KR102434392B1 - Anchor Assembly Device for Solar Power Generating Unit - Google Patents

Abstract

The present invention relates to an anchor assembly apparatus of a solar power generation facility, comprising: a cross bar (30) crossing between anchor bolts (20); semicircle grip units (31) formed on both ends of the cross bar (30) and surrounding a male screw unit (21) of the anchor bolt (20); flanges respectively formed on both ends of the semicircle grip unit (31); stoppers (30) respectively adhering to an upper end and a lower end of the semicircle grip unit (31) and having a through hole (41) through which the male thread unit (21) passes; a bent unit (42) formed on an edge of the stopper and formed in a same direction as the cross bar (30) toward the flange (32); a locking groove (43) formed at a middle of the bent unit (40) and into which upper ends and lower ends of the cross bar (30) and the flange (32) are fitted; a locking piece (44) formed on the edge of the stopper and formed in an opposite direction to the bend unit (42); a rotation prevention notch (45) formed on the edge of the stopper and coming into contact with the locking piece (44); and a pressing nut coupled with the male screw unit (21) and pressing the stopper (40) and the semicircle grip unit (31). The present invention provides the anchor assembly apparatus of a solar power generation facility in which an interval between the anchor bolts can be conveniently changed.

Description

Anchor Assembly Device for Solar Power Generating Unit

The present invention relates to an anchor assembly apparatus for a photovoltaic power generation facility, and more particularly, to an anchor assembly apparatus for a photovoltaic power generation facility that can conveniently change the spacing between anchor bolts.

Solar power generation converts light energy from the sun into electrical energy. Compared to other power generation methods such as thermal power generation, hydroelectric power generation, and nuclear power generation, there is no environmental pollution such as air pollution, noise, and vibration, and maintenance and repair are easy. It has the advantage of being easy.

Photovoltaic power generation is generated using photovoltaic panels in which a number of solar cells are modularized. Since the power generation deviation varies greatly depending on the difference in the angle of incidence of the light incident on the photovoltaic panel, the angle of the photovoltaic panel according to the change in solar altitude is adjusted. If it is properly adjusted and installed, the power generation efficiency can be maintained optimally.

In such a photovoltaic power generation facility, the frame to which the photovoltaic panel is fixed is supported by a pillar, and the pillar is fixed to the ground or slab using anchor bolts and a concrete foundation. it becomes possible

To this end, the prior art disclosed in Korean Patent Registration No. 10-2184017 (announcement 2020.11.30.) uses a rectangular frame-shaped fixing hood to maintain the spacing of the anchor bolts, but if you want to change the horizontal and vertical spacing between the anchor bolts Since the nut must be completely loosened and replaced with a fixed hood having a different horizontal and vertical length, there is a problem of cumbersome work and time delay.

Domestic Registered Patent Publication No. 10-2184017 (Notice 2020.11.30.) Domestic Registered Patent Publication No. 10-2258911 (Announcement 2021.06.01.) Domestic Registered Patent Publication No. 10-2044818 (Announcement 2019.11.15.) Domestic Patent Publication No. 10-1108269 (Announcement 2012.01.31.)

The present invention has been made in order to solve the above problems, and an object of the present invention is to provide an anchor assembly apparatus for a photovoltaic power generation facility that can conveniently change the spacing between anchor bolts.

Anchor assembly apparatus of a photovoltaic power generation facility for achieving the object of the present invention, a parallel cross bar crossing between the anchor bolts; Semi-circular grip portions formed at both ends of the crossbar and enclosing the male threaded portion of the anchor bolt while forming concentric with each other; Parallel flanges formed at both ends of the semicircular grip portion, respectively; a stopper closely attached to the upper and lower ends of the semicircular grip portion, respectively, and having a through hole through which the male screw portion passes; a bent portion formed on the edge of the stopper and formed in the same direction toward the crossbar and the flange; a locking groove formed in the middle of the bent portion and into which the upper and lower ends of the crossbar and the flange are fitted; a locking piece formed on the edge of the stopper in which the locking groove is located, and formed in the opposite direction to the bent part; a rotation preventing notch formed on the edge of the stopper forming a right angle with the bent part, and meeting the catching piece; a pressing nut coupled to the male thread to press the stopper and the semi-circular grip portion; and the stopper is closely attached to the upper and lower ends of the semi-circular grip portion so that the upper and lower ends of the cross bar and the flange are fitted into the locking groove, and between the semi-circular grip portions located on the upper and lower sides A pair of positioned stoppers are inverted up and down and closely contacted to be orthogonal to each other so that the locking piece and the anti-rotation notch meet each other and are configured to be coupled.

The present invention is characterized in that it includes an anti-interference protrusion formed from one side of the pressing nut toward the stopper and having a length longer than the height of the engaging piece.

The locking groove according to the present invention may be configured in a trapezoidal shape in which the width increases toward the open entrance.

In the present invention as described above, since the crossbar 30 and the flange 32 are fitted into the engaging groove 43 formed in the stopper 40, the gap between the mating crossbars 30 can be prevented. there is an effect

Since the locking pieces 44 formed on the stoppers 40 orthogonal to each other are configured to fit into the anti-rotation notch 45, there is an effect that can firmly maintain a right angle between the crossbars 30.

The effect of preventing the fastening tool from interfering with the engaging piece 44 by the anti-interference protrusion 51 formed in the press nut 50 when turning the press nut 50 using a fastening tool such as a socket or a spanner there is

When the upper and lower ends of the crossbar 30 and the flange 32 are separated from the locking groove 43, since the crossbar 30 can be separated, the pressure nut 50 is not completely loosened from the male screw part 21. There is the convenience of being able to separate and exchange the

When replacing the crossbar 30 with a different length in order to change the spacing between the anchor bolts 20, it is not necessary to completely separate the pressure nut 50 from the male screw part 21, so the spacing of the anchor bolts 20 is changed. It has the effect of being able to do the work quickly.

Since it is configured to use one type of stopper 40 by inverting or perpendicular to it, there is an effect of reducing the mold cost required for molding the stopper 40 .

When the locking groove 43 is formed in a trapezoidal shape and the distance between the stoppers 40 positioned on the upper and lower sides is narrowed by the pressing nut 50, the distance between the crossbar 30 and the flange 32 is narrowed, The effect of improving the adhesion between the male screw part 21 and the semicircular grip part 31 can be expected.

1 is a perspective view according to the present invention;
2 is an exploded perspective view according to the present invention;
Figure 3 is an exploded perspective view of the bottom side of Figure 2
4 is a perspective view showing a stopper according to the present invention;
5 is a bottom side perspective view of FIG.
6 is an exploded perspective view showing a crossbar according to the present invention;
7 is a plan view according to the present invention;
8 is an enlarged cross-sectional view taken along line A-A' of FIG.
9 is an exploded cross-sectional view of FIG.
10 is a front view according to the present invention;
11 is a cross-sectional view showing the present invention is embedded in a concrete foundation
12 is a view showing another embodiment of the locking groove according to the present invention;

Hereinafter, an embodiment according to the present invention will be described in detail with reference to the accompanying drawings 1 to 12.

The present invention is a parallel crossbar (30) crossing between the anchor bolts (20); Semicircular grip parts 31 formed at both ends of the crossbar 30 and enclosing the male threaded parts 21 of the anchor bolt 20 while forming concentric with each other; It includes parallel flanges 32 respectively formed at both ends of the semicircular grip portion 31 .

As shown in Figure 11, the anchor bolt 20 is for fixing the lower end of the pillar (not shown) for supporting the solar panel (not shown) to the concrete foundation 22, using a formwork (not shown). Thus, when forming the concrete foundation (22), the anchor bolts (20) are fixed inside the formwork and installed on the concrete foundation (22).

The cross bar 30, the semi-circular grip part 31, and the flange 32 can be integrally formed using a metal flat bar having a constant thickness and width as shown in FIG. 6, and in particular, the semi-circular grip part 31 is an anchor bolt. It can be formed in an arc shape having an inner diameter that matches the outer diameter of the male threaded portion 21 of (20).

The crossbar 30 is, for example, installed so as to cross the anchor bolts 20 located on the left and right in the left and right directions as shown in FIGS. 1 and 10, and the anchor bolts 20 located in the front and rear directions in the front and rear directions. Can be installed across.

If the crossbar 30 has different lengths, the distance between the anchor bolts 20 can be changed by exchanging the crossbar 30, and the two semicircular grip parts 31 per each anchor bolt 20 are vertically aligned. They are installed at a distance, and the crossbars 30 are positioned at right angles to each other.

The present invention relates to a stopper 40 which is closely attached to the upper and lower ends of the semicircular grip part 31, respectively, and has a through hole 41 through which the male screw part 21 passes; a bent portion 42 formed on the edge of the stopper 40 and formed in the same direction toward the crossbar 30 and the flange 32; It is formed in the middle of the bent portion 42 and includes a locking groove 43 into which the upper and lower ends of the crossbar 30 and the flange 32 are fitted.

The stopper 40 may be formed using, for example, a metal plate having a constant thickness as shown in FIGS. 4 and 5 .

The stopper 40 has a U-shaped cross-section by the bending portion 42, and the locking groove 43 is, for example, cut in the middle of the bent portion 42 in a eleventh shape, and then cut the cut portion into the bending portion 42 ) may be bent in a direction opposite to the bending direction to form a locking piece 44, and at this time, a locking groove 43 is formed in the remaining portion after the locking piece 44 is bent.

The width of the locking groove 43 may be formed to match the outer width of the crossbar 30 and the flange 32 that are paired as shown in FIG. 10 .

The present invention is formed on the edge of the stopper 40 in which the locking groove 43 is located, and the locking piece 44 formed in the opposite direction to the bent portion 42; a rotation preventing notch 45 formed on the edge of the stopper 40 forming a right angle with the bent portion 42, and meeting the engaging piece 44; It includes a pressing nut 50 coupled to the male screw portion 21 to press the stopper 40 and the semi-circular grip portion 31 .

The width of the anti-rotation notch 45 is formed to match the width of the locking piece 44, and a screw hole penetrating in the vertical direction is formed in the center of the pressing nut 50, and the outer surface of the pressing nut 50 is It can be formed in a hexagonal face.

In the present invention, the stopper 40 is closely attached to the upper and lower ends of the semicircular grip portion 31 so that the upper and lower ends of the crossbar 30 and the flange 32 are fitted into the engaging groove 43, and the semicircular grip portion 31 located at the upper and lower sides A pair of stoppers 40 positioned therebetween are inverted up and down and in close contact with each other so as to be perpendicular to each other so that the engaging piece 44 and the anti-rotation notch 45 meet each other and are coupled.

The present invention includes an anti-interference protrusion 51 formed from one side of the pressing nut 50 toward the stopper 40 and having a length longer than the height of the engaging piece 44 .

As shown in FIGS. 8 and 10, the anti-interference protrusion 51 combines a fastening tool such as a hexagon socket or a spanner to the pressing nut 50 to turn the pressing nut 50, the body diameter tool is the engaging piece 44 to prevent interference with

In the present invention, as shown in FIG. 12, the locking groove 43 can be formed in a trapezoidal shape that becomes wider as it goes toward the open inlet, and in this case, between the stoppers 40 positioned at the top and bottom is a pressing nut ( 50), the gap between the crossbar 30 and the flange 32 is narrowed, and the semicircular grip part 31 is strongly in close contact with the thread of the male thread part 21 .

Hereinafter, the operation according to the present invention will be described in detail with reference to the accompanying drawings 1 to 12.

The stopper 40 is inserted into the male screw portion 21 so that the male screw portion 21 of the anchor bolt 20 passes through the through hole 41 formed in the stopper 40 , and the pressure nut 50 is inserted into the male screw portion 21 . ) are combined.

At this time, the semi-circular grip part 31 is inserted between the upper and lower stoppers 40 positioned in the direction opposite to each other, and the bent part 42 is in close contact with the male threaded part 21, and then the upper and lower ends of the crossbar 30 and the flange 32 are pressed. Insert into the locking groove (43).

The bending part 42 combines the locking piece 44 of the upper and lower stoppers 40 facing in opposite directions and the anti-rotation notch 45, and the pressure nut 50 coupled to the male screw part 21 is connected to each other. When it is tightened by turning it in the approaching direction, the crossbar 30 is assembled to the anchor bolt 20 .

At this time, the upper and lower ends of the crossbar 30 and the flange 32 are fitted in the locking groove 43 formed in the stopper 40, and the locking piece 44 is fitted in the anti-rotation notch 45, so a right angle between the crossbars 30 It stays solid.

20: anchor bolt 21: male thread part
22: concrete foundation 30: crossbar
31: semicircular grip part 32: flange
40: stopper 41: through hole
42: bent part 43: locking groove
44: locking piece 45: anti-rotation notch
50: press nut 51: anti-interference protrusion

Claims (3)

A parallel crossbar (30) crossing between the anchor bolts (20);
a semicircular grip portion 31 formed at both ends of the cross bar 30 and enclosing the male screw portion 21 of the anchor bolt 20 while forming concentric with each other;
parallel flanges 32 respectively formed at both ends of the semicircular grip portion 31;
a stopper (40) closely attached to the upper and lower ends of the semicircular grip part (31), respectively, and having a through hole (41) through which the male screw part (21) passes;
a bent portion (42) formed on the edge of the stopper (40) and formed in the same direction toward the crossbar (30) and the flange (32);
a locking groove (43) formed in the middle of the bent part (42) and into which upper and lower ends of the cross bar (30) and the flange (32) are fitted;
a locking piece 44 formed at an edge of the stopper 40 in which the locking groove 43 is located, and formed in a direction opposite to that of the bent portion 42;
a rotation preventing notch 45 formed on the edge of the stopper 40 forming a right angle with the bent portion 42 and meeting the engaging piece 44;
and a pressing nut 50 coupled to the male screw part 21 to press the stopper 40 and the semicircular grip part 31;
The stopper 40 is closely attached to the upper and lower ends of the semicircular grip part 31 so that the upper and lower ends of the cross bar 30 and the flange 32 are fitted into the locking groove 43,
The pair of stoppers 40 positioned between the semicircular grip parts 31 positioned on the upper and lower sides are inverted up and down and in close contact with each other so as to be orthogonal to each other so that the locking piece 44 and the anti-rotation notch 45 meet and combine Anchor assembly device of a solar power generation facility, characterized in that it is configured so as to be possible. The method of claim 1,
an interference preventing protrusion 51 formed from one side of the pressing nut 50 toward the stopper 40 and having a length longer than the height of the engaging piece 44;
Anchor assembly device of the solar power generation facility, characterized in that it comprises a. The method of claim 1,
The locking groove 43 is an anchor assembly device of a photovoltaic power generation facility, characterized in that it has a trapezoidal shape that becomes wider as it goes toward the open entrance.

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