KR20170091876A - Roof-panel for solar modul - Google Patents

Abstract

The present invention relates to a roof panel for installation of a solar module, capable of densely installing a solar module to increase photovoltaic efficiency. According to the present invention, the roof panel comprises: an insulating material (100); and first and second metal plates (200, 300) attached on upper and lower surfaces of the insulating material (100) respectively. An upwardly protruding fastening protrusion (210) is formed in an end part of one lateral side and an elastic clip (220) is outwardly protruding in an end part of the other lateral side, thereby allowing the elastic clip (220) to be elastically inserted into the fastening protrusion (210) of an adjacent panel to be continuously assembled and constructed.

Description

Roof panel for solar module installation {Roof-panel for solar module}

More particularly, the present invention relates to a roof panel for mounting a solar module, and more particularly, to a roof panel for mounting a solar module, To a roof panel for mounting a solar module with a new configuration.

Roof panels for installing solar modules are provided. FIG. 1 shows a conventional roof panel for a solar module installation. As shown in FIG. 1, a protruding portion 10 is formed at one end in the width direction of the panel, and the protruding portion 10 (Not shown). Such a panel is continuously assembled and assembled so that the fastening portion 20 covers the protruding portion 10 of the adjacent panel. The bolt 4 is fastened to the fastening portion 20, which is covered with the protruding portion 10, Is fixed to the roof support structure (2).

As shown in the drawings, the conventional panel has a trapezoidal cross section of the protruding portion 10, and both sides of the protruding portion 10 are inclined outward as the downward protruding portion is formed. When the water starts to flow into the gap between the end of the fastening portion 20 and the side surface of the protruding portion 10 due to the capillary phenomenon, water penetrates deeply into the connection portion between the panel and the panel, Serious leaks occur.

Since the conventional panel clamps the bolt 4 on the upper side of the fastening portion 20 of the panel, the fastening portion of the bolt 4 is exposed to the outside. Therefore, water flows into the bolt fastening portion, .

In order to install the solar module on such a conventional panel, the mounting clamp 7 of the solar module 6 is mounted on the protruding portion 10 covered with the fastening portion 20 of the panel to mount the solar module 6 Install it.

In general, it is necessary for the operator to pass the maintenance of the photovoltaic module

Since a space for working can be secured, the solar module is partially separated from the roof panel to secure such space,

However, as described above, since the fastening protrusion 10 is formed only at one end portion in the width direction of the roof panel and the solar module clamp 7 is fastened to the fastening protrusion 10 of the panel, It is inevitable to install the photovoltaic module as wide as the width of the panel. That is, although it is not necessary to install the solar module at a distance corresponding to the width of the panel, it is inevitable that the solar module is installed at a distance larger than the actual required interval.

As described above, when the solar module is spaced unnecessarily widely, the installation density of the solar module is lowered, and consequently, the solar power generation efficiency per roof area is lowered.

Korean Registered Patent No. 10-1498554 (Feb.

SUMMARY OF THE INVENTION It is an object of the present invention to solve the above problems and to provide a solar module in which a roof having excellent safety can be constructed and a leakage is not generated, So as to improve the efficiency of solar power generation.

According to an aspect of the present invention, there is provided a heat insulating material comprising: a heat insulating material; and first and second metal plates (200, 300) respectively attached to upper and lower surfaces of the heat insulating material (100) And an elastic clip 220 is protruded outward at the other end in the width direction so that the elastic clip 220 is elastically fitted to the clamping protrusion 210 of the adjacent panel, And a solar module (6) is installed by mounting a clamp (400) for mounting a solar module (6) on a fastening protrusion (210) in which the elastic clip (220) is inserted.

A bolt head mounting groove 212 is formed on the upper surface of the tightening protrusion 210 so that the bolt head of the bolt 4 fastened by fixing the panel to the roof supporting structure 2 is mounted. The elastic clip 220 is bent upward at an end portion of the first metal plate 200 so that the elastic clip 220 is bent upward at an end portion of the first metal plate 200 A horizontal extending portion 224 extending horizontally at the upper end of the inner upward portion 222; an outer downward portion 226 bent downward at the end of the horizontal extending portion 224; And an inclined latching end portion 229 protruding upward from the end of the outer downward portion 226 toward the inner upward portion 222 so that the elastic clip 220 is engaged with the coupling ridge 210 The inclined engagement end portion 229 is engaged with the water cut-off inclined protrusion 214 of the engagement protrusion 210 And a roof panel for mounting the solar module is provided.

According to another aspect of the present invention, the upper surface of the panel is further provided with a reinforcing protrusion 230 protruding upward so as to be parallel to the fitting protrusion 210, and a reinforcing protrusion 230 elastically fitted to the reinforcing protrusion 230 A bolt head seating groove 232 on which a head of a bolt 4 fastened to fix the panel to the roof supporting structure 2 is seated is provided on the upper surface of the reinforcing protrusion 230 And water slanting slopes 234 sloping downward toward the outward direction are formed on both side surfaces of the reinforcing protrusion 230. The reinforcing protrusion cover 500 includes an upper cover 220 covering the upper surface of the reinforcing protrusion 230, A lower side portion 504 bent downward from both ends of the upper cover portion 502 and a lower portion of the lower side portion 504 and a water cutting slope 234 of the reinforcing protrusion 230, And an inclined engagement end portion 506 inclined upward toward the inside so as to correspond to It is.

According to another aspect of the present invention, the upper end of the coupling protrusion 210 is formed to be wider than the lower end of the coupling protrusion 210 so that both side surfaces of the coupling protrusion 210 form an inclined surface protruding outwardly toward the upper side, The inner upward portion 222 and the outer downward portion 226 of the upper and lower portions 220 and 220 form an inclined surface protruding outwardly toward the upward direction.

According to another aspect of the present invention, the downward side surface portion 504 of the reinforcing ridge cover 500 is formed of an inclined surface protruding outwardly toward the upper side, and at least the reinforcement ridge cover 500 Is formed as an inclined surface projecting outwardly toward the upward direction.

In the present invention having the above-described structure, the water-shutoff slope 214 is formed in the fastening protrusion 210, and the overall shape of the fastening protrusion 210 is inverted trapezoidal, So that the effect of preventing leakage is excellent. In addition, since the fastening protrusion 214 has an inverted trapezoidal shape and the elastic clip 220 fastened thereto has an inverted trapezoidal shape, the fastening protrusion 210 and the resilient clip 220 are firmly engaged with each other, The state is not easily broken and the stability is excellent.

Further, since the reinforcing protrusion 230 is additionally formed on the panel so that the bolt is further fastened to the reinforcing protrusion 230, not only the both ends but also the central portion of the panel are bolted to the supporting structure of the roof, Is further improved.

In addition, since the solar module can be installed by mounting the solar module clamp in the reinforcing protrusion 230, it is necessary to install the solar module at a distance of the panel width inevitably when the solar module needs to be spaced apart. do. Therefore, since the solar module can be mounted relatively more densely than the conventional solar module, the efficiency of solar power generation is increased.

In addition, when the reinforcing ridge cover 500 is put on the reinforcing ridge 230, leakage of water is prevented through the bolt fastening portion fastened to the reinforcing ridge 230, The leakage preventing effect can be obtained also by the shape of the inclined jaw 234, the reinforcing protrusion 230, and the reinforcing protrusion cover 500.

1 is a sectional view showing a construction state of a roof panel for installing a conventional solar module;
2 is a sectional view showing the first embodiment of the present invention
3 is a side view of the embodiment
4 is a sectional view showing a construction state of the embodiment
5 is a sectional view showing a state in which the solar module is installed in the embodiment
6 is a sectional view showing a second embodiment of the present invention
7 is a sectional view showing a state in which the solar module is installed in the embodiment

Hereinafter, preferred embodiments of the present invention will be described with reference to the drawings.

2 and 3 are a sectional view and a perspective view showing the first embodiment of the present invention, and FIGS. 4 and 5 are sectional views showing a construction state. As shown in the drawings, the present invention includes a heat insulating material 100 and first and second metal plates 200 and 300 attached to upper and lower surfaces of the heat insulating material 100, respectively. And an elastic clip (220).

The construction in which the first and second metal plates 200 and 300 are respectively attached to the upper and lower surfaces of the heat insulating material 100 is a general sandwich panel structure, and thus a detailed description thereof will be omitted.

The clamping protrusion 210 and the elastic clip 220 are used to connect the panel and the elastic clip 220 is elastically fitted to the clamping protrusion 210 of the adjacent panel so that the panel is continuously connected Construction.

The fastening protrusion 210 is bent so that one end of the first metal plate 200 in the width direction is protruded upward and the heat insulating material 100 is formed in a shape that matches the upward protruding shape of the first metal plate 200 .

A bolt head seating groove 212 on which a head of a bolt 4 fastened to fix the panel to the roof supporting structure 2 is formed on the upper surface of the fastening protrusion 210 is elongated along the longitudinal direction. On the inner surface of the fastening protrusion 210, a water cutting slope 214 having an inclined surface inclined downward toward the outward direction is formed.

The water clipping slanting jaw 214 has a slope downwardly inclined as it goes outward so that the water clipping slanting slanting jaw 214 can be separated by the capillary phenomenon between the slanting end 229 of the elastic clip 220, Water is prevented from flowing deeply into the space between the clamping protrusion 210 and the elastic clip 220 even if water is introduced.

The elastic clip 220 integrally extends from the first metal plate 200 and includes an inner upward portion 222 bent upward at a widthwise end portion of the first metal plate 200 and an inner upward portion 222 bent upward at an end portion of the first metal plate 200, And an outer downward portion 226 bent downward at an end portion of the horizontal extending portion 224. The inner lower portion 226 is opened downward to open the coupling protrusion 210, A receiving portion 228 is formed. The lower end of the outer downward portion 226 is formed with a slanting end portion 229 that is inclined upward to approach the inner upward portion 222 as it goes upward.

When the elastic clip 220 is inserted into the clamping protrusion 210 of the adjacent panel, the elastic clip 220 is elastically fitted to the clamping protrusion 210 so that the clamping protrusion 210 is inserted into the receiving portion of the elastic clip 220 228 and the inclined engagement end portion 229 of the elastic clip 220 is caught by the water cut-off inclined protrusion 214 of the engagement protrusion 210 so that the elastic clip 220 is fitted in the engagement protrusion 210 do.

Preferably, the fastening protrusion 210 has an inverted trapezoidal shape, and the fastening protrusion 210 has an inner side surface and an outer side surface that are inclined outwardly toward the upper side. The elastic clip 220 also has a shape corresponding to the clamping protrusion 210 and is formed so as to be inclined such that the inner upward portion 222 and the outer downward portion 226 of the elastic clip 220 protrude outward as they go upward.

When the fastening protrusion 210 and the elastic clip 220 have an inverted trapezoidal shape as compared with the case where the fastening protrusion 210 has a rectangular or trapezoidal cross section, the elastic clip 220 and the fastening protrusion 210 210 are raised so that the elastic clip 220 is not easily peeled off from the fastening protrusion 210. That is to say that in order for the resilient clip 220 to be peeled off from the clamping ridge 210 the sloped latching end 229 must be removed from the water sloping sloped rim 214, The outer lower portion 226 of the elastic clip 220 must be widened by a width corresponding to the wide upper end portion of the tightening protrusion 210 so that the elastic clip 220 is completely removed from the tightening protrusion 210 The elastic clip 220 is not easily detached from the fastening protrusion 210 and the fastened state is maintained relatively firmly.

Since the length of the inner surface of the fastening protrusion 210 is longer than that of the fastening protrusion 210 when the inner surface of the fastening protrusion 210 is inclined, The water flows into the space between the outer downward portion 226 of the elastic clip 220 and the inner surface of the coupling protrusion 210 so that the horizontal extension of the elastic clip 220 It is prevented from flowing into the upper surface of the fastening protrusion 224 and the fastening protrusion 210 so as to be deeply introduced into the connection portion between the panel and the panel.

That is, although the inflow of water into the space between the fastening protrusion 210 and the elastic clip 220 is primarily blocked by the water cutting slope 214, the fastening protrusion 210 and the elastic clip 220 are totally reversed As a result of having a trapezoidal shape, the inflow of water between the fastening protrusion 210 and the elastic clip 220 is secondarily blocked.

The present invention having the above-described configuration is constructed as follows.

As described above, the panel is mounted on the support structure 2 of the roof, and the bolt head mounting groove 212 of the fastening protrusion 210 is provided in the roof supporting structure 2 for mounting the roof of the building The bolts (4) are fastened to seat the bolt head to secure the panel to the roof support structure (2). The elastic clip 220 of the other panel is elastically fitted to the fastening protrusion 210 of the installed panel and the bolt 4 is fastened to the bolt head seating groove 212 of the newly installed panel, Is fixed to the support structure 2, and the panel is continuously connected as shown in Fig.

Since the bolts 2 fastened to the fastening protrusions 210 of the panel are covered by the elastic clip 220 and are not exposed to the outside, the appearance of the panel in the installed state is neat, It is also prevented from leaking.

5, when the tackle lamp module is installed on the panel according to the present invention, a clamp (not shown) for mounting the solar module 6 is attached to the fastening protrusion 210 in which the elastic clip 220 is inserted 400). As shown in the drawing, the mounting clamp 400 of the solar module 6 is composed of a pair of split pieces which are divided into right and left parts and are bolted together.

Hereinafter, other embodiments of the present invention will be described, and the same structures and effects as those of the above-described embodiments will not be described.

6 is a side view showing a second embodiment of the present invention. A reinforcing protrusion 230 is further formed at the center of the upper surface of the panel so as to be parallel to the protrusion 210 and a reinforcing protrusion cover 500 elastically caught in the reinforcing protrusion 230 .

The reinforcing protrusion 230 is formed by protruding the first metal plate 200 so as to protrude upward so that the portion corresponding to the heat insulating material 100 is aligned with the protruding shape of the first metal plate 200.

A bolt head seating groove 232 on which the head of the bolt 4 fastened to the roof supporting structure 2 is seated is formed on the upper surface of the reinforcing protrusion 230 so as to be long in the longitudinal direction, A water cutting slanting jaw 234 having the same shape and function as those formed in the fastening protrusion 210 is formed.

The water cutting inclined step 234 formed in the reinforcing protrusion 230 also has the same principle as that of the water cutting inclined protrusion 214 formed in the protrusion 210 so that water flows into the space between the reinforcing protrusion 230 and the reinforcing protrusion cover 500 ≪ / RTI >

The reinforcing gable cover 500 includes a top cover portion 502 covering an upper surface of the reinforcing protrusion 230 and a pair of downward side portions 504 bent downward from both ends of the top cover portion 502, And a pair of inclined engagement ends 506 that are inclined upward toward the inside so as to correspond to the water cut-off inclined protrusions 234 of the reinforcing protrusions 230 at the lower ends of the respective downward side portions 504.

The reinforcing ridge cover 500 is elastically fitted to the reinforcing ridge 230. The reinforcing ridge cover 500 is slidably engaged with the sloping ridge 234 of the reinforcing ridge 230, The state in which the rugged cover 500 is fitted to the reinforcing ridges 230 is maintained.

The reinforcing rugged cover 500 covers the bolt 4 fastened to the reinforcing ridge 230 so that the bolt 4 is not exposed to the outside. The reinforced rugged cover 500 makes the appearance of the panel in the installed state more clear, , And leakage of water to the bolted portion is also prevented.

Preferably, the downwardly facing side surface portion 504 of the reinforced rugged cover 500 is formed as an inclined surface protruding outwardly as it goes upward, and at least a part of the side surface of the reinforcing ridge 230, which is covered by the downward side surface portion 504, That is, the portion between the upper surface of the reinforcing protrusion 230 and the water cut-off slope 234 also forms an inclined surface protruding outward as it goes upward.

As described above, when the downward side surface portion 504 of the reinforced ridgeline cover 500 and the portions corresponding to both side surfaces of the reinforcing ridge 230 are inclined surfaces projecting outwardly toward the upward direction, by the same principle as the above- The inflow of water between the cover 500 and the reinforcing protrusion 230 is more effectively prevented.

Since the panels are further fixed to the support structure 2 of the roof by fastening the bolts 4 to the reinforcing protrusions 230 when the reinforcing protrusions 230 are further formed on the panels as in the present embodiment, It is possible to construct a structurally stable roof.

In this embodiment, the mounting clamp 400 for the solar module 6 can be fastened to not only the fastening protrusion 210 but also the reinforcing protrusion 230. Therefore, in the case where the solar module is installed apart from the solar module in order to secure the passageway and the work space in which the operator moves when the solar module 6 is installed, as shown in FIG. 7, When the solar module 6 mounting clamp 400 is installed, the solar module 6 can be spaced apart from the solar module 6 by a distance corresponding to 1/2 of the panel width.

That is, since the conventional problem that the solar modules 6 are inevitably spaced apart at a wide interval is solved, there is an advantage that the solar modules can be installed relatively densely.

Claims (4)

A heat insulating material 100 and first and second metal plates 200 and 300 attached to the upper and lower surfaces of the heat insulating material 100. A fastening protrusion 210 protruding upward is formed at one end in the width direction, An elastic clip 220 is protruded outward at the other end in the width direction so that the elastic clip 220 is elastically fitted to the clamping protrusion 210 of the adjacent panel and is continuously assembled and assembled, A roof panel for a solar module installation for mounting a solar module (6) by mounting a mounting clamp (400) for a solar module (6) on a fastening protrusion (210)
A bolt head receiving groove 212 on which a bolt head of a bolt 4 fastened to fix the panel to the roof supporting structure 2 is formed is formed on an upper surface of the fastening protrusion 210, A water cutting sloped slope 214 having an inclined slope downward toward the outward direction of the fastening protrusion 210 is formed on the inner side of the fastening ditch 210,
The elastic clip 220 includes an inner upward portion 222 bent upward at the end of the first metal plate 200, a horizontal extension portion 224 extending horizontally at the upper end of the inner upward portion 222, An outer downward portion 226 bent downward at the end of the extension portion 224 and an inclined engagement end portion 229 protruding upward from the end of the outer downward portion 226 toward the inner upward portion 222, , ≪ / RTI >
When the elastic clip 220 is inserted into the fastening protrusion 210 of the adjacent panel, the inclined fastening end portion 229 is caught by the water cut-off slope 214 of the fastening protrusion 210. [ Roof panels for module installation.
The method according to claim 1,
The upper surface of the panel is further provided with a reinforcing protrusion 230 protruding upward so as to be parallel to the tightening protrusion 210,
The upper surface of the reinforcing protrusion 230 is further provided with a bolt 4 for fastening the panel to the roof supporting structure 2 And a bolt head receiving groove 232 on which the head of the bolt head is seated is formed on both sides of the reinforcing protrusion 230. A water cutting inclined step 234 inclined downward toward the outward direction is formed on both sides of the reinforcing protrusion 230,
The reinforcing rugged cover 500 includes a top cover portion 502 covering an upper surface of the reinforcing ridge 230 and a pair of downward side portions 504 bent downward from both ends of the top cover portion 502, And a pair of inclined engagement ends 506 inclined upward toward the inside so as to correspond to the water cut-off inclined protrusions 234 of the reinforcing protrusions 230 at the lower end of the downward side surface portion 504. [ Roof panel for optical module installation
The method according to claim 1,
The upper end of the fastening protrusion 210 is formed to be wider than the lower end of the fastening protrusion 210 so that both side surfaces of the fastening protrusion 210 form an inclined surface protruding outward toward the upper side,
Wherein the inner upward portion (222) and the outer downward portion (226) of the elastic clip (220) form an inclined surface protruding outwardly toward the upward direction.
3. The method of claim 2,
The lower side surface portion 504 of the reinforced rugged cover 500 is formed as an inclined surface that protrudes outwardly toward the upper side and at least the lower side surface portion 504 of the reinforcing rugged cover 500 on both sides of the reinforcing ridge 230 And the covered portion forms an inclined surface protruding outward toward the upward direction.

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