KR101959075B1 - Building integrated photo voltaic roof system and construction method thereof - Google Patents

Abstract

A building-integrated photovoltaic power generation roof system of the present invention comprises: a plurality of support members installed on an upper part of a roof structure to be spaced apart from each other at predetermined intervals; a photovoltaic panel member installed to have both bottom surfaces supported on an upper part of neighboring support members; at least two gutter panels installed between neighboring support members and installed to be spaced apart from each other to be arranged to correspond to the width of the photovoltaic panel member; a plurality of auxiliary gutter panels installed on upper parts of the at least two gutter panels in a longitudinal direction of the gutter panels to be spaced apart from each other at predetermined intervals, having both ends fixed to the outside of neighboring support members, and having one or more drainage holes; and a finishing member coupled to a gap between upper surfaces of the photovoltaic panel members successively arranged. According to the present invention, rainwater introduced into a gap of photovoltaic panels is not introduced to the indoor side and can be effectively drained to the outside through the auxiliary gutter panels and the gutter panels, thereby improving the degree of construction completion of the building-integrated photovoltaic power generation roof system.

Description

BACKGROUND OF THE INVENTION 1. Field of the Invention The present invention relates to a roof-

The present invention relates to a building integrated solar power generation roof system, and more particularly, to a building integrated solar power generation roof system capable of effectively discharging rainwater flowing into a gap of a solar power panel, and a construction method thereof.

In general, roofs of buildings are constructed in various forms, and roof panel assemblies using panels have recently been widely used.

Such a roof panel assembly has been previously filed with Korean Registered Patent No. 10-1444454 (Publication date 2014.10.02).

Referring to FIG. 1, a conventional roof panel assembly will be described. A lower panel 3 is installed on a frame (C-shaped steel) 1 installed on a ceiling of a building, (Heat insulating material) 5 is laminated. And the upper panel 7 is laminated on the upper surface of the heat insulating board 5. [

In this case, the conventional roof panel assembly is constructed such that independent components such as the lower panel 3, the heat insulating board 5, and the upper panel 7 are sequentially stacked, and a Z bar 6 are integrally fastened from the upper panel 7 to the lower frame 1.

The upper panel 7 is provided with a bent portion 7a at one side so as to be installed so as to be stacked along the longitudinal direction of the frame 1 and has bent portions 7a (Not shown). An insert clip 9 for fixing the upper panel 7 to the Z bar 6 interposed between the heat insulating boards 5 is provided between the overlapping bent portion 7a and the fitting portion 7b.

Meanwhile, a structure for a solar panel can be installed on the roof panel having the above-described structure to generate electric energy using solar light. In the solar panel structure, A gutter panel is installed to prevent the rainwater from moving to the inside of the room. These gutter panels are manufactured to a predetermined standard for convenience of manufacturing, transportation, and assembly.

Therefore, by installing at least two gutter panels in correspondence with the width of the solar panel and installing the solar panel thereon, the rainwater flowing into the gaps between the solar panels falls into the lower panel, And discharged outdoors through a sloping drainage channel.

However, when the width of the supplied solar panel is changed or the width of the gutter panel is changed in the conventional construction of the solar panel, a plurality of gutter panels provided at the lower portion corresponding to the solar panel face each other The gaps between the gutter panels cause rainwater flowing into the gaps between the gutter panels to flow into the inside of the gutter panel, resulting in a decrease in the completeness of the construction.

SUMMARY OF THE INVENTION The present invention has been made to solve the above-mentioned problems, and it is an object of the present invention to provide a roof panel system for a solar power generating system, The present invention provides a building-integrated photovoltaic (PV) roof system and a method of constructing the same, in which rainwater can be efficiently drained through a gutter panel without causing rainwater to flow into the gap.

According to an aspect of the present invention, there is provided a building integrated photovoltaic (PV) roof system comprising: a support member spaced apart from a roof structure at a predetermined interval;

A solar panel member installed on the upper portion of the neighboring supporting member so as to support the bottom surfaces on both sides,

A gutter panel installed at a distance from the neighboring support members so as to correspond to the width of the solar panel member,

An auxiliary gutter panel installed at an upper portion of the two gutter panels so as to be spaced apart from each other in the longitudinal direction of the gutter panel and having both ends fixed to the outside of the neighboring supporting members and having one or more drain holes,

And a closing member engaged with a gap between upper surfaces of the solar panel members arranged in the longitudinal direction in the longitudinal direction.

A method for constructing a building-integrated photovoltaic (PV) roof system according to the present invention includes a first step of constructing a roof structure of a building by sequentially laminating a frame, a lower panel,

A second step of disposing a plurality of support members on the heat insulating board,

A third step of firmly fixing the support member on the heat insulating board using a fastening member,

A fourth step in which at least two sheets of gutter panels corresponding to widths of the solar panel members are formed between adjacent supporting members so that one side and the other side of the facing gutter panel are spaced apart from each other;

A plurality of auxiliary gutter panels provided with drainage holes are spaced apart from each other in the longitudinal direction of one of the spaced gutter panels and the other of the gutter panels and both ends of the auxiliary gutter panel are fixed to the outside of the neighboring supporting members, 5,

A sixth step of continuously arranging the solar panel members between adjacent supporting members,

A seventh step of fitting a closure member into a gap between upper surfaces in the longitudinal direction of the solar panel member and fixing the closure member to the upper surface of the support member via a first fastening member,

And an eighth step of joining both ends of the continuously arranged solar panel members to the end frame and the cover.

According to the present invention, when two or more sheets of gutter panels are provided between the supporting members installed on the roof structure so as to correspond to the width of the solar panel, the width of the supplied solar panel is changed, When the width of the panel is changed so that a gap is generated between the facing gutter panels, the auxiliary gutter panel is installed so as to cross the gap between the facing gutter panels along the longitudinal direction of the gutter panel, The rainwater flowing into the clearance of the panel does not flow into the room side but is effectively drained to the outside through the auxiliary gutter panel and the gutter panel to further improve the completeness of the construction of the solar integrated building roof system.

1 is a perspective view showing a conventional roof assembly,
FIG. 2 is a perspective view showing a building-integrated photovoltaic power generation roof system according to the present invention,
FIG. 3 is a sectional view showing a laminated structure of a building integrated photovoltaic (PV) roof system according to the present invention,
4 is a perspective view illustrating an auxiliary gutter panel installed on a support member according to the present invention,
5 is a view showing a process in which rainwater flowing into a gap in a width direction of a solar panel member is moved to a gutter panel through an auxiliary gutter panel after a supplementary gutter panel is installed in a non-overlapping portion formed by a gutter panel between support members according to the present invention Louvre perspective,
FIG. 6 is a cross-sectional view of a main part showing an embodiment different from the embodiment of the support hole provided in the non-overlapping portion of the gutter panel according to the present invention;
7 is a cross-sectional view of a supporting member constituting a solar power generating building roof system according to the present invention,
FIG. 8 is a detailed view of the portion 'A' in FIG. 3,
FIG. 9 is a view showing the state of the rainwater receiver inserted into the joint of the support member according to the present invention,
FIG. 10 is an assembled state diagram of a closing member for finishing a longitudinal gap of a solar panel member according to the present invention,
11 is a sectional view of a closure member according to the present invention,
12 is a perspective view illustrating a fixing member provided in a widthwise gap of the solar panel member according to the present invention,
13 is an assembling sectional view showing a fixing member provided in a widthwise gap of the solar panel member according to the present invention,
14 to 17 are views showing a process of assembling a building-integrated photovoltaic power generating roof system according to the present invention,
FIG. 18 is a view showing a path through which rainwater flowing into a gap in the longitudinal direction of the solar panel member according to the present invention is drained;

DETAILED DESCRIPTION OF THE PREFERRED EMBODIMENTS The present invention will now be described more fully hereinafter with reference to the accompanying drawings, in which preferred embodiments of the invention are shown.

In the drawings, the same reference numerals as in the drawings denote the same elements in the drawings, unless they are indicated on other drawings.

FIG. 2 is a perspective view showing a building integrated solar power generation roof system according to an embodiment of the present invention. The building integrated solar power generation roof system 100 according to the present invention includes a support member 110, a solar panel member 120, a gutter panel 10, a closure member 130, and an auxiliary gutter panel 160.

The configuration of the present invention will be described in detail as follows.

3, the supporting member 110 is installed on the upper part of the roof structure formed by sequentially stacking the frame 1, the lower panel 3 and the heat insulating board 5 from below, They may be arranged at regular intervals above the roof structure, or regularly or irregularly at different intervals, or at least one of the regular intervals may be arranged with a relatively narrow or wide spacing.

The distance between the support members 110 may be equal to the width of the solar panel member 120, which is installed at the upper end of the neighboring support member 110,

The gutter panel 10 is installed between the support members 110 and collects the rainwater flowing at intervals of the solar panel members 120 installed successively through the support member 110 to guide the rainwater to the eave side.

One side 10a of the gutter panel 10 is bent upward to form a vertical plane and the other side 10b facing upward is bent upward to form a vertical plane and is formed in a substantially " And the other side 10b of the one side gutter panel 10 facing the other side facing each other while forming at least two sheets. The other side 10b of the one side gutter panel 10 faces the other side of the supporting panel 110, And one side 10a of the other side gutter panel 10 can be coupled to or spaced from each other.

That is, when the width of the solar panel member 120 and the width of the gutter panel 10 are manufactured and supplied according to a predetermined standard, at least two gutter panels 10 placed between the support members 110 The other side 10b of the one side gutter panel 10 and the other side 10a of the other side gutter panel 10 facing each other are in a state of being joined to each other.

However, when the specifications of the solar panel member 120 or the gutter panel 10 to be supplied are changed, the two or more gutter panels 10 placed between the support members 110 may be provided on one side of the gutter panel 10 facing each other The other non-overlapping portion 11a is generated as shown in FIGS. 2 and 3 while the other portion 10b and the other portion 10a of the other gutter panel 10 are not connected to each other and are spaced apart.

Therefore, when the non-overlapped portion 11a is generated between the one-side gutter panel 10 and the other-side gutter panel 10 facing each other between the support members 110 as described above, the non-overlapped portions 11a are successively installed by the support member 110 When rainwater flows into the space t2 between the upper and lower surfaces of the solar panel members 120, some of such rainwater can flow into the indoor side through the open non-overlapped portion 11a.

Therefore, it is necessary to prevent the rainwater from flowing into the room side through the non-overlapped portion 11a. As an embodiment thereof, the present invention is provided with the auxiliary gutter panel 160 in the non-overlapped portion 11a.

As shown in FIG. 4, the auxiliary gutter panel 160 has a length corresponding to the spacing between the adjacent support members 110. The center portion of the auxiliary gutter panel 160 has a depressed space having an open top, Quot ;, and the drainage section 161 is formed so that the rainwater can be collected and moved through the drainage section 160. The drainage section 160 is provided with a recessed- The one or more drainage holes 163 are formed in the drainage unit 161 and the rainwater collected in the drainage unit 161 is discharged through the drainage hole 163 to the lower side .

The auxiliary gutter panel 160 is installed across the non-overlapped portion 11a so as to intersect with the longitudinal direction of the non-overlapped portion 11a as shown in Figs. 2 and 5, and has a plurality of Dogs are installed.

The spacing between the auxiliary gutter panels 160 provided on the non-overlapped portions 11a is equivalent to the spacing between the widthwise connection gaps t2 between the solar panel members 120 provided between the supporting members 110 The rainwater flowing into the widthwise connection clearance t2 between the solar panel members 120 falls into the drainage section 161 of the auxiliary gutter panel 160 so that the rainwater flowing into the drainage section And then drained to the eaves via the gutter panel 160 located at the lower part of the auxiliary gutter panel 160. [

The drain holes 162 formed in the drain portions 161 of the auxiliary gutter panel 160 are formed on both sides opposite to each other with respect to a point intersecting the non-overlapped portions 11a, The inflowing rainwater can be accurately collected on the lower one side gutter panel 10 and the other side gutter panel 10 through the drain hole 163 which is located on both sides of the non-overlapped portion 11a. When the drainage section 161 of the auxiliary gutter panel 160 is constructed to be inclined toward both ends of a point intersecting the non-overlapped section 11a, May be configured to move naturally toward both end portions.

Both ends of the auxiliary gutter panel 160 are respectively fixed to one side of the neighboring support member 110. The bottom surface of the auxiliary gutter panel 160 may be installed directly in contact with the upper surface of the non-overlapped portion 11a, The other upper portion 10b of the one side gutter panel 10 and the upper end of one side 10a of the other side gutter panel 10 are deformed or broken by the auxiliary gutter panel 160 while the auxiliary gutter panel 160 is more stably supported The support notch 170 may be provided on the non-overlapped portion 11a.

As shown in FIG. 6, the support member 170 provided in the non-overlapped portion 11a is formed by joining a central portion of the support member 170 with a spaced gap between the non-overlapped portions 11a, The upper end of the upper portion of the other side 10b of the one side gutter panel 10 constituting the non-overlapped portion 11a and the upper end of the other side 10b of the non- The upper end of one side 10a of the body 10 may be formed as a seating part 172 to be accommodated therein.

The upper surface of the seating portion 172 is preferably formed as a flat surface for a stable contact with the bottom surface of the auxiliary gutter panel 160. The inner surface of the seating portion 172 is formed in a straight line shape as shown in FIG. The upper end of the other side 10b of the one side gutter panel 10 and the upper end of the other side 10a of the other side gutter panel 10 may be constructed so as to prevent flow and provide a stable contact. it is preferable that the inner surface of the seating portion 172 is formed in a shape corresponding to the shape of the upper end of the other side 10b of the one side gutter panel 10 and the upper end of the other side 10a of the other side gutter panel 10 The inner surface of the seating part 172 is formed in the shape of a curved surface according to the shape of the upper end of the other side 10b of the one side gutter panel 10 and the upper side of the other side 10a of the other side gutter panel 10 will be.

On the other hand, the supporting member 110 is provided on one side 10a of the one side gutter panel 10 and on the other side 10b of the other side gutter panel 10 on both sides opposed to each other as shown in Figs. 7 and 8, The one side 10a and the other side 10b described above may be inserted between the vertical part 111 and the vertical part 111 by extending a predetermined length to both sides of the vertical part 111 A first horizontal part 113 provided with an insertion space S and one side 10a of a one side gutter panel 10 extending a predetermined length on both sides of the lower part of the vertical part 111 and being respectively seated in both insertion spaces S And a second horizontal portion 115 for supporting the lower portion of the other side 10b of the other side gutter panel 10. [

As shown in FIG. 7, extension parts 113b projecting horizontally outwardly may be respectively formed on the outer sides of the opposite first horizontal parts 113 of the support member 110. In the extended parts 113b, Both ends of the auxiliary gutter panel 160 described above can be coupled with each other by a screw connection method or a fitting method for welding or detachment.

The extended portion 113b may be extended from the upper surface of the first horizontal portion 113 in a stepped shape in consideration of the installation depth of the auxiliary gutter panel 160 placed on the extended portion 113b.

8, the first horizontal part 113 of the supporting member 110 is formed in one side of a gutter panel (not shown) which is positioned with the support member 110 interposed therebetween Even if rainwater flows into the clearance t1 between the longitudinal upper surfaces of the solar panel members 120 by covering one side 10a of the other side gutter panel 10 and the other side 10b of the other gutter panel 10, The rainwater can be guided to the both sides by the portion 113 and then moved to the one side gutter panel 10 and the other side gutter panel 10 and can be naturally drained to the eave of the roof.

9, the support member 110 may be formed by extrusion molding into a hollow shape using aluminum material or the like, and may be divided into at least two halves (about 10 m) to facilitate transportation and installation, 110 may be coupled through an approximately '└' 'shaped rainwater reservoir 117 which is locally inserted into the hollow 110a.

That is, when the divided support members 110 are installed in series on the gutter panel 10, joints are generated on the joints of the support members 110. Even if sealing is performed using the sealants, And the rainwater can flow into the gap between them.

Therefore, when the support members 110 are arranged in a row, the rainwater receiver 117 is fitted into the hollows 110a of the joints so that the rainwater flowing into the rainwater receiver 117 through the joints of the support member 110 And then discharged to the outside through the opening at the end of the hollow 110a.

For reference, the supporting member 110 is inclined to one side, so that the rainwater flowing into the hollow 110a can be drained.

The rainwater collector 117 inserted into the hollow 110a of the support member 110 may be made of metal or synthetic resin and the rainwater collector 117 is closely attached to the lower inner peripheral surface of the hollow 110a of the support member 110, The hollow portion 110a may be formed to have a shape corresponding to that of the hollow portion 110a.

8, the support members 110 are respectively coupled to the insertion space S to enclose one side 10a of the one side gutter panel 10 and the other side 10b of the other side gutter panel 10 Shaped reinforcing member 119 for reinforcing the structure of the subject support member 110 may be provided.

The reinforcing member 119 may be formed in a shape corresponding to the insertion space S so as to be closely contacted with the insertion space S of the support member 110 to firmly support the support member 110. [

The reinforcement member 119 covers the one side 10a of the one side gutter panel 10 and the upper side of the other side 10b of the other side gutter panel 10 so as to prevent rainwater or the like from being introduced therebetween And the reinforcing member 119 may be formed of a metal material, preferably a steel material.

The solar panel member 120 is continuously and repeatedly disposed on top of the roof structure with both side bottoms supported on the upper portion of the neighboring support member 110, and converts sunlight energy into electric energy.

The solar panel member 120 is typically used for solar power generation, and a detailed description thereof will be omitted.

10, the closing member 130 serves as a finishing member for joining to the gap t1 between the upper surfaces of the plurality of solar panel members 120, Metal or synthetic resin material.

Specifically, the closing member 130 includes a body portion 131 covering a gap t1 in the longitudinal direction of the solar panel member 120, which is disposed continuously as shown in FIG. 11, And an insertion portion 133 protruding from the sunlight panel member 120 and fitted in the gap t1 between the longitudinal direction of the solar panel member 120. [

A packing mounting groove 131a may be provided on both sides of the bottom surface of the body part 131 to improve the watertightness performance between the upper surface of the solar panel member 120 and the packing 137, 131 and the insertion portion 133 may be provided with reinforcing ribs 131b so as to reinforce the structure.

The first fastening member 135 inserted into the upper center plane of the body part 131 is fastened to the upper part of the support member 110. The upper end of the body part 131 It is preferable that a buried groove 131c is formed so that the bolt head of the first fastening member 135 to be fastened can be buried. Inside the buried groove 131c, the fastening position of the first fastening member 135 A U-shaped or V-shaped fastening groove 131d may be provided at the center of the fastening groove 131d.

A pair of guide protrusions 110b are provided to support both ends of the first fastening member 135 fastened to the center of the first horizontal portion 113 of the support member 110 to guide the correct fastening position .

A pair of hooks 110 are provided at the center of the first horizontal portion 113 of the support member 110 so as to be spaced outward from the guide protrusions 110b so that the solar panel member 120 can be seated at the correct position, The spacing of the engagement protrusions 113a may be provided between the longitudinal direction of the upper surface of the solar panel member 120 when the solar panel member 120 is continuously disposed through the support member 110 Are formed at predetermined intervals so that the clearance t1 can be made constant.

10, a first fitting hole 136 may be formed in the longitudinal side surface of the solar panel member 120, and a first fitting hole 136 may be formed in the side surface of the solar panel member 120 The first sunk member 136 can be installed on the first horizontal member 113 of the support member 120 together with the solar panel member 120 while being first coupled to the side surface of the support member 120, The solar panel member 120 may be provided in the first fitting hole 136 in a state in which the first horizontal portion 113 of the supporting member 120 is installed.

A fitting groove 136a is formed on the upper side of the first fitting hole 136 so that the longitudinal end of the solar panel member 120 can be fitted into the first fitting hole 136, A horizontal protrusion 136b may be formed to be seated and fixed on the upper surface of the base plate 113. [

Therefore, when the first fittings 136 are provided on the longitudinal side surfaces of the solar panel member 120 facing the first horizontal portion 113 of the supporting member 110, The first fitting hole 136 is formed in the first horizontal portion 113 of the supporting member 110 so that the gap between the first and second fitting holes 136 and 136 becomes a gap t1 in the longitudinal direction of the upper surface of the solar panel member 120, And the position can be determined by being caught by the latching jaw 113a provided.

12 and 13, a second fitting hole 141 may be formed in the widthwise side of the solar panel member 120, and a second fitting hole 141 may be formed on the upper side of the solar panel member 120. Further, And the lower side of the spaced-apart lower protruding portion 141 is formed with a protruding portion 141 which is horizontally protruded to be located inside the drainage portion 161 of the lower auxiliary gutter panel 160, (141b) may be formed.

Therefore, when the second fitting member 141 is provided on the lateral side surface of the solar panel member 120, the space between the second fitting members 141 facing each other is smaller than the widthwise direction of the upper surface of the solar panel member 120 (T2).

When the solar panel member 120 is installed on the roof forming the inclined surface, the load is concentrated on the lower side of the inclined surface, and the solar panel member 120 The load may be concentrated on the joining portion between the closing member 130 and the supporting member 110. [

Therefore, when the second sunk member 141 described above is installed on the widthwise side of the solar panel member 120, the solar panel member 120 is positioned above the clearance t2 between the widthwise directions of the upper surface of the solar panel member 120 120 and the second fastening member 142 is vertically downwardly mounted on the upper surface of the fixing member 140 so as to be vertically downward, The sun glare panel 120 is installed at the lower part of the drainage section 161 of the auxiliary gutter panel 160. The solar panel member 120 can be inclined with respect to the longitudinal direction and the width direction, It is possible to prevent the load from being concentrated on the joint portion between the closure member 130 of the member 120 and the support member 110.

The upper surface of the fixing member 140 may be provided with an embedding groove 142a for embedding the bolt head of the second engaging member 142. The embedding groove 142a may include a second fastening member 142 The fastening groove 142b may be formed at the center thereof so that the fastening position of the fastening part 142a can be easily set.

The protruding portion 141b formed below the second fitting hole 141 and positioned inside the drainage portion 161 of the auxiliary gutter panel 160 is located close to the inner wall surface 161a of the drainage portion 161 The second fastening member 142 fastening the fixing member 140 and the auxiliary gutter panel 160 is separated or deformed to move the solar panel 120 together with the fixing member 140 The projecting portion 136b of the second fitting member 141 is supported by the wall surface 161a of the drainage portion 161 to prevent the solar panel 120 from flowing.

Hereinafter, a construction process of the building-integrated solar power generation roof system 100 according to the present invention will be described.

14, when a roof structure of a building is made from the bottom in the order of the frame 1, the lower panel 3, and the heat insulating board 5, the building integrated solar power generation roof system 100 In this case, a Z-bar 6 is interposed between the heat insulating boards 5. As shown in Fig.

Then, a plurality of support members 110 are disposed on the upper surface of the heat insulating board 5 on which the waterproof sheet is laid.

At this time, the spacing of the support members 110 is arranged at intervals corresponding to the width of the solar panel member 120.

Also, as the support member 110 is at least bisected, the rainwater receiver 117 (see FIG. 9) is inserted into the hollow 110a inside the joint to facilitate drainage.

The reinforcing members 119 are fitted into the insertion spaces S on both sides of the support member 110, respectively.

After the support member 110 is disposed as described above, the support member 110 is firmly fixed on the heat insulating board 5 by using a separate fastening member (not shown).

15, at least two gutter panels 10 are disposed between the plurality of support members 110 and one side 10a of the one side gutter panel 10 is inserted into the insertion space S of the support member 110 And the other side 10b of the other side gutter panel 10 are inserted and joined to each other.

The other side 10b of the one side gutter panel 10 and the other side 10a of the other side gutter panel 10 located between the support members 110 face each other according to the size of the solar panel member 120, The present invention can be applied to the other side 10b and the other side 10b of the facing gutter panel 10 positioned between the support members 110 according to the size change of the solar panel member 120 or the gutter panel 10. [ The non-overlapped portions 11a are formed while the one side 10a of the panel 10 is spaced apart from each other so that the width of the solar panel members 120 provided between the supporting members 110 along the longitudinal direction of the non-overlapped portions 11a And is installed across a number of auxiliary gutter panels 160 in consideration of the directional connection clearance.

Here, before the auxiliary gutter panel 160 is installed in the non-overlapped portion 11a, the non-overlapped portion 11a may be provided with a receiving hole 170 fitted therein.

Both ends of the auxiliary gutter panel 160 installed across the non-overlapped portion 11a are fixed to the extended portion 113b extending from the first horizontal portion 113 of the supporting member 110 and then fixed.

Referring to FIG. 16, after the solar panel member 120 is installed, a plurality of solar panel members 120 are installed on the upper portion of the support member 110, The closing member 130 is fitted into the clearance t1 between the longitudinal directions and the closing member 130 is fastened and fixed to the upper portion of the supporting member 110 via the first fastening member 135. [

12, one or more fixing members 140 may be provided in the gap t2 between the widths of the solar panel member 120 to penetrate the fixing member 140 through the fixing member 140 It may be fixed to the gutter panel 160.

The solar panel member 120 is not provided between any one of the support members 110 and the gutter panel 10 is installed between the support members 110. [ So that the gutter panel 10 thus opened can be used as the worker inspection passage L. In this case,

Here, the worker inspection passage L may be constituted by one or more gutter panels 10, and when a plurality of gutter panels 10 are formed, the other gutter panel 10 and the other gutter panel 10, One side 10a of the other side 10a of the one side gutter panel 10 and the other side 10b of the other side 10 of the gutter panel 10 may be connected to each other so as to prevent inflow of rainwater. 10a are coupled, the upper end of the other side 10b is bent into a curved shape, and the upper end of one side 10a is curved in a curved shape so that the upper end of the other side 10b is curved into a receiving space The holder may be constituted by a receiving portion.

On the other hand, the ends of the solar panel members 120 located on both side ends of the continuously arranged solar panel members 120 or on the side of the operator inspection passage L need to be closed as shown in Fig. 17, For example, a finishing frame 150 provided between the first horizontal portion 113 of the supporting member 110 and one side of the fixing member 130 and a cover (not shown) for covering the outside of the finishing frame 150 151, as shown in FIG.

Here, the fixing part 152, which extends horizontally on the inner surface of the finishing frame 150 and then bends downward, is formed along the longitudinal direction so that the coupling between the supporting member 110 and the finishing frame 150 becomes strong. When the finishing frame 150 is installed between the first horizontal portion 113 of the supporting member 110 and one side of the fixing member 130, The engaging force of the finishing frame 150 can be further strengthened by fixing the engaging tab 152 to the engaging tab 113a provided at the central portion of the first horizontal portion 113 of the supporting member 110. [

The rainwater flowing into the gaps t1 and t2 of the solar panel 120 flows into the interior of the building 100 through the gaps t1 and t2 of the solar panel 120, And is effectively drained to the outside through the auxiliary gutter panel 160 and the gutter panel 10 so that the construction completeness of the solar integrated building roof system can be improved.

While the present invention has been particularly shown and described with reference to exemplary embodiments thereof, it is to be understood that the invention is not limited to the disclosed exemplary embodiments, but, on the contrary, is intended to cover various modifications and equivalent arrangements included within the spirit and scope of the invention.

10: gutter panel 10a: one side
10b: the other side 11: overlapping portion
11a: Specific gravity patch 100: Building integrated photovoltaic roof system
110: support member 110a: hollow
110b: guide projection 111: vertical portion
113: first horizontal part 113a:
113b: extension part 115: second horizontal part
117: rainwater catcher 119: reinforcing member
120: solar panel member 130: closure member
131: Body part 131a: Packing mounting groove
131b: reinforcing rib 131c: buried groove
131d: fastening groove portion 133:
135: first fastening member 136: first fitting portion
136a, 141a: fitting groove 136b, 141b:
137: packing 140: fixing member
141: second fitting portion 142: second fastening member
142a: buried groove 142b: fastening groove portion
150: closing frame 151: cover
152: fixing part 160: auxiliary gutter panel
161: Drain section 161a: Wall surface
162: fastening part 163: drain
170: Support hole 171:
172: seat portion L: worker inspection passage
t1: a gap formed between the longitudinal upper surfaces of the solar panel members
t2: a gap formed between the upper surface in the width direction of the solar panel member

Claims (23)

A support member 110 spaced apart from the roof structure at predetermined intervals;
A solar panel member (120) installed on top of the neighboring supporting member (110) so as to support both bottom sides thereof;
A gutter panel (10) provided with at least two sheets between adjacent supporting members (110), spaced apart from each other so as to correspond to the width of the solar panel member (120);
At least two of the at least two gutter panels 10 are spaced apart from each other by a predetermined distance in the longitudinal direction of the gutter panel 10 and both ends of the at least two gutter panels 10 are fixed to the outside of the neighboring support member 110, An auxiliary gutter panel 160 provided on the main body; And
And a closure member (130) coupled at a longitudinal upper surface clearance (t1) of the solar panel member (120)
The auxiliary gutter panel (160)
A drainage portion 161 having a recessed shape space with an open upper portion; And
And a coupling part (162) extending from both sides of the drainage part (161)
Wherein a drainage hole (163) is formed on a bottom surface of the drainage part (161) at opposite sides of the drainage part (161) that are separated from a point corresponding to a spaced part of the gutter panel (10). delete The method according to claim 1,
An engaging portion 171 fitted to a spaced gap of the gutter panel 10; And
And a support part (170) made up of a seating part (172) for receiving one side and the other side of the gutter panel (10) bent and spaced outward from the upper end of the coupling part (171) system. The method of claim 3,
And an inner peripheral surface of the seating portion (172) which is in contact with one of the upper and lower ends of the gutter panel (10) is formed in a shape corresponding to one of the upper and upper ends of the gutter panel (10) Roof system. The method according to claim 1,
Wherein the support member (110) is extrusion-molded into a hollow (110a) shape and is divided into at least two halves so as to facilitate transportation and installation. 6. The method of claim 5,
And the support member (110) formed in a divided manner is coupled through a rainwater receiver (117) inserted into the hollow (110a). The method according to claim 1,
The support member (110)
A vertical portion 111; And
And a first horizontal part (113) extending a predetermined length to both sides of the upper part of the vertical part (111) and provided with an insertion space (S) between the vertical part (111) and the vertical part (111). 8. The method of claim 7,
The first horizontal portion 113 of the support member 110 is formed with an extension portion 113b protruding outwardly in a stepped manner and the auxiliary gutter panel 160 is seated on the extended portion 113b Building integrated PV roof system. 8. The method of claim 7,
At both lower portions of the vertical portion 111,
And the second horizontal portion (115) is extended horizontally. 8. The method of claim 7,
A first fitting hole 136 is provided on the outside of the longitudinal direction of the solar panel member 120,
A fitting groove 136a is formed on the upper side of the first fitting hole 136 to receive the longitudinal end portion of the solar panel member 120 and a lower horizontal portion of the supporting member 110 And a protruding portion (136b) that is seated and fixed to the first portion (113) is formed. The method according to claim 1,
A second fitting hole 141 is provided on the outer side in the width direction of the solar panel member 120,
A fitting groove 141a is formed on the upper side of the second fitting hole 141 to fit the widthwise end of the solar panel member 120. A lower portion of the second fitting hole 141 is formed with a water- And a protruding portion (141b) is formed in the interior of the roof (161) so as to be close to the wall surface (161a). 8. The method of claim 7,
The closing member 130 includes an insertion portion 133 to be fitted into a space t1 between the longitudinal direction of the neighboring solar panel member 120; And
And a body part (131) provided on the upper side of the insertion part (133) to cover the gap (t1). 8. The method of claim 7,
The closing member 130 is fastened and fixed to the center portion of the first horizontal portion 113 of the supporting member 110 through the first fastening member 135,
And a guide protrusion (110b) is provided at a central portion of the first horizontal portion (113) to support both ends of the first fastening member (135) and guide the correct fastening position. . 13. The method of claim 12,
On both sides of the bottom surface of the body portion 131,
Wherein a packing mounting groove portion (131a) is provided between the upper surface of the solar panel member (120) and the upper surface of the solar panel member (120) so as to improve watertightness through a packing (137). 13. The method of claim 12,
The closing member (130)
A reinforcing rib 131b is provided on the inner peripheral surface of the body part 131 and the insertion part 133 to reinforce the structure,
The upper surface of the body part 131 is provided with an embedding groove 131c for embedding the bolt head of the first fastening member 135,
Wherein the embedding groove (131c) is provided with a fastening groove portion (131d) at a central portion thereof so as to easily set the fastening position of the first fastening member (135). 12. The method of claim 11,
And is fastened and fixed to the bottom surface of the drainage section 161 of the auxiliary gutter panel 160 via the second fastening member 142 Wherein the fixed member (140) is further included. 17. The method of claim 16,
The upper surface of the fixing member 140 is provided with a burying groove 142a for burying the bolt head of the second fastening member 142,
Wherein the embedding groove (142a) is provided with a fastening groove portion (142b) at a central portion thereof so as to easily set the fastening position of the second fastening member (142). 13. The method of claim 12,
At least two of the gutter panels 10 disposed between adjacent supporting members 110 are open to the outside in a state in which one of the opposite gutter panels 10 and the other of the opposite gutter panels 10 are engaged with each other, L). ≪ / RTI > 19. The method of claim 18,
Between the first horizontal portion 133 of the support member 110 and the one side of the closure member 130 located at both ends of the continuously arranged solar panel member 120 or on the operator's inspection passage L A cover 150 is installed on the side of the frame 150 and a cover 151 is installed on the side of the frame 150. A fixing portion 152 is formed on the inside of the frame 150, Is fixed by being caught by an engagement protrusion (113a) formed on the first horizontal portion (113) of the member (110). delete delete delete delete

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