KR102659208B1 - Solar panel support structure - Google Patents

Abstract

A solar panel support structure is disclosed. The disclosed solar panel support structure is arranged to be inclined with respect to the ground and includes a slab panel having a panel protrusion protruding from the surface, a solar panel located on the slab panel, and a frame fixed on the panel protrusion and supporting the solar panel. It includes a fastening part that secures the part and the frame part to the slab panel, and the fastening part includes a pop nut disposed at the bottom of the slab panel, a fastening bolt whose one end is connected to the pop nut and disposed through the slab panel and the frame portion, and the other end of the fastening bolt. It includes a fixing nut that is placed in and secures the slab panel and frame part.

Description

Solar panel support structure {SOLAR PANEL SUPPORT STRUCTURE}

The present disclosure relates to a solar panel support structure with improved structural stability and user installation convenience.

Worldwide, eco-friendly energy such as solar energy is being used for net zero and carbon reduction, and solar power generation is being used to generate eco-friendly energy.

Recently, solar panels have been installed on the roofs of factories, facilities, and buildings to obtain eco-friendly energy through continuous exposure to sunlight.

The roofs of factories and facilities use slab panels for user convenience.

Accordingly, there is an increasing demand from users for a solar panel support structure that stably fixes solar panels on the roof and increases installation convenience for users.

Meanwhile, an anchor-type support structure was used to support solar panels, but the anchor-type structure had poor structural stability and durability, and had problems such as rotating on its own, making it unable to stably support the solar panel's own weight.

The purpose of the present disclosure is to provide a solar panel support structure with improved structural stability and user installation convenience.

The present disclosure for achieving the above object includes a slab panel disposed at an angle to the ground and having a panel protrusion protruding from the surface, a solar panel located on the slab panel, fixed on the panel protrusion, and a solar panel. It includes a supporting frame part and a fastening part for fixing the frame part to the slab panel, and the fastening part includes a pop nut disposed at the bottom of the slab panel, a fastening bolt whose end is connected to the pop nut and disposed through the slab panel and the frame portion, and a fastener. It is possible to provide a solar panel support structure including a fixing nut disposed at the other end of the bolt to secure the slab panel and the frame portion.

The pop nut includes a cylindrical body with a connector formed therein, an interference portion disposed at one end of the body so as to interfere with the bottom of the slab panel and protruding in the outer circumferential direction, and one end of the fastening bolt to be coupled to the pop nut. It may include a first screw thread formed on the inner peripheral surface.

The slab panel is formed to penetrate a part of the slab panel and is located on the lower surface of the slab panel and a fastener with fastening bolts disposed therein, and is connected to the fastener and includes an arrangement hole through which the body of the pop nut passes. And, the fastener may have a first diameter and the placement tool may have a second diameter that is smaller than the first diameter.

The frame part includes a first support part arranged to surround the panel protrusion and fixed on the panel protrusion by the fastening part, a reinforcement part disposed at a predetermined interval on the first support part, and rotatable with the reinforcement part. a second support part arranged to be rotatable, a third support part rotatably connected to the second support part and supporting the solar panel, and a third support part disposed between the second support part and the third support part and the second support part and the third support part. It may include a fixed support part that connects and secures.

The pop nut is formed integrally with the body and includes a guide portion located on an upper part of the interference portion and a cover portion disposed at one end of the body to cover one end of the body, and the body has a first strength. It may include a first region that is pressed and contracted to spread adjacent to the interference portion, and a second region that has a second strength greater than the first strength, is located below the first region, and is coupled to the cover portion. .

The cover part includes an extension part extending to surround one end of the outer peripheral surface of the body and a sensor part disposed on the cover part so as to face the connector and measuring a pressing force transmitted from the fastening bolt, and the extension part includes the When the first region is contracted, it includes a fixing part protruding to be inserted into the first region, and the fastening bolt includes a second screw thread disposed on an outer peripheral surface of one end and coupled to the first screw thread of the pop nut, The diameter may gradually increase as the distance from the second screw thread increases.

It further includes a fastening spring disposed between one end of the fastening bolt and the sensor part to transmit the pressing force applied by the fastening bolt to the sensor part, and the guide part is disposed at a preset price on the inner peripheral surface of the guide part. It includes a pressing member that pressurizes the fastening bolt as the fastening bolt is inserted in the downward direction, the pressing member includes a sensing unit that contacts the fastening bolt to rotate the pressing member, and is arranged to face the sensing unit. It includes a pressing part having a contact part for fixing the fastening bolt, and an elastic part disposed inside the guide part to press the sensing part in a first direction, wherein the pressing member contacts the outer peripheral surface of the fastening bolt as the fastening bolt is inserted. and rotates in a second direction opposite to the first direction, the contact portion of the pressing portion contacts the fastening bolt to continuously pressurize the fastening bolt, and the sensor portion presses and contracts the fastening spring as the fastening bolt is coupled. The transmitted pressing force is measured and transmitted to the processor, and the processor compares the pressing pressure measured by the sensor unit with a preset pressing force and notifies the user when the measured pressing force exceeds the preset pressing force.

Figure 1 is a photograph showing a solar panel support structure according to an embodiment of the present disclosure.
Figure 2 is a side view showing a solar panel support structure according to an embodiment of the present disclosure.
Figure 3 is a cross-sectional view taken along AA in Figure 2.
Figure 4 is a cross-sectional view showing a through hole according to an embodiment of the present disclosure.
Figure 5 is a photograph showing a user forming a through hole on a slab panel according to an embodiment of the present disclosure.
Figure 6 is a cross-sectional view showing the fastening part of the slab panel and the first support part according to an embodiment of the present disclosure.
Figure 7 is a photograph showing a state in which the first support part is fixed through a fastening part on the panel protrusion of a slab panel according to an embodiment of the present disclosure.
Figure 8 is a perspective view showing a pop nut according to an embodiment of the present disclosure.
Figure 9 is a cross-sectional view showing a pop nut according to another embodiment of the present disclosure.
Figure 10 is a cross-sectional view showing a pop nut and a fastening bolt combined according to another embodiment of the present disclosure.

In order to fully understand the configuration and effects of the present disclosure, preferred embodiments of the present disclosure will be described with reference to the attached drawings. However, the present disclosure is not limited to the embodiments disclosed below, and may be implemented in various forms and various changes may be made. However, the description of the present embodiments is provided to ensure that the present disclosure is complete and to fully inform those skilled in the art of the present disclosure of the scope of the invention. In the attached drawings, the components are enlarged in size for convenience of explanation, and the proportions of each component may be exaggerated or reduced.

When a component is said to be “on” or “adjacent to” another component, it should be understood that it may be in direct contact with or connected to the other component, but that another component may exist in between. something to do. On the other hand, when a component is described as being “right on” or “in direct contact” with another component, it can be understood that there is no other component in the middle. Other expressions that describe relationships between components, such as “between” and “directly between” can be interpreted similarly.

Terms such as first, second, etc. may be used to describe various components, but the components should not be limited by the terms. The above terms may be used only for the purpose of distinguishing one component from another. For example, a first component may be referred to as a second component, and similarly, the second component may be referred to as a first component without departing from the scope of the present disclosure.

Singular expressions include plural expressions unless the context clearly dictates otherwise. Terms such as “comprises” or “has” are intended to designate the presence of features, numbers, steps, operations, components, parts, or combinations thereof described in the specification, including one or more other features or numbers, It can be interpreted that steps, operations, components, parts, or combinations of these can be added.

Unless otherwise defined, terms used in the embodiments of the present disclosure may be interpreted as meanings commonly known to those skilled in the art.

Hereinafter, with reference to FIGS. 1 to 8, a solar panel support structure 1 according to an embodiment of the present disclosure will be described.

FIG. 1 is a photograph showing a solar panel support structure 1 according to an embodiment of the present disclosure, FIG. 2 is a side view showing the solar panel support structure 1 according to an embodiment of the present disclosure, and FIG. 3 is a cross-sectional view taken along line A-A of FIG. 2, FIG. 4 is a cross-sectional view showing a penetration hole according to an embodiment of the present disclosure, and FIG. 5 is a cross-sectional view showing a user penetrating on the slab panel 30 according to an embodiment of the present disclosure. It is a photograph showing the formation of a sphere, and Figure 6 is a cross-sectional view showing the fastening part 40 fastening the slab panel 30 and the first support part 11 according to an embodiment of the present disclosure, and Figure 7 is a A photograph showing a state in which the first support part 11 is fixed through the fastening part 40 on the panel protrusion 31 of the slab panel 30 according to an embodiment of the present disclosure, and Figure 8 is an embodiment of the present disclosure. This is a perspective view showing the pop nut (41) according to .

The solar panel support structure 1 is a device that secures the solar panel 20 to the roof composed of the slab panel 30.

Specifically, the solar panel support structure 1 includes a slab panel 30 arranged to be inclined with respect to the ground and having a panel protrusion 31 protruding from the surface, and a solar panel located on the slab panel 30. (20), which is fixed on the panel protrusion 31 and includes a frame portion 10 supporting the solar panel 20 and a fastening portion 40 that secures the frame portion 10 to the slab panel 30. can do.

The slab panel 30 can form the roof of various buildings, including factories. The slab panel 30 may include a plurality of panel protrusions 31 arranged at preset intervals in the same direction.

The panel protrusion 31 may be formed to protrude from the upper surface of the slab panel 30. When fluid, including rain or snow, falls on the slab panel 30, the panel protrusion 31 may form a path through which the fluid moves toward the ground.

In addition, the slab panel 30 may be arranged at a preset angle with respect to the ground. Accordingly, when various substances such as fluids and solids are located on the roof, they can be guided toward the ground. Here, the preset angle may mean an angle fixed to one structure, and if the structure such as a factory or building changes, the preset angle may change.

The slab panel 30 may be formed of a material having a certain level of strength, such as steel or plastic, on the upper and lower surfaces, and an insulating material may be disposed between the upper and lower surfaces.

In addition, the slab panel 30 is formed to penetrate a part of the slab panel 30 and is located on the lower surface of the fastener H1 and the slab panel 30 with fastening bolts 42 disposed therein, and has a fastener ( It may include a placement hole (H2) connected to H1) through which the body (41c) of the pop nut (41) passes.

Here, the part of the slab panel 30 may refer to the area of the slab panel 30 excluding the fastener (H1) located on the lower surface of the slab panel 30, which does not completely penetrate the slab panel 30. .

The fastener H1 may have a first diameter D1 and the placement tool may have a second diameter D2 that is smaller than the first diameter D1.

Accordingly, the user can form the arrangement tool having the second diameter D2 to penetrate the slab panel 30 and then form the fastener H1 having the first diameter D1 at the same location.

Here, the interference portion 41b of the pop nut 41 is disposed so as to interfere with the fastener H1, and the body 41c may be disposed to pass through the fastener H1.

The solar panel 20 includes a solar cell and may refer to a device that can generate electricity using sunlight. The solar panel 20 can be placed flatly and stably fixed on the slab panel 30 by the frame portion 10 of the solar panel support structure 1 according to an embodiment of the present disclosure. there is.

The frame portion 10 is disposed between the slab panel 30 forming the roof and the solar panel 20 so that the user can place the solar panel 20 on the slab panel 30 maintained at a preset angle to the ground. It can be stably fixed at the desired angle.

Here, the angle desired by the user may mean the angle formed by one side of the solar panel 20 with respect to the ground. That is, the user can install the solar panel 20 at an angle optimized for the longitude of the sun using the latitude and longitude of the location where the solar panel 20 is installed.

In addition, the solar panel 20 installed at an optimized angle can be installed by adjusting the angle of the frame unit 10.

Specifically, the frame portion 10 is arranged to surround the panel protrusion 31 and is attached to a first support portion 11 fixed to the panel protrusion 31 by a fastening portion 40. A reinforcement portion 14 arranged at a preset interval, a second support portion 12 rotatably disposed on the reinforcement portion 14, and a solar panel 20 rotatably connected to the second support portion 12. A third support part 13 that supports it and a fixed support part 15 that is disposed between the second support part 12 and the third support part 13 and connects and fixes the second support part 12 and the third support part 13. It can be included.

The first support portion 11 is arranged to surround the panel protrusion 31 protruding from the upper surface of the slab panel 30 and can be stably coupled to the panel protrusion 31.

The first support part 11 has a flat upper surface and can stably support the second support part 12 and the third support part 13 arranged to stably support the solar panel 20.

That is, the first support part 11 may include a support surface 11a formed flat on the upper surface, and the reinforcement part 14 can be stably fixed and disposed on the support surface 11a.

The first support portion 11 is formed to be long in the longitudinal direction (L) and may be installed along the longitudinal direction (L) of one panel protrusion 31.

The reinforcement parts 14 may be arranged side by side on the first support part 11 along the longitudinal direction (L) of the first support part 11, and may be connected to the second support part 12 so as to be rotatable.

The reinforcement portion 14 may be formed shorter than the first support portion 11 and may be disposed on the first support portion 11 at preset intervals.

In addition, a hinge portion 14a connected to the second support portion 12 may be disposed on the side of the reinforcement portion 14.

The second support part 12 is arranged to be rotatable with respect to the reinforcement part 14 and can stably support the third support part 13, which directly supports the solar panel 20.

The second support part 12 supports the third support part 13 at various angles with respect to the slab panel 30 arranged at a preset angle with respect to the ground, thereby maintaining the base of the slab panel 30 with respect to the ground. The solar panel 20 can be supported at an angle different from the set angle.

That is, the user can variously adjust the angle of the solar panel 20 with respect to the ground by adjusting the second support part 12 with respect to the slab panel 30. For example, a user can improve solar power generation efficiency by variously adjusting the angle of the solar panel 20 in consideration of the longitude and latitude at which the solar panel 20 is installed.

The third support part 13 can be connected to the second support part 12 and directly support the solar panel 20. The third support portion 13 is formed in a shape corresponding to the outer peripheral surface of the solar panel 20 and can stably support the solar panel 20.

The fixed support part 15 has one end connected to the second support part 12 and the other end opposite to the one end connected to the third support part 13, and is a second support part disposed at a preset angle with respect to the first support part 11. 12) can be fixed.

Accordingly, the fixed support part 15 can maintain the angle of the second support part 12 set by the user, thereby maintaining the preset angle of the frame part 10.

The fastening portion 40 is a pop nut 41 disposed at the lower portion of the slab panel 30, one end of which is connected to the pop nut 41 and a fastening device disposed through the slab panel 30 and the frame portion 10. It may include a fixing nut 43 disposed at the other end of the bolt 42 and the fastening bolt 42 to secure the slab panel 30 and the frame portion 10.

The pop nut 41 is placed on the lower surface of the slab panel and is connected to one end of the fastening bolt 42 to stably fix the fastening bolt 42.

Specifically, when referring to FIG. 8, the pop nut 41 is a cylindrical body 41c with a connector 41d formed therein, and is disposed at one end of the body 41c so as to interfere with the bottom of the slab panel 30. It may include a first thread 41a formed on the inner peripheral surface of the pop nut 41 so that the interference portion 41b protruding in the outer peripheral direction and one end of the fastening bolt 42 are coupled to each other.

The body 41c may be formed with a connector 41d penetrating the pop nut 41 inside, and a first screw thread coupled to the second screw thread 42a formed on one end of the fastening bolt 42 is inside the connection part. (41a) can be arranged.

The body 41c can be fixed to the lower surface of the slab panel 30 by shrinking its length using a pop nut 41 installation device (not shown). Specifically, the body 41c is arranged to penetrate the placement hole, and can then be contracted in length and fixed in close contact with the lower surface of the slab panel 30.

That is, the diameter of the body 41c may be smaller than the second diameter D2 of the placement hole.

The interference portion 41b may interfere with the lower surface of the slab panel 30 to fix the position of the pop nut 41. Specifically, the interference portion 41b is formed to be larger than the second diameter D2 of the placement hole, so the interference portion 41b may not pass through the placement hole.

One end of the fastening bolt 42 is connected to the pop nut 41 located on the lower surface of the slab panel 30, and the other end protrudes upward to penetrate the first support part 11 and is then fixed by the fixing nut 43. Thus, the first support part 11 can be stably fixed on the slab panel 30.

Accordingly, the solar panel support structure 1 according to an embodiment of the present disclosure can arrange the solar panel 20 at various angles on the slab panel 30 arranged at various angles depending on the structure, The structural stability of the solar panel support structure 1 can be increased by stably fixing the first support part 11 on the panel protrusion 31.

In addition, by fixing one end of the fastening bolt 42 through the pop nut 41, further improved fastening force and fixing force are formed through physical screw coupling, so that the fastening bolt 42 does not rotate on its own due to external vibration, etc. Structural stability can be added.

Hereinafter, with reference to FIGS. 9 and 10, a solar panel support structure 1 according to another embodiment of the present disclosure will be described.

FIG. 9 is a cross-sectional view showing a pop nut 41 according to another embodiment of the present disclosure, and FIG. 10 is a cross-sectional view showing the pop nut 41 and the fastening bolt 42 combined according to another embodiment of the present disclosure. .

Here, the same member numbers are used for the same components and overlapping descriptions are omitted. For example, the slab panel 30 and the frame portion 10 are the same as the configuration described above, so duplicate descriptions will be omitted.

The pop nut 41 is formed integrally with the body 41c, and is disposed on the guide portion 60 located on the upper part of the interference portion 41b and one end of the body 41c to cover one end of the body 41c. It may include a cover portion 50 that does.

The guide part 60 may be formed integrally with the interference part 41b on the upper part of the interference part 41b. The fastening bolt 42 is stably inserted therein, and guides the inserted position to be fixed. You can.

That is, the guide portion 60 may be formed to extend long upward with respect to the interference portion 41b.

Accordingly, the fastening bolt 42 formed to be long can be contacted by the guide portion 60 and maintained aligned along the central axis.

Specifically, the guide part 60 is a pressing member 61 that is disposed at a preset price on the inner peripheral surface of the guide part 60 and presses the fastening bolt 42 as the fastening bolt 42 is inserted in the downward direction. may include.

The pressing member 61 may be disposed at preset intervals in the inner circumferential direction on the inner circumferential surface forming the connector 41d into which the fastening bolt 42 is inserted within the guide portion 60.

Specifically, the pressing member 61 includes a sensing unit 61a that contacts the fastening bolt 42 and rotates the pressing member 61, and is arranged to face the sensing unit 61a to secure the fastening bolt 42. It may include a pressing part 61b having an elastic part 61d and an elastic part 61d disposed inside the guide part 60 to press the sensing part 61a in the first direction R1.

The sensing unit 61a and the pressing unit 61b may be formed integrally, and the sensing unit 61a and the pressing unit 61b may rotate integrally around the rotation axis 61e.

The sensing unit 61a may selectively contact the fastening bolt 42.

The pressing part 61b is formed integrally with the sensing part 61a, and the pressing part 61b can rotate due to interference with the fastening bolt 42 of the sensing part 61a. A contact portion (61c) is disposed on the inside of the pressing portion (61b) and can fix the fastening bolt (42) by contacting the outer peripheral surface of the fastening bolt (42).

Here, the contact portion 61c may include a material having frictional force above a certain level. For example, the contact portion 61c may include rubber, a polymer compound, etc.

The elastic portion 61d may continuously press the pressing member 61 in the first direction R1. Here, the first direction R1 may refer to a direction from the outer peripheral surface of the guide unit 60 to the inner peripheral surface.

Accordingly, as the fastening bolt 42 is inserted, the pressing member 61 contacts the outer peripheral surface of the fastening bolt 42 and rotates in the second direction (R2) opposite to the first direction (R1), and the pressing portion ( The contact portion 61c of 61b) may contact the fastening bolt 42 to continuously pressurize it.

Therefore, the contact and contact force of the pressing member 61 with the outer peripheral surface of the fastening bolt 42 increases in proportion to the degree to which the second thread 42a of the fastening bolt 42 is coupled to the first thread 41a. The fastening bolt (42) can be stably aligned and fixed along the central axis.

On the other hand, the body 41c has a first area E1 that has a first strength and is pressed and contracted to spread adjacent to the interference portion 41b, a second strength greater than the first strength, and a first area E1 ) and may include a second area E2 to which the cover part 50 is coupled.

That is, while the first area E1 shrinks in length due to a pressing force, the second area E2 is configured to have a strength that does not shrink in length, so that the cover portion 50 can be stably fixed.

Here, the first area E1 is combined with the fixing part 51a of the cover part 50, which will be described later, so that the fastening stability can be further increased.

The cover part 50 is disposed on the cover part 50 so as to face the extension part 51 and the connector 41d, which extend to surround one end of the outer peripheral surface of the body 41c, and are transmitted from the fastening bolt 42. It may include a sensor unit 52 that measures the applied pressure.

The cover part 50 is fixed to cover the open end of the pop nut 41 to prevent external foreign substances, etc. from flowing into the pop nut 41, and prevents foreign substances from flowing into the pop nut 41. Fluid flows into the interior through the pop nut 41, thereby preventing fluid from flowing into the room.

In addition, the extension portion 51 may include a fixing portion 51a that protrudes to be inserted into the first region E1 when the first region E1 is contracted. The fixing part 51a may have a sharp end so that it can be inserted into the first area E1 contracted at one end of the extension part 51 .

Meanwhile, the fastening bolt 42 is disposed on the outer peripheral surface of one end and includes a second thread 42a coupled to the first thread 41a of the pop nut 41, and the diameter increases as the distance from the second thread 42a increases. This can grow gradually.

Accordingly, as the second thread 42a of the fastening bolt 42 is combined with the first thread 41a and moves downward, the pressing member 61 of the fastening bolt 42 whose diameter gradually increases. The fixing force of the fastening bolt 42 in contact with the outer peripheral surface is further improved, and at the same time, the strength of the fastening can be immediately sensed during installation due to the resistance caused by the contact force during the fastening process.

In addition, the fastening part 40 includes a fastening spring 53 that is disposed between one end of the fastening bolt 42 and the sensor part 52 and transmits the pressing force applied by the fastening bolt 42 to the sensor part 52. More may be included.

The fastening spring 53 is inserted into the fastener H1 by the user before inserting the fastening bolt 42 into the fastener H1, or the fastening spring 53 is connected to one end of the fastening bolt 42. It can be inserted into the fastener (H1).

One end of the fastening spring 53 may contact the sensor unit 52, and the other end of the fastening spring 53 may contact one end of the fastening bolt 42.

Accordingly, the fastening spring 53 may be compressed and contracted in length as the second thread 42a of the fastening bolt 42 is combined with the first thread 41a and moves downward, and the pressing force is measured by a sensor. It can be transmitted to part 52.

Here, the sensor unit 52 may include a contact sensor, and may be wirelessly connected to the processor to transmit information on the measured pressing force to the processor.

In addition, the processor may include one or more of a central processing unit (CPU), a controller, an application processor (AP), a communication processor (CP), or an ARM processor. there is.

It is placed inside a PC or mobile phone outside of the processor and can provide various information, such as an alarm, to the user using the pressing force transmitted from the sensor unit 52.

Specifically, the sensor unit 52 measures the pressing force transmitted by compressing and contracting the fastening spring 53 as the fastening bolt 42 is coupled and transmits it to the processor, and the processor measures the pressing force measured by the sensor unit 52. By comparing the preset pressing force, if the measured pressing pressure exceeds the preset pressing force, the user can be notified.

Accordingly, based on the pressing force measured by the sensor unit 52, the user can see that the fastening bolt 42 has been inserted with a preset coupling force and has been stably inserted, and the continuous pressing force is measured to respond to the location where the fastening force drops. You can easily perform maintenance to strengthen the fastening force of the affected parts.

In the above, various embodiments of the present disclosure have been described individually, but each embodiment does not necessarily have to be implemented alone, and the configuration and operation of each embodiment may be implemented in combination with at least one other embodiment. .

In addition, although the preferred embodiments of the present disclosure have been shown and described above, the present disclosure is not limited to the specific embodiments described above, and the technical field to which the disclosure pertains without departing from the gist of the present disclosure as claimed in the claims. Of course, various modifications can be made by those skilled in the art, and these modifications should not be understood individually from the technical idea or perspective of the present disclosure.

1: Solar panel support structure 10: Frame part
11: first support 12: second support
13: third support 20: solar panel
30: Slab panel 40: Fastening part
50: cover part 60: guide part

Claims (7)

A slab panel arranged to be inclined with respect to the ground and having a panel protrusion protruding from the surface;
A solar panel located on the slab panel;
a frame part fixed on the panel protrusion and supporting the solar panel; and
It includes a fastening part that secures the frame part to the slab panel,
The fastening part,
Pop nuts disposed on the lower part of the slab panel;
A fastening bolt at one end connected to the pop nut and disposed to penetrate the slab panel and the frame portion; and
It includes a fixing nut disposed at the other end of the fastening bolt and fixing the slab panel and the frame portion,
The pop nut is,
A cylindrical body with a connector formed therein;
An interference portion disposed at one end of the body so as to interfere with the lower end of the slab panel and protruding in the outer circumferential direction; and
It includes a first thread formed on the inner peripheral surface of the pop nut so that one end of the fastening bolt is coupled,
The slab panel is,
A fastener formed to penetrate a portion of the slab panel and having fastening bolts disposed therein; and
A placement port located on the lower surface of the slab panel and connected to the fastener through which the body of the pop nut passes,
the fastener has a first diameter and the placement device has a second diameter that is smaller than the first diameter,
The frame part,
a first support part arranged to surround the panel protrusion and fixed to the panel protrusion by the fastening part;
Reinforcement parts arranged at preset intervals on the first support part;
a second support portion rotatably disposed with the reinforcement portion;
a third support portion rotatably connected to the second support portion and supporting the solar panel; and
It includes a fixed support part disposed between the second support part and the third support part and connecting and fixing the second support part and the third support part,
The pop nut is,
a guide portion formed integrally with the body and located above the interference portion; and
It includes a cover portion disposed at one end of the body and covering one end of the body,
The body is,
a first region having a first intensity and being compressed to spread adjacent to the interference portion; and
A solar panel support structure comprising: a second region having a second strength greater than the first strength, located below the first region, and to which the cover part is coupled. delete delete delete delete According to paragraph 1,
The cover part,
an extension formed to extend to surround one end of the outer peripheral surface of the body; and
It includes a sensor part disposed on the cover part to face the connector and measuring the pressing force transmitted from the fastening bolt,
The extension portion includes a fixing portion protruding to be inserted into the first region when the first region is contracted,
The fastening bolt is disposed on the outer peripheral surface of one end and includes a second screw thread coupled to the first screw thread of the pop nut, and the diameter of the solar panel support structure gradually increases as the distance from the second screw thread increases. According to clause 6,
It further includes a fastening spring disposed between one end of the fastening bolt and the sensor unit and transmitting the pressing force applied by the fastening bolt to the sensor unit,
The guide part,
It includes a pressing member disposed on the inner peripheral surface of the guide portion at a preset value and pressing the fastening bolt as the fastening bolt is inserted in the downward direction,
The pressing member is,
a sensing unit that rotates the pressing member by contacting the fastening bolt;
a pressing portion disposed opposite the sensing portion and having a contact portion for fixing the fastening bolt; and
It includes an elastic part disposed inside the guide part to press the sensing part in a first direction,
As the fastening bolt is inserted, the pressing member contacts the outer peripheral surface of the fastening bolt and rotates in a second direction opposite to the first direction, and the contact portion of the pressing part contacts the fastening bolt to continuously pressurize the fastening bolt,
The sensor unit,
As the fastening bolt is coupled, the fastening spring is compressed and contracted to measure the transmitted pressing force and transmit it to the processor,
The processor compares the pressing force measured by the sensor unit with a preset pressing force, and notifies the user when the measured pressing force exceeds the preset pressing force.

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