KR20150145485A - height-adjustable support device of photovoltic module - Google Patents

Abstract

The present invention relates to a height-adjustable support device of a photovoltaic generation module, and more specifically, to a support device of a photovoltaic generation module, in which the height of the support device formed on the ground to support a photovoltaic generation module may be easily adjusted, so the photovoltaic generation module may be conveniently constructed. The height-adjustable support device of the photovoltaic generation module comprises: a base part including a spiral-shaped lower pile stuck and fixed in the ground, and an upper pile formed on the upper side of the lower pile to be exposed onto the ground; a pillar coupled to the upper pile, and supporting a module support frame having the photovoltaic generation module mounted thereon; and a height adjusting means for reciprocally connecting the upper pile and the pillar to adjust the height of the pillar.

Description

[0001] The present invention relates to a height-adjustable support device for a photovoltaic module,

[0001] The present invention relates to a supporting device for a solar power generating module capable of height adjustment, and more particularly, to a supporting device for supporting a solar power generating module installed on the ground, And more particularly to a supporting device for a simple photovoltaic module.

Solar power generation system uses infinite clean energy and does not require any additional energy or driving source. It has the merit of simple construction of small scale and large scale system, and is not affected by installation restrictions due to environmental problems. This is infinite.

For the photovoltaic power generation facility, a module support frame for installing the solar power generation module and a support for supporting the module support frame on the ground are essential.

Such a photovoltaic power generation facility is generally constructed by fixing a plurality of struts to the ground, installing a module support frame on the upper part of the support, and mounting the solar power generation module on the module support frame.

The conventional strut has a certain length to place the solar module at a height spaced from the ground, and partly buried in the ground. This support frame can be used to dig the site where the solar power module is to be installed, to insert a part of the lower part of the support, to support the concrete under the ground, or to place the concrete installation at the bottom of the support in advance .

Further, it is also possible to fix the support by using an anchor or the like on the foundation ground after the foundation foundation made of concrete is previously formed on the installation site.

As described above, there is a disadvantage in that the work of piling up concrete, putting concrete mortar and curing is troublesome and the construction period is lengthened. In addition, there is a problem that the working period due to the weather is extended.

In order to solve this problem, a method of embedding a foundation file on the top of a foundation file after buried in the ground has been researched.

Korean Patent Registration No. 10-0905069 discloses a technique in which a base file having a predetermined length on an embankment or the ground and a plurality of support vanes formed on an outer surface of the body is buried in the ground and a solar module cradle is mounted on a foundation file is disclosed .

The above technique has an advantage that the conventional problem of using concrete can be solved in that the foundation pile can be installed in the ground without forming a foundation with concrete. However, since the mounting hole is buried in the ground and the foundation file is inserted into the mounting hole and then buried, the operation time is still long, and additional work such as boring and burial is accompanied, which complicates the installation process.

Also, since the height of the foundation file embedded in the ground can not be adjusted, it is very difficult to match the height of adjacent cradles.

Korean Registered Patent No. 10-0905069: Foundation File of Photovoltaic Module Cradle

It is an object of the present invention to provide a support device for a photovoltaic power generation module that is capable of firmly fixing a base part to a ground surface without grasping a hole.

It is another object of the present invention to provide a support device that is easily assembled to a solar cell module because the height of a support for supporting the solar cell module can be adjusted by being coupled to an upper portion of the foundation.

In order to accomplish the above object, a supporting device of a height-adjustable solar power module according to the present invention includes a spiral bottom file fixed to the ground and an upper file formed on the top of the bottom file and exposed to the ground ; A strut supporting the module support frame coupled to the upper file to mount the solar module; And height adjusting means for coupling the upper pile and the pillar to each other to adjust the height of the pillar.

The height adjusting means is configured to move at least one flange of the upper file and the flange, which are respectively installed on the upper and lower supports, to move up and down.

Wherein the height adjusting means comprises a moving flange provided on the upper file so as to be movable up and down, a fixing flange provided on the support and positioned above the moving flange, And an engaging member for engaging the engaging member.

Wherein the moving flange includes a first unit unit arranged in one lateral direction of the upper file, a second unit unit arranged in the other lateral direction of the upper file with the upper file interposed therebetween, And a fixing member for fixing the second unit parts to the upper file by coupling them.

The first unit includes a first tight contact portion formed in an arcuate shape so as to surround one side of the outer surface of the upper pile, a first fastening portion formed at both end portions of the first tight contact portion, And a second plate portion which is formed to be engaged with one side of the fixing flange, and the second unit portion is formed in an arc shape so as to surround the other side of the outer side surface of the upper file, A second fastening portion formed on both end portions of the second fastening portion and joined to the first fastening portion by the fastening member, and a second fastening portion formed on the upper portion of the second fastening portion and joined to the other side of the fastening flange And a second plate-shaped portion.

The height adjusting means may further comprise a reinforcing portion for reinforcing the supporting force of the moving flange.

The reinforcing portion includes protruding ribs protruding from the outer surface of the upper pile and extending vertically, and a support portion formed on the protruding rib to support the engaging member.

Wherein the engaging member includes a bolt passing through a bolt insertion hole formed in the moving flange and the fixing flange respectively, and a nut screwed into the bolt, wherein the bolt insertion hole is formed in the moving flange, And at least one of the bolt insertion holes is elongated in the form of a long hole.

The height adjusting means includes a fixing flange provided on the upper pile, a moving flange installed on the strut so as to be movable up and down and located above the fixing flange, And an engaging member for engaging the engaging member.

The upper pile is provided with a base portion having a hollow structure formed at a lower portion of the lower pile and an elevating portion installed to be inserted into the base portion through an upper portion of the base portion, A coupling member for coupling the first fixing flange and the second fixing flange in tight contact with each other in a vertical direction, and a second fixing flange provided at a lower portion of the supporting column, And a stopper coupled to an outer surface of the elevating portion and hooked to an upper end of the base portion.

Wherein the upper file comprises a base portion in which the lower file is formed at a lower portion thereof and a lift portion having a hollow structure in which the base portion is inserted into the base portion and in which a plurality of cutting slits are elongated vertically, A first fixing flange provided on the upper portion of the elevating portion, a second fixing flange provided on the lower portion of the support, an engaging member for tightly coupling the first fixing flange and the second fixing flange in the vertical direction, And a tightening member urging the inner surface of the lifting portion inward against the outer surface of the base portion.

As described above, according to the present invention, a spiral-shaped pile is provided on a base portion fixed to the ground, thereby firmly fixing the pile to the ground, and quick and easy installation work.

In addition, since the height of the support supporting the solar power generation module can be adjusted, it is very easy to construct the solar power generation module.

1 is a perspective view showing a supporting device of a height-adjustable solar cell module according to an embodiment of the present invention,
Fig. 2 is a side view of Fig. 1,
Fig. 3 is an exploded perspective view showing a main part of the support device applied to Fig. 1,
FIG. 4 is an exploded perspective view illustrating a main part of a supporting device of a height-adjustable solar cell module according to another embodiment of the present invention,
5 to 8 are exploded perspective views showing a main part of a supporting device of a height-adjustable solar cell module according to another embodiment of the present invention.

DESCRIPTION OF THE PREFERRED EMBODIMENTS Hereinafter, a supporting apparatus for a height-adjustable solar cell module according to a preferred embodiment of the present invention will be described with reference to the accompanying drawings.

1 to 3, the supporting device 10 of the present invention supports the solar cell module 1 so as to be positioned at a certain height from the ground.

The photovoltaic power generation module 1 is a module in which a plurality of solar cells are arrayed in a lattice form and is mounted on the module support frame 2. Therefore, the module supporting frame 2 is supported by the supporting device 10 of the present invention, and the solar module 1 is installed on the upper part of the module supporting frame 2.

The module support frame 2 is composed of a horizontal frame 3 and a vertical frame 5 provided at regular intervals on the upper side of the horizontal frame 3, for example. The horizontal frames (3) are mounted on upper portions of a plurality of supporting devices (10) provided at regular intervals in the transverse direction. Therefore, the lateral frames 3 can be provided only if the height of the supporting devices 10 installed in the lateral direction is the same. Here, the transverse direction means the longitudinal direction of the transverse frame 3. And the longitudinal direction means the longitudinal direction of the vertical frame 5.

The vertical frame 5 can be welded to the horizontal frame 3 and fixed. Alternatively, the vertical frame 5 may be fixed to the upper portion of the horizontal frame 3 using a conventional fastening tool.

The supporting apparatus 10 of the present invention shown in the drawing mainly comprises a base 20, a support 30, and a height adjusting means 40.

The foundation 20 is fixed to the ground to support the pillars 30. The base portion 20 is composed of a lower pile 21 and an upper pile 25 formed on the upper portion of the lower pile 21.

The lower pile 21 is formed in a spiral shape so as to be embedded in the ground. The lower pile 21 can be penetrated into the ground by rotating the base 20 and applying pressure to the upper end of the base 20. Because the lower pile 21 has a spiral shape, the lower pile 21 can be firmly fixed to the ground because the pulling resistance is maximized. Further, since the base portion 20 can be directly fixed to the ground without fixing a separate pit, the installation work is quick and easy.

The upper file 25 is formed to have a constant length on the upper portion of the lower pile 21. In the illustrated example, the upper pile 25 is made of hollow hollow tubular structure. The upper pile 25 may be integrally formed with the lower pile 21 or may be separately manufactured and then joined by welding or the like.

The foundation part 20 is inserted into the ground while rotating and press-fitting using a conventional construction machine. When the foundation 20 is installed, the lower pile 21 is buried in the ground, and the upper pile 25 is partially exposed to the ground.

The pillars 30 are connected to the upper pile 25 and formed at a constant height. In the present invention, the strut 30 is engaged with the upper pile 25 by a height adjusting means 40 to be described later. In the illustrated example, the column 30 uses a square steel pipe, but it is needless to say that a circular pipe can be used. A horizontal frame (3) is provided on the upper part of the support (30). The transverse frame 3 can be welded and fixed to the upper end of the column 30. Alternatively, the horizontal frame 3 may be fixed to the upper end of the strut 30 by using various fastening tools.

The height adjusting means 40 serves to adjust the height of the post 30. Therefore, even if the height of the upper pile 25 exposed to the ground is different from each other, the height of the pillar 30 can be easily adjusted by the height adjusting means 40.

In the present invention, the height adjusting means is configured to move the flange of at least one of the support (30) and the upper pile (25) respectively up and down. In the embodiment of FIGS. 1 to 3, the flange provided on the upper file can be moved up and down. In the embodiment of FIG. 6, the flange provided on the support can be moved up and down.

1 to 3 includes a moving flange 50 provided on the upper pile 25, a fixing flange 70 provided on the pillar 30, a moving flange 70 fixed to the supporting flange 70, (79) for vertically connecting the engaging members (78) and (79).

The moving flange includes a first unit 50, a second unit 60, and fixing members 80 and 85 so as to move the moving flange installed in the upper file 25 up and down. This moving flange can move the upper and lower parts of the upper pile 25 in a state where the first unit 50 and the second unit 60 are separated. The first unit unit 50 and the second unit unit 60 are fixed to a specific height of the upper pile 25 by the fixing members 80 and 85.

The first unit portion (50) is disposed in one side direction of the upper file (25). The second unit 60 is disposed in the other side of the upper file 25 with the upper file 25 therebetween.

The first unit part 50 includes a first tight contact part 51 formed in an arc shape so as to surround one side of the outer side surface of the upper pile 25 and a second fastening part 51 formed at both ends of the first tight contact part 51 And a first plate upper part 57 formed on the upper part of the first close contact part 51 in a flat plate shape.

The first fastening portion 53 is formed with a through hole 55 into which a fixing member is inserted. A plurality of bolt insertion holes 59 into which the coupling members are inserted are formed in the first plate upper portion 57.

The second unit portion 60 includes a second contact portion 61 formed in an arcuate shape so as to surround the other side of the outer surface of the upper portion 25 and facing the first contact portion 51, A second fastening portion 63 formed at both ends of the second contact portion 61 and a second plate portion 67 formed at the upper portion of the second fastening portion 61 in a flat plate shape.

The second fastening portion 63 is formed with a through-hole 65 into which a fixing member is inserted. A plurality of bolt insertion holes 69 into which the engaging members are inserted are formed in the second plate upper portion 67.

The fixing member fixes the first unit (50) and the second unit (60) to the upper file (25). As an example of the fixing member, a bolt 80 and a nut 85 may be used. In this case, the bolt 80 is passed through the second fastening part 63 and the through holes 65 and 55 formed in the first fastening part 53 in order and then screwed to the nut 85, (53) and the second fastening portion (63). When the nut 85 is tightened, the first and second tight contact portions 51 and 61 are strongly pressed against the outer surface of the upper pile 25, (25).

The fixing flange 70 provided on the support 30 is positioned above the moving flange and is engaged with the coupling member so as to be closely contacted with each other in the vertical direction.

The fixing flange (70) is installed at the lower part of the column (30). The fixing flange 70 can be joined to the strut 30 by welding. A plurality of bolt insertion holes 75 are formed in the fixing flange 70 so that the bolts 78 can be inserted.

For example, the bolt 78 and the nut 79 may be used as the engaging member for tightly coupling the moving flange and the fixing flange in the vertical direction. The bolts 78 pass through the bolt insertion holes 75 formed in the fixing flange 70 and the bolt insertion holes 59 and 69 formed in the moving flange in order and then screwed to the nuts 79. [

The inner space of the strut 30 is formed to be larger than the outer diameter of the upper file 25 so that the upper file 25 can be inserted into the strut of the strut 30. [

As described above, the height of the strut 30 can be easily adjusted by adjusting the height of the moving flange provided on the upper pile 25. Even if the heights of the base portions 20 are different from each other, the heights of the movable flanges can be adjusted by adjusting the heights of the movable flanges coupled to the upper pile 25. Therefore, when the fixed flange provided on each support is coupled with the movable flange, the height of all the supports can be matched to the same height.

Thus, even if the heights of the bases are different from each other, the height of the heights can be adjusted by adjusting only the height of the movable flange while leaving the base as it is.

As shown in FIG. 4, the bolt insertion holes 58 and 68 formed in the moving flange may be elongated in the form of a long hole. This is to adjust the position by allowing the position of the fixing flange 70, which is coupled to the upper portion of the moving flanges 50 (60), to move finely in the front, rear, left and right directions.

Also, unlike the illustrated embodiment, only the bolt insertion holes 76 of the fixing flange can be elongated in a long hole shape. Further, both the fixing flange and the bolt insertion hole of the moving flange can be elongated in the form of a long hole.

4 are the same as those in FIG. 3, and thus a detailed description thereof will be omitted.

According to another embodiment of the present invention, the height adjusting means further includes a reinforcing portion for reinforcing the supporting force of the moving flange. So that the moving flange can withstand even if the load applied through the support is increased.

 Referring to FIG. 5, the reinforcing portion includes a protruding rib 27 protruding from the upper pile 25, and a support portion formed on the protruding rib 27.

The protruding ribs 27 are formed on the outer surface of the upper pile 25 so as to be long in the vertical direction. Two protruding ribs 27 are provided at intervals of 180 degrees.

The reinforcing portion is composed of a plurality of engaging grooves 29 formed in the protruding ribs 27. The upper and lower widths of the respective latching grooves 29 are formed to be larger than the diameter of the bolt 80.

The configuration of the moving flange applied to Fig. 5 is the same as that of Fig. That is, the moving flange includes the first unit unit 50, the second unit unit 60, and the bolt 80 and the nut 85 as fixing members.

When the first unit unit 50 and the second unit unit 60 are coupled to the upper file 25, the first fastening part 53 and the second fastening part 63 are respectively provided on the side surfaces of the projecting ribs 27 . The bolt 80 passing through the through hole 65 of the second fastening part 63 and the through hole 55 of the first fastening part 53 is inserted into the engagement groove 29 formed in the projecting rib 27 It passes through either one. Therefore, when the nut 85 is tightened, the first tight contact portion 51 and the second tight contact portion 61 are strongly pressed against the outer side surface of the upper pile 25 to provide a supporting force and the bolt 80 is engaged with the engagement groove 29, And is supported by the protruding ribs 27. Therefore, the moving flange can greatly increase the supporting force of the support.

5 are the same as those in FIG. 3, and thus a detailed description thereof will be omitted.

6 shows a height adjusting means according to another embodiment of the present invention.

6, the illustrated height adjustment means is similar to the above-described embodiments in that the moving flanges 100, 110 are installed in the stanchion 30 and the fixing flange 90 is installed in the upper pile 25 different.

The illustrated height adjusting means includes a fixing flange 90 provided on the upper pile 25 and movable flanges 100 and 110 installed on the pillar 30 so as to be movable up and down and positioned above the fixed flange 90, And engaging members 120 and 125 for tightly coupling the fixing flange and the moving flange in the vertical direction.

The fixing flange 90 is installed on the upper portion of the upper pile 25. The fixing flange 90 is fixed to the upper pile 25 by welding or the like. A plurality of bolt insertion holes 95 into which the bolts 120 are inserted are formed in the fixing flange 90.

The moving flange is installed in the support (30). The illustrated post is formed with a circular tube structure with an empty interior.

The moving flange is composed of a first unit unit 100, a second unit unit 110, and fixing members 127 and 129. Such a moving flange can be moved up and down in a state where the first unit unit 100 and the second unit unit 110 are separated from each other. The first unit unit 100 and the second unit unit 110 are fixed to a specific height of the strut 30 by the fixing members 127 and 129.

The first unit unit 100 is disposed in one lateral direction of the support 30. And the second unit unit 110 is disposed in the other lateral direction of the support 30 with the support 30 interposed therebetween.

The first unit part 100 includes a first tight contact part 101 formed in an arc shape so as to surround one side of the outer surface of the strut 30 and a second fastener part 101 formed at both ends of the first tight contact part 101 And a first plate portion 107 formed on the upper portion of the first contact portion 101 and coupled to one side of the fixing flange 90.

The first fastening portion 103 is formed with a through hole 105 into which the bolt 127 of the fastening member is inserted. A plurality of bolt insertion holes 109 into which the bolts 120 of the coupling member are inserted are formed in the first plate upper portion 107.

The second unit unit 110 includes a second contact unit 111 formed in an arcuate shape so as to surround the other side of the outer surface of the support 30 and facing the first contact unit 101, And a second plate portion 117 formed on the upper portion of the second contact portion 111 in a flat plate shape.

The second fastening part 113 is formed with a through hole 115 into which the bolt 127 of the fastening member is inserted. A plurality of bolt insertion holes 119 into which the bolts 120 of the coupling member are inserted are formed in the second plate portion 117.

The fixing member fixes the first unit unit 100 and the second unit unit 110 to each other and to the strut 30. As an example of the fixing member, a bolt 127 and a nut 129 may be used. In this case, the bolt 127 is passed through the second fastening portion 113 and the through holes 115 and 105 formed in the first fastening portion 103 in order and then screwed to the nut 129, (113) and the second fastening portion (103). When the nut 129 is tightened, the first tight contact portion 101 and the second tight contact portion 111 are strongly pressed against the outer surface of the strut 30 such that the first and second unit parts 100, ).

The fixing flange 90 provided on the upper pile 25 is positioned above the moving flange and is tightly coupled in the vertical direction by the engaging member.

A plurality of bolt insertion holes 95 are formed in the fixing flange 90 so that the bolts 120 can be inserted.

The bolt 120 and the nut 125 may be used as an engaging member for tightly coupling the moving flange and the fixing flange in the vertical direction. The bolts 120 pass through the bolt insertion holes 109 and 119 formed in the moving flange 70 and the bolt insertion holes 95 formed in the fixing flange in order and then screwed to the nut 125.

6, the inner diameter of the upper portion 25 is made larger than the outer diameter of the strut 30 so that the lower portion of the strut 30 can be inserted into the upper portion 25 of the upper portion.

4, the bolt insertion holes 109 and 119 formed in the moving flanges 100 and 110 and the bolt insertion holes 75 formed in the fixing flange 90 may be elongated in a long hole shape . Of course, only the bolt insertion holes 109 (119) of the movable flange may be elongated in the form of a long hole, or only the bolt insertion holes 75 of the fixing flange may be elongated in the form of a long hole.

7 shows a height adjusting means according to another embodiment of the present invention.

Referring to Fig. 7, the support 30 is the same as the embodiment of Fig. 3, but the bases are configured differently.

The illustrated base portion comprises a lower file 21 and an upper file 120 formed on the upper portion of the lower file 21. The lower pile 21 is formed in a spiral shape so as to be embedded in the ground. This lower file is the same as the embodiment of Fig.

The upper portion 120 is provided with a base portion 121 and a lift portion 125.

The base portion 121 is formed on the upper portion of the lower pile 21. The base portion 121 has a hollow structure in the form of a circular tube.

The elevating part 125 is coupled to the base part 121 and has a hollow structure in the form of a circular tube. The elevating portion 125 is formed to have an outer diameter smaller than the inner diameter of the base portion 121 so that the elevating portion 125 can be inserted into the base portion 121 through the upper portion of the base portion 121.

The height adjusting means includes a first fixing flange 130 installed on the upper portion of the elevating portion 125, a second fixing flange 170 installed on the lower portion of the support 30, a first fixing flange 130, An engaging member 178 for engaging the fixing flange 170 tightly in the up and down direction and stoppers 140 and 150 for engaging with the elevating portion.

The first fixing flange 130 is coupled to and fixed to the upper portion of the lift portion 125 by welding or the like and the second fixing flange 170 is coupled to the lower portion of the support 30 by welding or the like . The first fixing flange 130 and the second fixing flange 170 are formed with a plurality of bolt insertion holes 135 and 175 through which the bolts 178 of the coupling member pass.

As one example of the coupling member, a bolt 178 and a nut 179 are used.

The stopper is coupled to the outer surface of the elevating portion so as to be detachably attached to the elevating portion. The stopper includes a first holder 140, a second holder 150, and a fixing member. The first holder 140 includes a first tightening portion 141 formed to be curved and a first fastening portion 143 formed at both ends of the first tightening portion 141. A through hole 145 is formed in the first fastening portion 143.

The second holder 150 has a second tight contact portion 151 formed to be bent in an arc and facing the first tight contact portion 141 and a second fastening portion 153 formed at both ends of the second tight contact portion 151, . A through hole 155 is formed in the second fastening portion.

As one example of the fixing member, a bolt 160 and a nut 165 are used.

When the elevating portion is inserted into the base portion in a state where the stopper is engaged, movement is possible only until the lower portion of the stopper is caught by the upper end of the base portion, so that the height of the support can be adjusted by adjusting the engagement position of the stopper.

8 shows a height adjusting means according to another embodiment of the present invention.

Referring to FIG. 8, the base portion is composed of a lower file 21 and an upper file formed on the upper portion of the lower file 21. The lower pile 21 is formed in a spiral shape so as to be embedded in the ground. This lower file is the same as the embodiment of Fig.

The upper portion is provided with a base portion 181 and a lift portion 190.

The base portion 181 is formed on the upper portion of the lower pile 21. The base portion 181 has a hollow structure in the form of a circular tube.

The elevating portion 190 is coupled to the base portion 181 and has a hollow structure in the form of a circular tube. The inner diameter of the base portion 181 is larger than the outer diameter of the base portion 181 so that the base portion 181 can be inserted into the elevating portion 190. A plurality of cutting slits 195 are vertically formed in the elevating part 190 so that the inner diameter can be expanded or contracted.

The height adjusting means includes a first fixing flange 200 provided on the upper portion of the elevating portion 190, a second fixing flange 170 provided on the lower portion of the support 30, An engaging member 178 for engaging the flange in a vertically tight fit state and a tightening member 210 for engaging the outer surface of the elevating portion 190.

The first fixing flange 200 is fixedly coupled to the upper portion of the elevating portion by welding or the like. The first fixing flange 200 is formed with a plurality of bolt insertion holes 205 through which the bolts 178 of the coupling member pass. The post 30 and the second fixing flange and the coupling member are the same as the embodiment of Fig.

As an example of the tightening member 210, a tight fitting portion 211 formed in a circular shape so as to surround the outer side surface of the elevating portion, a first fastening portion 215 and a second fastening portion 218 respectively formed at both ends of the tight fitting portion, And a fixing member for coupling the second fastening portions to each other.

Through holes 217 are formed in the first fastening portion 215 and the second fastening portion 218, respectively. The bolts 220 and the nuts 225 may be used as the fixing members.

When the bolt 220 is passed through the through hole 217 of the first and second fastening portions and then the nut 225 is tightened, the tight fitting portion 211 presses the lift portion 190 from the outside to the inside direction, Is firmly brought into close contact with the outer surface of the base portion 181.

The elevation of the elevator 190 can be adjusted by adjusting the vertical position of the elevator 190 while the base 181 is inserted into the elevator 190.

While the present invention has been particularly shown and described with reference to exemplary embodiments thereof, it is to be clearly understood that the same is by way of illustration and example only and is not to be taken by way of limitation. Accordingly, the true scope of protection of the present invention should be determined only by the appended claims.

1: Solar module 2: Module support frame
10: Support device 20: Base
21: lower file 25: upper file
30: column 40: height adjusting means
50: first unit unit 60: second unit unit
70: Fixed flange

Claims (11)

A spiral bottom file fixed to the ground and an upper file formed above the lower file and exposed to the ground;
A strut supporting the module support frame coupled to the upper file to mount the solar module;
And a height adjusting means for coupling the upper file and the strut to each other to adjust the height of the strut. 2. The apparatus according to claim 1, wherein the height adjusting means is configured to move at least one flange of the upper file and the flange, Support device of power generation module. [3] The apparatus according to claim 2, wherein the height adjusting means comprises: a moving flange provided on the upper file so as to be movable up and down; a fixing flange provided on the support and positioned above the moving flange; And a joining member for joining the joining members in a vertical direction in close contact with each other. 4. The apparatus of claim 3, wherein the moving flange comprises: a first unit unit disposed in one side direction of the upper file; a second unit unit disposed in the other side direction of the upper file with the upper file interposed therebetween; And a fixing member for fixing the first unit and the second unit to each other by fixing the first unit and the second unit to the upper file. [6] The apparatus of claim 4, wherein the first unit comprises: a first tight contact portion formed in an arcuate shape so as to surround one side of an outer surface of the upper file; a first tightening portion formed at both ends of the first tight contact portion; And a first plate-shaped portion formed on the upper portion of the plate and engaged with one side of the fixing flange,
Wherein the second unit has a second contact portion formed in an arcuate shape so as to surround the other side of the outer surface of the upper file and facing the first contact portion and a second contact portion formed on both end portions of the second contact portion, And a second plate-shaped portion formed on the upper portion of the second tightly coupled portion and coupled to the other side of the fixing flange, wherein the second plate-shaped portion is coupled to the first fastening portion, Supporting device of the module. The apparatus of claim 3, wherein the height adjusting means further comprises a reinforcing portion for reinforcing a supporting force of the moving flange. [7] The apparatus as claimed in claim 6, wherein the reinforcing portion includes a protruding rib protruding from an outer surface of the upper pile and extending up and down, and a support portion formed on the protruding rib to support the engaging member. Supporting device for a photovoltaic module. [5] The apparatus of claim 3, wherein the engaging member comprises: a bolt passing through a bolt insertion hole formed in the moving flange and the fixing flange respectively, and a nut screwed into the bolt,
Wherein at least one of a bolt insertion hole formed in the moving flange and a bolt insertion hole formed in the fixing flange is elongated in a long hole shape. [3] The apparatus according to claim 2, wherein the height adjusting means comprises: a fixing flange provided on the upper pile; a moving flange provided so as to be movable up and down on the support and positioned above the fixing flange; And a joining member for joining the joining members in a vertical direction in close contact with each other. [2] The apparatus of claim 1, wherein the upper file comprises a base portion having a hollow structure formed at a lower portion thereof, and a lift portion installed to be inserted into the base portion through an upper portion of the base portion,
The height adjusting means includes a first fixing flange provided on the upper portion of the elevating portion, a second fixing flange provided on the lower portion of the support, and a coupling member for tightly coupling the first fixing flange and the second fixing flange in the vertical direction, And a stopper coupled to an outer surface of the elevating portion to be detachably attached to the elevating portion and hooked to an upper end of the base portion. [2] The apparatus according to claim 1, wherein the upper file comprises a base portion in which the lower file is formed at a lower portion thereof, and a lift portion having a hollow structure so that the base portion can be inserted therein,
The height adjusting means includes a first fixing flange provided on the upper portion of the elevating portion, a second fixing flange provided on the lower portion of the support, and a coupling member for tightly coupling the first fixing flange and the second fixing flange in the vertical direction, And a tightening member which urges the elevating portion inwardly from the outside to closely contact the inner surface of the elevating portion to the outer surface of the base portion.

Images