KR20200126465A - Lightweight prefabricated structures for installation of solar modules - Google Patents

Abstract

The present invention relates to a lightweight prefabricated structure for installing solar modules capable of simply installing the solar modules at a predetermined installation position in a prefabricated scheme without damage. The lightweight prefabricated structure for installing solar modules comprises: a vertical support member (100) including a lower portion fixed to a bottom and an upper portion vertically extending from the bottom by a predetermined distance; a horizontal support member (200) having a square shape including a front surface and a rear surface in a longitudinal direction fixed to a top end of the vertical support member (100), and vertically formed therein with a through hole (230) by a predetermined distance; a fixed member (300) including a rear support portion (310) provided therein with one and an opposite end extending outward of vertical and horizontal frames of a solar module, respectively; a hooking part (320) extending upward of the rear support portion (310) to adhere to a top surface of a frame (12) of the solar module; a height support portion (330) cylindrically protruding outward of a center region of the rear support portion (310), formed therein with an insertion hole (331) at a center, and a screw groove (332) being formed inside the insertion groove, and a sliding portion (340) including a lower portion inserted in a sliding groove (210) of the horizontal support member (200), and an upper portion being inserted into an insertion groove (331) of the height maintenance portion (330), and vertically formed therein with a through hole (341).

Description

Lightweight prefabricated structures for installation of solar modules}

The present invention relates to a lightweight prefabricated structure for solar module installation that can be simply prefabricated at a certain installation location without damaging the solar module.

At present, solar heat has long been considered an important and very practical alternative energy source. To this end, considerable efforts and investments are being made in the development and advancement of solar energy collection technology. Of particular interest is the use of industrial or commercial forms of collecting a relatively large amount of solar energy and utilizing it to supplement or satisfy power needs.

Photovoltaic power generation technology is generally regarded as the best option for large-scale solar energy collection and can be used as a primary and/or secondary (or secondary) energy source. In general, solar power systems (or simply "solar systems") employ photovoltaic panels made of silicon or other materials (eg, III-V cells such as GaAs) to convert solar heat into electricity.

The photovoltaic module 10 is composed of PV (photovoltaic) devices 11 and a frame 12 surrounding the PV device 11, and the photovoltaic module is directly fixed to a structure installed on the ground or on the roof of a building with bolts, etc. do.

Since the photovoltaic module 10 is bolted to the frame 12 surrounding the outside of the PV device 11, if the frame is damaged over time, there is a problem that the entire photovoltaic module is replaced.

Korean Patent Registration No. 10-1652279 (2016.08.24)

The problem to be solved by the present invention is to provide a lightweight prefabricated structure for solar module installation that can be simply prefabricated at a certain installation location without damaging the solar module.

The lightweight assembly structure for installing a photovoltaic module according to the present invention includes: a vertical support member 100 having a lower portion fixed to the floor and an upper portion extending vertically a predetermined distance from the floor; In a rectangular shape, the front and rear sides in the longitudinal direction are fixed to the top of the vertical support member 100, and the sliding groove 210 is formed in the longitudinal direction on the upper surface, and the through hole 230 is formed at regular intervals in the vertical direction. A support member 200; One end and the other end are vertically extended to the outer side of the vertical and horizontal frame of the solar module, respectively, and while extending upward from the rear support 310, in close contact with the upper surface of the frame 12 of the solar module. The height retaining portion 330 which protrudes in a cylindrical shape outward from the center portion of the locking portion 320 and the rear support portion 310 and has an insertion groove 331 formed in the center, and a screw groove 332 formed in the insertion groove. ), and the lower portion is inserted into the sliding groove 210 of the horizontal support member 200, the upper portion is inserted into the insertion groove 331 of the height maintaining portion 330, and a through hole 341 penetrating vertically is formed It characterized in that it includes; a fixing member 300 including (340).

Preferably, the vertical support member 100 includes a support portion 110 formed parallel to the ground, a vertical portion 120 extending upward from the support portion 110, and a horizontal support member extending upward from one side ( 200) consisting of a blocking portion 131 in close contact with the front or rear of the blocking portion 131 and an insertion portion 132 protruding vertically outward from the central portion of the blocking portion 131 and inserted into the front or rear of the horizontal support member 200 Including the fixing portion 130, the horizontal support member 200 has an insertion groove 220 that is fixed while the insertion portion 132 of the vertical support member 100 is inserted at the front and rear surfaces.

Preferably, the sliding groove 210 is formed of upper and lower light, and the sliding part 340 is characterized in that it is formed with upper and lower light.

The lightweight prefabricated structure for installing a photovoltaic module according to the present invention has the effect of being able to be simply prefabricated without using bolts or the like that may damage the solar panel.

1 is a perspective view showing an installation state of a lightweight prefabricated structure for installing a solar module according to the present invention.
Figure 2 is an exploded perspective view of a lightweight assembly structure for installing a solar module according to the present invention.
Figure 3 is a horizontal support member according to the present invention, a fastening state of the fixing member.
Figure 4 is a cross-sectional view of Figure 3;
Figure 5 is a cross-sectional view of the fastening state of the horizontal support member and the fixing member according to the present invention.

DETAILED DESCRIPTION OF THE INVENTION The following detailed descriptions are embodiments in which the present invention may be practiced and refer to the accompanying drawings, which are illustrated as examples of the embodiments. These examples are described in detail sufficient for those skilled in the art to practice the present invention. It is to be understood that the various embodiments of the present invention are different from each other, but need not be mutually exclusive. For example, specific shapes, structures, and characteristics described herein may be implemented in other embodiments without departing from the spirit and scope of the present invention in relation to one embodiment. In addition, it should be understood that the location or arrangement of individual components within each described embodiment may be changed without departing from the spirit and scope of the present invention.

Therefore, the detailed description to be described below is not intended to be taken in a limiting sense, and the scope of the present invention is limited only by the appended claims, along with all scopes equivalent to those claimed by the claims, if appropriately described. Like reference numerals in the drawings refer to the same or similar functions over several aspects. In addition, terms used in the present invention should be defined based on the meaning of the term and the overall contents of the present invention, not just the name of the term.

In the present invention, when a part "includes" a certain component in the whole, it means that other components may be further included rather than excluding other components unless otherwise stated.

As shown in Figs. 1 to 5, the lightweight prefabricated structure for solar module installation according to the present invention is to fix the solar module 10 consisting of a frame 12 surrounding the PV element 11, and a vertical support member 100 ), a horizontal support member 200, and a fixing member 300.

The vertical support member 100 includes a support portion 110 formed parallel to the ground so as to be fixed to the floor, a vertical portion 120 extending upward from the support portion 110, and at the top of the vertical portion 120 It is preferable that the fixing part 130 for fixing the horizontal support member 200 to be described later is formed. At this time, the fixing part 130 extends upward from one side and protrudes vertically outward from the blocking part 131 in close contact with the front or rear of the horizontal support member 200 and the central part of the blocking part 131. It is preferably made of an insertion portion 132 inserted into the front or rear of the horizontal support member 200. At this time, the support part 110 is fixed to the ground with screws or nails. In this vertical support member 100, the lower part is fixed to the floor and the upper part extends vertically from the floor by a predetermined distance, so that the front and rear surfaces of the horizontal support members 200 and 200, which will be described later, are respectively inserted into and fixed. And, the blocking portion 131 is in close contact with the front and rear surfaces to prevent the fixing member 300 from being separated.

The horizontal support member 200 has a rectangular shape, and the front and rear sides in the longitudinal direction are fixed to the upper end of the vertical support member 100, and the sliding groove 210 is formed in the longitudinal direction on the upper surface, and the sliding grooves ( Insertion grooves 220 extending inward are formed in the lower portion of 210, and through holes 230 are formed at regular intervals in the vertical direction. At this time, it is preferable that the sliding groove 210 is formed as an upper narrow light to prevent the sliding portion 340 of the fixing member 300 from being separated in the upper direction. When the horizontal support member 200 inserts the insertion groove 220 of the vertical support member 100 into the insertion groove 220 formed on the front and rear surfaces, the vertical support member 100 and the horizontal support member 200 are screwed together. Can be fixed without.

The fixing member 300 is located at the rear of the solar module 10 in a'b' shape and has one end and the other end vertically around the center, and a rear support part 310 extending to the outside of the vertical and horizontal frames of the solar module, respectively. ) And, while extending upward from the rear support part 310, a locking part 320 that is in close contact with the upper surface of the frame 12 of the solar module, and the rear support part 310 protrudes outwardly in a cylindrical shape and The insertion groove 331 is formed in the height maintaining portion 330 in which the screw groove 332 is formed in the insertion groove, and the lower portion is inserted into the sliding groove 210 of the horizontal support member 200 in the upper and lower sides. It is preferably made of a sliding portion 340 that is inserted into the insertion groove 331 of the height maintaining portion 330 and has a through hole 341 penetrating upward and downward. When the height maintaining unit 330 is separated into two configurations, the sliding unit 340 is inserted into the horizontal support member 200 so that the vertical support members 100 on both sides can be completely installed, and the heavy solar module slides. It is possible to reduce the distance moving along the groove 210.

It looks at the installation state of the light-weight prefabricated structure for installing the solar module of the present invention.

First, the support portion 110 of the vertical support member 100 is positioned on the roof of a building where the solar module 10 is installed, and fixed with bolts or nails. After that, after positioning the insertion groove 220 of the vertical support member 100 on one side to correspond to the through hole formed in the front of the horizontal support member 200, the blocking portion 131 of the vertical support member 100 is horizontally Insert so as to be in close contact with the front surface of the support member 200. Thereafter, the rear surface of the horizontal support member 200 is fixed to the other vertical support member 100 while the sliding part 340 of the fixing member 300 is placed in the sliding groove of the horizontal support member 200.

In addition, the sliding portion 340 of the fixing member 300 is positioned in the through hole 230 formed to penetrate the horizontal support member 200 vertically, and the sliding portion 340 is screwed through the lower portion of the through hole 230. First fix.

Thereafter, when the fixing member 300 is moved along the vertical and horizontal frames of the solar module in a sliding manner, the locking part 320 is brought into close contact with the upper surface of the frame. In that state, after inserting the upper end of the sliding part 340 located in the sliding groove of the horizontal support member 200 into the height maintaining part 330 of the rear support part 310, the sliding part 340 is first fixed with a screw. It is fixed in the second order.

Accordingly, when the solar module is installed, the heavy solar module can be installed with minimal movement without moving back and forth, and the frame of the solar module can be fixed without damaging the frame with screws or the like.

As described above, although the present invention has been described by limited embodiments and drawings, the present invention is not limited thereto, and the technical idea and the following by those of ordinary skill in the art to which the present invention pertains. It goes without saying that various modifications and variations are possible within the equivalent range of the claims to be described in.

100: vertical support member 110: support
120: vertical part 130: fixed part
131: blocking portion 132: insertion portion
200: horizontal support member 210: sliding groove
220: insertion groove 230: through hole
300: fixing member 310: rear support
320: locking portion 330: height maintaining portion
331: insertion groove 332: screw groove
340: sliding part 341: through hole

Claims (3)

A vertical support member having a lower portion fixed to the floor and an upper portion extending vertically from the floor by a predetermined distance;
In a rectangular shape, the front and rear sides in the longitudinal direction are fixed to the top of the vertical support member 100, and the sliding groove 210 is formed in the longitudinal direction on the upper surface, and the through hole 230 is formed at regular intervals in the vertical direction. A support member 200;
One end and the other end are vertically extended to the outer side of the vertical and horizontal frame of the solar module, respectively, and while extending upward from the rear support 310, in close contact with the upper surface of the frame 12 of the solar module. The height retaining portion 330 which protrudes in a cylindrical shape outward from the center portion of the locking portion 320 and the rear support portion 310 and has an insertion groove 331 formed in the center, and a screw groove 332 formed in the insertion groove. ), and the lower portion is inserted into the sliding groove 210 of the horizontal support member 200, the upper portion is inserted into the insertion groove 331 of the height maintaining portion 330, and a through hole 341 penetrating vertically is formed A light-weight prefabricated structure for installing a photovoltaic module, comprising: a fixing member 300 including 340. The method according to claim 1, wherein the vertical support member 100 includes a support part 110 formed parallel to the ground, a vertical part 120 extending upward from the support part 110, and a horizontal support extending upward from one side. The blocking portion 131 in close contact with the front or rear surface of the member 200 and the insertion portion 132 protruding vertically outward from the central portion of the blocking portion 131 and inserted into the front or rear surface of the horizontal support member 200 Including a fixing portion 130 made of,
The horizontal support member 200 is a lightweight assembly type structure for installing a photovoltaic module, characterized in that the insertion portion 132 of the vertical support member 100 is inserted and fixed insertion groove 220 is formed at the front and the rear. The method according to claim 2, wherein the sliding groove 210 is formed of upper and lower light, and the sliding part 340 is a lightweight assembly structure for installing a solar module, characterized in that the upper and lower light.

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