
2 is a perspective view showing an embodiment of a horizontal beam of the present invention.
3 is a side cross-sectional view of FIG. 2.
4 is a cross-sectional view taken along line AA and BB of FIG. 3.
5 is a perspective view showing another embodiment of a horizontal beam of the present invention.
6 is a side cross-sectional view of FIG. 5.
FIG. 7 is a cross-sectional view taken along lines CC and DD of FIG. 5.
8 and 9 are front views showing various embodiments of the air winding photovoltaic device by the long span beam with the deflection prevention device of the present invention.
Figure 10a is a cross-sectional view of the planar direction of the two bracket members in the shape of the letter c is coupled to the pillar by two or more bolts and nuts are provided as one bracket (bracket).
FIG. 10B is a cross-sectional view taken along the line EE of FIG. 10A.
FIG. 10C is a sectional view in a planar direction showing that the bracket member has an H shape in FIG. 10A.
FIG. 10D is a cross-sectional view taken along the line FF of FIG. 10C.

In the following the present invention will be described in detail with reference to the embodiments shown in the accompanying drawings, but the embodiments presented are exemplary for a clear understanding of the present invention is not limited thereto.

Hereinafter, the technical configuration of the present invention according to a preferred embodiment in detail.

The present invention relates to an air-to-air photovoltaic device by a long span beam with a deflection prevention device, and more particularly, to form a pillar and a horizontal beam structure on the ground, and a photovoltaic module for photovoltaic power generation on a horizontal beam ( By installing a module or an array, there is little or no damage to the forest surface and the destruction of the natural environment, and the shape of the ground surface is curved, so it is easy to shine in the natural environment under any conditions such as irregular slopes, hills or mountains. The present invention relates to an air-to-air photovoltaic device based on a long span beam with a deflection prevention device to prevent the deflection of the horizontal beam by forming a PC stranded wire inside or outside the horizontal beam and tensioning and fixing it. .

1 is a perspective view of an embodiment of an aerial winding photovoltaic device using a long span beam with a deflection prevention device of the present invention, FIG. 2 is a perspective view showing an embodiment of a horizontal beam of the present invention, and FIG. 2 is a side cross-sectional view, and FIG. 4 is a cross-sectional view taken along lines AA and BB of FIG. 3.

Aerial solar photovoltaic device by a long span beam with a deflection prevention device of the present invention includes two or more pillars (10) standing on the ground to have a constant height in the vertical direction from the ground; Each of the portions 10 having a predetermined length in a horizontal or near horizontal direction at a predetermined position between the pillars 10 and the pillars 10 and intersecting with the pillars 10 are fixed to the pillars 10. A horizontal beam 20 provided to be provided; In the aerial photovoltaic device comprising a photovoltaic module or array (40) provided to be supported on the horizontal beam 20, the lower or horizontal inside the outer boundary of the horizontal beam 20 The PC steel bar or PC strand wire 80 is arranged to have a predetermined length in the longitudinal direction of the horizontal beam 20 in the lower side of the outer boundary of the beam 20 to the longitudinal direction of the horizontal beam 20 is a horizontal beam (20) ) To be equipped with.

The column 10 is made of a variety of known materials, such as concrete, steel, or resin products such as FRP, and the cross section is round, hollow hollow round, square, hollow hollow It can be provided in a variety of shapes, such as the square, H-shaped and the thickness of the column cross-section can also be provided in a variety of shapes, such as becoming thinner or more uniform upward, preferably in concrete It is economical to be a Prestressed High-strength Concrete (PHC) pillar reinforced with reinforcing steel and PC strands or a PC pillar (prestressed concrete pole) such as electric poles, and a hollow hollow circular section tapering upwards. It is most preferable because both aspects and structural aspects can be satisfied.

In the present invention, one or more PC steel bar or one or more strands of PC strand 80 is introduced into the horizontal beam 20, the tension is introduced to the lower end of the cross section or a predetermined distance lower portion of the outside so that both ends are fixed, respectively, horizontal It is made to prevent sagging of the beam 20.

In particular, as shown in Figures 2 to 4, the horizontal beam 20 in the longitudinal direction of the horizontal beam 20 to protrude downward on the outer surface of the horizontal beam 20 at a position spaced in a predetermined distance from both ends. The fixing plate 70 is configured to be configured at right angles, and both ends of the PC steel bar or the PC strand wire 80 are fixed to the fixing plate 70 by the fixing member 81 at the lower portion of the outside of the horizontal beam 20. The tension force may be introduced to the horizontal beam 20.

The fixing member 81 may use a variety of known fixing members, and the fixing plate 70 includes a plurality of reinforcing stiffeners 71 configured to connect the outer circumferential surfaces of the fixing plate 70 and the horizontal beam 20. You can do that.

5 is a perspective view showing another embodiment of the horizontal beam of the present invention, Figure 6 is a side cross-sectional view of Figure 5, Figure 7 is a cross-sectional view along the line C-C, D-D of FIG.

In the above embodiment, the PC steel bar or PC strand wire 80 is configured on the outside of the horizontal beam 20 to introduce tension force to the horizontal beam 20, but in the present embodiment, the PC steel bar into the inside of the horizontal beam 20. Or it is to introduce a tension force through the PC strand 80.

That is, as shown in Figures 5 to 7, the horizontal beam 20 is configured so that the fixing plate 70 is configured at both ends, respectively, the PC steel bar or PC strand wire 80 is located at the bottom of the horizontal beam 20 cross section To penetrate the inside of the horizontal beam 20 so that both ends may be fixed to the fixing plate 70 by the fixing member 81. In this case, too, the fixing plate 70 may be configured to reinforce the plurality of reinforcing stiffeners 71 to connect the outer circumferential surfaces of the fixing plate 70 and the horizontal beam 20.

8 and 9 are front views showing various embodiments of the air winding photovoltaic device by the long span beam with the deflection prevention device of the present invention.

As shown in FIG. 8, a truss lower chord 91 is formed by being spaced a predetermined distance below the horizontal beam 20, and a truss middle member connecting the truss lower chord 91 and the horizontal beam 20 in a truss structure ( A reinforcing truss 90 composed of 92 is configured so that fixing plates 70 are formed at both ends of the truss lower chord 91, and a PC steel bar or PC strand wire 80 is provided inside the truss lower chord 91. It can be purchased and settled.

The PC steel bar or PC strand wire 80 is embedded in the truss lower chord 91 to be transferred to the horizontal beam 20 by the truss middle member 92 when the tension force is introduced, the horizontal beam 20 and the truss lower The truss intermediate member 92 is configured between the chokes 91 to distribute the load by the truss action to prevent structural stability and sag.

The truss lower chord 91 and the truss intermediate member 92 may be formed in a variety of known cross-sectional shapes, such as angles, channels, plates, steel pipes, in the illustrated embodiment was composed of steel pipes.

As shown in FIG. 8, the truss lower chord 91 is made horizontal, so that the PC steel bar or the PC strand 80 is positioned in the horizontal direction so as to introduce a tension force. As shown in FIG. 9, the truss lower chord Numeral 91 is formed so that both ends are arched to contact the lower end of the horizontal beam 20, the PC steel bar or PC strand 80 is embedded in the truss lower chord 91 so that both ends penetrate the horizontal beam 20, respectively. In order to be settled at the upper portion of the horizontal beam 20 to prevent the sagging of the central portion of the horizontal beam 20 at the time of introducing the tension force effectively.

Figure 10a is a cross-sectional view of the planar direction of two bracket members having a U-shape is coupled to the pillar by two or more bolts and nuts are provided as a single bracket (bracket), Figure 10b It is EE line direction sectional drawing of 10a, and FIG. 10C is sectional drawing of the plane direction which shows that the bracket member became H shape in the above-mentioned FIG.

The pillar 10 provided as described above is buried in the ground of the ground by various methods known in the art so that a certain length of the lower side of the pillar 10 can be sufficiently firmly standing on the ground. The bracket 30 is to be installed, or the bracket 30 is fixed or mounted by hanging or hanging or combining certain other objects or members at a middle part of a particular pillar or wall. It may be provided as a variety of known methods or structures or shapes that can be placed in the present invention, but preferably in the present invention can be configured to a separate bracket to be easily and simply assembled and dismantled on the column (10). have.

The bracket 30 has a length longer than the diameter of the column 10 or the length of one side as shown in FIGS. 10A and 10B, and may be in various shapes known in the art, such as a c-shape or an H-shape. Bracket members 31 are arranged in a state in which two bracket members 31 are arranged on each side of the pillar 10 in a horizontal direction intersecting with the pillar 10 so as to face each other. The two bracket members 31 are tightened by tightening two bracket members 31 facing each other with two or more bolts and nuts 32 at predetermined positions protruding from both sides of the pillar 10 in the longitudinal direction. The predetermined length portion protrudes to the outside of the (10) is coupled to the column 10 to be one bracket (bracket) (30) is the most preferable structure.

In addition, the horizontal beam 20 is placed on the protruding portion of the bracket (30) while at least one predetermined portion intersects the column (10) in the vertical direction in the horizontal or close to the horizontal direction as shown in FIG. It is provided in the state is to be fixed by being coupled to the column 10 with the bracket (bracket) 30, the horizontal beam 20 to be placed on the protruding portion of the bracket (30) By means of welding or by a variety of known strapping and fastening methods, such as band devices or fasteners, it is possible to completely fix the strap 10 to the column 10 together with the bracket 30. The material can be provided with a variety of well-known materials such as steel or resin products such as FRP, the shape of the cross section is hollow hollow circular tube , Or hollow hollow yarn It can be provided in various shapes, such as shaped pipes or various shapes of H-shaped steels and other various shapes, and is preferably of a relatively small size that can reduce its own weight. Structural durability by incorporating a structural steel material with considerable durability, or a reinforcing material having excellent tensile strength such as carbon fiber, which can be made longer in the horizontal or near horizontal direction supported by the column 10 as a cross section. Is preferably made of materials such as FRP reinforced with carbon fiber, which is considerably large in weight and very light in weight.

One or more suns in a form in which a middle portion of the photovoltaic module or array 40 is placed on the horizontal beams 20 and is spread over the horizontal beams 20 provided as described above. Photovoltaic modules or arrays 40 are arranged in a direction parallel to the horizontal beams 20 to provide a basic structure of a photovoltaic module or array 40. If the light is divided into the front part and the rear part of the opposite side, the front part is composed of encapsulant and glass to protect the front of the solar cells consisting of several, the rear part The outer edges of the elements on the inside of the outer frame, which consists of an encapsulant and backsheet that protect the back of the solar cells, forming an overall outer frame. Inserted In the inserted state, one solar power module 40 may be formed, or several such solar modules 40 may be assembled and assembled into a single assembly. It consists of an array 40.

In the above, the photovoltaic module or array 40 is a front surface of the photovoltaic module or array 40 in consideration of the change in latitude and seasonal latitude of the sun according to the installation position. In order to be closest to the direction perpendicular to the direction of the incident sunlight, the front face is provided with the horizontal direction at a predetermined angle toward the sun.

In the above-described predetermined length part in which the middle portion of the photovoltaic module or array 40 which is laid on the horizontal beam 20 is connected in parallel with the horizontal beam 20. In the case where the predetermined position on the rear side of the photovoltaic module or the array 40 or more is fixed to the horizontal beam 20, the strap is fixed to the fixed beam. Various structures and methods can be used.

Aerial solar photovoltaic device by a long span beam with the deflection prevention device of the present invention as described above forms a pillar and a horizontal beam structure on the ground and a photovoltaic module or array for photovoltaic power generation on the horizontal beam By installing an array, there is little or no damage to forests and destruction of the natural environment at the surface, and the shape of the surface is curved so that solar power generation can be easily performed in any natural environment such as irregular slopes, hills or mountains. By constructing PC strands inside or outside the horizontal beams, they can be tensioned and settled to stably support the horizontal beams while preventing the horizontal beams from sagging due to loads. There is a very useful effect that can be configured long.

10: pillar
20: horizontal beam
30: bracket
31: bracket member
32: bolts and nuts
40: PV module or array
70: fixing plate
71: reinforcement stiffener
80: PC strand
81: fixing member
90: reinforcement truss
91: Truss Present
92: truss intermediate member

Claims (8)

Two or more pillars 10 which are erected on the ground to have a constant height in the vertical direction from the ground; Each of the portions 10 having a predetermined length in a horizontal or near horizontal direction at a predetermined position between the pillars 10 and the pillars 10 and intersecting with the pillars 10 are fixed to the pillars 10. A horizontal beam 20 provided to be provided; In the aerial photovoltaic device consisting of a photovoltaic module (module) or array (array) 40 provided to be supported on the horizontal beam 20,
The lower side of the inner side of the horizontal beam 20 or the lower side of the outer boundary of the horizontal beam 20 is arranged to have a predetermined length in the longitudinal direction that becomes the longitudinal direction of the horizontal beam 20 to tension An air winding photovoltaic device comprising a long span beam with a deflection prevention device, characterized in that the PC steel bar or PC strand wire (80) is provided with the horizontal beam (20). The method according to claim 1,
Both ends of the horizontal beam 20 is provided with a fixing plate 70 to be a predetermined shape and size to support the tensile force of the PC steel bar or PC strand (80),
The PC steel bar or PC strand 80 has a predetermined length in the direction parallel to the longitudinal direction of the horizontal beam 20 at the lower side of the inner boundary of the horizontal beam 20, the both ends of each fixing plate 70 Aerial solar photovoltaic device by a long span beam with a deflection prevention device, characterized in that the fixed state). The method according to claim 1,
At a predetermined position on both sides of the horizontal beam 20, the predetermined length of the horizontal beam 20 protrudes downward outside the outer boundary of the horizontal beam 20 and has a predetermined length in a direction perpendicular to the longitudinal direction of the horizontal beam 20. The fixing plate 70 is provided in the shape to support the tensile force of the PC steel bar or PC strand wire 80,
PC steel bar or PC strand 80 has a predetermined length in the direction parallel to the longitudinal direction of the horizontal beam 20 from the outside of the outer boundary of the horizontal beam 20, while the predetermined portion near the both ends of each Aerial solar photovoltaic device by a long span beam with a deflection prevention device, characterized in that the state is fixed to the plate (70). The method according to claim 2 or 3,
In a predetermined portion in which the fixing plate 70 is provided, two portions which are one surface of the fixing plate 70 on the side where the PC steel bar or PC strand wire 80 is located and an outer surface of the horizontal beam 20 adjacent orthogonal thereto. At least one reinforcing stiffener (71) for connecting the surfaces of each other is a public air photovoltaic device by a long span beam with a deflection prevention device, characterized in that is attached. The method according to claim 1,
The truss lower chord 91 having a predetermined length in a longitudinal direction in the longitudinal direction of the horizontal beam 20 at a predetermined position spaced apart from the outer boundary of the horizontal beam 10 by a predetermined distance (91) Is provided side by side with the horizontal beam 20, the direction in which two or more truss intermediate members 92 connecting the upper surface of the truss lower chord (91) and the lower surface of the horizontal beam 20 are perpendicular or inclined And a long span beam with a deflection prevention device, characterized in that the PC steel bar or PC strand wire 80 has a predetermined length and is arranged to penetrate the circular tube flow of the truss lower chord 91. By air power photovoltaic device. The method according to claim 5,
Both end portions of the truss lower chord 91 are provided with a fixing plate 70 having a predetermined shape and size to support the tensile force of the PC strand or PC steel bar, and both ends of the PC steel rod or PC strand wire 80. The air-wind photovoltaic device according to the long span beam with the deflection prevention device, characterized in that the predetermined portion in the vicinity is fixed to each fixing plate (70). The method according to claim 5,
The truss lower chord 91 is formed of a curved shape such that the predetermined length portion of the middle is bent to be convex downward along with the PC steel rod or the PC strand 80, and the air by the long span beam with the sag prevention device is provided. Solar photovoltaic device. The method according to claim 7,
The PC steel bar or PC steel wire 80 extends to the upper surface of the horizontal beam 20 while penetrating the tube of the circular truss lower chord 91 so that a predetermined portion near both ends thereof is formed on the upper surface of the horizontal beam 20. Aerial solar photovoltaic device by a long span beam with a deflection prevention device, characterized in that the fixed state.

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