KR102323019B1 - Solar module assembly and construction method of roof using this - Google Patents

Abstract

The present invention relates to a solar module assembly and a roof construction method using the same. To implement the above configuration, according to the present invention, the solar module assembly includes: a plurality of connection members installed on a roof panel including a lower panel, a heat insulation board, and an upper panel, which are coupled to each other, and installed at a connection region between unit panels of the upper panel; a solar module having both ends in a longitudinal direction, which are placed and installed on top surfaces of one connection member and an opposite connection member neighboring and facing the connection member, respectively, so that the longitudinal direction is maintained in parallel to a longitudinal direction of the connection member; and a fixing member for coupling the connection member to the both ends of the solar module in the longitudinal direction. According to the disclosed present invention, a solar module assembly is formed by coupling solar modules with different installation directions to one connection member together with a fixing member, and the solar module assembly is easily installed on an inclination structure of a roof panel or a slab to construct a roof, so that construction efficiency of the roof is further improved.

Description

Solar module assembly and construction method of roof using this}

The present invention relates to a photovoltaic module assembly, and more particularly, comprising a connecting member configured to construct a photovoltaic module assembly comprising a connecting member, a fixing member, and a photovoltaic module to more effectively perform various types of roof construction It relates to a solar module assembly and a roof construction method using the same.

In general, the roof of a building is made in various forms, and recently, after assembling a plurality of panels to make a roof panel, a roof is constructed using such a roof panel.

In addition, the roof panel may further include a solar module capable of producing electric energy using sunlight. In the case of a roof panel including a solar module, a roof in which a lower panel, an insulation board, and an upper panel are sequentially combined A solar module may be coupled to the upper surface of the panel.

In addition, the roof may be configured in the form of a slab, and when the solar module is installed on the slab, the solar module may be coupled to the upper surface of the inclined structure in a state in which the inclined structure is installed on the slab.

On the other hand, when the solar module is included in the roof panel, when the solar module is installed on the upper panel of the roof panel, the longitudinal direction of the upper panel installed on the roof panel and the longitudinal direction of the solar module are parallel to each other. It may be installed or installed so that the longitudinal direction of the upper panel installed on the roof panel and the longitudinal direction of the solar module are perpendicular to each other, and when the slab includes the solar module, the longitudinal direction of the inclined structure installed on the slab The longitudinal direction of the solar module may be installed to form a right angle.

Therefore, in the prior art, the coupling member is first installed on the upper panel of the roof panel, and the solar module is installed on the coupling member. There was inconvenient to use, and when the solar module is installed on the inclined structure of the slab, another type of coupling member must be used. As a result, there was a problem in that the construction efficiency of the roof was lowered.

Republic of Korea Patent Registration No. 10-1444454 (Announcement on October 2, 2014)

The present invention has been devised to solve the above problems, and it is possible to effectively construct various types of roofs by simply installing a solar module assembly composed of a connecting member, a solar module, and a fixing member on a roof panel or a sloped structure of a slab. An object of the present invention is to provide a solar module assembly and a method for roof construction using the same.

The technical problems to be solved by the present invention are not necessarily limited to the technical problems mentioned above, and other technical problems not mentioned will be clearly understood by those of ordinary skill in the art to which the present invention belongs from the description below. will be able

The photovoltaic module assembly according to the present invention for realizing the object as described above is, for example, installed along the longitudinal direction on the roof panel to which the lower panel, the insulation board, and the upper panel are included and coupled, the unit panel of the upper panel A plurality of connecting members installed on the other connecting portion in a state in which one connecting portion is connected to each other through a fixture, and a gutter installed across the inside of the connecting portion of the plurality of connecting members installed along the longitudinal direction of the roof panel; , A photovoltaic module in which both ends in the longitudinal direction are placed on the upper surfaces of one connecting member and the other connecting member facing each other in the connecting member, respectively, and the longitudinal direction is maintained parallel to the longitudinal direction of the connecting member; Doedoe connected orthogonally to the inside of one connecting member and the other connecting member, a connecting gutter positioned corresponding to the lower part of the connecting point of the neighboring photovoltaic module and both longitudinal ends of the photovoltaic module and the connecting member are combined The main is configured to include a fixing member.

As another example, the solar module assembly according to the present invention for realizing the object as described above is installed along the longitudinal direction on the roof panel to which the lower panel, the insulation board, and the upper panel are included and coupled, the unit panel of the upper panel A plurality of connecting members installed at the inter-connection portion, a gutter installed across the connecting points of the plurality of connecting members installed along the longitudinal direction of the roof panel, and one connecting member facing adjacent to each other in the connecting member; A photovoltaic module in which both ends in the width direction are placed on the upper surface of the other connecting member, respectively, and the longitudinal direction is maintained at a right angle to the longitudinal direction of the connecting member, and both ends of the photovoltaic module in the longitudinal direction and the connecting member are combined It consists of a fixing member that makes it possible.

The photovoltaic module assembly according to the present invention for implementing the above-described object is another example, in which an inclined structure is installed on a slab, a support frame is installed along the upper surface of the inclined structure, and is installed on the support frame Sunlight in which both ends of the plurality of connecting members are placed and installed on the upper surfaces of one connecting member and the other connecting member facing each other adjacently in the connecting member, and the longitudinal direction of the connecting member is maintained at a right angle to the longitudinal direction of the connecting member A module and a fixing member for coupling both ends in the longitudinal direction of the photovoltaic module and the connecting member are included.

More preferably, the connecting member is extruded to a predetermined length while having a hollow portion, an installation groove is formed on the upper surface, and opposite side surfaces are formed as insertion spaces so that the end of the unit panel can be installed, and the bottom surface is the Doedoe coupled to the insulation board, the installation groove is a third installation groove formed along the longitudinal direction from the center of the width direction of the upper surface of the connection member, and the longitudinal direction from both sides opposite to the width direction around the third installation groove. It may be composed of a first installation groove and a second installation groove formed according to the.

More preferably, the connecting member is extruded to a predetermined length while having a hollow portion, an installation groove is formed on the upper surface, and opposite side surfaces are formed as insertion spaces so that the end of the unit panel can be installed, and the bottom surface is the Doedoe coupled to the insulation board, the installation groove is a third installation groove formed along the longitudinal direction from the center of the width direction of the upper surface of the connection member, and the longitudinal direction from both sides opposite to the width direction around the third installation groove. It may be composed of a first installation groove and a second installation groove formed according to the.

More preferably, the connecting member is extruded to a certain length while having a hollow portion, an installation groove is formed on the upper surface, both sides facing each other are formed as an insertion space, and the bottom surface is coupled with the support frame, the installation groove is A third installation groove formed along the longitudinal direction from the center of the width direction of the upper surface of the connection member, and the first installation groove and the second installation groove formed along the longitudinal direction at both sides opposite to the width direction around the third installation groove It may consist of a home.

More preferably, one and the other lower surface of the solar module in the longitudinal direction are placed inside the upper surface of the one connecting member and the other connecting member, and the one connecting member and the other connecting member are outside the upper surface of the other connecting member. One bottom surface in the longitudinal direction of the photovoltaic module is placed, and one longitudinal side of the fixing member is located on the upper surface of one and the other side in the longitudinal direction of the solar module, respectively, and the other side in the longitudinal direction of the fixing member is a finishing member or another aspect It is located on one upper surface of the optical module in the longitudinal direction, and a fastening member guide is inserted into the third installation groove to guide the fastening screw fastened to the third installation groove through the center of the fixing member. .

More preferably, the fastening member guide is formed with a fastening groove portion provided with a cut-out guide groove in the center thereof, and on both sides opposite to the fastening groove portion, a locking tool is formed so that it can be hooked and fixed to the inside of the third installation groove downward. It is formed to face, and the guide jaw may be formed to face upward.

More preferably, one side and the other bottom surface of the solar module in the width direction are placed on the upper surface of the one connection member and the other connection member, and the one side in the longitudinal direction of the fixing member is one side in the longitudinal direction of the solar module and the other side is located on the upper surface of each, the other side in the longitudinal direction of the fixing member is located on one upper surface in the longitudinal direction of the finishing member or another solar module, and the head of the fastening bolt is installed in the first and second installation grooves and faces upward The fastening portion of the fastening bolt may be fastened to the nut while penetrating the central portion of the fixing member.

The roof construction method using the photovoltaic module assembly according to the present invention for realizing the object as described above is, for example, a first step in which a connecting member is installed at a plurality of connecting portions between unit panels constituting the upper panel of the roof panel. And, a photovoltaic module is installed on the upper surface of the adjacent connecting member at regular intervals, the longitudinal direction of the photovoltaic module is parallel to the longitudinal direction of the connecting member, and the bottom surfaces of both sides of the photovoltaic module in the longitudinal direction are In the second step of being seated along the upper surface of the connecting member, one longitudinal side of the fixing member is seated on the upper surface of one longitudinal side of the solar module, and the other longitudinal side of the fixing member is the longitudinal upper surface of the finishing member or another aspect A third step of being seated on the upper surface of one side in the longitudinal direction of the optical module and fastening to the upper surface of the connecting member through a fastening screw passing through the center of the fixing member is included.

As another example, a roof construction method using a photovoltaic module assembly according to the present invention for realizing the above-described object is a first method in which a connection member is installed at a plurality of connection portions between the unit panels constituting the upper panel of the roof panel). 'Step, the photovoltaic module is installed on the upper surface of the adjacent connecting member at a regular interval, the longitudinal direction of the photovoltaic module is at right angles to the longitudinal direction of the connecting member, both sides of the bottom surface in the width direction of the photovoltaic module The second 'step of being seated on the upper surface of the connecting member and one side in the longitudinal direction of the fixing member is seated on the upper surface of the one side in the longitudinal direction of the solar module, and the other side in the longitudinal direction of the fixing member is the upper surface or other in the longitudinal direction of the finishing member. It is seated on the upper surface of one side in the longitudinal direction of the solar module, and a third 'step in which the central portion of the fixing member and the upper surface of the connecting member are coupled to each other is included.

As another example, a roof construction method using a photovoltaic module assembly according to the present invention for realizing the object as described above is another example, in which an inclined structure is installed on a slab, and while maintaining a constant distance along the longitudinal direction of the upper surface of the inclined structure, A first "step in which a plurality of support frames are installed at a right angle, a second "step in which a connecting member is installed at a right angle on the support frame, and a solar module on the upper surface of the adjacent connecting member at regular intervals This is installed, while the longitudinal direction of the photovoltaic module is perpendicular to the longitudinal direction of the connecting member, a third "step in which both lower surfaces of the photovoltaic module in the width direction are seated on the upper surface of the connecting member and the longitudinal direction of the fixing member One side is seated on the upper surface of one side in the longitudinal direction of the solar module, and the other side in the longitudinal direction of the fixing member is seated on the upper surface in the longitudinal direction of the finishing member or the upper surface of one side in the longitudinal direction of the other solar module, the center of the fixing member and the A fourth "step in which the upper surface of the connecting member is coupled to each other is included and configured.

More preferably, a third installation groove is formed in the center of the upper surface of the connection member in the longitudinal direction, and the first installation groove and the second installation groove are formed on both sides in the width direction of the upper surface of the connection member based on the third installation groove in the longitudinal direction. Each of the installation grooves is formed, and the fastening screw passes through the fastening groove of the center of the fastening member guide in a state in which the fastening member guide is installed in the third installation groove and is fastened to the third installation groove.

More preferably, a third installation groove is formed in the center of the upper surface of the connection member in the longitudinal direction, and the first installation groove and the second installation groove are formed along the longitudinal direction on both sides in the width direction of the upper surface of the connection member based on the third installation groove. Each of the installation grooves is formed, the head of the fastening bolt is fixed to the first and second installation grooves, and the fastening part protruding upward of the fastening bolt may pass through the center of the fixing member and be fastened with the nut.

The photovoltaic module assembly of the present invention according to the above configuration and the roof construction method using the same have the following effects.

In other words, a photovoltaic module assembly is formed by combining photovoltaic modules with different installation directions on one connecting member together with a fixing member, and the solar module assembly is easily installed on the inclined structure of the roof panel or slab to construct the roof. Accordingly, it has the effect that the construction efficiency of the roof can be further improved.

On the other hand, since the effects of the present invention described as described above are naturally exhibited by the configuration of the described content regardless of whether the inventor recognizes it, the above-described effects are only a few effects according to the described content, and all effects recognized or actual by the inventor should not be accepted as having been described.

In addition, the effect of the present invention will have to be further understood by the overall description of the specification, and even if it is not described in an explicit sentence, a person of ordinary skill in the art to which the described content belongs through this specification has such an effect. If it is an effect that can be recognized as the effect, it should be viewed as the effect described in the present specification.

1 is an exploded perspective view illustrating a solar module assembly installed on a roof panel according to an embodiment of the present invention.
2 is a perspective view illustrating a state in which a solar module assembly is coupled to a roof panel according to an embodiment of the present invention.
3A and 3B are cross-sectional views showing a part of a process of assembling a solar module assembly to a roof panel according to an embodiment of the present invention.
4A and 4B are cross-sectional views showing other parts of a process of assembling a solar module assembly to a roof panel according to an embodiment of the present invention.
5 is an exploded perspective view illustrating a solar module assembly installed on a roof panel according to another embodiment of the present invention.
6 is a perspective view illustrating a state in which a solar module assembly is coupled to a roof panel according to another embodiment of the present invention.
7A and 7B are cross-sectional views showing a part of a process of assembling a solar module assembly to a roof panel according to another embodiment of the present invention.
8 (a) and (b) are cross-sectional views showing other parts of the process of assembling a solar module assembly to a roof panel according to another embodiment of the present invention.
9 is an exploded perspective view showing a solar module assembly installed on a slab according to another embodiment of the present invention.
10 is a perspective view showing a state in which the solar module assembly is coupled to the slab according to another embodiment of the present invention.
11 (a), (b) is a cross-sectional view showing a part of the process of assembling a solar module assembly on a slab according to another embodiment of the present invention.
Figure 12 (a), (b) is a cross-sectional view showing another part of the process of assembling the solar module assembly on the slab according to another embodiment of the present invention.

Hereinafter, the configuration and operation according to a preferred embodiment of the present invention will be described in detail with reference to the accompanying drawings.

This is intended to describe in detail enough to be easily implemented by those of ordinary skill in the art to which the present invention pertains, and this does not mean that the technical spirit and scope of the present invention is limited. .

In addition, in adding reference numerals to the components of each drawing, it should be noted that only the same components are marked with the same reference numerals as much as possible even though they are displayed on different drawings, considering the configuration and operation of the present invention. Therefore, the terms specifically defined may vary depending on the intention or custom of the user or operator, and the definition of these terms should be determined based on the content throughout this specification.

In addition, throughout the specification, when a part "includes" a certain component, this means that other components may be further included, rather than excluding other components, unless otherwise stated.

Hereinafter, the configuration of the present invention will be described in more detail with reference to the illustrated drawings.

First, the photovoltaic module assembly is largely divided into a connecting member installed on the inclined structure of a roof panel or slab, and a photovoltaic module installed on the upper surface of the connecting member and a fixing member for fixing the photovoltaic module to the connecting member It can be, and each configuration will be described in detail with reference to the illustrated drawings below.

First, the roof panel 100,

It is installed on the frame constituting the roof structure of the building and serves to finish the roof, and the lower panel 110 coupled to the frame that is the roof structure, the insulation board 120 and the insulation board installed on the lower panel The upper panel 130 coupled on the 120 may be included and configured.

In the roof panel 100, a lower panel 110, an insulation board 120, and an upper panel 130 are sequentially stacked, and a 'Y'-shaped fixing bar installed on the insulation board 120 (not shown). ) may be included and combined with each other.

In addition, the upper panel 130 of the roof panel 100 is composed of a plurality of unit panels formed by bending the opposite sides upward, and then both sides of the neighboring unit panels may be overlapped and combined in a manner such as folding.

The connecting member 200 is

As illustrated in FIGS. 1 and 2 , the end portions of the unit panel 131a and the unit panel 131b that are installed in the longitudinal direction on the heat insulation board 120 and constitute the upper panel 130 are connected to both sides, and these A solar module 400 to be described later is installed on the upper side of the connection member 200 .

The connection member 200 may be extruded to a predetermined length so that the hollow part 220 is formed in the longitudinal direction at the center while having a predetermined height, for example, and an installation groove may be formed on a flat upper surface that is horizontal. have.

A plurality of installation grooves may be formed on the upper surface of the connection member 200, which is a connection member ( 200) to have compatibility without the need to replace or change the location.

In the plurality of installation grooves formed on the upper surface of the connection member 200, a third installation groove 213 is formed in the longitudinal direction at the center of the width direction of the upper surface of the connection member 200, and the third installation groove 213 is The first installation groove 211 and the second installation groove 212 may be formed along the longitudinal direction of the upper surface while being parallel to each other on both sides opposite to the center in the width direction.

In addition, the first installation groove 211 , the second installation groove 212 , and the third installation groove 213 may have an inwardly recessed shape, and for example, the head may be in a state in which a fastening member such as a bolt is turned over. It may be of a shape that can be fixed.

In addition, the insertion space 230 may be formed to face each end of the adjacent unit panels 131a and 131b on both sides of the connecting member 200 .

Accordingly, the upper panel 130 has a portion of the adjacent unit panel end portions are directly coupled to each other without installation of the connecting member 200 to form a coupling portion, and between some adjacent unit panels 131a and 131b In a state in which the connecting member 200 is installed, the end portions of the unit panels 131a and 131b may be installed in the insertion spaces 230 of both sides of the connecting member 200 .

Here, the connecting member 200 is installed on one connecting portion of the unit panels 131a and 131b, and the other connecting portion may be configured to be spaced apart from each other, and the spaced apart connecting portion is provided with a fixture 132, The unit panels 131a and 131b may be fixed so as not to be separated from each other.

And the bottom surface of the connection member 200 has a flat surface forming a horizontal, can be coupled to the insulation board 120 through a fastening member, the 'Y'-shaped fixing bar of the front and rear surfaces of the insulation board 120 . When installed in the, a portion of the bottom surface of the connecting member 200 may be coupled to such a fixing bar.

The connecting member 200 installed along the longitudinal direction of the roof panel 100 may be divided into one or a plurality of pieces according to the length of the roof panel 100 and installed while forming a straight line. In this case, the connecting member 200 A gutter 210 of a certain length having an approximate cross section of a 'U' shape is fitted into the hollow part 220 of the , and the installed gutter 210 is installed across the connection point of the divided connection member 200 while installing the connection member. While serving to connect and support the connection points of the 200, it is possible to receive rainwater, etc. that may be introduced into the gaps of the connection points, and discharge them to the outside.

The solar module 400 is

It is installed on the roof panel 100 or the inclined structure 510 installed on the slab 500 to receive sunlight and generate necessary energy through solar power generation.

As illustrated in FIGS. 1 and 2 , the solar module 400 is installed on the upper surface of one connecting member 200a and the other connecting member 200b installed on the upper panel 130 of the roof panel 100 . can be

Here, one connecting member 200a and the other connecting member 200b may have a connecting gutter 250 installed in a state in which both ends are coupled inside each other and are orthogonal to each other, and this connecting gutter 250 is a roof panel ( The role of receiving rainwater falling through the connection point of the solar panel 100 and moving it to the upper panel 130 while being positioned below the connection point of the solar panel 100 installed along the longitudinal direction of 100) is of course It can serve to improve the installation strength of the one connecting member (200a) and the other connecting member (200b).

The photovoltaic module 400 may be configured as a photovoltaic module assembly together with the above-described connection member 200 and the fixing member 300 , and this photovoltaic module assembly is installed on the upper panel 130 of the roof panel 100 . Although it is installed, it may be installed on the upper panel 130 of the roof panel 100 in a state in which the photovoltaic module 400, the connecting member 200, and the fixing member 300 are first combined to form a photovoltaic module assembly, The connection member 200 is first coupled to the upper panel 130, and the solar module 400 and the fixing member 300 may be constructed in the order in which the connection member 200 is coupled to the connection member 200. The order may be changed according to various conditions and environments required for construction and the intention of the operator.

On the other hand, when the solar module 400 is installed on the connection member 200 installed on the upper panel 130 of the roof panel 100, the solar module 400 is installed on the connection member 200 in consideration of the incident direction of the sun and the diurnal motion. The installation direction of the solar module 400 to be installed may be changed.

That is, as illustrated in FIG. 2 , when the photovoltaic module 400 is installed on the upper surface of the adjacent connecting member 200 , the photovoltaic module 400 has a longitudinal direction in the longitudinal direction of the connecting member 200 . and may be installed to be parallel to each other, and as illustrated in FIG. 6 , the longitudinal direction of the solar module 400 may be installed to form a right angle with the longitudinal direction of the connecting member 200 .

Therefore, when the longitudinal direction of the photovoltaic module 400 is installed while being parallel to the longitudinal direction of the connecting member 200, both bottom surfaces of the photovoltaic module 400 in the longitudinal direction are adjacent to each other as in FIGS. 1 and 2 . In the upper surface of the connecting member 200 facing each other, they are respectively placed on the inside with respect to the third installation groove 213, and on the outside with respect to the third installation groove 213 on the upper surface of the connecting member 200, the other As the photovoltaic module is positioned, the lower surface of one side in the longitudinal direction of the other photovoltaic module is placed, or when the photovoltaic module is closed with the finishing member 600 , the bottom face of the closing member 600 is placed.

And the photovoltaic module 400 and another photovoltaic module or the photovoltaic module 400 and the closing member 600 are coupled to the connecting member 200 through the fixing member 300 .

That is, one side in the longitudinal direction of the fixing member 300 is respectively located on the upper surface of the one side and the other side in the longitudinal direction of the solar module 400, and the other side of the fixing member 300 in the longitudinal direction is when another solar module is located. is located on the upper surface of one side in the longitudinal direction of another solar module, and when the closing member 600 is located, it is located on the upper surface of the closing member 600 .

In this state, as shown in (a) and (b) of FIG. 4 , the fastening screw 310 passes through the center of the upper surface of the fixing member 300 and is fastened to the bottom surface of the third installation groove 213 of the lower connection member 200 . will become

Here, the fastening screw 310 passing through the center of the upper surface of the fixing member 300 is incorrectly fastened in the process of being fastened to the bottom surface through the upper inlet of the third installation groove 213, or the fastening screw 310 is shaken. This may make the fastening work inconvenient.

Accordingly, by installing the fastening member guide 240 in the third installation groove 213 of the connecting member 200, the fastening screw 310 is provided in the third installation groove 213 by receiving the guide of the fastening member guide 240. may be configured to be accurately and easily fastened.

This fastening member guide 240 has a fastening groove 243 provided with a cut-out guide groove 244 in the center as shown in FIG. 1 as a preferred embodiment, and is formed on both sides opposite to the fastening groove 243 on the lower side. In order to be fixed to the third installation groove 213, the locking hole 241 may be formed to face, and the guide jaw 242 may be formed to face the top thereof.

Accordingly, when the fastening member guide 240 is installed in the third installation groove 213 , the lower engaging hole 241 of the fastening member guide 240 is caught and fixed inside the third installation groove 213 , and is fixed to the upper part of the fastening member guide 240 . The longitudinal end of the photovoltaic module 400 is supported on the guide jaw 242 of the or a locking part 610 provided in the finishing member 600 is hooked and fixed, and the fastening penetrating the center of the fixing member 300 . The screw 310 can be accurately fastened to the bottom surface inside the third installation groove 213 after passing through the cut-out guide groove 244 while being guided to the fastening groove 243 of the fastening member guide 240 .

On the other hand, as illustrated in FIG. 6 , when the photovoltaic module 400 is installed on the upper surface of the adjacent connecting member 200 , the photovoltaic module 400 has a longitudinal direction of the connecting member 200 in the longitudinal direction. and may be installed at right angles to each other.

Therefore, when the longitudinal direction of the photovoltaic module 400 is installed to form a right angle with the longitudinal direction of the connecting member 200, both bottom surfaces of the photovoltaic module 400 in the width direction are adjacent to each other and facing the connecting member 200 ) is placed on the upper surface of each, and one longitudinal side of the solar module 400 and the other side in the longitudinal direction are connected to one side in the longitudinal direction of the other solar module, or one side in the longitudinal direction of the closing member 600 is connected, and the solar module ( 400) The longitudinal direction of the photovoltaic module different from the longitudinal direction and the longitudinal direction of the photovoltaic module 400 and the longitudinal direction of the finishing member 600 may be combined with the connecting member 200 through the fixing member 300a. .

That is, one side in the longitudinal direction of the fixing member 300a is respectively located on the upper surface of the one side and the other side in the longitudinal direction of the solar module 400, and the other side in the longitudinal direction of the fixing member 300a is another solar module. is located on the upper surface of one side in the longitudinal direction of another solar module, and when the closing member 600 is located, it is located on the upper surface of the closing member 600 .

In this state, the central portion of the fixing member 300a faces the upper surface of the connection member 200 and is coupled to each other in a contact state, for example, a fastening hole is formed in the central portion of the fixing member 300a, and the connection member 200 ), when the head of the fastening bolt 320 is fixed in the first installation groove 211 and the second installation groove 212, the fastening part of the fastening bolt 320 passes through the fastening hole of the fixing member 300a, As the nut 330 is fastened to the fastening part penetrating the fastening hole, the solar module 400 and another solar module or the photovoltaic module 400 and the closing member 600 are connected by the fixing member 300a. (200) can be coupled.

On the other hand, the roof may be configured in the form of a slab 500 , and in the case of the slab 500 , sunlight on the inclined structure 510 in a state in which the inclined structure 510 is installed on the slab 500 . A module 400 may be installed.

That is, as illustrated in FIGS. 9 and 10 , the inclined structure 510 having a certain inclination is installed on the slab 500 while having a predetermined height and having a longer length than the other one, and the inclined structure 510 is installed. A plurality of support frames 520 are installed at regular intervals along the upper surface of the 510 , and these support frames 520 may be installed while forming a right angle to the longitudinal direction of the upper surface of the inclined structure 510 .

In addition, the connecting member 200 serves to connect the plurality of support frames 520 to each other while being parallel to the longitudinal direction of the upper surface of the inclined structure 510 and forming a right angle with the support frame 520 .

In this state, the photovoltaic module 400 is placed on the upper surface of the connecting member 200 facing each other with the bottom surfaces of both sides in the width direction adjacent to each other, and on one side and the other side in the longitudinal direction of the photovoltaic module 400 of the other photovoltaic module. One side in the longitudinal direction may be connected, or one side in the longitudinal direction of the closing member 600 may be connected, and the longitudinal direction of the photovoltaic module 400 and the longitudinal direction of the photovoltaic module 400 and the longitudinal direction of the photovoltaic module 400 are closed. The longitudinal direction of the member 600 may be coupled to the connecting member 200 through the fixing member 300a.

That is, one side in the longitudinal direction of the fixing member 300a is respectively located on the upper surface of one side in the longitudinal direction of the solar module 400, and the other side in the longitudinal direction of the fixing member 300a is another solar module. It is positioned on the upper surface of one side in the longitudinal direction of the solar module, and when the closing member 600 is positioned, it is positioned on the upper surface of the closing member 600 .

In this state, the central portion of the fixing member 300a faces the upper surface of the connection member 200 and is coupled to each other in a contact state, for example, a fastening hole is formed in the central portion of the fixing member 300a, and the connection member 200 ), when the head of the fastening bolt 320 is fixed in the first installation groove 211 and the second installation groove 212 of the fastening bolt 320, the fastening part of the fastening bolt 320 passes through the fastening hole of the fixing member 300a By fastening the nut 330 to the fastening part penetrating the fastening hole, the solar module 400 and another solar module or the solar module 400 and the closing member 600 are connected by the fixing member 300a to the connecting member. (200) can be coupled.

On the other hand, as an example of a roof construction method using the solar module assembly configured as described above, as illustrated in FIGS. 3 (a), (b) and 4 (a), (b), the lower panel ( 110) and the insulation board 120 and the upper panel 110 are assembled, in the roof panel 100, the unit panel forming the upper panel 130 is configured such that adjacent ends overlap each other, or do not overlap and are spaced apart. The lower surface of the connecting member 200 is coupled to the insulation board 120 while the connecting member 200 is installed between the unit panels 131a and 131b that are spaced apart from each other, and the adjacent unit panels 131a (131a) ( The first step of installing the ends of the 131b) in the insertion spaces 230 on both sides of the connecting member 200 may be performed.

After this first step, the photovoltaic module 400 is installed on the other connecting member 200b installed in a state of adjoining and facing one of the connecting members 200 among the connecting members 200 on the upper panel 130 . In this case, the second step in which the longitudinal direction of the solar module 400 and the longitudinal direction of the connecting member 200 are parallel to each other may be performed.

In this second step, one bottom surface in the longitudinal direction of the solar module 400 is placed inside the upper surface of one connection member 200a, and the other bottom surface in the longitudinal direction of the solar module 400 is the other connection member 200b. It is placed inside the upper surface of the, and the longitudinal bottom surface of the closing member 600 is placed on the same side of the upper surface of the one connecting member 200a and the other connecting member 200b. One or the other longitudinal side of the solar module may be placed.

And after this second step, the third step in which the solar module 400 and the finishing member 600 placed on the upper surface of the connecting member 200 are coupled to the connecting member 200 by the fixing member 300 is performed. can be

In this third step, in a state where one side in the longitudinal direction of the fixing member 300 is located on one upper surface in the longitudinal direction of the solar module 400 and one upper surface in the longitudinal direction of the finishing member 600, the fastening screw 310 is the fixing member ( As it penetrates through the center of the upper surface of 300) and is fastened to the inside of the third installation groove 213 of the one connecting member 200a located at the lower side, it is closed with one side in the longitudinal direction of the solar module 400 through the fixing member 300 The member 600 may be fixed to one connecting member 200a.

Here, one side in the longitudinal direction of the other photovoltaic module is positioned at the position of the closing member 600 as needed, and it may be fixed to one connection member 200a through the fixing member 300 together with the photovoltaic module 400. have.

In addition, the other side in the longitudinal direction of the photovoltaic module 400 positioned on the upper surface of the other connecting member 200b and the other side in the longitudinal direction of the other photovoltaic module instead of the closing member 600 or such a closing member 600 In addition, it may be fixed to the other connecting member 200b through the fixing member 300 and the fastening screw 310 .

On the other hand, the fastening screw 310 fastened to the third installation groove 213 of the connecting member 200 through the fixing member 300 is fastened with a cut-out guide groove 244 in the center for accuracy and ease of fastening. A groove portion 243 is formed, and on both sides opposite to the fastening groove portion 243, a locking hole 241 is formed so as to be locked inside the third installation groove 213 downwardly, A fastening member guide 240 formed to face the guide jaws 242 may be provided upwardly and installed in the third installation groove 213 .

That is, the fastening member guide 240 has a lower fitting hole 241 caught inside the third installation groove 213 and fixed to one side of the upper guide jaw 242 in the longitudinal direction of the solar module 400 . is supported, and when the closing member 600 is positioned on the other side, the locking part 610 provided on the inner surface of the closing member 600 is configured to be caught by the guide jaw 242 and fixed, and the fastening member guide ( By forming a cut-out guide groove 244 in the fastening groove 243 located at the center of the 20), the fastening screw 310 easily penetrates the fastening groove 243 through the cut-out guide groove 244 to the third installation groove. It can be accurately and stably fastened to the bottom surface of (213).

On the other hand, as another example of a roof construction method using the solar module assembly configured as above, the lower panel ( 110) and the insulation board 120 and the upper panel 110 are assembled, in the roof panel 100, the unit panel forming the upper panel 130 is configured such that adjacent ends overlap each other, or do not overlap and are spaced apart. The lower surface of the connecting member 200 is coupled to the insulation board 120 while the connecting member 200 is installed between the unit panels 131a and 131b that are spaced apart from each other, and the adjacent unit panels 131a (131a) ( The end of 131b) may be installed in the insertion space 230 on both sides of the connecting member 200 in the first 'step.

After this 1' step, the solar module 400 is installed on the other connecting member 200b installed in a state that is adjacent to and facing the one connecting member 200a on the upper panel 130. A second 'step in which the longitudinal direction of the module 400 and the longitudinal direction of the connecting member 200 are installed at right angles to each other may be performed.

In this second 'step, one bottom surface of the photovoltaic module 400 in the width direction is placed on the upper surface of one connection member 200a, and the other bottom surface in the width direction of the solar module 400 is the other connection member 200b. is placed on the upper surface of the photovoltaic module 400, the fixing member 300a and the finishing member 600 along the longitudinal direction on one side and the other side in the longitudinal direction may be sequentially installed correspondingly.

Here, instead of using the finishing member 600 as needed, on one side or the other side or both of the solar module 400 in the longitudinal direction, other solar modules may be installed in parallel with each other.

Therefore, when the solar module 400 and the closing member 600 are fixed to the connecting member 200 through the fixing member 300a, both upper ends of the fixing member 300a are the solar module 400 and the closing member It is in a state of being seated on the upper surface of the 600 , and the center thereof may be in contact with the upper surface of the connecting member 200 in a depressed state.

And after this second 'step, the photovoltaic module 400 and the finishing member 600 placed on the upper surface of the connecting member 200 are coupled to the connecting member 200 through the fixing member 300a in the third 'step. can be performed.

In this third step, the head of the fastening bolt 320 is fixed to the first and second installation grooves 211 and 212 formed on the upper surface of the connecting members 200a and 200b, and The fastening part maintains an upwardly protruding state.

Accordingly, the fastening portion of the fastening bolt 320 is in a state of penetrating the bottom surface recessed from the central side of the fixing member 300a, and the nut 330 is fastened to the penetrating fastening portion, so that the sun through the fixing member 300a The optical module 400 and the finishing member 600 or other solar modules may be fixed to the connecting members 200a and 200b.

On the other hand, as another example of a roof construction method using the solar module assembly configured as described above, as illustrated in FIGS. 500), the inclined structure 510 is installed, and a first "step" in which a plurality of support frames 520 are installed at right angles while maintaining constant intervals along the longitudinal direction on the upper surface of the inclined structure 510 may be performed. have.

And after this first step, the connecting member 200 is installed on the support frame 520, and a plurality of connecting members 200 are installed at regular intervals while forming a right angle to the longitudinal direction of the support frame along the upper surface of the support frame. "Steps can be performed.

And after the second "step, the photovoltaic module 400 is installed on the other connecting member 200b installed adjacent to and facing the one connecting member 200a on the upper panel 130, in this case the photovoltaic module 400 ) in the longitudinal direction of the connecting member 200 and the longitudinal direction of the installation so as to form a right angle, the third "step may be performed.

In this third "step, one bottom surface in the width direction of the solar module 400 is placed on the upper surface of one connection member 200a, and the other bottom surface in the width direction of the solar module 400 is the other connection member 200b. The fixing member 300a and the finishing member 600 may be sequentially installed on one side and the other side in the longitudinal direction of the photovoltaic module 400 in correspondence thereto.

Here, instead of using the finishing member 600 as needed, other solar modules may be installed in parallel to one another in one or the other side or both of the solar module 400 in the longitudinal direction.

Therefore, when the solar module 400 and the closing member 600 are fixed to the connecting member 200 through the fixing member 300a, both upper ends of the fixing member 300a are the solar module 400 and the closing member It is in a state of being seated on the upper surface of the 600 , and the center thereof may be in contact with the upper surface of the connecting member 200 in a depressed state.

And after the third "step, the solar module 400 and the finishing member 600 placed on the upper surface of the connecting member 200 are coupled with the connecting member 200 through the fixing member 300a, a fourth "step." can be performed.

In this fourth "step, the head of the fastening bolt 320 is fixed to the first and second installation grooves 211 and 212 formed on the upper surface of the connecting members 200a and 200b, and the fastening bolt 320 is The fastening part maintains an upwardly protruding state.

Accordingly, the fastening portion of the fastening bolt 320 is in a state of penetrating the bottom surface recessed from the central side of the fixing member 300a, and the nut 330 is fastened to the penetrating fastening portion, so that the sun through the fixing member 300a The optical module 400 and the finishing member 600 or other solar modules may be fixed to the connecting members 200a and 200b.

As described above, in the detailed description of the present invention, specific embodiments have been described, but various modifications are possible without departing from the scope of the described content. Therefore, the scope of the described content does not need to be limited to the described embodiments, and should be defined by the claims described below as well as the claims and equivalents.

100: roof panel 110: lower panel
120: insulation board 130: upper panel
131a, 131b: unit panel 132: fixture
200: connecting member 200a: one connecting member
200b: the other connecting member 210: gutter
211: first installation groove 212: second installation groove
213: third installation home 220: hollow part
230: insertion space 240: fastening member guide
241: fitting hole 242: guide jaw
243: fastening groove 244: cut-out guide groove
250: connecting gutter 300,300a: fixing member
310: fastening screw 320: fastening bolt
330: nut 400: solar module
500: slab 510: inclined structure
520: support frame 600: finishing member
610: locking part

Claims (14)

Installed along the longitudinal direction on the roof panel 100 including the lower panel 110 , the insulation board 120 , and the upper panel 130 , one side between the unit panels 131a and 131b of the upper panel 130 . a plurality of connecting members 200 installed in the other connecting portion in a state in which the connecting portions are connected to each other through the fixture 132;
a gutter 210 installed inside the connection point of the plurality of connection members 200 installed along the longitudinal direction of the roof panel 100;
In the connection member 200, both ends in the longitudinal direction are respectively placed on the upper surfaces of the connecting member 200a and the other connecting member 200b facing each other, and the longitudinal direction is the longitudinal direction of the connecting member 200 and Solar module 400 to be maintained in parallel;
a connection gutter 250 that is orthogonally connected to the inside of the one connection member 200a and the other connection member 200b, and is positioned corresponding to the lower portion of the connection point of the neighboring solar module 400; and
a fixing member 300 for coupling both ends of the solar module 400 in the longitudinal direction and the connecting member 200;
The connecting member 200,
It has a hollow part 220 and is extruded to a certain length, an installation groove is formed on the upper surface, and opposite sides are inserted into the insertion space 230 so that the ends of the unit panels 131a and 131b can be installed. is formed, and the bottom surface is coupled on the insulation board 120,
The installation groove includes a third installation groove 213 formed along the longitudinal direction from the center in the width direction of the upper surface of the connecting member 200, and lengths from both sides facing the third installation groove 213 in the width direction. It is composed of a first installation groove 211 and a second installation groove 212 formed along the direction, wherein the first installation groove 211 and the second installation groove 212 are coupled to the head of the fastening bolt 320 . is configured to be
One side and the other bottom surface of the solar module 400 in the longitudinal direction are placed inside the upper surface of the one connecting member 200a and the other connecting member 200b,
On the outside of the upper surface of the one connecting member 200a and the other connecting member 200b, one bottom surface in the longitudinal direction of the finishing member 600 or another solar module is placed,
One side in the longitudinal direction of the fixing member 300 is respectively located on one and the other upper surface of the other side in the longitudinal direction of the solar module 400, and the other side in the longitudinal direction of the fixing member 300 is a finishing member 600 or another aspect. It is located on one upper surface of the optical module in the longitudinal direction,
The fastening member guide 240 is inserted into the third installation groove 213 to guide the fastening screw 310 fastened to the third installation groove 213 through the center of the fixing member 300 while being installed. composed,
The fastening member guide 240,
A fastening groove portion 243 provided with a cut-out guide groove 244 is formed in the center, and on both sides opposite to the fastening groove portion 243, it can be hooked and fixed to the inside of the third installation groove 213 downward. A pair of locking holes 241 are formed to face each other, and a pair of guide jaws 242 face each other and protrude in the vertical direction. The lower panel 110 , the insulation board 120 , and the upper panel 130 are installed along the longitudinal direction of the roof panel 100 including the upper panel 130 , and are connected between the unit panels 131a and 131b of the upper panel 130 . a plurality of connecting members 200 installed at the site;
a gutter 210 installed across the inside of the connection point of the plurality of connection members 200 installed along the longitudinal direction of the roof panel 100;
In the connecting member 200, both ends are placed on the upper surfaces of one connecting member 200a and the other connecting member 200b facing each other in the width direction, respectively, and the longitudinal direction is the longitudinal direction of the connecting member 200 and Solar module 400 to maintain a right angle; and
A fixing member (300a) for coupling both ends of the solar module (400) in the longitudinal direction and the connecting member (200); includes;
The connecting member 200,
It has a hollow part 220 and is extruded to a certain length, an installation groove is formed on the upper surface, and opposite sides are inserted into the insertion space 230 so that the ends of the unit panels 131a and 131b can be installed. is formed, and the bottom surface is coupled on the insulation board 120,
The installation groove includes a third installation groove 213 formed along the longitudinal direction from the center in the width direction of the upper surface of the connecting member 200, and lengths from both sides facing the third installation groove 213 in the width direction. It is composed of a first installation groove 211 and a second installation groove 212 formed along the direction, wherein the first installation groove 211 and the second installation groove 212 are coupled to the head of the fastening bolt 320 . Solar module assembly, characterized in that configured to be. The inclined structure 510 is installed on the slab 500 , the support frame 520 is installed along the upper surface of the inclined structure 510 , and a plurality of connecting members 200 are installed on the support frame 520 . ; and
In the connecting member 200, both ends are placed on the upper surfaces of one connecting member 200a and the other connecting member 200b facing each other in the width direction, respectively, and the longitudinal direction is the longitudinal direction of the connecting member 200 and Solar module 400 to maintain a right angle; and
A fixing member (300a) for coupling both ends of the solar module (400) in the longitudinal direction and the connecting member (200); includes;
The connecting member 200,
It has a hollow part 220 and is extrusion-molded to a certain length, an installation groove is formed on the upper surface, both sides facing each other are formed as an insertion space 230, and the bottom surface is coupled with the support frame 520,
The installation groove includes a third installation groove 213 formed along the longitudinal direction from the center in the width direction of the upper surface of the connecting member 200, and lengths from both sides facing the third installation groove 213 in the width direction. It is composed of a first installation groove 211 and a second installation groove 212 formed along the direction, wherein the first installation groove 211 and the second installation groove 212 are coupled to the head of the fastening bolt 320 . Solar module assembly, characterized in that configured to be. delete delete delete delete delete 4. The method according to claim 2 or 3,
On the upper surface of the one connecting member 200a and the other connecting member 200b, one side and the other lower surface in the width direction of the photovoltaic module 400 are placed,
One side in the longitudinal direction of the fixing member 300a is respectively located on one and the other upper surface of the other side in the longitudinal direction of the solar module 400, and the other side in the longitudinal direction of the fixing member 300a is a finishing member 600 or other Located on one upper surface of the solar module in the longitudinal direction,
The head of the fastening bolt 320 is installed in the first and second installation grooves 211 and 212, and the fastening part of the fastening bolt 320 facing upward passes through the center of the fixing member 300a. Solar module assembly, characterized in that fastened with the nut (330) in. A method of constructing a roof using the solar module assembly according to claim 1 ,
A first step in which the connecting member 200 is installed at a plurality of connecting portions between the unit panels 131a and 131b constituting the upper panel 130 of the roof panel 100;
A photovoltaic module 400 is installed on the upper surface of the connecting member 200 that is adjacent at regular intervals, and the longitudinal direction of the photovoltaic module 400 is parallel to the longitudinal direction of the connecting member 200. a second step in which the bottom surfaces of both sides of the solar module 400 in the longitudinal direction are seated along the top surface of the connection member 200; and
One longitudinal side of the fixing member 300 is seated on the upper surface of the one side in the longitudinal direction of the solar module 400 , and the other side of the fixing member 300 in the longitudinal direction is the upper surface in the longitudinal direction of the closing member 600 or other sunlight. a third step of being seated on the upper surface of one side of the module in the longitudinal direction, and fastening the fastening screw 310 through the center of the fixing member 300 to be fastened to the upper surface of the connecting member 200;
Construction method of a roof using a solar module assembly, characterized in that it contains. A method of constructing a roof using the solar module assembly according to claim 2,
a first 'step in which the connecting member 200 is installed at a plurality of connecting portions between the unit panels 131a and 131b constituting the upper panel 130 of the roof panel 100;
A photovoltaic module 400 is installed on the upper surface of the connecting member 200 that is adjacent at regular intervals, and the longitudinal direction of the photovoltaic module 400 forms a right angle with the longitudinal direction of the connecting member 200. a second 'step in which the lower surfaces of both sides of the photovoltaic module 400 in the width direction are seated on the upper surface of the connecting member 200; and
One longitudinal side of the fixing member 300a is seated on the upper surface of one side in the longitudinal direction of the solar module 400, and the other side in the longitudinal direction of the fixing member 300a is the upper surface in the longitudinal direction of the finishing member 600 or other sunlight. a third 'step seated on the upper surface of one side of the module in the longitudinal direction, wherein the central portion of the fixing member (300a) and the upper surface of the connecting member (200) are coupled to each other;
Construction method of a roof using a solar module assembly, characterized in that it contains. A method of constructing a roof using the solar module assembly according to claim 3,
A first "step" in which the inclined structure 510 is installed on the slab 500, and a plurality of support frames 520 are installed at a right angle while maintaining a constant distance along the longitudinal direction of the upper surface of the inclined structure 510;
a second "step in which the connecting member 200 is installed at a right angle on the support frame 520 ;
A photovoltaic module 400 is installed on the upper surface of the connecting member 200 that is adjacent at regular intervals, and the longitudinal direction of the photovoltaic module 400 forms a right angle with the longitudinal direction of the connecting member 200. A third "step in which the lower surfaces of both sides of the photovoltaic module 400 in the width direction are seated on the upper surface of the connecting member 200; and
One longitudinal side of the fixing member 300a is seated on the upper surface of one side in the longitudinal direction of the solar module 400, and the other side in the longitudinal direction of the fixing member 300a is the upper surface in the longitudinal direction of the finishing member 600 or other sunlight. a fourth "step of being seated on the upper surface of one side of the module in the longitudinal direction, and coupling the central portion of the fixing member 300a and the upper surface of the connecting member 200 to each other;
Construction method of a roof using a solar module assembly, characterized in that it contains. 11. The method of claim 10,
A third installation groove 213 is formed at the center of the upper surface of the connection member 200 in the longitudinal direction, and on both sides of the upper surface of the connection member 200 in the width direction with respect to the third installation groove 213 in the longitudinal direction. A first installation groove 211 and a second installation groove 212 are respectively formed along the
In a state in which the fastening member guide 240 is installed in the third installation groove 213 , the fastening screw 310 penetrates the fastening groove portion 243 of the center of the fastening member guide 240 to the third installation groove 213 . ) of a roof construction method using a solar module assembly, characterized in that it is fastened to the 13. The method according to claim 11 or 12,
A third installation groove 213 is formed at the center of the upper surface of the connection member 200 in the longitudinal direction, and on both sides of the upper surface of the connection member 200 in the width direction with respect to the third installation groove 213 in the longitudinal direction. A first installation groove 211 and a second installation groove 212 are respectively formed along the
The head of the fastening bolt 320 is fixed to the first and second installation grooves 211 and 212, and the fastening part protruding upward of the fastening bolt 320 penetrates the center of the fixing member 300a to form a nut ( 330) and the construction method of a roof using a solar module assembly, characterized in that it is fastened.

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